From: tomo Date: Mon, 22 May 2000 07:45:19 +0000 (+0000) Subject: Sync with r21-2-33 and r21-2-33-utf-2000. X-Git-Tag: r21-2-33-utf-2000-0_15-0~1 X-Git-Url: http://git.chise.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=f52a96980ed9280f8f906a20d4b899dc0b027644;p=chise%2Fxemacs-chise.git Sync with r21-2-33 and r21-2-33-utf-2000. --- diff --git a/.cvsignore b/.cvsignore index 4c21e36..7a7fc50 100644 --- a/.cvsignore +++ b/.cvsignore @@ -10,3 +10,4 @@ so_locations xemacs-packages mule-packages site-packages +gmon.out diff --git a/CHANGES-beta b/CHANGES-beta index 18edb09..b7c269e 100644 --- a/CHANGES-beta +++ b/CHANGES-beta @@ -1,3 +1,72 @@ +to 21.2.33 "Melpomene" +-- Yet more progress gauge and gutter redisplay fixes from Andy Piper +-- glyph error checking from Andy Piper +-- Proper implementation of string glyps makes them Mule safe (IKEYAMA Tomonori) +-- Bug fixes from the usual suspects +-- --with-clash-detection now defaults to `yes', at least for betas. +-- Autoconf support for detecting how to #include header files + with names containing preprocessor constants, Didier Verna. +-- LDAP documentation updated, Oscar Figueiredo. +-- clash-detection code cleaned and audited, Yoshiki and Martin +-- Fix hangs on DEC OSF 4.0 when (process-send-string) sends strings + longer than 252 bytes. +-- Fix non-ANSI macro hacking to allow compilation by Irix native compiler. +-- redisplay fixes, IKEYAMA Tomonori +-- Code cleaning, Mike Alexander +-- Pdump + Windows support, Mike Alexander +-- Sound code cleanup, Jan Vroonhof +-- yes-or-no-p-dialog-box no longer gives unpredictable results with + focus follows mouse, Martin Buchholz + +to 21.2.32 "Kastor & Polydeukes" +-- Internal Postgres RDBMS support from Steve Baur +-- Improve gutter useability +-- Fix window geometry with gutters +-- Fix async updates so that they only occur when neccessary +-- Gutter documentation from Stephen Turnbull +-- redisplay-gutter-area fixes from Andy Piper +-- pdump file in MS-Windows executable from Mike Alexander +-- Miscellaneous fixes from Andy Piper +-- Windows and menubar changes from Ben Wing +-- dumper changes from Olivier Galibert + +to 21.2.31 "Iris" +-- Make XEmacs work on Windows again. + +to 21.2.30 "Hygeia" +-- Make (find-tag-other-window) always use other window, + even if tag is found in buffer of current window, Samuel Mikes +-- Make configure complain about broken compiler versions (Jan Vroonhof, Yoshiki Hayashi, Bill Perry) +-- `write-region' now deals properly with non-ASCII file names, Martin Buchholz +-- `file-truename' now respects file-name-coding-system, Martin Buchholz +-- arm configure support fixed. +-- non-ASCII string handling performance boost, Martin Buchholz +-- Garbage collector performance boost, Martin Buchholz +-- Lisp engine performance boost, Martin Buchholz +-- New ldap API (Oscar Figueiredo) +-- (- 0) is now optimized to 0, not (-), Martin Buchholz +-- More gutter tabs fixes, Andy Piper + +to 21.2.29 "Hestia" +-- Fix compile errors on pre-X11R6 systems, introduced in 21.2.28. +-- Fix autodetection of Berkeley DB on Linux Glibc 2 systems. + (but more work needed) +-- Allow non-symbols (anything compared with `eq') in object plists. +-- Cleanup of property frobbing code. +-- Various AIX 4 fixes, including port of PDUMP. +-- Unconditionally define _POSIX_C_SOURCE, _XOPEN_SOURCE, _XOPEN_SOURCE_EXTENDED. +-- MS-Windows redisplay and font fixes from Jonathan Harris. +-- various fixes from Craig Lanning, Daiki Ueno. +-- Asynchronous widget updates from Andy Piper. +-- More widget fixes from Andy Piper. +-- Don't use rel_alloc on glibc systems, including Linux +-- Upgrade etags.c to version 13.44, Francesco Potorti +-- etags does a better job of finding the exact match first, Kyle Jones +-- Portable dumper now described in Internals manual, Olivier and Martin +-- Object Plist documentation in lispref updated, Martin Buchholz +-- Just use standard `const' everywhere, instead of CONST +-- More pdump changes, Olivier Galibert + to 21.2.28 "Hermes" -- Add configure support for NetWinders, Sean MacLennan -- Make the "Load .emacs" menu item work again, Kirill Katsnelson @@ -32,6 +101,8 @@ to 21.2.28 "Hermes" to 21.2.27 "Hera" -- Dynamic layout for widgets from Andy Piper +-- Vertical tab widgets for MS-Windows from Andy Piper +-- pdump fixes for MS-Windows from Big K -- config.sub, config.guess major upgrade, Marcus Thiessel -- gdbinit renamed to .gdbinit -- dbxrc renamed to .dbxrc @@ -102,6 +173,7 @@ to 21.2.22 "Mercedes" -- 10% faster redisplay from Jan Vroonhof -- Fixes from Jeff Miller, Alexandre Oliva and Yoshiki Hayashi -- "If you've got problems, read PROBLEMS!" from Robert Pluim +-- Completely revamped GPM support from William Perry -- Lstream code now uses size_t, ssize_t consistently, Martin Buchholz -- Fix `make install' if prefix != exec_prefix, Martin Buchholz -- Fix compile warnings and C++ compilation, Martin Buchholz diff --git a/ChangeLog b/ChangeLog index 1204cc4..6765330 100644 --- a/ChangeLog +++ b/ChangeLog @@ -21,11 +21,202 @@ * configure.in: Add new option `--with-utf-2000'; define `UTF2000' if it is specified. +2000-05-01 Martin Buchholz + + * XEmacs 21.2.33 is released. + +2000-04-27 Katsumi Yamaoka + + * configure.in: Use ORDINARY_LD instead of "\$(ORDINARY_LD)" for + the value of LD. + +2000-04-26 Ben Wing + + * configure.in: add support for --quick-build. Remove --no-doc-file, + subsumed. + +2000-04-19 Martin Buchholz + + * configure.in: + * src/config.h.in: + Rewrite SMART_INCLUDE implementation to actually work. + Be paranoid - Avoid use of spaces in these macro definitions. + Leave alloca() definition at start of compilation unit, + as AIX requests. + Rename SMART_INCLUDE_MACRO to SMART_INCLUDE_INDIRECTIONS. + +2000-04-13 Yoshiki Hayashi + + * configure.in: Enable clash-detection by default. + * configure.usage: Update documentation. + +2000-04-06 Andy Piper + + * configure.in: fix typo. + +2000-04-12 Andy Piper + + * etc/Emacs.ad: give the gui-element face the same font as the + menubar and popups. Add translations for text widgets. + +2000-04-03 Yoshiki Hayashi + + * configure.in : Fix printing error check warning even if + it is not compiled in. + +2000-02-19 Jan Vroonhof + + * xemacs/configure.in: Do a normal link when compiling with + --pdump. Don't try compiling an unexec object file. + +2000-03-27 Didier Verna + + * configure.in: reorganize the output by topic. + New configure test to define the proper SMART_INCLUDE macro. + + * configure.usage: slightly rearanged some options. + +2000-03-25 Didier Verna + + * configure.in: rename `foo_h_path' to `foo_h_file' for variables + representing real headers and not directories. This applies to + `db_h_path', `curses_h_path', `term_h_path', `tt_c_h_path' and + `soundcard_h_path'. + +2000-03-21 Didier Verna + + * configure.in: try to find postgresql headers at different places + and define POSTGRES_H_PATH as appropriate. + +2000-03-22 Andy Piper + + * config.h.in: add ERROR_CHECK_GLYPHS. + + * configure.in: add error_check_glyphs. + +2000-03-20 Martin Buchholz + + * XEmacs 21.2.32 is released. + +2000-03-15 Olivier Galibert + + * configure.in: Add dumper.o object when pdumping. + +2000-02-20 Olivier Galibert + + * Makefile.in.in: Add pdump install support + + * configure.in: Add EMACS_PROGNAME config.h variable. + +2000-03-10 SL Baur + + * configure.usage: document --with-postgresql flag. + +2000-03-06 SL Baur + + * configure.in: add autodetection of PostgreSQL runtime libraries + +2000-03-09 Yoshiki Hayashi + + * aclocal.m4 (XE_SHLIB_STUFF): Define ld_shlibs to yes + when C compiler can produce shared libraries. + +2000-03-01 Didier Verna + + * etc/NEWS: update the rect.el entry. + +2000-02-26 Martin Buchholz + + * configure.in: Unconditionally define SHELL, to allow working + with (unreleased) autoconf 2.14.1, found on Mandrake 7.0 systems. + +2000-02-23 Martin Buchholz + + * XEmacs 21.2.31 is released. + +2000-02-21 Martin Buchholz + + * XEmacs 21.2.30 is released. + +2000-02-20 Martin Buchholz + + * configure.in: Enforce use of autoconf version >= 2.13. + + * configure.in: Fix OS release test on Solaris. + +2000-02-19 Marcus Thiessel + + * PROBLEMS: Update email address. Describe more HP Motif errors. + +2000-02-19 Jan Vroonhof + + * configure.in: Split Solaris version test in two parts. In the + Bourne shell the "-a" operator does NOT short-circuit. + +1999-12-15 Jan Vroonhof + + * (configure.in): Autodetect broken gcc versions. Patch from WM + Perry with tiny tweaks by Yoshiki Hayashi and yours truly. + +2000-02-17 Martin Buchholz + + * configure.in: Autodetect sys/param.h. Reorganize + AC_CHECK_HEADERS call. + * src/config.h.in: Add HAVE_SYS_PARAM_H. + +2000-02-16 Martin Buchholz + + * configure.in: Test for arm simply using arm* instead of arm-* + +2000-01-05 Yoshiki Hayashi + + * etc/TUTORIAL.ja: Synch with English version. + +2000-02-16 Martin Buchholz + + * XEmacs 21.2.29 is released. + +2000-02-16 Martin Buchholz + + * configure.in: Don't use rel_alloc if malloc() calls mmap(). + Discover this by looking for M_MMAP_THRESHOLD. + + * configure.in: Don't define POSIX_C_SOURCE on Solaris, due to + bugs in (at least) Solaris 2.5 headers. + +2000-01-29 Craig Lanning + + * configure.in: Fix detection of XPM on systems without X11. + +2000-02-11 Martin Buchholz + + * configure.in: + * src/config.h.in: + Define _POSIX_C_SOURCE, _XOPEN_SOURCE, _XOPEN_SOURCE_EXTENDED, + but only on tested Operating systems - Linux && SunOS >= 5.5. + +2000-02-09 Valdis Kletnieks + + * aclocal.m4: Support dlls on aix[34]. + +2000-02-09 Martin Buchholz + + * .cvsignore: Ignore gmon.out + +2000-02-08 Martin Buchholz + + * configure.in: Sync Berkeley db autodetection with src/database.c + +2000-02-07 Martin Buchholz + + * configure.in: check for XConvertCase. + 2000-02-07 Martin Buchholz * XEmacs 21.2.28 is released. 2000-01-27 URA Hiroshi + * configure.in: added getaddrinfo and getnameinfo to AC_FUNC. 2000-01-26 Martin Buchholz @@ -93,7 +284,7 @@ 2000-01-08 Martin Buchholz - * configure.in: + * configure.in: - Allow find-tag to work in the build directory. - rename src/gdbinit to src/.gdbinit, so that gdb can find it. - Less verbose messages when creating .sbinit, .gdbinit, TAGS. @@ -139,7 +330,7 @@ 1999-12-13 Martin Buchholz - * configure.in: + * configure.in: * configure.usage: - Autodetect NAS. Change Docs accordingly. @@ -195,7 +386,7 @@ 1999-11-26 Martin Buchholz - * configure.in: + * configure.in: Add configure support for Unix 98 type ssize_t. 1999-11-27 Martin Buchholz @@ -210,7 +401,7 @@ * INSTALL: Update configure option. 1999-10-12 Alexandre Oliva - + * configure.in (native_sound_lib, *-sgi-*): Check for audio.h. (LIBS): Check for libCsup. @@ -228,7 +419,7 @@ 1999-11-17 Martin Buchholz - * Makefile.in.in (install-arch-dep): + * Makefile.in.in (install-arch-dep): Fix `make install' if prefix != exec_prefix. 1999-11-15 Martin Buchholz @@ -298,7 +489,7 @@ 1999-09-19 Michael Sperber [Mr. Preprocessor] * configure.in (EMACS_CONFIGURATION): Use $configuration, not - $canonical, so that installation paths and dynamic path setup will + $canonical, so that installation paths and dynamic path setup will stay in synch. 1999-09-20 Andy Piper @@ -312,9 +503,9 @@ 1999-08-27 Jan Vroonhof - * modules/zlib/Makefile (distclean): - * modules/ldap/Makefile (distclean): - * modules/sample/Makefile (distclean): + * modules/zlib/Makefile (distclean): + * modules/ldap/Makefile (distclean): + * modules/sample/Makefile (distclean): * modules/base64/Makefile (distclean): new target * Makefile.in.in (top_distclean): Add package directories @@ -325,10 +516,10 @@ * configure.in: Warn, but otherwise ignore, obsolete arguments. 1999-08-20 Olivier Galibert - + * configure.in: Add --pdump option. * configure.usage: Ditto. - + 1999-08-04 Andy Piper * configure.in: report widget usage correctly. beef up setting. @@ -365,10 +556,10 @@ 1999-07-23 Jan Vroonhof - * etc/custom/example-themes/example-theme.el: - * etc/custom/example-themes/europe-theme.el: + * etc/custom/example-themes/example-theme.el: + * etc/custom/example-themes/europe-theme.el: * etc/custom/example-themes/ex-custom-file: Some simple examples - illustrating the custom theme support. + illustrating the custom theme support. 1999-07-17 MORIOKA Tomohiko @@ -424,7 +615,7 @@ 1999-06-25 Michael Sperber [Mr. Preprocessor] * configure.in (with_prefix): Added --with-prefix, defaults to - yes, to control whether the value of --prefix is compiled into the + yes, to control whether the value of --prefix is compiled into the binary. 1999-07-03 Andy Piper @@ -503,7 +694,7 @@ 1999-05-31 SL Baur * configure.in (CPP): Don't check for include subdirectories in - site-prefix directories. This check loses in valid configurations + site-prefix directories. This check loses in valid configurations like /usr/jp in TurboLinux. Conditionally add include directory to site switches. @@ -522,7 +713,7 @@ 1999-05-06 Hrvoje Niksic - * aclocal.m4 (ld_dynamic_link_flags): Change -Bexport to -Bdynamic + * aclocal.m4 (ld_dynamic_link_flags): Change -Bexport to -Bdynamic for Solaris. 1999-05-03 Hrvoje Niksic @@ -592,7 +783,7 @@ 1999-01-05 Gunnar Evermann - * PROBLEMS: Document crashes on SPARC with gcc 2.8.1. + * PROBLEMS: Document crashes on SPARC with gcc 2.8.1. 1999-03-01 XEmacs Build Bot @@ -613,29 +804,29 @@ 1999-02-10 Martin Buchholz - * configure.in: + * configure.in: - Fixup xfs comments and redundant option checking - * configure.in: - * INSTALL: + * configure.in: + * INSTALL: * lisp/paths.el: - improved automounter tmp directory support. - support 4 (!) empirically discovered automounter conventions 1999-02-10 Martin Buchholz - * lwlib/lwlib.h: - - redo CONST hacking to deal with X11 R4, which was + * lwlib/lwlib.h: + - redo CONST hacking to deal with X11 R4, which was broken in a previous patch. 1999-02-10 Martin Buchholz - * configure.in: + * configure.in: - irix uses -rpath 1999-02-10 Martin Buchholz - * configure.in: + * configure.in: - Check for XOpenIM before using xim=xlib - only use XmIm if $have_motif = yes @@ -670,10 +861,10 @@ * configure.in: remove -O3 prevention on cygwin - current versions cope ok now. remove dll prevention on cygwin - the new module code checks correctly. - + 1999-01-10 J. Kean Johnston - * configure.in: Added moduledir as the path where loadable modules + * configure.in: Added moduledir as the path where loadable modules are stored. Added --with-site-modules and --moduledir options. - Ensure the SCO OpenServer compiles with --dynamic by default - Check for dlfcn.h for dynamic loader @@ -1388,7 +1579,7 @@ Thu Apr 16 12:59:35 1998 Andy Piper * XEmacs 21.0-beta33 is released. -1998-03-26 Didier Verna +1998-03-26 Didier Verna * configure.in, Makefile.in: Removed infopath_user_defined---we always want to propagate it. @@ -1733,7 +1924,7 @@ Wed Jan 21 10:49:47 1998 Andy Piper * etc/FTP: Update address of what was formerly ftp.ibp.fr. -1998-01-08 Didier Verna +1998-01-08 Didier Verna * configure.in: Get rid of INFOPATH for configure time. * configure.usage (Usage): Ditto. @@ -2049,7 +2240,7 @@ Sun November 01 12:00:00 1997 ChangeLog, README, Todo, paths.h, config.h, inc/*, runemacs.c, xemacs.mak. -1997-11-05 Didier Verna +1997-11-05 Didier Verna * configure.in: Added the --site-prefixes options for the configure script. You give a colon or space separated list of prefixes, and @@ -3970,5 +4161,3 @@ Thu Dec 5 20:42:35 1996 Steven L Baur Thu Dec 5 11:56:05 1996 Joseph J Nuspl * configure.in (LIBS): Fix typo in dialog box test. - - diff --git a/INSTALL b/INSTALL index ce6d91f..4019235 100644 --- a/INSTALL +++ b/INSTALL @@ -2,8 +2,6 @@ XEmacs Installation Guide Copyright (c) 1994, 1995, 1996 Board of Trustees, University of Illinois Copyright (c) 1994-1999 Free Software Foundation, Inc. -Synched up with: FSF 19.30. - Permission is granted to anyone to make or distribute verbatim copies of this document as received, in any medium, provided that the copyright notice and permission notice are preserved, @@ -18,20 +16,24 @@ Synched up with: FSF 19.30. of the Free Software Foundation are approved by the Foundation. -BUILDING AND INSTALLATION (Unix and Cygwin, see the file nt/README -for instructions on building under Microsoft Windows): +BUILDING AND INSTALLATION FOR UNIX AND CYGWIN + +(for Microsoft Windows, see nt/README also.) -1) Make sure your system has enough swapping space allocated to handle - a program whose pure code is 900k bytes and whose data area is at - least 400k and can reach 8Mb or more. Note that a typical XEmacs - build is much bigger. If the swapping space is - insufficient, you will get an error in the command `temacs -batch - -l loadup dump', found in `./src/Makefile.in.in', or possibly when - running the final dumped XEmacs. +PREREQUISITES +============= - Verify that your users have a high enough stack limit. On some - systems such as OpenBSD and OSF/Tru64 the default is 2MB which is - too low. See 'PROBLEMS' for details. +Make sure your system has enough swapping space allocated to handle a +program whose pure code is 900k bytes and whose data area is at least +400k and can reach 8Mb or more. Note that a typical XEmacs build is +much bigger. If the swapping space is insufficient, you will get an +error in the command `temacs -batch -l loadup dump', found in +`./src/Makefile.in.in', or possibly when running the final dumped +XEmacs. + +Verify that your users have a high enough stack limit. On some systems +such as OpenBSD and OSF/Tru64 the default is 2MB which is too low. See +'PROBLEMS' for details. Building XEmacs requires about 100 Mb of disk space (including the XEmacs sources). Once installed, XEmacs occupies between 20 and 100 Mb @@ -44,8 +46,10 @@ XEmacs requires an ANSI C compiler, such as GCC. If you wish to build the documentation yourself, you will need at least version 1.68 of makeinfo (GNU texinfo-3.11). +ADD-ON LIBRARIES +================ -2) Decide on what other software packages you would like to use with +Decide on what other software packages you would like to use with XEmacs, but are not yet available on your system. On some systems, Motif and CDE are optional additions. On Solaris, the SUNWaudmo package enables native sound support. There are also a number of free @@ -72,37 +76,19 @@ be set together by using the --with-site-prefix command. This will set these variables as needed assuming your libraries are organised as a typical /usr tree. -3) [N.B. Most of this section can be done during or after the -compilation of the core source code, but is present early to catch -your attention.] - -Decide what Initial Lisp you need with XEmacs. XEmacs is -distributed separately from most of its runtime environment. This is -done to make it easier for administrators to tune an installation for -what the local users need. Note that while XEmacs will compile and -install without any packages present at least some additional lisp -packages are needed to bring XEmacs up to "normal" editor -functionality. Installation and upgrading of the packages can be done -almost automatically when from inside XEmacs when it has been compiled -and installed. - -More information and suggestions for which packages to install see the -file README.packages. - -IMPORTANT! The file README.packages contain information vital to have -a fully working XEmacs. This information was not included in this file -only because it is too large for this terse INSTALL. Please read -README.packages now! - -By default, packages will be searched for in the path +PACKAGE SYSTEM +============== -~/.xemacs::$prefix/lib/xemacs-${version}/mule-packages:$prefix/lib/xemacs/mule-packages:$prefix/lib/xemacs-${version}/xemacs-packages:$prefix/lib/xemacs/xemacs-packages +The file README.packages contain information vital to have a fully +working XEmacs. This information was not included in this file only +because it is too large for this terse INSTALL. Please read +README.packages now! -This may be changed by specifying a different value with the ---package-path configuration option. +CONFIGURATION OPTIONS +===================== -4) In the top level directory of the XEmacs distribution, run the - program `configure' as follows: +In the top level directory of the XEmacs distribution, run the +program `configure' as follows: ./configure [CONFIGURATION-NAME] [--OPTION[=VALUE]] ... @@ -176,13 +162,9 @@ defaults to "-g -O" for gcc and "-g" for all other compilers. The `--dynamic' option specifies that configure should try to link emacs dynamically rather than statically. -The `--const-is-losing' option is for use if you have trouble -compiling due to the `const' storage class in C. This is defined by -default. Most users should have no need to change this. - You can build XEmacs for several different machine types from a single source directory. To do this, you must use a version of `make' that -supports the `VPATH' variable, such as GNU `make'. Make separate +supports the `VPATH' variable, such as GNU `make'. Create separate build directories for the different configuration types, and in each one, run the XEmacs `configure' script. `configure' looks for the Emacs source code in the directory that `configure' is in. @@ -206,12 +188,17 @@ files, like executables and utility programs. If specified, EXECDIR/lib/xemacs-VERSION/CONFIGURATION-NAME. EXECDIR/bin should be a directory that is normally in users' PATHs. -For example, the command - - ./configure mips-dec-ultrix --with-x11=yes - -configures XEmacs to build for a DECstation running Ultrix, with -support for the X11 window system. +If you specify --prefix (or any of the other installation directory +options), they will get compiled into the xemacs executable so it will +be able to find its various associated file. However, XEmacs has +quite elaborate logic to find out the locations of these directories +dynamically. Sometimes, it is desirable *not* to compile these +directories into the executable so you can move the XEmacs +installation around (as whole) at will. This is true for binary kits, +for instance. Therefore, you can specify --without-prefix on the +configure command line to prevent the installation prefix to become +part of the generated executable; everything else will continue to +work as usual. The `--with-menubars=TYPE' option allows you to specify which X toolkit you wish to use for the menubar. The valid options are @@ -383,24 +370,35 @@ Please note that it is safe to build with as many of the options `--with-xim', `--with-canna' and `--with-wnn' as your system supports. +MAIL LOCKING +============ + +Find out what the preferred method for locking mail spool files is in +your environment. Presently, XEmacs supports lockf, flock, and dot +locking. Specify the locking method via the --mail-locking=METHOD +option to configure. Valid values for METHOD are --mail-locking are +`lockf', `flock', and `dot'. + +RUNNING CONFIGURE +================= + `configure' doesn't do any compilation or installation itself. It just creates the files that influence those things: `./src/config.h', and all the Makefile's in the build tree. -The `--with-pop', `--with-hesiod', and `--with-kerberos' options are used -in conjunction with movemail. As of XEmacs 20.1, movemail is identical -to the one used in Emacs. - When it is done, `configure' prints a description of what it did and creates a shell script `config.status' which, when run, recreates the same configuration. If `configure' exits with an error after disturbing the status quo, it removes `config.status'. -5) Look at `./lisp/paths.el'; if some of those values are not right -for your system, set up the file `./lisp/site-init.el' with XEmacs -Lisp code to override them; it is not a good idea to edit paths.el -itself. YOU MUST USE THE LISP FUNCTION `setq' TO ASSIGN VALUES, -rather than `defvar', as used by `./lisp/paths.el'. For example, +AUXILIARY PATHS +=============== + +Look at `./lisp/paths.el'; if some of those values are not right for +your system, set up the file `./lisp/site-init.el' with XEmacs Lisp +code to override them; it is not a good idea to edit paths.el itself. +YOU MUST USE THE LISP FUNCTION `setq' TO ASSIGN VALUES, rather than +`defvar', as used by `./lisp/paths.el'. For example, (setq news-inews-program "/usr/bin/inews") @@ -419,17 +417,16 @@ configured. If you have an unusual automounter configuration that XEmacs cannot detect, you may need to change the value of `directory-abbrev-alist'. -6) Put into `./lisp/site-init.el' or `./lisp/site-load.el' any Emacs -Lisp code you want XEmacs to load before it is dumped out. Use +SITE-SPECIFIC STARTUP CODE +========================== + +Put into `./lisp/site-init.el' or `./lisp/site-load.el' any Emacs Lisp +code you want XEmacs to load before it is dumped out. Use site-load.el for additional libraries if you arrange for their documentation strings to be in the lib-src/DOC file (see src/Makefile.in.in if you wish to figure out how to do that). For all else, use site-init.el. -If you set load-path to a different value in site-init.el or -site-load.el, XEmacs will use *precisely* that value when it starts up -again. If you do this, you are on your own! - Note that, on some systems, the code you place in site-init.el must not use expand-file-name or any other function which may look something up in the system's password and user information database. @@ -438,12 +435,18 @@ See `./PROBLEMS' for more details on which systems this affects. The `site-*.el' files are nonexistent in the distribution. You do not need to create them if you have nothing to put in them. -7) Refer to the file `./etc/TERMS' for information on fields you may +TERMCAP CONFIGURATION +===================== + +Refer to the file `./etc/TERMS' for information on fields you may wish to add to various termcap entries. The files `./etc/termcap.ucb' and `./etc/termcap.dat' may already contain appropriately-modified entries. -8) Run `make' in the top directory of the XEmacs distribution to finish +RUNNING MAKE +============ + +Run `make' in the top directory of the XEmacs distribution to finish building XEmacs in the standard way. The final executable file is named `src/emacs'. You can execute this file "in place" without copying it, if you wish; then it automatically uses the sibling @@ -515,27 +518,7 @@ By default, XEmacs installs its files in the following directories: If these directories are not what you want, you can specify where to install XEmacs's libraries and data files or where XEmacs should search for its lisp files by giving values for `make' variables as part of -the command. See the section below called `MAKE VARIABLES' for more -information on this. - -Using GNU Make allows for simultaneous builds with and without the ---srcdir option. - -9) If your system uses lock files to interlock access to mailer inbox -files, then you might need to make the movemail program setuid or -setgid to enable it to write the lock files. We believe this is safe. -The setuid/setgid bits need not be set on any other XEmacs-related -executables. - -10) You are done with the hard part! You can remove executables and -object files from the build directory by typing `make clean'. To also -remove the files that `configure' created (so you can compile XEmacs -for a different configuration), type `make distclean'. - -11) You should now go to the XEmacs web page at http://www.xemacs.org/ -and decide what additional Lisp support you wish to have. - -MAKE VARIABLES +the command. You can change where the build process installs XEmacs and its data files by specifying values for `make' variables as part of the `make' @@ -647,7 +630,7 @@ GNU software; here are some variables specific to XEmacs. (where VERSION and CONFIGURATION-NAME are as described above). `docdir' indicates where to put Lisp documentation strings that XEmacs - refers to as it runs. It defaults the value of `archlibdir' + refers to as it runs. It defaults to the value of `archlibdir' (see above). `moduledir' indicates where XEmacs installs and expects to find @@ -671,126 +654,33 @@ The top-level Makefile stores the variable settings it used in the Makefiles for the subdirectories, so you don't have to specify them when running make in the subdirectories. +Using GNU Make allows for simultaneous builds with and without the +--srcdir option. -CONFIGURATION BY HAND - -Instead of running the `configure' program, you have to perform the -following steps. - -1) Copy `./src/config.h.in' to `./src/config.h'. - -2) Consult `./etc/MACHINES' to see what configuration name you should -use for your system. Look at the code of the `configure' script to -see which operating system and architecture description files from -`src/s' and `src/m' should be used for that configuration name. Edit -`src/config.h', and change the two `#include' directives to include -the appropriate system and architecture description files. - -3) Edit `./src/config.h' to set the right options for your system. If -you need to override any of the definitions in the s/*.h and m/*.h -files for your system and machine, do so by editing config.h, not by -changing the s/*.h and m/*.h files. Occasionally you may need to -redefine parameters used in `./lib-src/movemail.c'. - -4) If you're going to use the make utility to build XEmacs, you will -still need to run `configure' first, giving the appropriate values for -the variables in the sections entitled "Things `configure' Might Edit" -and "Where To Install Things." Note that you may only need to change -the variables `prefix' and `exec_prefix', since the rest of the -variables have reasonable defaults based on them. For each Makefile -variable of this type, there is a corresponding configure option; for -example, to change the location of the lock directory, you might use - - ./configure --lockdir=/nfs/xemacslock - -The `configure' script is built from `configure.in' by the `autoconf' -program. However, since XEmacs has configuration requirements that -autoconf can't meet, `configure.in' uses a marriage of custom-baked -configuration code and autoconf macros. New versions of autoconf -could very well break this arrangement, so it may be wise to avoid -rebuilding `configure' from `configure.in' when possible. - - -BUILDING XEMACS BY HAND - -Once XEmacs is configured, running `make' in the top directory performs -the following steps. - -1) Run `make src/paths.h' in the top directory. This produces -`./src/paths.h' from the template file `./src/paths.h.in', changing -the paths to the values specified in `./Makefile'. - -2) Cd to `./lib-src' and run `make'. This creates executables named -`ctags' and `etags' and `wakeup' and `make-docfile' and `digest-doc' -and `test-distrib'. And others. - -3) Cd to `./src' and Run `make'. This refers to files in the `./lisp' -and `./lib-src' subdirectories using names `../lisp' and -`../lib-src'. - -This creates a file `./src/xemacs' which is the runnable XEmacs, -assigning it a new build version number by incrementing the build -version stored in `./lisp/version.el'. - -It also creates a file in `./lib-src' whose name is `DOC' followed by -the current XEmacs version. This file contains documentation strings -for all the functions in XEmacs. Each time you run make to make a new -xemacs, a new DOC file with a new name is made. You must keep the DOC -file for an XEmacs version as long as you keep using that XEmacs -version. - - -INSTALLATION BY HAND - -The steps below are done by running `make install' in the main -directory of the XEmacs distribution. - -1) Copy `./lisp' and its subdirectories, `./etc', and the executables -in `./lib-src' to their final destinations, as selected in `./src/paths.h'. - -Strictly speaking, not all of the executables in `./lib-src' need be copied. -- The programs `cvtmail', `emacsserver', `env', `fakemail', `hexl', - `movemail', `timer', `vcdiff', `wakeup', and `yow' are used by - XEmacs; they do need to be copied. -- The programs `etags', `ctags', `emacsclient', `b2m', `rcs2log', - `gnuclient', `gnudoit', and `gnuattach' are intended to be run - by users; they are handled below. -- The programs `make-docfile' and `test-distrib' were - used in building XEmacs, and are not needed any more. -- The programs `digest-doc' and `sorted-doc' convert a `DOC' file into - a file for users to read. There is no important reason to move them. - -2) Copy the files in `./info' to the place specified in -`./lisp/site-init.el' or `./lisp/paths.el'. Note that if the -destination directory already contains a file named `dir', you -probably don't want to replace it with the `dir' file in the XEmacs -distribution. Instead, you should make sure that the existing `dir' -file contains an appropriate menu entry for the XEmacs info. +MAIL-LOCKING POST-INSTALLATION +============================== -3) Create a directory for XEmacs to use for clash detection, named as -indicated by the PATH_LOCK macro in `./src/paths.h'. +If your system uses dot-locking to interlock access to mailer inbox +files, then you might need to make the movemail program setuid or +setgid to enable it to write the lock files. We believe this is safe. +The setuid/setgid bits need not be set on any other XEmacs-related +executables. -4) Copy `./src/xemacs' to `/usr/local/bin', or to some other directory -in users' search paths. `./src/xemacs' has an alternate name -`./src/emacs-EMACSVERSION'; you may wish to make a symbolic link named -`/usr/local/bin/xemacs' pointing to that alternate name, as an easy way -of installing different versions. +CLEANING UP +========== -You can delete `./src/temacs'. - -5) Copy the programs `b2m', `emacsclient', `ctags', `etags', `rcs2log', -`gnuclient', `gnudoit', and `gnuattach' from `./lib-src' to -`/usr/local/bin'. These programs are intended for users to run. - -6) Copy the man pages in `./etc' for xemacs, ctags, etags, and gnuserv -into the appropriate man directories. +You are done with the hard part! You can remove executables and +object files from the build directory by typing `make clean'. To also +remove the files that `configure' created (so you can compile XEmacs +for a different configuration), type `make distclean'. -7) The files in the `./src' subdirectory, except for `xemacs', are not -used by XEmacs once it is built. The source would be handy for -debugging. +READ README.packages +==================== +Do it! PROBLEMS +======== The most likely problem is that you forgot to read and follow the directions in README.packages. You can not have a working XEmacs @@ -798,7 +688,3 @@ without downloading some additional packages. See the file PROBLEMS in this directory for a list of various problems sometimes encountered, and what to do about them. - - -If all else fails, please see etc/InstallGuide courtesy -of Jonathan Seth Hayward. diff --git a/Makefile.in.in b/Makefile.in.in index 8a0b9f0..cb71002 100644 --- a/Makefile.in.in +++ b/Makefile.in.in @@ -295,11 +295,29 @@ all-elc all-elcs: lib-src lwlib dump-elcs src dump-elc dump-elcs: ${GENERATED_HEADERS} FRC.dump-elcs cd ./src && $(RECURSIVE_MAKE) dump-elcs -autoloads: src - MAKE='$(MAKE)' EMACS='./src/$(PROGNAME)' $(SHELL) ${srcdir}/lib-src/update-autoloads.sh +autoloads: lisp/auto-autoloads.el lisp/custom-load.el + +FRC.lisp.auto.autoloads.el: +lisp/auto-autoloads.el: FRC.lisp.auto.autoloads.el + rm -f lisp/auto-autoloads.el + ${blddir}/src/${PROGNAME} -batch -vanilla \ + -l autoload -f batch-update-directory lisp + ${blddir}/src/${PROGNAME} -batch -vanilla \ + -f batch-byte-compile lisp/auto-autoloads.el + @rm -f lisp/auto-autoloads.el~ +#ifdef MULE + rm -f lisp/mule/auto-autoloads.el + ${blddir}/src/${PROGNAME} -batch -vanilla \ + -l autoload -f batch-update-directory lisp/mule + ${blddir}/src/${PROGNAME} -batch -vanilla \ + -f batch-byte-compile lisp/mule/auto-autoloads.el + @rm -f lisp/mule/auto-autoloads.el~ +#endif -custom-loads: - MAKE='$(MAKE)' EMACS='./src/$(PROGNAME)' $(SHELL) ${srcdir}/lib-src/update-custom.sh +FRC.lisp.custom.load.el: +lisp/custom-load.el: FRC.lisp.custom.load.el + ${blddir}/src/${PROGNAME} -batch -vanilla -l cus-dep \ + -f Custom-make-dependencies lisp finder: src @echo "Building finder database ..." @@ -418,6 +436,9 @@ install-arch-dep: mkdir for subdir in `find ${archlibdir} -type d ! -name RCS ! -name SCCS ! -name CVS -print` ; \ do (cd $${subdir} && $(RM) -r RCS CVS SCCS \#* *~) ; done ; \ else true; fi +#ifdef PDUMP + ${INSTALL_DATA} src/${PROGNAME}.dmp ${bindir}/${PROGNAME}-${version}-`src/${PROGNAME} -sd`.dmp +#endif #ifdef WINDOWSNT ${INSTALL_PROGRAM} src/${PROGNAME} ${bindir}/${PROGNAME} -chmod 0755 ${bindir}/${PROGNAME} diff --git a/PROBLEMS b/PROBLEMS index db106ae..f3ab159 100644 --- a/PROBLEMS +++ b/PROBLEMS @@ -144,9 +144,15 @@ libz.a in the X11 binary directory. ** AIX *** On AIX 4.3, you must specify --with-dialogs=athena with configure -*** The libXt shipped with AIX 4.3 is broken. This causes xemacs -nw - to fail in various ways. The solution is to build against stock - X11R6. +*** The libXt shipped with AIX 4.3 up to 4.3.2 is broken. This causes + xemacs -nw to fail in various ways. The official APAR is this: + +APAR NUMBER: RESOLVED AS: PROGRAM ERROR + +ABSTRACT: +: LIBXT.A INCORRECT HANDLING OF EXCEPTIONS IN XTAPPADDINPUT + + The solution is to install X11.base.lib at version >=4.3.2.5. *** On AIX, you get this compiler error message: @@ -394,21 +400,22 @@ Richard Cognot writes: *** On HP-UX, problems with make -Marcus Thiessel +Marcus Thiessel Some releases of XEmacs (e.g. 20.4) require GNU make to build successfully. You don't need GNU make when building 21.x. *** On HP-UX 9.05 XEmacs won't compile or coredump during the build. -Marcus Thiessel +Marcus Thiessel This might be a sed problem. For your own safety make sure to use GNU sed while dumping XEmacs. -*** On HP-UX 11.0 XEmacs causes excessive X11 errors when running. +*** On HP-UX 11.0 XEmacs causes excessive X11 errors when running. + (also appears on AIX as reported in comp.emacs.xemacs) -Marcus Thiessel +Marcus Thiessel Unfortunately, XEmacs releases prior to 21.0 don't work with Motif2.1. It will compile but you will get excessive X11 errors like @@ -424,6 +431,19 @@ Marcus Thiessel Make sure /usr/lib/Motif1.2_R6/libXm.sl is a link to /usr/lib/Motif1.2_R6/libXm.3. +*** On HP-UX 11.0: Object "" does not have windowed ancestor + +Marcus Thiessel + + XEmacs dies without core file and reports: + + Error: Object "" does not have windowed ancestor. + + This is a bug. Please apply the patch PHSS_19964 (check if + superseded). The other alternative is to link with Motif1.2_R6 (see + previous item). + + ** SCO OpenServer *** Native cc on SCO OpenServer 5 is now OK. Icc may still throw you a curve. Here is what Robert Lipe says: diff --git a/aclocal.m4 b/aclocal.m4 index e1a8e77..48afe84 100644 --- a/aclocal.m4 +++ b/aclocal.m4 @@ -92,7 +92,7 @@ if test "$XEGCC" = yes; then # PIC is the default for these OSes. ;; - os2*) + aix3* | aix4* | os2*) # We can build DLLs from non-PIC. ;; amigaos*) @@ -386,6 +386,7 @@ if test "$cc_produces_so" = "yes"; then dll_ld=$CC dll_ldflags=$xcldf can_build_shared=yes + ld_shlibs=yes else # OK - only NOW do we futz about with ld. # See if the linker supports building shared libraries. diff --git a/configure b/configure index 9049728..5df5cf4 100755 --- a/configure +++ b/configure @@ -14,7 +14,7 @@ ### from the file `./configure.in'. ### To rebuild it, execute the command ### autoconf -### in the this directory. You must have autoconf version 2.12 or later. +### in the this directory. You must have autoconf version 2.13 or later. ### This file is part of XEmacs. @@ -92,6 +92,7 @@ mandir='${prefix}/man' subdirs= MFLAGS= MAKEFLAGS= +SHELL=${CONFIG_SHELL-/bin/sh} ac_max_here_lines=12 trap 'rm -fr conftest* confdefs* core core.* *.core $ac_clean_files; exit 1' 1 2 15 @@ -352,6 +353,7 @@ while test $# != 0; do with_sparcworks | \ with_tooltalk | \ with_ldap | \ + with_postgresql | \ with_pop | \ with_kerberos | \ with_hesiod | \ @@ -360,7 +362,6 @@ while test $# != 0; do external_widget | \ verbose | \ extra_verbose | \ - const_is_losing | \ usage_tracking | \ use_union_type | \ pdump | \ @@ -369,7 +370,7 @@ while test $# != 0; do memory_usage_stats | \ with_clash_detection | \ with_modules | \ - no_doc_file ) + quick_build ) case "$val" in y | ye | yes ) val=yes ;; n | no ) val=no ;; @@ -553,14 +554,17 @@ echo " Use \`$progname --help' to show usage.") >&2 && exit 1 ;; byte_code ) error_check_byte_code=yes ;; nobyte_code ) error_check_byte_code=no ;; + glyphs ) error_check_glyphs=yes ;; + noglyphs ) error_check_glyphs=no ;; + * ) bogus_error_check=yes ;; esac if test "$bogus_error_check" -o \ \( -n "$new_default" -a -n "$echeck_notfirst" \) ; then if test "$error_check_default" = yes ; then - types="\`all' (default), \`none', \`noextents', \`notypecheck', \`nobufpos', \`nogc', \`nomalloc', and \`nobyte-code'." + types="\`all' (default), \`none', \`noextents', \`notypecheck', \`nobufpos', \`nogc', \`nomalloc', \`noglyphs' and \`nobyte-code'." else - types="\`all', \`none' (default), \`extents', \`typecheck', \`bufpos', \`gc', \`malloc', and \`byte-code'." + types="\`all', \`none' (default), \`extents', \`typecheck', \`bufpos', \`gc', \`malloc', \`glyphs' and \`byte-code'." fi (echo "$progname: Usage error:" echo " " "Valid types for the \`--$optname' option are: @@ -573,6 +577,7 @@ echo " Use \`$progname --help' to show usage.") >&2 && exit 1 error_check_gc=$new_default error_check_malloc=$new_default error_check_byte_code=$new_default + error_check_glyphs=$new_default new_default= # reset this fi echeck_notfirst=true @@ -742,6 +747,7 @@ echo " Use \`$progname --help' to show usage.") >&2 && exit 1 ;; "use_minimal_tagbits" | \ "use_indexed_lrecord_implementation" | \ "run_in_place" | \ + "const_is_losing" | \ "with_gnu_make" ) echo "configure: warning: Obsolete option \`--$optname' ignored." 1>&2 ;; @@ -834,7 +840,7 @@ echo " Use \`$progname --help' to show usage.") >&2 && exit 1 fi echo $ac_n "checking whether ln -s works""... $ac_c" 1>&6 -echo "configure:838: checking whether ln -s works" >&5 +echo "configure:844: checking whether ln -s works" >&5 rm -f conftestdata if ln -s X conftestdata 2>/dev/null @@ -997,6 +1003,15 @@ else PROGNAME=xemacs fi +{ test "$extra_verbose" = "yes" && cat << EOF + Defining EMACS_PROGNAME = "$PROGNAME" +EOF +cat >> confdefs.h <> confdefs.h <<\EOF EOF } +test "${error_check_glyphs=$beta}" = yes && { test "$extra_verbose" = "yes" && cat << \EOF + Defining ERROR_CHECK_GLYPHS +EOF +cat >> confdefs.h <<\EOF +#define ERROR_CHECK_GLYPHS 1 +EOF +} + if test "${debug:=$beta}" = "yes"; then use_assertions=yes memory_usage_stats=yes extra_objs="$extra_objs debug.o" && if test "$extra_verbose" = "yes"; then @@ -1082,7 +1105,7 @@ EOF echo $ac_n "checking "host system type"""... $ac_c" 1>&6 -echo "configure:1086: checking "host system type"" >&5 +echo "configure:1109: checking "host system type"" >&5 internal_configuration=`echo $configuration | sed 's/-\(workshop\)//'` canonical=`${CONFIG_SHELL-/bin/sh} $srcdir/config.sub "$internal_configuration"` configuration=`echo "$configuration" | sed 's/^\([^-][^-]*-[^-][^-]*-[^-][^-]*\)-.*$/\1/'` @@ -1112,8 +1135,7 @@ case "$canonical" in m68*-sony-* ) machine=news ;; mips-sony-* ) machine=news-risc ;; clipper-* ) machine=clipper ;; - arm-* ) machine=arm ;; - armv34lb-* ) machine=arm ;; + arm* ) machine=arm ;; ns32k-* ) machine=ns32000 ;; esac @@ -1549,7 +1571,7 @@ EOF fi fi -if test "$with_clash_detection" = "yes"; then +if test "$with_clash_detection" != "no"; then { test "$extra_verbose" = "yes" && cat << \EOF Defining CLASH_DETECTION EOF @@ -1578,7 +1600,7 @@ xe_save_CFLAGS="$CFLAGS" # Extract the first word of "gcc", so it can be a program name with args. set dummy gcc; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:1582: checking for $ac_word" >&5 +echo "configure:1604: checking for $ac_word" >&5 if test -n "$CC"; then ac_cv_prog_CC="$CC" # Let the user override the test. @@ -1605,7 +1627,7 @@ if test -z "$CC"; then # Extract the first word of "cc", so it can be a program name with args. set dummy cc; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:1609: checking for $ac_word" >&5 +echo "configure:1631: checking for $ac_word" >&5 if test -n "$CC"; then ac_cv_prog_CC="$CC" # Let the user override the test. @@ -1653,7 +1675,7 @@ fi # Extract the first word of "cl", so it can be a program name with args. set dummy cl; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:1657: checking for $ac_word" >&5 +echo "configure:1679: checking for $ac_word" >&5 if test -n "$CC"; then ac_cv_prog_CC="$CC" # Let the user override the test. @@ -1682,7 +1704,7 @@ fi fi echo $ac_n "checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works""... $ac_c" 1>&6 -echo "configure:1686: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works" >&5 +echo "configure:1708: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works" >&5 ac_ext=c xe_cppflags='$CPPFLAGS $c_switch_site $c_switch_machine $c_switch_system $c_switch_x_site $X_CFLAGS' @@ -1695,12 +1717,12 @@ cross_compiling=no cat > conftest.$ac_ext << EOF -#line 1699 "configure" +#line 1721 "configure" #include "confdefs.h" main(){return(0);} EOF -if { (eval echo configure:1704: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:1726: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then ac_cv_prog_cc_works=yes # If we can't run a trivial program, we are probably using a cross compiler. if (./conftest; exit) 2>/dev/null; then @@ -1728,19 +1750,19 @@ if test $ac_cv_prog_cc_works = no; then { echo "configure: error: installation or configuration problem: C compiler cannot create executables." 1>&2; exit 1; } fi echo $ac_n "checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler""... $ac_c" 1>&6 -echo "configure:1732: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler" >&5 +echo "configure:1754: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler" >&5 echo "$ac_t""$ac_cv_prog_cc_cross" 1>&6 cross_compiling=$ac_cv_prog_cc_cross echo $ac_n "checking whether we are using GNU C""... $ac_c" 1>&6 -echo "configure:1737: checking whether we are using GNU C" >&5 +echo "configure:1759: checking whether we are using GNU C" >&5 cat > conftest.c <&5; (eval $ac_try) 2>&5; }; } | egrep yes >/dev/null 2>&1; then +if { ac_try='${CC-cc} -E conftest.c'; { (eval echo configure:1766: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; }; } | egrep yes >/dev/null 2>&1; then ac_cv_prog_gcc=yes else ac_cv_prog_gcc=no @@ -1758,7 +1780,7 @@ ac_test_CFLAGS="${CFLAGS+set}" ac_save_CFLAGS="$CFLAGS" CFLAGS= echo $ac_n "checking whether ${CC-cc} accepts -g""... $ac_c" 1>&6 -echo "configure:1762: checking whether ${CC-cc} accepts -g" >&5 +echo "configure:1784: checking whether ${CC-cc} accepts -g" >&5 echo 'void f(){}' > conftest.c if test -z "`${CC-cc} -g -c conftest.c 2>&1`"; then @@ -1791,7 +1813,7 @@ if test "$with_gcc" = "no" -a "$GCC" = "yes"; then # Extract the first word of "gcc", so it can be a program name with args. set dummy gcc; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:1795: checking for $ac_word" >&5 +echo "configure:1817: checking for $ac_word" >&5 if test -n "$CC"; then ac_cv_prog_CC="$CC" # Let the user override the test. @@ -1818,7 +1840,7 @@ if test -z "$CC"; then # Extract the first word of "cc", so it can be a program name with args. set dummy cc; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:1822: checking for $ac_word" >&5 +echo "configure:1844: checking for $ac_word" >&5 if test -n "$CC"; then ac_cv_prog_CC="$CC" # Let the user override the test. @@ -1866,7 +1888,7 @@ fi # Extract the first word of "cl", so it can be a program name with args. set dummy cl; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:1870: checking for $ac_word" >&5 +echo "configure:1892: checking for $ac_word" >&5 if test -n "$CC"; then ac_cv_prog_CC="$CC" # Let the user override the test. @@ -1895,7 +1917,7 @@ fi fi echo $ac_n "checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works""... $ac_c" 1>&6 -echo "configure:1899: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works" >&5 +echo "configure:1921: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works" >&5 ac_ext=c xe_cppflags='$CPPFLAGS $c_switch_site $c_switch_machine $c_switch_system $c_switch_x_site $X_CFLAGS' @@ -1908,12 +1930,12 @@ cross_compiling=no cat > conftest.$ac_ext << EOF -#line 1912 "configure" +#line 1934 "configure" #include "confdefs.h" main(){return(0);} EOF -if { (eval echo configure:1917: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:1939: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then ac_cv_prog_cc_works=yes # If we can't run a trivial program, we are probably using a cross compiler. if (./conftest; exit) 2>/dev/null; then @@ -1941,19 +1963,19 @@ if test $ac_cv_prog_cc_works = no; then { echo "configure: error: installation or configuration problem: C compiler cannot create executables." 1>&2; exit 1; } fi echo $ac_n "checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler""... $ac_c" 1>&6 -echo "configure:1945: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler" >&5 +echo "configure:1967: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler" >&5 echo "$ac_t""$ac_cv_prog_cc_cross" 1>&6 cross_compiling=$ac_cv_prog_cc_cross echo $ac_n "checking whether we are using GNU C""... $ac_c" 1>&6 -echo "configure:1950: checking whether we are using GNU C" >&5 +echo "configure:1972: checking whether we are using GNU C" >&5 cat > conftest.c <&5; (eval $ac_try) 2>&5; }; } | egrep yes >/dev/null 2>&1; then +if { ac_try='${CC-cc} -E conftest.c'; { (eval echo configure:1979: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; }; } | egrep yes >/dev/null 2>&1; then ac_cv_prog_gcc=yes else ac_cv_prog_gcc=no @@ -1971,7 +1993,7 @@ ac_test_CFLAGS="${CFLAGS+set}" ac_save_CFLAGS="$CFLAGS" CFLAGS= echo $ac_n "checking whether ${CC-cc} accepts -g""... $ac_c" 1>&6 -echo "configure:1975: checking whether ${CC-cc} accepts -g" >&5 +echo "configure:1997: checking whether ${CC-cc} accepts -g" >&5 echo 'void f(){}' > conftest.c if test -z "`${CC-cc} -g -c conftest.c 2>&1`"; then @@ -2004,7 +2026,7 @@ elif test "$with_gcc" = "yes" -a "$GCC" != "yes" ; then # Extract the first word of "gcc", so it can be a program name with args. set dummy gcc; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:2008: checking for $ac_word" >&5 +echo "configure:2030: checking for $ac_word" >&5 if test -n "$CC"; then ac_cv_prog_CC="$CC" # Let the user override the test. @@ -2031,7 +2053,7 @@ if test -z "$CC"; then # Extract the first word of "cc", so it can be a program name with args. set dummy cc; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:2035: checking for $ac_word" >&5 +echo "configure:2057: checking for $ac_word" >&5 if test -n "$CC"; then ac_cv_prog_CC="$CC" # Let the user override the test. @@ -2079,7 +2101,7 @@ fi # Extract the first word of "cl", so it can be a program name with args. set dummy cl; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:2083: checking for $ac_word" >&5 +echo "configure:2105: checking for $ac_word" >&5 if test -n "$CC"; then ac_cv_prog_CC="$CC" # Let the user override the test. @@ -2108,7 +2130,7 @@ fi fi echo $ac_n "checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works""... $ac_c" 1>&6 -echo "configure:2112: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works" >&5 +echo "configure:2134: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) works" >&5 ac_ext=c xe_cppflags='$CPPFLAGS $c_switch_site $c_switch_machine $c_switch_system $c_switch_x_site $X_CFLAGS' @@ -2121,12 +2143,12 @@ cross_compiling=no cat > conftest.$ac_ext << EOF -#line 2125 "configure" +#line 2147 "configure" #include "confdefs.h" main(){return(0);} EOF -if { (eval echo configure:2130: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:2152: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then ac_cv_prog_cc_works=yes # If we can't run a trivial program, we are probably using a cross compiler. if (./conftest; exit) 2>/dev/null; then @@ -2154,19 +2176,19 @@ if test $ac_cv_prog_cc_works = no; then { echo "configure: error: installation or configuration problem: C compiler cannot create executables." 1>&2; exit 1; } fi echo $ac_n "checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler""... $ac_c" 1>&6 -echo "configure:2158: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler" >&5 +echo "configure:2180: checking whether the C compiler ($CC $CFLAGS $LDFLAGS) is a cross-compiler" >&5 echo "$ac_t""$ac_cv_prog_cc_cross" 1>&6 cross_compiling=$ac_cv_prog_cc_cross echo $ac_n "checking whether we are using GNU C""... $ac_c" 1>&6 -echo "configure:2163: checking whether we are using GNU C" >&5 +echo "configure:2185: checking whether we are using GNU C" >&5 cat > conftest.c <&5; (eval $ac_try) 2>&5; }; } | egrep yes >/dev/null 2>&1; then +if { ac_try='${CC-cc} -E conftest.c'; { (eval echo configure:2192: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; }; } | egrep yes >/dev/null 2>&1; then ac_cv_prog_gcc=yes else ac_cv_prog_gcc=no @@ -2184,7 +2206,7 @@ ac_test_CFLAGS="${CFLAGS+set}" ac_save_CFLAGS="$CFLAGS" CFLAGS= echo $ac_n "checking whether ${CC-cc} accepts -g""... $ac_c" 1>&6 -echo "configure:2188: checking whether ${CC-cc} accepts -g" >&5 +echo "configure:2210: checking whether ${CC-cc} accepts -g" >&5 echo 'void f(){}' > conftest.c if test -z "`${CC-cc} -g -c conftest.c 2>&1`"; then @@ -2221,7 +2243,7 @@ test -n "$CPP" -a -d "$CPP" && CPP= test -n "$NON_GNU_CPP" -a "$GCC" != "yes" -a -z "$CPP" && CPP="$NON_GNU_CPP" echo $ac_n "checking how to run the C preprocessor""... $ac_c" 1>&6 -echo "configure:2225: checking how to run the C preprocessor" >&5 +echo "configure:2247: checking how to run the C preprocessor" >&5 # On Suns, sometimes $CPP names a directory. if test -n "$CPP" && test -d "$CPP"; then CPP= @@ -2234,13 +2256,13 @@ if test -z "$CPP"; then # On the NeXT, cc -E runs the code through the compiler's parser, # not just through cpp. cat > conftest.$ac_ext < Syntax Error EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:2244: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:2266: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then : @@ -2251,13 +2273,13 @@ else rm -rf conftest* CPP="${CC-cc} -E -traditional-cpp" cat > conftest.$ac_ext < Syntax Error EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:2261: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:2283: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then : @@ -2268,13 +2290,13 @@ else rm -rf conftest* CPP="${CC-cc} -nologo -E" cat > conftest.$ac_ext < Syntax Error EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:2278: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:2300: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then : @@ -2298,10 +2320,11 @@ fi echo "$ac_t""$CPP" 1>&6 + echo $ac_n "checking for AIX""... $ac_c" 1>&6 -echo "configure:2303: checking for AIX" >&5 +echo "configure:2326: checking for AIX" >&5 cat > conftest.$ac_ext < $srcdir/conffoo.h <&6 +echo "configure:2357: checking for a working inclusion macro" >&5 +cat > conftest.$ac_ext < +#define CONFFOO_H_PATH $srcdir +#define CONFFOO_INCLUDE(file) SMART_INCLUDE (CONFFOO_H_PATH,file) +#include CONFFOO_INCLUDE(conffoo.h) + +; return 0; } +EOF +if { (eval echo configure:2371: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then + rm -rf conftest* + echo "$ac_t""direct" 1>&6; { test "$extra_verbose" = "yes" && cat << \EOF + Defining SMART_INCLUDE_INDIRECTIONS = 0 +EOF +cat >> confdefs.h <<\EOF +#define SMART_INCLUDE_INDIRECTIONS 0 +EOF +} + +else + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + cat > conftest.$ac_ext < +#define SMART_INCLUDE(path,file) GLUE_INCLUDE(path,file) +#define CONFFOO_H_PATH $srcdir +#define CONFFOO_INCLUDE(file) SMART_INCLUDE(CONFFOO_H_PATH,file) +#include CONFFOO_INCLUDE(conffoo.h) + +; return 0; } +EOF +if { (eval echo configure:2399: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then + rm -rf conftest* + echo "$ac_t""simple" 1>&6; { test "$extra_verbose" = "yes" && cat << \EOF + Defining SMART_INCLUDE_INDIRECTIONS = 1 +EOF +cat >> confdefs.h <<\EOF +#define SMART_INCLUDE_INDIRECTIONS 1 +EOF +} + +else + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + cat > conftest.$ac_ext < +#define GLUE_INCLUDE_1(path,file) GLUE_INCLUDE_2(path,file) +#define SMART_INCLUDE(path,file) GLUE_INCLUDE_1(path,file) +#define CONFFOO_H_PATH $srcdir +#define CONFFOO_INCLUDE(file) SMART_INCLUDE (CONFFOO_H_PATH,file) +#include CONFFOO_INCLUDE(conffoo.h) + +; return 0; } +EOF +if { (eval echo configure:2428: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then + rm -rf conftest* + echo "$ac_t""double" 1>&6; { test "$extra_verbose" = "yes" && cat << \EOF + Defining SMART_INCLUDE_INDIRECTIONS = 2 +EOF +cat >> confdefs.h <<\EOF +#define SMART_INCLUDE_INDIRECTIONS 2 +EOF +} + +else + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + { echo "configure: error: Cannot define a proper SMART_INCLUDE macro. Please report." 1>&2; exit 1; } +fi +rm -f conftest* +fi +rm -f conftest* +fi +rm -f conftest* +rm -f $srcdir/conffoo.h + echo $ac_n "checking for GNU libc""... $ac_c" 1>&6 -echo "configure:2332: checking for GNU libc" >&5 +echo "configure:2454: checking for GNU libc" >&5 cat > conftest.$ac_ext < int main() { @@ -2342,7 +2464,7 @@ int main() { ; return 0; } EOF -if { (eval echo configure:2346: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:2468: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* have_glibc=yes else @@ -2362,9 +2484,64 @@ EOF } +case "$opsys" in + sol2) + { test "$extra_verbose" = "yes" && cat << \EOF + Defining __EXTENSIONS__ +EOF +cat >> confdefs.h <<\EOF +#define __EXTENSIONS__ 1 +EOF +} + + if test "$os_release" -ge 55; then + { test "$extra_verbose" = "yes" && cat << \EOF + Defining _XOPEN_SOURCE = 500 +EOF +cat >> confdefs.h <<\EOF +#define _XOPEN_SOURCE 500 +EOF +} + + { test "$extra_verbose" = "yes" && cat << \EOF + Defining _XOPEN_SOURCE_EXTENDED +EOF +cat >> confdefs.h <<\EOF +#define _XOPEN_SOURCE_EXTENDED 1 +EOF +} + + fi ;; + linux) + { test "$extra_verbose" = "yes" && cat << \EOF + Defining _POSIX_C_SOURCE = 199506L +EOF +cat >> confdefs.h <<\EOF +#define _POSIX_C_SOURCE 199506L +EOF +} + + { test "$extra_verbose" = "yes" && cat << \EOF + Defining _XOPEN_SOURCE = 500 +EOF +cat >> confdefs.h <<\EOF +#define _XOPEN_SOURCE 500 +EOF +} + + { test "$extra_verbose" = "yes" && cat << \EOF + Defining _XOPEN_SOURCE_EXTENDED +EOF +cat >> confdefs.h <<\EOF +#define _XOPEN_SOURCE_EXTENDED 1 +EOF +} + + ;; +esac cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:2557: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then : else @@ -2477,8 +2654,11 @@ configure___ unexec=UNEXEC configure___ ld_switch_shared=LD_SWITCH_SHARED +#define ORDINARY_LD "\$(CC) \$(CFLAGS)" +configure___ ordinary_ld=ORDINARY_LD + #ifdef ORDINARY_LINK -#define LD "\$(CC) \$(CFLAGS)" +#define LD ORDINARY_LD #else /* no ORDINARY LINK */ #ifdef COFF_ENCAPSULATE #define LD "\$(CC) -nostdlib" @@ -2569,6 +2749,15 @@ eval `$CPP -Isrc $tempcname \ rm $tempcname +if test "$pdump" = "yes"; then + ordinary_link="yes" + ld="${ordinary_ld}" + start_files= + libs_standard= + unexec= + lib_gcc= +fi + test "$extra_verbose" = "yes" && \ for var in libs_machine libs_system libs_termcap libs_standard objects_machine objects_system c_switch_machine c_switch_system ld_switch_machine ld_switch_system unexec ld_switch_shared ld lib_gcc ld_text_start_addr start_files ordinary_link have_terminfo mail_use_flock mail_use_lockf; do eval "echo \"$var = '\$$var'\""; done && echo "" @@ -2598,6 +2787,64 @@ if test "$cflags_specified" = "no"; then CFLAGS="-O" ; fi fi +if test "$GCC" = "yes"; then +echo $ac_n "checking for buggy gcc versions""... $ac_c" 1>&6 +echo "configure:2793: checking for buggy gcc versions" >&5 +GCC_VERSION=`$CC --version` +case `uname -s`:`uname -m`:$GCC_VERSION in + *:sun4*:2.8.1|*:sun4*:egcs-2.90.*) + case "$CFLAGS" in + *-O2*|*-O3*) + case "$CFLAGS" in + *-fno-schedule-insns*) ;; + *) + echo "$ac_t""Yes" 1>&6 + echo "configure: warning: Don't use -O2 with gcc 2.8.1 and egcs 1.0 under SPARC architectures" 1>&2 + echo "configure: warning: without also using -fno-schedule-insns." 1>&2 + { echo "configure: error: Aborting due to known problem" 1>&2; exit 1; } + ;; + esac + ;; + esac + ;; + Linux:alpha:egcs-2.91.*) + echo "$ac_t""Yes" 1>&6 + echo "configure: warning: There have been reports of egcs-1.1 not compiling XEmacs correctly on" 1>&2 + echo "configure: warning: Alpha Linux. There have also been reports that egcs-1.0.3a is O.K." 1>&2 + { echo "configure: error: Aborting due to known problem" 1>&2; exit 1; } + ;; + *:i*86*:2.7.2*) + case "$GCC_VERSION" in + 2.7.2) + case "$CFLAGS" in + *-O2*|*-O3*) + case "$CFLAGS" in + *-fno-strength-reduce*) ;; + *) + echo "$ac_t""Yes" 1>&6 + echo "configure: warning: Don't use -O2 with gcc 2.7.2 under Intel/XXX without also using" 1>&2 + echo "configure: warning: -fno-strength-reduce." 1>&2 + { echo "configure: error: Aborting due to known problem" 1>&2; exit 1; } + ;; + esac + ;; + esac + ;; + esac + case "$CFLAGS" in + *-fno-caller-saves*) ;; + *) + echo "$ac_t""Yes" 1>&6 + echo "configure: warning: Don't use -O2 with gcc 2.7.2 under Intel/XXX without also using" 1>&2 + echo "configure: warning: -fno-caller-saves." 1>&2 + { echo "configure: error: Aborting due to known problem" 1>&2; exit 1; } + ;; + esac + ;; +esac +fi +echo "$ac_t""No" 1>&6 + if test "$GCC" = "yes"; then set x $ld_switch_system; shift; ld_switch_system="" @@ -2657,12 +2904,15 @@ test -n "$objects_machine" && extra_objs="$extra_objs $objects_machine" && if t test -n "$objects_system" && extra_objs="$extra_objs $objects_system" && if test "$extra_verbose" = "yes"; then echo " xemacs will be linked with \"$objects_system\"" fi -test -n "$unexec" && extra_objs="$extra_objs $unexec" && if test "$extra_verbose" = "yes"; then +test -n "$unexec" && test ! "$pdump" = "yes" && extra_objs="$extra_objs $unexec" && if test "$extra_verbose" = "yes"; then echo " xemacs will be linked with \"$unexec\"" fi +test "$pdump" = "yes" && extra_objs="$extra_objs dumper.o" && if test "$extra_verbose" = "yes"; then + echo " xemacs will be linked with \"dumper.o\"" + fi echo $ac_n "checking for dynodump""... $ac_c" 1>&6 -echo "configure:2666: checking for dynodump" >&5 +echo "configure:2916: checking for dynodump" >&5 if test "$unexec" != "unexsol2.o"; then echo "$ac_t""no" 1>&6 else @@ -2700,12 +2950,12 @@ if test "$unexec" = "unexaix.o"; then done echo $ac_n "checking for terminateAndUnload in -lC""... $ac_c" 1>&6 -echo "configure:2704: checking for terminateAndUnload in -lC" >&5 +echo "configure:2954: checking for terminateAndUnload in -lC" >&5 ac_lib_var=`echo C'_'terminateAndUnload | sed 'y%./+-%__p_%'` xe_check_libs=" -lC " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:2970: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -2824,7 +3074,7 @@ fi if test "$add_runtime_path" = "yes"; then echo $ac_n "checking "for runtime libraries flag"""... $ac_c" 1>&6 -echo "configure:2828: checking "for runtime libraries flag"" >&5 +echo "configure:3078: checking "for runtime libraries flag"" >&5 case "$opsys" in sol2 ) dash_r="-R" ;; decosf* | linux* | irix*) dash_r="-rpath " ;; @@ -2846,14 +3096,14 @@ if test "$GCC" = "yes"; then done fi cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:3107: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* dash_r="$try_dash_r" else @@ -2955,10 +3205,10 @@ else fi after_morecore_hook_exists=yes echo $ac_n "checking for malloc_get_state""... $ac_c" 1>&6 -echo "configure:2959: checking for malloc_get_state" >&5 +echo "configure:3209: checking for malloc_get_state" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:3235: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_malloc_get_state=yes" else @@ -3001,10 +3251,10 @@ doug_lea_malloc=no fi echo $ac_n "checking for malloc_set_state""... $ac_c" 1>&6 -echo "configure:3005: checking for malloc_set_state" >&5 +echo "configure:3255: checking for malloc_set_state" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:3281: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_malloc_set_state=yes" else @@ -3047,16 +3297,16 @@ doug_lea_malloc=no fi echo $ac_n "checking whether __after_morecore_hook exists""... $ac_c" 1>&6 -echo "configure:3051: checking whether __after_morecore_hook exists" >&5 +echo "configure:3301: checking whether __after_morecore_hook exists" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:3310: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* echo "$ac_t""yes" 1>&6 else @@ -3070,21 +3320,21 @@ rm -f conftest* if test "$system_malloc" = "yes" ; then GNU_MALLOC=no GNU_MALLOC_reason=" - (The GNU allocators don't work with this system configuration)." + - The GNU allocators don't work with this system configuration." elif test "$with_system_malloc" = "yes" ; then GNU_MALLOC=no GNU_MALLOC_reason=" - (User chose not to use GNU allocators)." + - User chose not to use GNU allocators." elif test "$with_debug_malloc" = "yes" ; then GNU_MALLOC=no GNU_MALLOC_reason=" - (User chose to use Debugging Malloc)." + - User chose to use Debugging Malloc." fi if test "$doug_lea_malloc" = "yes" ; then if test "$GNU_MALLOC" = yes ; then GNU_MALLOC_reason=" - (Using Doug Lea's new malloc from the GNU C Library.)" + - Using Doug Lea's new malloc from the GNU C Library." fi { test "$extra_verbose" = "yes" && cat << \EOF Defining DOUG_LEA_MALLOC @@ -3096,7 +3346,7 @@ EOF if test "$after_morecore_hook_exists" = "no" ; then GNU_MALLOC_reason=" - (Using Doug Lea's new malloc from the Linux C Library.)" + - Using Doug Lea's new malloc from the Linux C Library." { test "$extra_verbose" = "yes" && cat << \EOF Defining _NO_MALLOC_WARNING_ EOF @@ -3115,7 +3365,7 @@ fi # Extract the first word of "ranlib", so it can be a program name with args. set dummy ranlib; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:3119: checking for $ac_word" >&5 +echo "configure:3369: checking for $ac_word" >&5 if test -n "$RANLIB"; then ac_cv_prog_RANLIB="$RANLIB" # Let the user override the test. @@ -3170,7 +3420,7 @@ ac_configure=$ac_aux_dir/configure # This should be Cygnus configure. # SVR4 /usr/ucb/install, which tries to use the nonexistent group "staff" # ./install, which can be erroneously created by make from ./install.sh. echo $ac_n "checking for a BSD compatible install""... $ac_c" 1>&6 -echo "configure:3174: checking for a BSD compatible install" >&5 +echo "configure:3424: checking for a BSD compatible install" >&5 if test -z "$INSTALL"; then IFS="${IFS= }"; ac_save_IFS="$IFS"; IFS=":" @@ -3224,7 +3474,7 @@ do # Extract the first word of "$ac_prog", so it can be a program name with args. set dummy $ac_prog; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:3228: checking for $ac_word" >&5 +echo "configure:3478: checking for $ac_word" >&5 if test -n "$YACC"; then ac_cv_prog_YACC="$YACC" # Let the user override the test. @@ -3252,101 +3502,19 @@ done test -n "$YACC" || YACC="yacc" -for ac_hdr in mach/mach.h sys/stropts.h sys/timeb.h sys/time.h unistd.h -do -ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` -echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 -echo "configure:3260: checking for $ac_hdr" >&5 - -cat > conftest.$ac_ext < -EOF -ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:3268: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } -ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` -if test -z "$ac_err"; then - rm -rf conftest* - eval "ac_cv_header_$ac_safe=yes" -else - echo "$ac_err" >&5 - echo "configure: failed program was:" >&5 - cat conftest.$ac_ext >&5 - rm -rf conftest* - eval "ac_cv_header_$ac_safe=no" -fi -rm -f conftest* -if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then - echo "$ac_t""yes" 1>&6 - ac_tr_hdr=HAVE_`echo $ac_hdr | sed 'y%abcdefghijklmnopqrstuvwxyz./-%ABCDEFGHIJKLMNOPQRSTUVWXYZ___%'` - { test "$extra_verbose" = "yes" && cat << EOF - Defining $ac_tr_hdr -EOF -cat >> confdefs.h <&6 -fi -done - -for ac_hdr in utime.h locale.h libgen.h fcntl.h ulimit.h cygwin/version.h -do -ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` -echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 -echo "configure:3301: checking for $ac_hdr" >&5 - -cat > conftest.$ac_ext < -EOF -ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:3309: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } -ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` -if test -z "$ac_err"; then - rm -rf conftest* - eval "ac_cv_header_$ac_safe=yes" -else - echo "$ac_err" >&5 - echo "configure: failed program was:" >&5 - cat conftest.$ac_ext >&5 - rm -rf conftest* - eval "ac_cv_header_$ac_safe=no" -fi -rm -f conftest* -if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then - echo "$ac_t""yes" 1>&6 - ac_tr_hdr=HAVE_`echo $ac_hdr | sed 'y%abcdefghijklmnopqrstuvwxyz./-%ABCDEFGHIJKLMNOPQRSTUVWXYZ___%'` - { test "$extra_verbose" = "yes" && cat << EOF - Defining $ac_tr_hdr -EOF -cat >> confdefs.h <&6 -fi -done - -for ac_hdr in kstat.h sys/pstat.h inttypes.h sys/un.h a.out.h +for ac_hdr in a.out.h cygwin/version.h fcntl.h inttypes.h libgen.h locale.h mach/mach.h sys/param.h sys/pstat.h sys/stropts.h sys/time.h sys/timeb.h sys/un.h kstat.h ulimit.h unistd.h utime.h do ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 -echo "configure:3342: checking for $ac_hdr" >&5 +echo "configure:3510: checking for $ac_hdr" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:3350: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:3518: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -3376,10 +3544,10 @@ fi done echo $ac_n "checking for sys/wait.h that is POSIX.1 compatible""... $ac_c" 1>&6 -echo "configure:3380: checking for sys/wait.h that is POSIX.1 compatible" >&5 +echo "configure:3548: checking for sys/wait.h that is POSIX.1 compatible" >&5 cat > conftest.$ac_ext < #include @@ -3395,7 +3563,7 @@ wait (&s); s = WIFEXITED (s) ? WEXITSTATUS (s) : 1; ; return 0; } EOF -if { (eval echo configure:3399: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3567: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_header_sys_wait_h=yes else @@ -3419,10 +3587,10 @@ EOF fi echo $ac_n "checking for ANSI C header files""... $ac_c" 1>&6 -echo "configure:3423: checking for ANSI C header files" >&5 +echo "configure:3591: checking for ANSI C header files" >&5 cat > conftest.$ac_ext < #include @@ -3430,7 +3598,7 @@ cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:3434: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:3602: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -3447,7 +3615,7 @@ rm -f conftest* if test $ac_cv_header_stdc = yes; then # SunOS 4.x string.h does not declare mem*, contrary to ANSI. cat > conftest.$ac_ext < EOF @@ -3465,7 +3633,7 @@ fi if test $ac_cv_header_stdc = yes; then # ISC 2.0.2 stdlib.h does not declare free, contrary to ANSI. cat > conftest.$ac_ext < EOF @@ -3483,7 +3651,7 @@ fi if test $ac_cv_header_stdc = yes; then # /bin/cc in Irix-4.0.5 gets non-ANSI ctype macros unless using -ansi. cat > conftest.$ac_ext < #define ISLOWER(c) ('a' <= (c) && (c) <= 'z') @@ -3494,7 +3662,7 @@ if (XOR (islower (i), ISLOWER (i)) || toupper (i) != TOUPPER (i)) exit(2); exit (0); } EOF -if { (eval echo configure:3498: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:3666: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then : else @@ -3520,10 +3688,10 @@ EOF fi echo $ac_n "checking whether time.h and sys/time.h may both be included""... $ac_c" 1>&6 -echo "configure:3524: checking whether time.h and sys/time.h may both be included" >&5 +echo "configure:3692: checking whether time.h and sys/time.h may both be included" >&5 cat > conftest.$ac_ext < #include @@ -3532,7 +3700,7 @@ int main() { struct tm *tp; ; return 0; } EOF -if { (eval echo configure:3536: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3704: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_header_time=yes else @@ -3556,10 +3724,10 @@ EOF fi echo $ac_n "checking for sys_siglist declaration in signal.h or unistd.h""... $ac_c" 1>&6 -echo "configure:3560: checking for sys_siglist declaration in signal.h or unistd.h" >&5 +echo "configure:3728: checking for sys_siglist declaration in signal.h or unistd.h" >&5 cat > conftest.$ac_ext < #include @@ -3571,7 +3739,7 @@ int main() { char *msg = *(sys_siglist + 1); ; return 0; } EOF -if { (eval echo configure:3575: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3743: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_decl_sys_siglist=yes else @@ -3596,9 +3764,9 @@ fi echo $ac_n "checking for struct utimbuf""... $ac_c" 1>&6 -echo "configure:3600: checking for struct utimbuf" >&5 +echo "configure:3768: checking for struct utimbuf" >&5 cat > conftest.$ac_ext < @@ -3617,7 +3785,7 @@ int main() { static struct utimbuf x; x.actime = x.modtime; ; return 0; } EOF -if { (eval echo configure:3621: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3789: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* echo "$ac_t""yes" 1>&6 { test "$extra_verbose" = "yes" && cat << \EOF @@ -3637,10 +3805,10 @@ fi rm -f conftest* echo $ac_n "checking return type of signal handlers""... $ac_c" 1>&6 -echo "configure:3641: checking return type of signal handlers" >&5 +echo "configure:3809: checking return type of signal handlers" >&5 cat > conftest.$ac_ext < #include @@ -3657,7 +3825,7 @@ int main() { int i; ; return 0; } EOF -if { (eval echo configure:3661: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:3829: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_type_signal=void else @@ -3679,10 +3847,10 @@ EOF echo $ac_n "checking for size_t""... $ac_c" 1>&6 -echo "configure:3683: checking for size_t" >&5 +echo "configure:3851: checking for size_t" >&5 cat > conftest.$ac_ext < #if STDC_HEADERS @@ -3713,10 +3881,10 @@ EOF fi echo $ac_n "checking for pid_t""... $ac_c" 1>&6 -echo "configure:3717: checking for pid_t" >&5 +echo "configure:3885: checking for pid_t" >&5 cat > conftest.$ac_ext < #if STDC_HEADERS @@ -3747,10 +3915,10 @@ EOF fi echo $ac_n "checking for uid_t in sys/types.h""... $ac_c" 1>&6 -echo "configure:3751: checking for uid_t in sys/types.h" >&5 +echo "configure:3919: checking for uid_t in sys/types.h" >&5 cat > conftest.$ac_ext < EOF @@ -3786,10 +3954,10 @@ EOF fi echo $ac_n "checking for mode_t""... $ac_c" 1>&6 -echo "configure:3790: checking for mode_t" >&5 +echo "configure:3958: checking for mode_t" >&5 cat > conftest.$ac_ext < #if STDC_HEADERS @@ -3820,10 +3988,10 @@ EOF fi echo $ac_n "checking for off_t""... $ac_c" 1>&6 -echo "configure:3824: checking for off_t" >&5 +echo "configure:3992: checking for off_t" >&5 cat > conftest.$ac_ext < #if STDC_HEADERS @@ -3854,10 +4022,10 @@ EOF fi echo $ac_n "checking for ssize_t""... $ac_c" 1>&6 -echo "configure:3858: checking for ssize_t" >&5 +echo "configure:4026: checking for ssize_t" >&5 cat > conftest.$ac_ext < #if STDC_HEADERS @@ -3889,9 +4057,9 @@ fi echo $ac_n "checking for struct timeval""... $ac_c" 1>&6 -echo "configure:3893: checking for struct timeval" >&5 +echo "configure:4061: checking for struct timeval" >&5 cat > conftest.$ac_ext < @@ -3907,7 +4075,7 @@ int main() { static struct timeval x; x.tv_sec = x.tv_usec; ; return 0; } EOF -if { (eval echo configure:3911: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4079: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* echo "$ac_t""yes" 1>&6 HAVE_TIMEVAL=yes @@ -3929,10 +4097,10 @@ fi rm -f conftest* echo $ac_n "checking whether struct tm is in sys/time.h or time.h""... $ac_c" 1>&6 -echo "configure:3933: checking whether struct tm is in sys/time.h or time.h" >&5 +echo "configure:4101: checking whether struct tm is in sys/time.h or time.h" >&5 cat > conftest.$ac_ext < #include @@ -3940,7 +4108,7 @@ int main() { struct tm *tp; tp->tm_sec; ; return 0; } EOF -if { (eval echo configure:3944: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4112: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_struct_tm=time.h else @@ -3964,10 +4132,10 @@ EOF fi echo $ac_n "checking for tm_zone in struct tm""... $ac_c" 1>&6 -echo "configure:3968: checking for tm_zone in struct tm" >&5 +echo "configure:4136: checking for tm_zone in struct tm" >&5 cat > conftest.$ac_ext < #include <$ac_cv_struct_tm> @@ -3975,7 +4143,7 @@ int main() { struct tm tm; tm.tm_zone; ; return 0; } EOF -if { (eval echo configure:3979: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4147: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_struct_tm_zone=yes else @@ -3998,10 +4166,10 @@ EOF else echo $ac_n "checking for tzname""... $ac_c" 1>&6 -echo "configure:4002: checking for tzname" >&5 +echo "configure:4170: checking for tzname" >&5 cat > conftest.$ac_ext < #ifndef tzname /* For SGI. */ @@ -4011,7 +4179,7 @@ int main() { atoi(*tzname); ; return 0; } EOF -if { (eval echo configure:4015: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4183: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_cv_var_tzname=yes else @@ -4037,10 +4205,10 @@ fi echo $ac_n "checking for working const""... $ac_c" 1>&6 -echo "configure:4041: checking for working const" >&5 +echo "configure:4209: checking for working const" >&5 cat > conftest.$ac_ext <&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4261: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_c_const=yes else @@ -4114,7 +4282,7 @@ fi echo $ac_n "checking whether ${MAKE-make} sets \${MAKE}""... $ac_c" 1>&6 -echo "configure:4118: checking whether ${MAKE-make} sets \${MAKE}" >&5 +echo "configure:4286: checking whether ${MAKE-make} sets \${MAKE}" >&5 set dummy ${MAKE-make}; ac_make=`echo "$2" | sed 'y%./+-%__p_%'` cat > conftestmake <<\EOF @@ -4139,12 +4307,12 @@ fi echo $ac_n "checking whether byte ordering is bigendian""... $ac_c" 1>&6 -echo "configure:4143: checking whether byte ordering is bigendian" >&5 +echo "configure:4311: checking whether byte ordering is bigendian" >&5 ac_cv_c_bigendian=unknown # See if sys/param.h defines the BYTE_ORDER macro. cat > conftest.$ac_ext < #include @@ -4155,11 +4323,11 @@ int main() { #endif ; return 0; } EOF -if { (eval echo configure:4159: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4327: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* # It does; now see whether it defined to BIG_ENDIAN or not. cat > conftest.$ac_ext < #include @@ -4170,7 +4338,7 @@ int main() { #endif ; return 0; } EOF -if { (eval echo configure:4174: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:4342: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_c_bigendian=yes else @@ -4187,7 +4355,7 @@ fi rm -f conftest* if test $ac_cv_c_bigendian = unknown; then cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:4372: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_c_bigendian=no else @@ -4227,10 +4395,10 @@ fi echo $ac_n "checking size of short""... $ac_c" 1>&6 -echo "configure:4231: checking size of short" >&5 +echo "configure:4399: checking size of short" >&5 cat > conftest.$ac_ext < main() @@ -4241,7 +4409,7 @@ main() exit(0); } EOF -if { (eval echo configure:4245: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:4413: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_sizeof_short=`cat conftestval` else @@ -4269,10 +4437,10 @@ if test "$ac_cv_sizeof_short" = 0; then exit 1 fi echo $ac_n "checking size of int""... $ac_c" 1>&6 -echo "configure:4273: checking size of int" >&5 +echo "configure:4441: checking size of int" >&5 cat > conftest.$ac_ext < main() @@ -4283,7 +4451,7 @@ main() exit(0); } EOF -if { (eval echo configure:4287: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:4455: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_sizeof_int=`cat conftestval` else @@ -4305,10 +4473,10 @@ EOF echo $ac_n "checking size of long""... $ac_c" 1>&6 -echo "configure:4309: checking size of long" >&5 +echo "configure:4477: checking size of long" >&5 cat > conftest.$ac_ext < main() @@ -4319,7 +4487,7 @@ main() exit(0); } EOF -if { (eval echo configure:4323: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:4491: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_sizeof_long=`cat conftestval` else @@ -4341,10 +4509,10 @@ EOF echo $ac_n "checking size of long long""... $ac_c" 1>&6 -echo "configure:4345: checking size of long long" >&5 +echo "configure:4513: checking size of long long" >&5 cat > conftest.$ac_ext < main() @@ -4355,7 +4523,7 @@ main() exit(0); } EOF -if { (eval echo configure:4359: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:4527: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_sizeof_long_long=`cat conftestval` else @@ -4377,10 +4545,10 @@ EOF echo $ac_n "checking size of void *""... $ac_c" 1>&6 -echo "configure:4381: checking size of void *" >&5 +echo "configure:4549: checking size of void *" >&5 cat > conftest.$ac_ext < main() @@ -4391,7 +4559,7 @@ main() exit(0); } EOF -if { (eval echo configure:4395: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:4563: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_sizeof_void_p=`cat conftestval` else @@ -4414,7 +4582,7 @@ EOF echo $ac_n "checking for long file names""... $ac_c" 1>&6 -echo "configure:4418: checking for long file names" >&5 +echo "configure:4586: checking for long file names" >&5 ac_cv_sys_long_file_names=yes # Test for long file names in all the places we know might matter: @@ -4460,10 +4628,10 @@ fi echo $ac_n "checking for sin""... $ac_c" 1>&6 -echo "configure:4464: checking for sin" >&5 +echo "configure:4632: checking for sin" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4658: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_sin=yes" else @@ -4504,12 +4672,12 @@ else echo "$ac_t""no" 1>&6 echo $ac_n "checking for sin in -lm""... $ac_c" 1>&6 -echo "configure:4508: checking for sin in -lm" >&5 +echo "configure:4676: checking for sin in -lm" >&5 ac_lib_var=`echo m'_'sin | sed 'y%./+-%__p_%'` xe_check_libs=" -lm " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4692: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -4564,14 +4732,14 @@ EOF cat > conftest.$ac_ext < int main() { return atanh(1.0) + asinh(1.0) + acosh(1.0); ; return 0; } EOF -if { (eval echo configure:4575: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4743: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* { test "$extra_verbose" = "yes" && cat << \EOF Defining HAVE_INVERSE_HYPERBOLIC @@ -4588,14 +4756,14 @@ fi rm -f conftest* echo "checking type of mail spool file locking" 1>&6 -echo "configure:4592: checking type of mail spool file locking" >&5 +echo "configure:4760: checking type of mail spool file locking" >&5 for ac_func in lockf flock do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:4596: checking for $ac_func" >&5 +echo "configure:4764: checking for $ac_func" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4790: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -4691,12 +4859,12 @@ test "$mail_locking" = "locking" -a "$ac_cv_func_locking" != "yes" && \ case "$opsys" in decosf*) echo $ac_n "checking for cma_open in -lpthreads""... $ac_c" 1>&6 -echo "configure:4695: checking for cma_open in -lpthreads" >&5 +echo "configure:4863: checking for cma_open in -lpthreads" >&5 ac_lib_var=`echo pthreads'_'cma_open | sed 'y%./+-%__p_%'` xe_check_libs=" -lpthreads " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:4879: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -4743,7 +4911,7 @@ fi esac echo $ac_n "checking whether the -xildoff compiler flag is required""... $ac_c" 1>&6 -echo "configure:4747: checking whether the -xildoff compiler flag is required" >&5 +echo "configure:4915: checking whether the -xildoff compiler flag is required" >&5 if ${CC-cc} '-###' -xildon no_such_file.c 2>&1 | grep '^[^ ]*/ild ' > /dev/null ; then if ${CC-cc} '-###' -xildoff no_such_file.c 2>&1 | grep '^[^ ]*/ild ' > /dev/null ; then echo "$ac_t""no" 1>&6; @@ -4752,19 +4920,21 @@ if ${CC-cc} '-###' -xildon no_such_file.c 2>&1 | grep '^[^ ]*/ild ' > /dev/nu else echo "$ac_t""no" 1>&6 fi -if test "$opsys" = "sol2" && test "$OS_RELEASE" -ge 56; then - echo $ac_n "checking for \"-z ignore\" linker flag""... $ac_c" 1>&6 -echo "configure:4758: checking for \"-z ignore\" linker flag" >&5 - case "`ld -h 2>&1`" in - *-z\ ignore\|record* ) echo "$ac_t""yes" 1>&6 - ld_switch_site="-z ignore $ld_switch_site" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-z ignore\" to \$ld_switch_site"; fi ;; - *) echo "$ac_t""no" 1>&6 ;; - esac +if test "$opsys" = "sol2"; then + if test "$os_release" -ge 56; then + echo $ac_n "checking for \"-z ignore\" linker flag""... $ac_c" 1>&6 +echo "configure:4927: checking for \"-z ignore\" linker flag" >&5 + case "`ld -h 2>&1`" in + *-z\ ignore\|record* ) echo "$ac_t""yes" 1>&6 + ld_switch_site="-z ignore $ld_switch_site" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-z ignore\" to \$ld_switch_site"; fi ;; + *) echo "$ac_t""no" 1>&6 ;; + esac + fi fi echo "checking "for specified window system"" 1>&6 -echo "configure:4768: checking "for specified window system"" >&5 +echo "configure:4938: checking "for specified window system"" >&5 if test "$with_x11" != "no"; then test "$x_includes $x_libraries" != "NONE NONE" && \ @@ -4797,7 +4967,7 @@ if test "$with_x11" != "no"; then # Uses ac_ vars as temps to allow command line to override cache and checks. # --without-x overrides everything else, but does not touch the cache. echo $ac_n "checking for X""... $ac_c" 1>&6 -echo "configure:4801: checking for X" >&5 +echo "configure:4971: checking for X" >&5 # Check whether --with-x or --without-x was given. if test "${with_x+set}" = set; then @@ -4857,12 +5027,12 @@ if test "$ac_x_includes" = NO; then # First, try using that file with no special directory specified. cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:4866: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:5036: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -4931,14 +5101,14 @@ if test "$ac_x_libraries" = NO; then ac_save_LIBS="$LIBS" LIBS="-l$x_direct_test_library $LIBS" cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5112: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* LIBS="$ac_save_LIBS" # We can link X programs with no special library path. @@ -5047,17 +5217,17 @@ else case "`(uname -sr) 2>/dev/null`" in "SunOS 5"*) echo $ac_n "checking whether -R must be followed by a space""... $ac_c" 1>&6 -echo "configure:5051: checking whether -R must be followed by a space" >&5 +echo "configure:5221: checking whether -R must be followed by a space" >&5 ac_xsave_LIBS="$LIBS"; LIBS="$LIBS -R$x_libraries" cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5231: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_R_nospace=yes else @@ -5073,14 +5243,14 @@ rm -f conftest* else LIBS="$ac_xsave_LIBS -R $x_libraries" cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5254: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_R_space=yes else @@ -5116,12 +5286,12 @@ ac_cv_lib_dnet_dnet_ntoa=no else echo $ac_n "checking for dnet_ntoa in -ldnet""... $ac_c" 1>&6 -echo "configure:5120: checking for dnet_ntoa in -ldnet" >&5 +echo "configure:5290: checking for dnet_ntoa in -ldnet" >&5 ac_lib_var=`echo dnet'_'dnet_ntoa | sed 'y%./+-%__p_%'` xe_check_libs=" -ldnet " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5306: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5156,12 +5326,12 @@ fi if test $ac_cv_lib_dnet_dnet_ntoa = no; then echo $ac_n "checking for dnet_ntoa in -ldnet_stub""... $ac_c" 1>&6 -echo "configure:5160: checking for dnet_ntoa in -ldnet_stub" >&5 +echo "configure:5330: checking for dnet_ntoa in -ldnet_stub" >&5 ac_lib_var=`echo dnet_stub'_'dnet_ntoa | sed 'y%./+-%__p_%'` xe_check_libs=" -ldnet_stub " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5346: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5201,10 +5371,10 @@ fi # The nsl library prevents programs from opening the X display # on Irix 5.2, according to dickey@clark.net. echo $ac_n "checking for gethostbyname""... $ac_c" 1>&6 -echo "configure:5205: checking for gethostbyname" >&5 +echo "configure:5375: checking for gethostbyname" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5401: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_gethostbyname=yes" else @@ -5248,12 +5418,12 @@ fi if test $ac_cv_func_gethostbyname = no; then echo $ac_n "checking for gethostbyname in -lnsl""... $ac_c" 1>&6 -echo "configure:5252: checking for gethostbyname in -lnsl" >&5 +echo "configure:5422: checking for gethostbyname in -lnsl" >&5 ac_lib_var=`echo nsl'_'gethostbyname | sed 'y%./+-%__p_%'` xe_check_libs=" -lnsl " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5438: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5294,10 +5464,10 @@ fi # -lsocket must be given before -lnsl if both are needed. # We assume that if connect needs -lnsl, so does gethostbyname. echo $ac_n "checking for connect""... $ac_c" 1>&6 -echo "configure:5298: checking for connect" >&5 +echo "configure:5468: checking for connect" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5494: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_connect=yes" else @@ -5343,12 +5513,12 @@ fi xe_msg_checking="for connect in -lsocket" test -n "$X_EXTRA_LIBS" && xe_msg_checking="$xe_msg_checking using extra libs $X_EXTRA_LIBS" echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 -echo "configure:5347: checking "$xe_msg_checking"" >&5 +echo "configure:5517: checking "$xe_msg_checking"" >&5 ac_lib_var=`echo socket'_'connect | sed 'y%./+-%__p_%'` xe_check_libs=" -lsocket $X_EXTRA_LIBS" cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5533: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5383,10 +5553,10 @@ fi # gomez@mi.uni-erlangen.de says -lposix is necessary on A/UX. echo $ac_n "checking for remove""... $ac_c" 1>&6 -echo "configure:5387: checking for remove" >&5 +echo "configure:5557: checking for remove" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5583: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_remove=yes" else @@ -5430,12 +5600,12 @@ fi if test $ac_cv_func_remove = no; then echo $ac_n "checking for remove in -lposix""... $ac_c" 1>&6 -echo "configure:5434: checking for remove in -lposix" >&5 +echo "configure:5604: checking for remove in -lposix" >&5 ac_lib_var=`echo posix'_'remove | sed 'y%./+-%__p_%'` xe_check_libs=" -lposix " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5620: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5470,10 +5640,10 @@ fi # BSDI BSD/OS 2.1 needs -lipc for XOpenDisplay. echo $ac_n "checking for shmat""... $ac_c" 1>&6 -echo "configure:5474: checking for shmat" >&5 +echo "configure:5644: checking for shmat" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5670: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_shmat=yes" else @@ -5517,12 +5687,12 @@ fi if test $ac_cv_func_shmat = no; then echo $ac_n "checking for shmat in -lipc""... $ac_c" 1>&6 -echo "configure:5521: checking for shmat in -lipc" >&5 +echo "configure:5691: checking for shmat in -lipc" >&5 ac_lib_var=`echo ipc'_'shmat | sed 'y%./+-%__p_%'` xe_check_libs=" -lipc " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5707: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5569,12 +5739,12 @@ fi xe_msg_checking="for IceConnectionNumber in -lICE" test -n "$X_EXTRA_LIBS" && xe_msg_checking="$xe_msg_checking using extra libs $X_EXTRA_LIBS" echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 -echo "configure:5573: checking "$xe_msg_checking"" >&5 +echo "configure:5743: checking "$xe_msg_checking"" >&5 ac_lib_var=`echo ICE'_'IceConnectionNumber | sed 'y%./+-%__p_%'` xe_check_libs=" -lICE $X_EXTRA_LIBS" cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:5759: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5754,7 +5924,7 @@ EOF echo "checking for X defines extracted by xmkmf" 1>&6 -echo "configure:5758: checking for X defines extracted by xmkmf" >&5 +echo "configure:5928: checking for X defines extracted by xmkmf" >&5 rm -fr conftestdir if mkdir conftestdir; then cd conftestdir @@ -5786,15 +5956,15 @@ EOF ac_safe=`echo "X11/Intrinsic.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for X11/Intrinsic.h""... $ac_c" 1>&6 -echo "configure:5790: checking for X11/Intrinsic.h" >&5 +echo "configure:5960: checking for X11/Intrinsic.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:5798: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:5968: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -5818,12 +5988,12 @@ fi echo $ac_n "checking for XOpenDisplay in -lX11""... $ac_c" 1>&6 -echo "configure:5822: checking for XOpenDisplay in -lX11" >&5 +echo "configure:5992: checking for XOpenDisplay in -lX11" >&5 ac_lib_var=`echo X11'_'XOpenDisplay | sed 'y%./+-%__p_%'` xe_check_libs=" -lX11 " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6008: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5859,12 +6029,12 @@ fi xe_msg_checking="for XGetFontProperty in -lX11" test -n "-b i486-linuxaout" && xe_msg_checking="$xe_msg_checking using extra libs -b i486-linuxaout" echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 -echo "configure:5863: checking "$xe_msg_checking"" >&5 +echo "configure:6033: checking "$xe_msg_checking"" >&5 ac_lib_var=`echo X11'_'XGetFontProperty | sed 'y%./+-%__p_%'` xe_check_libs=" -lX11 -b i486-linuxaout" cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6049: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5902,12 +6072,12 @@ fi echo $ac_n "checking for XShapeSelectInput in -lXext""... $ac_c" 1>&6 -echo "configure:5906: checking for XShapeSelectInput in -lXext" >&5 +echo "configure:6076: checking for XShapeSelectInput in -lXext" >&5 ac_lib_var=`echo Xext'_'XShapeSelectInput | sed 'y%./+-%__p_%'` xe_check_libs=" -lXext " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6092: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5941,12 +6111,12 @@ fi echo $ac_n "checking for XtOpenDisplay in -lXt""... $ac_c" 1>&6 -echo "configure:5945: checking for XtOpenDisplay in -lXt" >&5 +echo "configure:6115: checking for XtOpenDisplay in -lXt" >&5 ac_lib_var=`echo Xt'_'XtOpenDisplay | sed 'y%./+-%__p_%'` xe_check_libs=" -lXt " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6131: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -5980,14 +6150,14 @@ fi echo $ac_n "checking the version of X11 being used""... $ac_c" 1>&6 -echo "configure:5984: checking the version of X11 being used" >&5 +echo "configure:6154: checking the version of X11 being used" >&5 cat > conftest.$ac_ext < int main(int c, char *v[]) { return c>1 ? XlibSpecificationRelease : 0; } EOF -if { (eval echo configure:5991: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:6161: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ./conftest foobar; x11_release=$? else @@ -6008,39 +6178,54 @@ EOF } - for ac_hdr in X11/Xlocale.h + for ac_func in XConvertCase do -ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` -echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 -echo "configure:6016: checking for $ac_hdr" >&5 +echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 +echo "configure:6185: checking for $ac_func" >&5 cat > conftest.$ac_ext < +/* System header to define __stub macros and hopefully few prototypes, + which can conflict with char $ac_func(); below. */ +#include +/* Override any gcc2 internal prototype to avoid an error. */ +/* We use char because int might match the return type of a gcc2 + builtin and then its argument prototype would still apply. */ +char $ac_func(); + +int main() { + +/* The GNU C library defines this for functions which it implements + to always fail with ENOSYS. Some functions are actually named + something starting with __ and the normal name is an alias. */ +#if defined (__stub_$ac_func) || defined (__stub___$ac_func) +choke me +#else +$ac_func(); +#endif + +; return 0; } EOF -ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:6024: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } -ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` -if test -z "$ac_err"; then +if { (eval echo configure:6211: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* - eval "ac_cv_header_$ac_safe=yes" + eval "ac_cv_func_$ac_func=yes" else - echo "$ac_err" >&5 echo "configure: failed program was:" >&5 cat conftest.$ac_ext >&5 rm -rf conftest* - eval "ac_cv_header_$ac_safe=no" + eval "ac_cv_func_$ac_func=no" fi rm -f conftest* -if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then + +if eval "test \"`echo '$ac_cv_func_'$ac_func`\" = yes"; then echo "$ac_t""yes" 1>&6 - ac_tr_hdr=HAVE_`echo $ac_hdr | sed 'y%abcdefghijklmnopqrstuvwxyz./-%ABCDEFGHIJKLMNOPQRSTUVWXYZ___%'` + ac_tr_func=HAVE_`echo $ac_func | tr 'abcdefghijklmnopqrstuvwxyz' 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'` { test "$extra_verbose" = "yes" && cat << EOF - Defining $ac_tr_hdr + Defining $ac_tr_func EOF cat >> confdefs.h <&6 -echo "configure:6055: checking for XFree86" >&5 - if test -d "/usr/X386/include" -o \ - -f "/etc/XF86Config" -o \ - -f "/etc/X11/XF86Config" -o \ - -f "/usr/X11R6/lib/X11/XF86Config"; then - echo "$ac_t""yes" 1>&6 - { test "$extra_verbose" = "yes" && cat << \EOF - Defining HAVE_XFREE386 -EOF + for ac_hdr in X11/Xlocale.h +do +ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` +echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 +echo "configure:6243: checking for $ac_hdr" >&5 + +cat > conftest.$ac_ext < +EOF +ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" +{ (eval echo configure:6251: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` +if test -z "$ac_err"; then + rm -rf conftest* + eval "ac_cv_header_$ac_safe=yes" +else + echo "$ac_err" >&5 + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + eval "ac_cv_header_$ac_safe=no" +fi +rm -f conftest* +if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then + echo "$ac_t""yes" 1>&6 + ac_tr_hdr=HAVE_`echo $ac_hdr | sed 'y%abcdefghijklmnopqrstuvwxyz./-%ABCDEFGHIJKLMNOPQRSTUVWXYZ___%'` + { test "$extra_verbose" = "yes" && cat << EOF + Defining $ac_tr_hdr +EOF +cat >> confdefs.h <&6 +fi +done + + + echo $ac_n "checking for XFree86""... $ac_c" 1>&6 +echo "configure:6282: checking for XFree86" >&5 + if test -d "/usr/X386/include" -o \ + -f "/etc/XF86Config" -o \ + -f "/etc/X11/XF86Config" -o \ + -f "/usr/X11R6/lib/X11/XF86Config"; then + echo "$ac_t""yes" 1>&6 + { test "$extra_verbose" = "yes" && cat << \EOF + Defining HAVE_XFREE386 +EOF cat >> confdefs.h <<\EOF #define HAVE_XFREE386 1 EOF @@ -6071,12 +6298,12 @@ EOF test -z "$with_xmu" && { echo $ac_n "checking for XmuReadBitmapDataFromFile in -lXmu""... $ac_c" 1>&6 -echo "configure:6075: checking for XmuReadBitmapDataFromFile in -lXmu" >&5 +echo "configure:6302: checking for XmuReadBitmapDataFromFile in -lXmu" >&5 ac_lib_var=`echo Xmu'_'XmuReadBitmapDataFromFile | sed 'y%./+-%__p_%'` xe_check_libs=" -lXmu " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6318: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -6126,19 +6353,19 @@ EOF echo $ac_n "checking for main in -lXbsd""... $ac_c" 1>&6 -echo "configure:6130: checking for main in -lXbsd" >&5 +echo "configure:6357: checking for main in -lXbsd" >&5 ac_lib_var=`echo Xbsd'_'main | sed 'y%./+-%__p_%'` xe_check_libs=" -lXbsd " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6369: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -6175,22 +6402,22 @@ fi fi if test "$with_msw" != "no"; then echo "checking for MS-Windows" 1>&6 -echo "configure:6179: checking for MS-Windows" >&5 +echo "configure:6406: checking for MS-Windows" >&5 echo $ac_n "checking for main in -lgdi32""... $ac_c" 1>&6 -echo "configure:6182: checking for main in -lgdi32" >&5 +echo "configure:6409: checking for main in -lgdi32" >&5 ac_lib_var=`echo gdi32'_'main | sed 'y%./+-%__p_%'` xe_check_libs=" -lgdi32 " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6421: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -6256,12 +6483,12 @@ EOF fi fi cat > conftest.$ac_ext < int main() { return (open("/dev/windows", O_RDONLY, 0) > 0)? 0 : 1; } EOF -if { (eval echo configure:6265: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:6492: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then { test "$extra_verbose" = "yes" && cat << \EOF Defining HAVE_MSG_SELECT @@ -6277,7 +6504,6 @@ else cat conftest.$ac_ext >&5 fi rm -fr conftest* - const_is_losing=no with_file_coding=yes extra_objs="$extra_objs console-msw.o device-msw.o event-msw.o frame-msw.o objects-msw.o select-msw.o redisplay-msw.o glyphs-msw.o gui-msw.o" && if test "$extra_verbose" = "yes"; then echo " xemacs will be linked with \"console-msw.o device-msw.o event-msw.o frame-msw.o objects-msw.o select-msw.o redisplay-msw.o glyphs-msw.o gui-msw.o\"" @@ -6337,7 +6563,7 @@ case "$x_libraries" in *X11R4* ) esac echo "checking for WM_COMMAND option" 1>&6 -echo "configure:6341: checking for WM_COMMAND option" >&5; +echo "configure:6567: checking for WM_COMMAND option" >&5; if test "$with_wmcommand" != "no"; then { test "$extra_verbose" = "yes" && cat << \EOF Defining HAVE_WMCOMMAND @@ -6352,15 +6578,15 @@ fi test -z "$with_xauth" && test "$window_system" = "none" && with_xauth=no test -z "$with_xauth" && { ac_safe=`echo "X11/Xauth.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for X11/Xauth.h""... $ac_c" 1>&6 -echo "configure:6356: checking for X11/Xauth.h" >&5 +echo "configure:6582: checking for X11/Xauth.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:6364: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:6590: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -6383,12 +6609,12 @@ fi } test -z "$with_xauth" && { echo $ac_n "checking for XauGetAuthByAddr in -lXau""... $ac_c" 1>&6 -echo "configure:6387: checking for XauGetAuthByAddr in -lXau" >&5 +echo "configure:6613: checking for XauGetAuthByAddr in -lXau" >&5 ac_lib_var=`echo Xau'_'XauGetAuthByAddr | sed 'y%./+-%__p_%'` xe_check_libs=" -lXau " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6629: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -6444,15 +6670,15 @@ if test "$with_tooltalk" != "no" ; then for dir in "" "Tt/" "desktop/" ; do ac_safe=`echo "${dir}tt_c.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for ${dir}tt_c.h""... $ac_c" 1>&6 -echo "configure:6448: checking for ${dir}tt_c.h" >&5 +echo "configure:6674: checking for ${dir}tt_c.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:6456: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:6682: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -6467,13 +6693,13 @@ fi rm -f conftest* if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 - tt_c_h_path="${dir}tt_c.h"; break + tt_c_h_file="${dir}tt_c.h"; break else echo "$ac_t""no" 1>&6 fi done - if test -z "$tt_c_h_path"; then + if test -z "$tt_c_h_file"; then if test "$with_tooltalk" = "yes"; then (echo "$progname: Usage error:" echo " " "Unable to find required tooltalk header files." @@ -6488,12 +6714,12 @@ if test "$with_tooltalk" != "no" ; then xe_msg_checking="for tt_message_create in -ltt" test -n "$extra_libs" && xe_msg_checking="$xe_msg_checking using extra libs $extra_libs" echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 -echo "configure:6492: checking "$xe_msg_checking"" >&5 +echo "configure:6718: checking "$xe_msg_checking"" >&5 ac_lib_var=`echo tt'_'tt_message_create | sed 'y%./+-%__p_%'` xe_check_libs=" -ltt $extra_libs" cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6734: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -6546,10 +6772,10 @@ EOF } { test "$extra_verbose" = "yes" && cat << EOF - Defining TT_C_H_PATH = "$tt_c_h_path" + Defining TT_C_H_FILE = "$tt_c_h_file" EOF cat >> confdefs.h <&6 -echo "configure:6565: checking for Dt/Dt.h" >&5 +echo "configure:6791: checking for Dt/Dt.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:6573: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:6799: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -6592,12 +6818,12 @@ fi } test -z "$with_cde" && { echo $ac_n "checking for DtDndDragStart in -lDtSvc""... $ac_c" 1>&6 -echo "configure:6596: checking for DtDndDragStart in -lDtSvc" >&5 +echo "configure:6822: checking for DtDndDragStart in -lDtSvc" >&5 ac_lib_var=`echo DtSvc'_'DtDndDragStart | sed 'y%./+-%__p_%'` xe_check_libs=" -lDtSvc " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:6838: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -6677,7 +6903,7 @@ EOF fi echo $ac_n "checking if drag and drop API is needed""... $ac_c" 1>&6 -echo "configure:6681: checking if drag and drop API is needed" >&5 +echo "configure:6907: checking if drag and drop API is needed" >&5 if test "$with_dragndrop" != "no" ; then if test -n "$dragndrop_proto" ; then with_dragndrop=yes @@ -6698,18 +6924,18 @@ EOF fi echo "checking for LDAP" 1>&6 -echo "configure:6702: checking for LDAP" >&5 +echo "configure:6928: checking for LDAP" >&5 test -z "$with_ldap" && { ac_safe=`echo "ldap.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for ldap.h""... $ac_c" 1>&6 -echo "configure:6705: checking for ldap.h" >&5 +echo "configure:6931: checking for ldap.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:6713: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:6939: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -6732,15 +6958,15 @@ fi } test -z "$with_ldap" && { ac_safe=`echo "lber.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for lber.h""... $ac_c" 1>&6 -echo "configure:6736: checking for lber.h" >&5 +echo "configure:6962: checking for lber.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:6744: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:6970: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -6760,109 +6986,429 @@ else echo "$ac_t""no" 1>&6 with_ldap=no fi - } -if test "$with_ldap" != "no"; then - -echo $ac_n "checking for ldap_search in -lldap""... $ac_c" 1>&6 -echo "configure:6768: checking for ldap_search in -lldap" >&5 -ac_lib_var=`echo ldap'_'ldap_search | sed 'y%./+-%__p_%'` + } +if test "$with_ldap" != "no"; then + +echo $ac_n "checking for ldap_search in -lldap""... $ac_c" 1>&6 +echo "configure:6994: checking for ldap_search in -lldap" >&5 +ac_lib_var=`echo ldap'_'ldap_search | sed 'y%./+-%__p_%'` + +xe_check_libs=" -lldap " +cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then + rm -rf conftest* + eval "ac_cv_lib_$ac_lib_var=yes" +else + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + eval "ac_cv_lib_$ac_lib_var=no" +fi +rm -f conftest* +xe_check_libs="" + +if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then + echo "$ac_t""yes" 1>&6 + with_ldap_nolber=yes +else + echo "$ac_t""no" 1>&6 +with_ldap_nolber=no +fi + + + test "$with_ldap_nolber" = "no" && { +xe_msg_checking="for ldap_open in -lldap" +test -n "-llber" && xe_msg_checking="$xe_msg_checking using extra libs -llber" +echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 +echo "configure:7035: checking "$xe_msg_checking"" >&5 +ac_lib_var=`echo ldap'_'ldap_open | sed 'y%./+-%__p_%'` + +xe_check_libs=" -lldap -llber" +cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then + rm -rf conftest* + eval "ac_cv_lib_$ac_lib_var=yes" +else + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + eval "ac_cv_lib_$ac_lib_var=no" +fi +rm -f conftest* +xe_check_libs="" + +if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then + echo "$ac_t""yes" 1>&6 + with_ldap_lber=yes +else + echo "$ac_t""no" 1>&6 +with_ldap_lber=no +fi + + } + test "$with_ldap_nolber" = "no" -a "$with_ldap_lber" = "no" && { +xe_msg_checking="for ldap_open in -lldap" +test -n "-llber -lkrb" && xe_msg_checking="$xe_msg_checking using extra libs -llber -lkrb" +echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 +echo "configure:7076: checking "$xe_msg_checking"" >&5 +ac_lib_var=`echo ldap'_'ldap_open | sed 'y%./+-%__p_%'` + +xe_check_libs=" -lldap -llber -lkrb" +cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then + rm -rf conftest* + eval "ac_cv_lib_$ac_lib_var=yes" +else + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + eval "ac_cv_lib_$ac_lib_var=no" +fi +rm -f conftest* +xe_check_libs="" + +if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then + echo "$ac_t""yes" 1>&6 + with_ldap_krb=yes +else + echo "$ac_t""no" 1>&6 +with_ldap_krb=no +fi + + } + test "$with_ldap_nolber" = "no" -a "$with_ldap_lber" = "no" -a "$with_ldap_krb" = "no" && { +xe_msg_checking="for ldap_open in -lldap" +test -n "-llber -lkrb -ldes" && xe_msg_checking="$xe_msg_checking using extra libs -llber -lkrb -ldes" +echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 +echo "configure:7117: checking "$xe_msg_checking"" >&5 +ac_lib_var=`echo ldap'_'ldap_open | sed 'y%./+-%__p_%'` + +xe_check_libs=" -lldap -llber -lkrb -ldes" +cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then + rm -rf conftest* + eval "ac_cv_lib_$ac_lib_var=yes" +else + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + eval "ac_cv_lib_$ac_lib_var=no" +fi +rm -f conftest* +xe_check_libs="" + +if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then + echo "$ac_t""yes" 1>&6 + with_ldap_krbdes=yes +else + echo "$ac_t""no" 1>&6 +with_ldap_krbdes=no +fi + + } + test -z "$with_ldap" -a \( "$with_ldap_lber" = "yes" -o "$with_ldap_nolber" = "yes" -o "$with_ldap_krb" = "yes" -o "$with_ldap_krbdes" = "yes" \) && with_ldap=yes +fi +if test "$with_ldap" = "yes"; then + { test "$extra_verbose" = "yes" && cat << \EOF + Defining HAVE_LDAP +EOF +cat >> confdefs.h <<\EOF +#define HAVE_LDAP 1 +EOF +} + + extra_objs="$extra_objs eldap.o" && if test "$extra_verbose" = "yes"; then + echo " xemacs will be linked with \"eldap.o\"" + fi + if test "$with_ldap_nolber" = "yes" ; then + LIBS="-lldap $LIBS" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-lldap\" to \$LIBS"; fi + else + if test "$with_ldap_krb" = "yes" ; then + LIBS="-lkrb $LIBS" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-lkrb\" to \$LIBS"; fi + fi + if test "$with_ldap_krbdes" = "yes" ; then + LIBS="-ldes $LIBS" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-ldes\" to \$LIBS"; fi + LIBS="-lkrb $LIBS" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-lkrb\" to \$LIBS"; fi + fi + LIBS="-llber $LIBS" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-llber\" to \$LIBS"; fi + LIBS="-lldap $LIBS" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-lldap\" to \$LIBS"; fi + fi + for ac_func in ldap_set_option ldap_get_lderrno ldap_result2error ldap_parse_result +do +echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 +echo "configure:7184: checking for $ac_func" >&5 + +cat > conftest.$ac_ext < +/* Override any gcc2 internal prototype to avoid an error. */ +/* We use char because int might match the return type of a gcc2 + builtin and then its argument prototype would still apply. */ +char $ac_func(); + +int main() { + +/* The GNU C library defines this for functions which it implements + to always fail with ENOSYS. Some functions are actually named + something starting with __ and the normal name is an alias. */ +#if defined (__stub_$ac_func) || defined (__stub___$ac_func) +choke me +#else +$ac_func(); +#endif + +; return 0; } +EOF +if { (eval echo configure:7210: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then + rm -rf conftest* + eval "ac_cv_func_$ac_func=yes" +else + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + eval "ac_cv_func_$ac_func=no" +fi +rm -f conftest* + +if eval "test \"`echo '$ac_cv_func_'$ac_func`\" = yes"; then + echo "$ac_t""yes" 1>&6 + ac_tr_func=HAVE_`echo $ac_func | tr 'abcdefghijklmnopqrstuvwxyz' 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'` + { test "$extra_verbose" = "yes" && cat << EOF + Defining $ac_tr_func +EOF +cat >> confdefs.h <&6 +fi +done + +fi + +echo "checking for PostgreSQL" 1>&6 +echo "configure:7240: checking for PostgreSQL" >&5 +postgres_h_path="" +postgres_includes_found=no +save_c_switch_site="$c_switch_site" + +if test "$with_postgresql" != "no"; then + ac_safe=`echo "libpq-fe.h" | sed 'y%./+-%__p_%'` +echo $ac_n "checking for libpq-fe.h""... $ac_c" 1>&6 +echo "configure:7248: checking for libpq-fe.h" >&5 + +cat > conftest.$ac_ext < +EOF +ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" +{ (eval echo configure:7256: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` +if test -z "$ac_err"; then + rm -rf conftest* + eval "ac_cv_header_$ac_safe=yes" +else + echo "$ac_err" >&5 + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + eval "ac_cv_header_$ac_safe=no" +fi +rm -f conftest* +if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then + echo "$ac_t""yes" 1>&6 + postgres_includes_found=yes +else + echo "$ac_t""no" 1>&6 +fi + +fi + +if test "$postgres_includes_found" = "no" -a "$with_postgresql" != "no" -a \ + -d "/usr/local/pgsql/include"; then + c_switch_site="$c_switch_site -I/usr/local/pgsql/include" + ac_safe=`echo "libpq-fe.h" | sed 'y%./+-%__p_%'` +echo $ac_n "checking for libpq-fe.h""... $ac_c" 1>&6 +echo "configure:7283: checking for libpq-fe.h" >&5 + +cat > conftest.$ac_ext < +EOF +ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" +{ (eval echo configure:7291: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` +if test -z "$ac_err"; then + rm -rf conftest* + eval "ac_cv_header_$ac_safe=yes" +else + echo "$ac_err" >&5 + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + eval "ac_cv_header_$ac_safe=no" +fi +rm -f conftest* +if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then + echo "$ac_t""yes" 1>&6 + postgres_includes_found=yes +else + echo "$ac_t""no" 1>&6 +fi + + if test "$postgres_includes_found" != "yes"; then + postgres_h_path="/usr/local/pgsql/include" + fi + c_switch_site="$save_c_switch_site" +fi +if test "$postgres_includes_found" = "no" -a "$with_postgresql" != "no" -a \ + -d "/usr/include/pgsql"; then + c_switch_site="$c_switch_site -I/usr/include/pgsql" + ac_safe=`echo "libpq-fe.h" | sed 'y%./+-%__p_%'` +echo $ac_n "checking for libpq-fe.h""... $ac_c" 1>&6 +echo "configure:7321: checking for libpq-fe.h" >&5 -xe_check_libs=" -lldap " cat > conftest.$ac_ext < EOF -if { (eval echo configure:6784: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" +{ (eval echo configure:7329: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` +if test -z "$ac_err"; then rm -rf conftest* - eval "ac_cv_lib_$ac_lib_var=yes" + eval "ac_cv_header_$ac_safe=yes" else + echo "$ac_err" >&5 echo "configure: failed program was:" >&5 cat conftest.$ac_ext >&5 rm -rf conftest* - eval "ac_cv_lib_$ac_lib_var=no" + eval "ac_cv_header_$ac_safe=no" fi rm -f conftest* -xe_check_libs="" - -if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then +if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 - with_ldap_nolber=yes + postgres_includes_found=yes else echo "$ac_t""no" 1>&6 -with_ldap_nolber=no fi + if test "$postgres_includes_found" = "yes"; then + postgres_h_path="pgsql" + fi + c_switch_site="$save_c_switch_site" + fi +if test "$postgres_includes_found" = "no" -a "$with_postgresql" != "no" -a \ + -d "/usr/include/postgresql"; then + c_switch_site="$c_switch_site -I/usr/include/postgresql" + ac_safe=`echo "libpq-fe.h" | sed 'y%./+-%__p_%'` +echo $ac_n "checking for libpq-fe.h""... $ac_c" 1>&6 +echo "configure:7359: checking for libpq-fe.h" >&5 - test "$with_ldap_nolber" = "no" && { -xe_msg_checking="for ldap_open in -lldap" -test -n "-llber" && xe_msg_checking="$xe_msg_checking using extra libs -llber" -echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 -echo "configure:6809: checking "$xe_msg_checking"" >&5 -ac_lib_var=`echo ldap'_'ldap_open | sed 'y%./+-%__p_%'` - -xe_check_libs=" -lldap -llber" cat > conftest.$ac_ext < EOF -if { (eval echo configure:6825: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" +{ (eval echo configure:7367: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` +if test -z "$ac_err"; then rm -rf conftest* - eval "ac_cv_lib_$ac_lib_var=yes" + eval "ac_cv_header_$ac_safe=yes" else + echo "$ac_err" >&5 echo "configure: failed program was:" >&5 cat conftest.$ac_ext >&5 rm -rf conftest* - eval "ac_cv_lib_$ac_lib_var=no" + eval "ac_cv_header_$ac_safe=no" fi rm -f conftest* -xe_check_libs="" - -if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then +if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 - with_ldap_lber=yes + postgres_includes_found=yes else echo "$ac_t""no" 1>&6 -with_ldap_lber=no fi - } - test "$with_ldap_nolber" = "no" -a "$with_ldap_lber" = "no" && { -xe_msg_checking="for ldap_open in -lldap" -test -n "-llber -lkrb" && xe_msg_checking="$xe_msg_checking using extra libs -llber -lkrb" -echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 -echo "configure:6850: checking "$xe_msg_checking"" >&5 -ac_lib_var=`echo ldap'_'ldap_open | sed 'y%./+-%__p_%'` + if test "$postgres_includes_found" = "yes"; then + postgres_h_path="postgresql" +fi + c_switch_site="$save_c_switch_site" +fi -xe_check_libs=" -lldap -llber -lkrb" +if test "$postgres_includes_found" = "yes"; then + +echo $ac_n "checking for PQconnectdb in -lpq""... $ac_c" 1>&6 +echo "configure:7396: checking for PQconnectdb in -lpq" >&5 +ac_lib_var=`echo pq'_'PQconnectdb | sed 'y%./+-%__p_%'` + +xe_check_libs=" -lpq " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:7412: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -6876,34 +7422,34 @@ xe_check_libs="" if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then echo "$ac_t""yes" 1>&6 - with_ldap_krb=yes + with_postgresql=yes else echo "$ac_t""no" 1>&6 -with_ldap_krb=no +with_postgresql=no fi - } - test "$with_ldap_nolber" = "no" -a "$with_ldap_lber" = "no" -a "$with_ldap_krb" = "no" && { -xe_msg_checking="for ldap_open in -lldap" -test -n "-llber -lkrb -ldes" && xe_msg_checking="$xe_msg_checking using extra libs -llber -lkrb -ldes" -echo $ac_n "checking "$xe_msg_checking"""... $ac_c" 1>&6 -echo "configure:6891: checking "$xe_msg_checking"" >&5 -ac_lib_var=`echo ldap'_'ldap_open | sed 'y%./+-%__p_%'` -xe_check_libs=" -lldap -llber -lkrb -ldes" +fi +if test "$with_postgresql" = "yes"; then + +echo $ac_n "checking for PQconnectStart in -lpq""... $ac_c" 1>&6 +echo "configure:7437: checking for PQconnectStart in -lpq" >&5 +ac_lib_var=`echo pq'_'PQconnectStart | sed 'y%./+-%__p_%'` + +xe_check_libs=" -lpq " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:7453: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -6917,118 +7463,70 @@ xe_check_libs="" if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then echo "$ac_t""yes" 1>&6 - with_ldap_krbdes=yes + with_postgresqlv7=yes else echo "$ac_t""no" 1>&6 -with_ldap_krbdes=no +with_postgresqlv7=no fi - } - test -z "$with_ldap" -a \( "$with_ldap_lber" = "yes" -o "$with_ldap_nolber" = "yes" -o "$with_ldap_krb" = "yes" -o "$with_ldap_krbdes" = "yes" \) && with_ldap=yes + fi -if test "$with_ldap" = "yes"; then - { test "$extra_verbose" = "yes" && cat << \EOF - Defining HAVE_LDAP +if test "$with_postgresql" = "yes"; then + if test -n "$postgres_h_path"; then + { test "$extra_verbose" = "yes" && cat << EOF + Defining POSTGRES_H_PATH = $postgres_h_path EOF -cat >> confdefs.h <<\EOF -#define HAVE_LDAP 1 +cat >> confdefs.h <&6 -echo "configure:6958: checking for $ac_func" >&5 - -cat > conftest.$ac_ext < -/* Override any gcc2 internal prototype to avoid an error. */ -/* We use char because int might match the return type of a gcc2 - builtin and then its argument prototype would still apply. */ -char $ac_func(); - -int main() { - -/* The GNU C library defines this for functions which it implements - to always fail with ENOSYS. Some functions are actually named - something starting with __ and the normal name is an alias. */ -#if defined (__stub_$ac_func) || defined (__stub___$ac_func) -choke me -#else -$ac_func(); -#endif - -; return 0; } + fi + { test "$extra_verbose" = "yes" && cat << \EOF + Defining HAVE_POSTGRESQL EOF -if { (eval echo configure:6984: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then - rm -rf conftest* - eval "ac_cv_func_$ac_func=yes" -else - echo "configure: failed program was:" >&5 - cat conftest.$ac_ext >&5 - rm -rf conftest* - eval "ac_cv_func_$ac_func=no" -fi -rm -f conftest* +cat >> confdefs.h <<\EOF +#define HAVE_POSTGRESQL 1 +EOF +} -if eval "test \"`echo '$ac_cv_func_'$ac_func`\" = yes"; then - echo "$ac_t""yes" 1>&6 - ac_tr_func=HAVE_`echo $ac_func | tr 'abcdefghijklmnopqrstuvwxyz' 'ABCDEFGHIJKLMNOPQRSTUVWXYZ'` - { test "$extra_verbose" = "yes" && cat << EOF - Defining $ac_tr_func + if test "$with_postgresqlv7" = "yes"; then + { test "$extra_verbose" = "yes" && cat << \EOF + Defining HAVE_POSTGRESQLV7 EOF -cat >> confdefs.h <> confdefs.h <<\EOF +#define HAVE_POSTGRESQLV7 1 EOF } - -else - echo "$ac_t""no" 1>&6 -fi -done + fi + LIBS="-lpq $LIBS" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-lpq\" to \$LIBS"; fi + extra_objs="$extra_objs postgresql.o" && if test "$extra_verbose" = "yes"; then + echo " xemacs will be linked with \"postgresql.o\"" + fi fi if test "$window_system" != "none"; then echo "checking for graphics libraries" 1>&6 -echo "configure:7016: checking for graphics libraries" >&5 +echo "configure:7513: checking for graphics libraries" >&5 xpm_problem="" if test -z "$with_xpm"; then echo $ac_n "checking for Xpm - no older than 3.4f""... $ac_c" 1>&6 -echo "configure:7021: checking for Xpm - no older than 3.4f" >&5 +echo "configure:7518: checking for Xpm - no older than 3.4f" >&5 xe_check_libs=-lXpm cat > conftest.$ac_ext < int main(int c, char **v) { return c == 1 ? 0 : XpmIncludeVersion != XpmLibraryVersion() ? 1 : XpmIncludeVersion < 30406 ? 2 : 0 ;} EOF -if { (eval echo configure:7032: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:7530: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ./conftest dummy_arg; xpm_status=$?; if test "$xpm_status" = "0"; then @@ -7070,17 +7568,17 @@ EOF libs_x="-lXpm $libs_x" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-lXpm\" to \$libs_x"; fi echo $ac_n "checking for \"FOR_MSW\" xpm""... $ac_c" 1>&6 -echo "configure:7074: checking for \"FOR_MSW\" xpm" >&5 +echo "configure:7572: checking for \"FOR_MSW\" xpm" >&5 xe_check_libs=-lXpm cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:7582: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* xpm_for_msw=no else @@ -7106,15 +7604,15 @@ EOF test -z "$with_xface" && { ac_safe=`echo "compface.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for compface.h""... $ac_c" 1>&6 -echo "configure:7110: checking for compface.h" >&5 +echo "configure:7608: checking for compface.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7118: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:7616: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -7137,12 +7635,12 @@ fi } test -z "$with_xface" && { echo $ac_n "checking for UnGenFace in -lcompface""... $ac_c" 1>&6 -echo "configure:7141: checking for UnGenFace in -lcompface" >&5 +echo "configure:7639: checking for UnGenFace in -lcompface" >&5 ac_lib_var=`echo compface'_'UnGenFace | sed 'y%./+-%__p_%'` xe_check_libs=" -lcompface " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:7655: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7205,12 +7703,12 @@ EOF if test "$with_png $with_tiff" != "no no"; then echo $ac_n "checking for inflate in -lc""... $ac_c" 1>&6 -echo "configure:7209: checking for inflate in -lc" >&5 +echo "configure:7707: checking for inflate in -lc" >&5 ac_lib_var=`echo c'_'inflate | sed 'y%./+-%__p_%'` xe_check_libs=" -lc " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:7723: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7240,12 +7738,12 @@ else echo "$ac_t""no" 1>&6 echo $ac_n "checking for inflate in -lz""... $ac_c" 1>&6 -echo "configure:7244: checking for inflate in -lz" >&5 +echo "configure:7742: checking for inflate in -lz" >&5 ac_lib_var=`echo z'_'inflate | sed 'y%./+-%__p_%'` xe_check_libs=" -lz " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:7758: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7275,12 +7773,12 @@ else echo "$ac_t""no" 1>&6 echo $ac_n "checking for inflate in -lgz""... $ac_c" 1>&6 -echo "configure:7279: checking for inflate in -lgz" >&5 +echo "configure:7777: checking for inflate in -lgz" >&5 ac_lib_var=`echo gz'_'inflate | sed 'y%./+-%__p_%'` xe_check_libs=" -lgz " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:7793: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7321,15 +7819,15 @@ fi test -z "$with_jpeg" && { ac_safe=`echo "jpeglib.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for jpeglib.h""... $ac_c" 1>&6 -echo "configure:7325: checking for jpeglib.h" >&5 +echo "configure:7823: checking for jpeglib.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7333: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:7831: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -7352,12 +7850,12 @@ fi } test -z "$with_jpeg" && { echo $ac_n "checking for jpeg_destroy_decompress in -ljpeg""... $ac_c" 1>&6 -echo "configure:7356: checking for jpeg_destroy_decompress in -ljpeg" >&5 +echo "configure:7854: checking for jpeg_destroy_decompress in -ljpeg" >&5 ac_lib_var=`echo jpeg'_'jpeg_destroy_decompress | sed 'y%./+-%__p_%'` xe_check_libs=" -ljpeg " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:7870: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7404,10 +7902,10 @@ EOF png_problem="" test -z "$with_png" && { echo $ac_n "checking for pow""... $ac_c" 1>&6 -echo "configure:7408: checking for pow" >&5 +echo "configure:7906: checking for pow" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:7932: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_pow=yes" else @@ -7451,15 +7949,15 @@ fi } test -z "$with_png" && { ac_safe=`echo "png.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for png.h""... $ac_c" 1>&6 -echo "configure:7455: checking for png.h" >&5 +echo "configure:7953: checking for png.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7463: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:7961: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -7482,12 +7980,12 @@ fi } test -z "$with_png" && { echo $ac_n "checking for png_read_image in -lpng""... $ac_c" 1>&6 -echo "configure:7486: checking for png_read_image in -lpng" >&5 +echo "configure:7984: checking for png_read_image in -lpng" >&5 ac_lib_var=`echo png'_'png_read_image | sed 'y%./+-%__p_%'` xe_check_libs=" -lpng " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:8000: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7521,10 +8019,10 @@ fi } if test -z "$with_png"; then echo $ac_n "checking for workable png version information""... $ac_c" 1>&6 -echo "configure:7525: checking for workable png version information" >&5 +echo "configure:8023: checking for workable png version information" >&5 xe_check_libs="-lpng -lz" cat > conftest.$ac_ext < int main(int c, char **v) { @@ -7532,7 +8030,7 @@ echo "configure:7525: checking for workable png version information" >&5 if (strcmp(png_libpng_ver, PNG_LIBPNG_VER_STRING) != 0) return 1; return (PNG_LIBPNG_VER < 10002) ? 2 : 0 ;} EOF -if { (eval echo configure:7536: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:8034: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ./conftest dummy_arg; png_status=$?; if test "$png_status" = "0"; then @@ -7575,15 +8073,15 @@ EOF test -z "$with_tiff" && { ac_safe=`echo "tiffio.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for tiffio.h""... $ac_c" 1>&6 -echo "configure:7579: checking for tiffio.h" >&5 +echo "configure:8077: checking for tiffio.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7587: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8085: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -7606,12 +8104,12 @@ fi } test -z "$with_tiff" && { echo $ac_n "checking for TIFFClientOpen in -ltiff""... $ac_c" 1>&6 -echo "configure:7610: checking for TIFFClientOpen in -ltiff" >&5 +echo "configure:8108: checking for TIFFClientOpen in -ltiff" >&5 ac_lib_var=`echo tiff'_'TIFFClientOpen | sed 'y%./+-%__p_%'` xe_check_libs=" -ltiff " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:8124: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7661,10 +8159,10 @@ fi if test "$with_x11" = "yes"; then echo "checking for X11 graphics libraries" 1>&6 -echo "configure:7665: checking for X11 graphics libraries" >&5 +echo "configure:8163: checking for X11 graphics libraries" >&5 echo "checking for the Athena widgets" 1>&6 -echo "configure:7668: checking for the Athena widgets" >&5 +echo "configure:8166: checking for the Athena widgets" >&5 case "$with_athena" in "xaw" | "") athena_variant=Xaw athena_3d=no ;; @@ -7678,12 +8176,12 @@ echo "configure:7668: checking for the Athena widgets" >&5 if test "$athena_3d" = "no"; then echo $ac_n "checking for XawScrollbarSetThumb in -l$athena_variant""... $ac_c" 1>&6 -echo "configure:7682: checking for XawScrollbarSetThumb in -l$athena_variant" >&5 +echo "configure:8180: checking for XawScrollbarSetThumb in -l$athena_variant" >&5 ac_lib_var=`echo $athena_variant'_'XawScrollbarSetThumb | sed 'y%./+-%__p_%'` xe_check_libs=" -l$athena_variant " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:8196: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7710,12 +8208,12 @@ if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then echo "$ac_t""yes" 1>&6 echo $ac_n "checking for threeDClassRec in -l$athena_variant""... $ac_c" 1>&6 -echo "configure:7714: checking for threeDClassRec in -l$athena_variant" >&5 +echo "configure:8212: checking for threeDClassRec in -l$athena_variant" >&5 ac_lib_var=`echo $athena_variant'_'threeDClassRec | sed 'y%./+-%__p_%'` xe_check_libs=" -l$athena_variant " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:8228: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7757,12 +8255,12 @@ fi else echo $ac_n "checking for threeDClassRec in -l$athena_variant""... $ac_c" 1>&6 -echo "configure:7761: checking for threeDClassRec in -l$athena_variant" >&5 +echo "configure:8259: checking for threeDClassRec in -l$athena_variant" >&5 ac_lib_var=`echo $athena_variant'_'threeDClassRec | sed 'y%./+-%__p_%'` xe_check_libs=" -l$athena_variant " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:8275: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7791,12 +8289,12 @@ if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then else echo "$ac_t""no" 1>&6 echo $ac_n "checking for threeDClassRec in -lXaw""... $ac_c" 1>&6 -echo "configure:7795: checking for threeDClassRec in -lXaw" >&5 +echo "configure:8293: checking for threeDClassRec in -lXaw" >&5 ac_lib_var=`echo Xaw'_'threeDClassRec | sed 'y%./+-%__p_%'` xe_check_libs=" -lXaw " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:8309: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -7838,15 +8336,15 @@ fi if test "$athena_3d" = "no"; then ac_safe=`echo "X11/Xaw/ThreeD.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for X11/Xaw/ThreeD.h""... $ac_c" 1>&6 -echo "configure:7842: checking for X11/Xaw/ThreeD.h" >&5 +echo "configure:8340: checking for X11/Xaw/ThreeD.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7850: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8348: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -7866,15 +8364,15 @@ else echo "$ac_t""no" 1>&6 ac_safe=`echo "X11/Xaw/XawInit.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for X11/Xaw/XawInit.h""... $ac_c" 1>&6 -echo "configure:7870: checking for X11/Xaw/XawInit.h" >&5 +echo "configure:8368: checking for X11/Xaw/XawInit.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7878: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8376: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -7900,15 +8398,15 @@ fi else ac_safe=`echo "X11/$athena_variant/XawInit.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for X11/$athena_variant/XawInit.h""... $ac_c" 1>&6 -echo "configure:7904: checking for X11/$athena_variant/XawInit.h" >&5 +echo "configure:8402: checking for X11/$athena_variant/XawInit.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7912: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8410: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -7925,15 +8423,15 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 ac_safe=`echo "X11/$athena_variant/ThreeD.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for X11/$athena_variant/ThreeD.h""... $ac_c" 1>&6 -echo "configure:7929: checking for X11/$athena_variant/ThreeD.h" >&5 +echo "configure:8427: checking for X11/$athena_variant/ThreeD.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7937: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8435: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -7961,15 +8459,15 @@ fi if test -z "$athena_h_path"; then ac_safe=`echo "$athena_variant/XawInit.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for $athena_variant/XawInit.h""... $ac_c" 1>&6 -echo "configure:7965: checking for $athena_variant/XawInit.h" >&5 +echo "configure:8463: checking for $athena_variant/XawInit.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7973: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8471: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -7986,15 +8484,15 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 ac_safe=`echo "$athena_variant/ThreeD.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for $athena_variant/ThreeD.h""... $ac_c" 1>&6 -echo "configure:7990: checking for $athena_variant/ThreeD.h" >&5 +echo "configure:8488: checking for $athena_variant/ThreeD.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:7998: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8496: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -8023,15 +8521,15 @@ fi if test -z "$athena_h_path" -a "$athena_variant" != "Xaw3d"; then ac_safe=`echo "X11/Xaw3d/XawInit.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for X11/Xaw3d/XawInit.h""... $ac_c" 1>&6 -echo "configure:8027: checking for X11/Xaw3d/XawInit.h" >&5 +echo "configure:8525: checking for X11/Xaw3d/XawInit.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:8035: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8533: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -8048,15 +8546,15 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 ac_safe=`echo "X11/Xaw3d/ThreeD.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for X11/Xaw3d/ThreeD.h""... $ac_c" 1>&6 -echo "configure:8052: checking for X11/Xaw3d/ThreeD.h" >&5 +echo "configure:8550: checking for X11/Xaw3d/ThreeD.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:8060: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8558: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -8088,15 +8586,15 @@ fi if test -z "$athena_h_path" -a "$athena_variant" != "Xaw3d"; then ac_safe=`echo "Xaw3d/XawInit.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for Xaw3d/XawInit.h""... $ac_c" 1>&6 -echo "configure:8092: checking for Xaw3d/XawInit.h" >&5 +echo "configure:8590: checking for Xaw3d/XawInit.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:8100: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8598: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -8113,15 +8611,15 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 ac_safe=`echo "Xaw3d/ThreeD.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for Xaw3d/ThreeD.h""... $ac_c" 1>&6 -echo "configure:8117: checking for Xaw3d/ThreeD.h" >&5 +echo "configure:8615: checking for Xaw3d/ThreeD.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:8125: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8623: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -8153,15 +8651,15 @@ fi if test -z "$athena_h_path"; then ac_safe=`echo "X11/Xaw/ThreeD.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for X11/Xaw/ThreeD.h""... $ac_c" 1>&6 -echo "configure:8157: checking for X11/Xaw/ThreeD.h" >&5 +echo "configure:8655: checking for X11/Xaw/ThreeD.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:8165: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8663: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -8196,15 +8694,15 @@ fi ac_safe=`echo "Xm/Xm.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for Xm/Xm.h""... $ac_c" 1>&6 -echo "configure:8200: checking for Xm/Xm.h" >&5 +echo "configure:8698: checking for Xm/Xm.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:8208: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:8706: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -8221,12 +8719,12 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 echo $ac_n "checking for XmStringFree in -lXm""... $ac_c" 1>&6 -echo "configure:8225: checking for XmStringFree in -lXm" >&5 +echo "configure:8723: checking for XmStringFree in -lXm" >&5 ac_lib_var=`echo Xm'_'XmStringFree | sed 'y%./+-%__p_%'` xe_check_libs=" -lXm " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:8739: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -8266,9 +8764,9 @@ fi if test "$have_motif" = "yes"; then echo $ac_n "checking for Lesstif""... $ac_c" 1>&6 -echo "configure:8270: checking for Lesstif" >&5 +echo "configure:8768: checking for Lesstif" >&5 cat > conftest.$ac_ext < #ifdef LESSTIF_VERSION @@ -8601,7 +9099,7 @@ fi if test "$with_mule" = "yes" ; then echo "checking for Mule-related features" 1>&6 -echo "configure:8605: checking for Mule-related features" >&5 +echo "configure:9103: checking for Mule-related features" >&5 { test "$extra_verbose" = "yes" && cat << \EOF Defining MULE EOF @@ -8642,15 +9140,15 @@ EOF do ac_safe=`echo "$ac_hdr" | sed 'y%./+-%__p_%'` echo $ac_n "checking for $ac_hdr""... $ac_c" 1>&6 -echo "configure:8646: checking for $ac_hdr" >&5 +echo "configure:9144: checking for $ac_hdr" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:8654: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:9152: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -8681,12 +9179,12 @@ done echo $ac_n "checking for strerror in -lintl""... $ac_c" 1>&6 -echo "configure:8685: checking for strerror in -lintl" >&5 +echo "configure:9183: checking for strerror in -lintl" >&5 ac_lib_var=`echo intl'_'strerror | sed 'y%./+-%__p_%'` xe_check_libs=" -lintl " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9199: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -8749,18 +9247,18 @@ EOF fi echo "checking for Mule input methods" 1>&6 -echo "configure:8753: checking for Mule input methods" >&5 +echo "configure:9251: checking for Mule input methods" >&5 case "$with_xim" in "" | "yes" ) echo "checking for XIM" 1>&6 -echo "configure:8756: checking for XIM" >&5 +echo "configure:9254: checking for XIM" >&5 echo $ac_n "checking for XOpenIM in -lX11""... $ac_c" 1>&6 -echo "configure:8759: checking for XOpenIM in -lX11" >&5 +echo "configure:9257: checking for XOpenIM in -lX11" >&5 ac_lib_var=`echo X11'_'XOpenIM | sed 'y%./+-%__p_%'` xe_check_libs=" -lX11 " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9273: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -8795,12 +9293,12 @@ fi if test "$have_motif $have_lesstif" = "yes no"; then echo $ac_n "checking for XmImMbLookupString in -lXm""... $ac_c" 1>&6 -echo "configure:8799: checking for XmImMbLookupString in -lXm" >&5 +echo "configure:9297: checking for XmImMbLookupString in -lXm" >&5 ac_lib_var=`echo Xm'_'XmImMbLookupString | sed 'y%./+-%__p_%'` xe_check_libs=" -lXm " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9313: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -8876,15 +9374,15 @@ EOF if test "$with_xfs" = "yes" ; then echo "checking for XFontSet" 1>&6 -echo "configure:8880: checking for XFontSet" >&5 +echo "configure:9378: checking for XFontSet" >&5 echo $ac_n "checking for XmbDrawString in -lX11""... $ac_c" 1>&6 -echo "configure:8883: checking for XmbDrawString in -lX11" >&5 +echo "configure:9381: checking for XmbDrawString in -lX11" >&5 ac_lib_var=`echo X11'_'XmbDrawString | sed 'y%./+-%__p_%'` xe_check_libs=" -lX11 " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9397: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -8935,15 +9433,15 @@ EOF test "$with_wnn6" = "yes" && with_wnn=yes # wnn6 implies wnn support test -z "$with_wnn" && { ac_safe=`echo "wnn/jllib.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for wnn/jllib.h""... $ac_c" 1>&6 -echo "configure:8939: checking for wnn/jllib.h" >&5 +echo "configure:9437: checking for wnn/jllib.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:8947: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:9445: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -8968,10 +9466,10 @@ fi for ac_func in crypt do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:8972: checking for $ac_func" >&5 +echo "configure:9470: checking for $ac_func" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9496: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -9023,12 +9521,12 @@ done test "$ac_cv_func_crypt" != "yes" && { echo $ac_n "checking for crypt in -lcrypt""... $ac_c" 1>&6 -echo "configure:9027: checking for crypt in -lcrypt" >&5 +echo "configure:9525: checking for crypt in -lcrypt" >&5 ac_lib_var=`echo crypt'_'crypt | sed 'y%./+-%__p_%'` xe_check_libs=" -lcrypt " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9541: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9074,12 +9572,12 @@ fi if test -z "$with_wnn" -o "$with_wnn" = "yes"; then echo $ac_n "checking for jl_dic_list_e in -lwnn""... $ac_c" 1>&6 -echo "configure:9078: checking for jl_dic_list_e in -lwnn" >&5 +echo "configure:9576: checking for jl_dic_list_e in -lwnn" >&5 ac_lib_var=`echo wnn'_'jl_dic_list_e | sed 'y%./+-%__p_%'` xe_check_libs=" -lwnn " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9592: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9108,12 +9606,12 @@ if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then else echo "$ac_t""no" 1>&6 echo $ac_n "checking for jl_dic_list_e in -lwnn4""... $ac_c" 1>&6 -echo "configure:9112: checking for jl_dic_list_e in -lwnn4" >&5 +echo "configure:9610: checking for jl_dic_list_e in -lwnn4" >&5 ac_lib_var=`echo wnn4'_'jl_dic_list_e | sed 'y%./+-%__p_%'` xe_check_libs=" -lwnn4 " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9626: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9142,12 +9640,12 @@ if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then else echo "$ac_t""no" 1>&6 echo $ac_n "checking for jl_dic_list_e in -lwnn6""... $ac_c" 1>&6 -echo "configure:9146: checking for jl_dic_list_e in -lwnn6" >&5 +echo "configure:9644: checking for jl_dic_list_e in -lwnn6" >&5 ac_lib_var=`echo wnn6'_'jl_dic_list_e | sed 'y%./+-%__p_%'` xe_check_libs=" -lwnn6 " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9660: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9176,12 +9674,12 @@ if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then else echo "$ac_t""no" 1>&6 echo $ac_n "checking for dic_list_e in -lwnn6_fromsrc""... $ac_c" 1>&6 -echo "configure:9180: checking for dic_list_e in -lwnn6_fromsrc" >&5 +echo "configure:9678: checking for dic_list_e in -lwnn6_fromsrc" >&5 ac_lib_var=`echo wnn6_fromsrc'_'dic_list_e | sed 'y%./+-%__p_%'` xe_check_libs=" -lwnn6_fromsrc " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9694: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9240,12 +9738,12 @@ EOF if test "$with_wnn6" != "no"; then echo $ac_n "checking for jl_fi_dic_list in -l$libwnn""... $ac_c" 1>&6 -echo "configure:9244: checking for jl_fi_dic_list in -l$libwnn" >&5 +echo "configure:9742: checking for jl_fi_dic_list in -l$libwnn" >&5 ac_lib_var=`echo $libwnn'_'jl_fi_dic_list | sed 'y%./+-%__p_%'` xe_check_libs=" -l$libwnn " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9758: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9291,15 +9789,15 @@ EOF if test "$with_canna" != "no"; then ac_safe=`echo "canna/jrkanji.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for canna/jrkanji.h""... $ac_c" 1>&6 -echo "configure:9295: checking for canna/jrkanji.h" >&5 +echo "configure:9793: checking for canna/jrkanji.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:9303: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:9801: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -9326,15 +9824,15 @@ fi c_switch_site="$c_switch_site -I/usr/local/canna/include" ac_safe=`echo "canna/jrkanji.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for canna/jrkanji.h""... $ac_c" 1>&6 -echo "configure:9330: checking for canna/jrkanji.h" >&5 +echo "configure:9828: checking for canna/jrkanji.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:9338: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:9836: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -9362,15 +9860,15 @@ fi test -z "$with_canna" && { ac_safe=`echo "canna/RK.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for canna/RK.h""... $ac_c" 1>&6 -echo "configure:9366: checking for canna/RK.h" >&5 +echo "configure:9864: checking for canna/RK.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:9374: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:9872: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -9393,12 +9891,12 @@ fi } test -z "$with_canna" && { echo $ac_n "checking for RkBgnBun in -lRKC""... $ac_c" 1>&6 -echo "configure:9397: checking for RkBgnBun in -lRKC" >&5 +echo "configure:9895: checking for RkBgnBun in -lRKC" >&5 ac_lib_var=`echo RKC'_'RkBgnBun | sed 'y%./+-%__p_%'` xe_check_libs=" -lRKC " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9911: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9432,12 +9930,12 @@ fi } test -z "$with_canna" && { echo $ac_n "checking for jrKanjiControl in -lcanna""... $ac_c" 1>&6 -echo "configure:9436: checking for jrKanjiControl in -lcanna" >&5 +echo "configure:9934: checking for jrKanjiControl in -lcanna" >&5 ac_lib_var=`echo canna'_'jrKanjiControl | sed 'y%./+-%__p_%'` xe_check_libs=" -lcanna " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:9950: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9497,12 +9995,12 @@ if test "$need_motif" = "yes" ; then libs_x="-lXm $libs_x" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-lXm\" to \$libs_x"; fi echo $ac_n "checking for layout_object_getvalue in -li18n""... $ac_c" 1>&6 -echo "configure:9501: checking for layout_object_getvalue in -li18n" >&5 +echo "configure:9999: checking for layout_object_getvalue in -li18n" >&5 ac_lib_var=`echo i18n'_'layout_object_getvalue | sed 'y%./+-%__p_%'` xe_check_libs=" -li18n " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10015: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9599,10 +10097,10 @@ fi for ac_func in cbrt closedir dup2 eaccess fmod fpathconf frexp ftime getaddrinfo gethostname getnameinfo getpagesize gettimeofday getcwd getpt getwd logb lrand48 matherr mkdir mktime perror poll random rename res_init rint rmdir select setitimer setpgid setlocale setsid sigblock sighold sigprocmask snprintf stpcpy strcasecmp strerror tzset ulimit usleep utimes waitpid vsnprintf fsync ftruncate umask do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:9603: checking for $ac_func" >&5 +echo "configure:10101: checking for $ac_func" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10127: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -9660,10 +10158,10 @@ extra_objs="$extra_objs realpath.o" && if test "$extra_verbose" = "yes"; then for ac_func in getloadavg do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:9664: checking for $ac_func" >&5 +echo "configure:10162: checking for $ac_func" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10188: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -9722,12 +10220,12 @@ then echo $ac_n "checking for kstat_open in -lkstat""... $ac_c" 1>&6 -echo "configure:9726: checking for kstat_open in -lkstat" >&5 +echo "configure:10224: checking for kstat_open in -lkstat" >&5 ac_lib_var=`echo kstat'_'kstat_open | sed 'y%./+-%__p_%'` xe_check_libs=" -lkstat " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10240: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9772,12 +10270,12 @@ fi echo $ac_n "checking for kvm_read in -lkvm""... $ac_c" 1>&6 -echo "configure:9776: checking for kvm_read in -lkvm" >&5 +echo "configure:10274: checking for kvm_read in -lkvm" >&5 ac_lib_var=`echo kvm'_'kvm_read | sed 'y%./+-%__p_%'` xe_check_libs=" -lkvm " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10290: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -9822,16 +10320,16 @@ fi fi echo $ac_n "checking whether netdb declares h_errno""... $ac_c" 1>&6 -echo "configure:9826: checking whether netdb declares h_errno" >&5 +echo "configure:10324: checking whether netdb declares h_errno" >&5 cat > conftest.$ac_ext < int main() { return h_errno; ; return 0; } EOF -if { (eval echo configure:9835: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10333: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* echo "$ac_t""yes" 1>&6 { test "$extra_verbose" = "yes" && cat << \EOF @@ -9851,16 +10349,16 @@ fi rm -f conftest* echo $ac_n "checking for sigsetjmp""... $ac_c" 1>&6 -echo "configure:9855: checking for sigsetjmp" >&5 +echo "configure:10353: checking for sigsetjmp" >&5 cat > conftest.$ac_ext < int main() { sigjmp_buf bar; sigsetjmp (bar, 0); ; return 0; } EOF -if { (eval echo configure:9864: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:10362: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* echo "$ac_t""yes" 1>&6 { test "$extra_verbose" = "yes" && cat << \EOF @@ -9880,11 +10378,11 @@ fi rm -f conftest* echo $ac_n "checking whether localtime caches TZ""... $ac_c" 1>&6 -echo "configure:9884: checking whether localtime caches TZ" >&5 +echo "configure:10382: checking whether localtime caches TZ" >&5 if test "$ac_cv_func_tzset" = "yes"; then cat > conftest.$ac_ext < #if STDC_HEADERS @@ -9919,7 +10417,7 @@ main() exit (0); } EOF -if { (eval echo configure:9923: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:10421: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then emacs_cv_localtime_cache=no else @@ -9949,9 +10447,9 @@ fi if test "$HAVE_TIMEVAL" = "yes"; then echo $ac_n "checking whether gettimeofday accepts one or two arguments""... $ac_c" 1>&6 -echo "configure:9953: checking whether gettimeofday accepts one or two arguments" >&5 +echo "configure:10451: checking whether gettimeofday accepts one or two arguments" >&5 cat > conftest.$ac_ext < conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10474: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* echo "$ac_t""two" 1>&6 else @@ -9995,19 +10492,19 @@ fi echo $ac_n "checking for inline""... $ac_c" 1>&6 -echo "configure:9999: checking for inline" >&5 +echo "configure:10496: checking for inline" >&5 ac_cv_c_inline=no for ac_kw in inline __inline__ __inline; do cat > conftest.$ac_ext <&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:10508: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* ac_cv_c_inline=$ac_kw; break else @@ -10039,35 +10536,25 @@ EOF ;; esac -if test "$ac_cv_c_inline" != "no"; then - { test "$extra_verbose" = "yes" && cat << \EOF - Defining HAVE_INLINE -EOF -cat >> confdefs.h <<\EOF -#define HAVE_INLINE 1 -EOF -} - - test "$GCC" = "yes" && extra_objs="$extra_objs inline.o" && if test "$extra_verbose" = "yes"; then +test "$ac_cv_c_inline" != "no" -a "$GCC" = "yes" && extra_objs="$extra_objs inline.o" && if test "$extra_verbose" = "yes"; then echo " xemacs will be linked with \"inline.o\"" fi -fi # The Ultrix 4.2 mips builtin alloca declared by alloca.h only works # for constant arguments. Useless! echo $ac_n "checking for working alloca.h""... $ac_c" 1>&6 -echo "configure:10061: checking for working alloca.h" >&5 +echo "configure:10548: checking for working alloca.h" >&5 cat > conftest.$ac_ext < int main() { void *p = alloca(2 * sizeof(int)); ; return 0; } EOF -if { (eval echo configure:10071: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10558: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_cv_header_alloca_h=yes else @@ -10091,10 +10578,10 @@ EOF fi echo $ac_n "checking for alloca""... $ac_c" 1>&6 -echo "configure:10095: checking for alloca" >&5 +echo "configure:10582: checking for alloca" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10613: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* ac_cv_func_alloca_works=yes else @@ -10161,10 +10648,10 @@ EOF echo $ac_n "checking whether alloca needs Cray hooks""... $ac_c" 1>&6 -echo "configure:10165: checking whether alloca needs Cray hooks" >&5 +echo "configure:10652: checking whether alloca needs Cray hooks" >&5 cat > conftest.$ac_ext <&6 if test $ac_cv_os_cray = yes; then for ac_func in _getb67 GETB67 getb67; do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:10192: checking for $ac_func" >&5 +echo "configure:10679: checking for $ac_func" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:10705: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -10244,10 +10731,10 @@ done fi echo $ac_n "checking stack direction for C alloca""... $ac_c" 1>&6 -echo "configure:10248: checking stack direction for C alloca" >&5 +echo "configure:10735: checking stack direction for C alloca" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:10757: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_c_stack_direction=1 else @@ -10295,15 +10782,15 @@ test -n "$ALLOCA" && extra_objs="$extra_objs $ALLOCA" && if test "$extra_verbos ac_safe=`echo "vfork.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for vfork.h""... $ac_c" 1>&6 -echo "configure:10299: checking for vfork.h" >&5 +echo "configure:10786: checking for vfork.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:10307: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:10794: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -10331,10 +10818,10 @@ else fi echo $ac_n "checking for working vfork""... $ac_c" 1>&6 -echo "configure:10335: checking for working vfork" >&5 +echo "configure:10822: checking for working vfork" >&5 cat > conftest.$ac_ext < @@ -10429,7 +10916,7 @@ main() { } } EOF -if { (eval echo configure:10433: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:10920: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_func_vfork_works=yes else @@ -10455,10 +10942,10 @@ fi echo $ac_n "checking for working strcoll""... $ac_c" 1>&6 -echo "configure:10459: checking for working strcoll" >&5 +echo "configure:10946: checking for working strcoll" >&5 cat > conftest.$ac_ext < main () @@ -10468,7 +10955,7 @@ main () strcoll ("123", "456") >= 0); } EOF -if { (eval echo configure:10472: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:10959: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_func_strcoll_works=yes else @@ -10496,10 +10983,10 @@ fi for ac_func in getpgrp do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:10500: checking for $ac_func" >&5 +echo "configure:10987: checking for $ac_func" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:11013: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -10550,10 +11037,10 @@ fi done echo $ac_n "checking whether getpgrp takes no argument""... $ac_c" 1>&6 -echo "configure:10554: checking whether getpgrp takes no argument" >&5 +echo "configure:11041: checking whether getpgrp takes no argument" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:11099: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then ac_cv_func_getpgrp_void=yes else @@ -10635,10 +11122,10 @@ fi echo $ac_n "checking for working mmap""... $ac_c" 1>&6 -echo "configure:10639: checking for working mmap" >&5 +echo "configure:11126: checking for working mmap" >&5 case "$opsys" in ultrix* ) have_mmap=no ;; *) cat > conftest.$ac_ext < #include @@ -10671,7 +11158,7 @@ int main (int argc, char *argv[]) return 1; } EOF -if { (eval echo configure:10675: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:11162: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then have_mmap=yes else @@ -10693,8 +11180,38 @@ EOF } -test "$GNU_MALLOC" != "yes" -a "$have_mmap" != "yes" && rel_alloc=no -test "$rel_alloc" = "default" -a "$have_mmap" = "yes" && rel_alloc=yes +test "$GNU_MALLOC" != "yes" -a "$have_mmap" != "yes" && rel_alloc=no +if test "$rel_alloc $have_mmap" = "default yes"; then + if test "$doug_lea_malloc" = "yes"; then + echo $ac_n "checking for M_MMAP_THRESHOLD""... $ac_c" 1>&6 +echo "configure:11188: checking for M_MMAP_THRESHOLD" >&5 + cat > conftest.$ac_ext < +int main() { + +#ifndef M_MMAP_THRESHOLD +#error No M_MMAP_THRESHOLD :-( +!@+$%^&*_)(_ - unlikely to compile... +#endif + +; return 0; } +EOF +if { (eval echo configure:11202: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then + rm -rf conftest* + rel_alloc=no; echo "$ac_t""yes" 1>&6; +else + echo "configure: failed program was:" >&5 + cat conftest.$ac_ext >&5 + rm -rf conftest* + rel_alloc=yes; echo "$ac_t""no" 1>&6; +fi +rm -f conftest* + else + rel_alloc=yes + fi +fi test "$rel_alloc" = "yes" && { test "$extra_verbose" = "yes" && cat << \EOF Defining REL_ALLOC EOF @@ -10706,15 +11223,15 @@ EOF ac_safe=`echo "termios.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for termios.h""... $ac_c" 1>&6 -echo "configure:10710: checking for termios.h" >&5 +echo "configure:11227: checking for termios.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:10718: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11235: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -10757,15 +11274,15 @@ else echo "$ac_t""no" 1>&6 ac_safe=`echo "termio.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for termio.h""... $ac_c" 1>&6 -echo "configure:10761: checking for termio.h" >&5 +echo "configure:11278: checking for termio.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:10769: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11286: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -10797,10 +11314,10 @@ fi echo $ac_n "checking for socket""... $ac_c" 1>&6 -echo "configure:10801: checking for socket" >&5 +echo "configure:11318: checking for socket" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:11344: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_socket=yes" else @@ -10838,15 +11355,15 @@ if eval "test \"`echo '$ac_cv_func_'socket`\" = yes"; then echo "$ac_t""yes" 1>&6 ac_safe=`echo "netinet/in.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for netinet/in.h""... $ac_c" 1>&6 -echo "configure:10842: checking for netinet/in.h" >&5 +echo "configure:11359: checking for netinet/in.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:10850: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11367: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -10863,15 +11380,15 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 ac_safe=`echo "arpa/inet.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for arpa/inet.h""... $ac_c" 1>&6 -echo "configure:10867: checking for arpa/inet.h" >&5 +echo "configure:11384: checking for arpa/inet.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:10875: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11392: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -10896,9 +11413,9 @@ EOF } echo $ac_n "checking "for sun_len member in struct sockaddr_un"""... $ac_c" 1>&6 -echo "configure:10900: checking "for sun_len member in struct sockaddr_un"" >&5 +echo "configure:11417: checking "for sun_len member in struct sockaddr_un"" >&5 cat > conftest.$ac_ext < @@ -10909,7 +11426,7 @@ int main() { static struct sockaddr_un x; x.sun_len = 1; ; return 0; } EOF -if { (eval echo configure:10913: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:11430: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* echo "$ac_t""yes" 1>&6; { test "$extra_verbose" = "yes" && cat << \EOF Defining HAVE_SOCKADDR_SUN_LEN @@ -10927,9 +11444,9 @@ else fi rm -f conftest* echo $ac_n "checking "for ip_mreq struct in netinet/in.h"""... $ac_c" 1>&6 -echo "configure:10931: checking "for ip_mreq struct in netinet/in.h"" >&5 +echo "configure:11448: checking "for ip_mreq struct in netinet/in.h"" >&5 cat > conftest.$ac_ext < @@ -10939,7 +11456,7 @@ int main() { static struct ip_mreq x; ; return 0; } EOF -if { (eval echo configure:10943: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:11460: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* echo "$ac_t""yes" 1>&6; { test "$extra_verbose" = "yes" && cat << \EOF Defining HAVE_MULTICAST @@ -10970,10 +11487,10 @@ fi echo $ac_n "checking for msgget""... $ac_c" 1>&6 -echo "configure:10974: checking for msgget" >&5 +echo "configure:11491: checking for msgget" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:11517: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_msgget=yes" else @@ -11011,15 +11528,15 @@ if eval "test \"`echo '$ac_cv_func_'msgget`\" = yes"; then echo "$ac_t""yes" 1>&6 ac_safe=`echo "sys/ipc.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for sys/ipc.h""... $ac_c" 1>&6 -echo "configure:11015: checking for sys/ipc.h" >&5 +echo "configure:11532: checking for sys/ipc.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11023: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11540: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11036,15 +11553,15 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 ac_safe=`echo "sys/msg.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for sys/msg.h""... $ac_c" 1>&6 -echo "configure:11040: checking for sys/msg.h" >&5 +echo "configure:11557: checking for sys/msg.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11048: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11565: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11082,15 +11599,15 @@ fi ac_safe=`echo "dirent.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for dirent.h""... $ac_c" 1>&6 -echo "configure:11086: checking for dirent.h" >&5 +echo "configure:11603: checking for dirent.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11094: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11611: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11117,15 +11634,15 @@ else echo "$ac_t""no" 1>&6 ac_safe=`echo "sys/dir.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for sys/dir.h""... $ac_c" 1>&6 -echo "configure:11121: checking for sys/dir.h" >&5 +echo "configure:11638: checking for sys/dir.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11129: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11646: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11158,15 +11675,15 @@ fi ac_safe=`echo "nlist.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for nlist.h""... $ac_c" 1>&6 -echo "configure:11162: checking for nlist.h" >&5 +echo "configure:11679: checking for nlist.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11170: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11687: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11196,22 +11713,22 @@ fi echo "checking "for sound support"" 1>&6 -echo "configure:11200: checking "for sound support"" >&5 +echo "configure:11717: checking "for sound support"" >&5 test -z "$with_native_sound" -a -n "$native_sound_lib" && with_native_sound=yes if test "$with_native_sound" != "no"; then if test -n "$native_sound_lib"; then ac_safe=`echo "multimedia/audio_device.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for multimedia/audio_device.h""... $ac_c" 1>&6 -echo "configure:11207: checking for multimedia/audio_device.h" >&5 +echo "configure:11724: checking for multimedia/audio_device.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11215: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11732: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11259,12 +11776,12 @@ fi if test -z "$native_sound_lib"; then echo $ac_n "checking for ALopenport in -laudio""... $ac_c" 1>&6 -echo "configure:11263: checking for ALopenport in -laudio" >&5 +echo "configure:11780: checking for ALopenport in -laudio" >&5 ac_lib_var=`echo audio'_'ALopenport | sed 'y%./+-%__p_%'` xe_check_libs=" -laudio " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:11796: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -11306,12 +11823,12 @@ fi if test -z "$native_sound_lib"; then echo $ac_n "checking for AOpenAudio in -lAlib""... $ac_c" 1>&6 -echo "configure:11310: checking for AOpenAudio in -lAlib" >&5 +echo "configure:11827: checking for AOpenAudio in -lAlib" >&5 ac_lib_var=`echo Alib'_'AOpenAudio | sed 'y%./+-%__p_%'` xe_check_libs=" -lAlib " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:11843: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -11360,15 +11877,15 @@ fi for dir in "machine" "sys" "linux"; do ac_safe=`echo "${dir}/soundcard.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for ${dir}/soundcard.h""... $ac_c" 1>&6 -echo "configure:11364: checking for ${dir}/soundcard.h" >&5 +echo "configure:11881: checking for ${dir}/soundcard.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11372: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11889: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11389,10 +11906,10 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo " xemacs will be linked with \"linuxplay.o\"" fi { test "$extra_verbose" = "yes" && cat << EOF - Defining SOUNDCARD_H_PATH = "${dir}/soundcard.h" + Defining SOUNDCARD_H_FILE = "${dir}/soundcard.h" EOF cat >> confdefs.h <&6 -echo "configure:11426: checking for audio/audiolib.h" >&5 +echo "configure:11943: checking for audio/audiolib.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11434: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:11951: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11448,12 +11965,12 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo $ac_n "checking for AuOpenServer in -laudio""... $ac_c" 1>&6 -echo "configure:11452: checking for AuOpenServer in -laudio" >&5 +echo "configure:11969: checking for AuOpenServer in -laudio" >&5 ac_lib_var=`echo audio'_'AuOpenServer | sed 'y%./+-%__p_%'` xe_check_libs=" -laudio " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:11985: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -11503,7 +12020,7 @@ EOF fi libs_x="-laudio $libs_x" && if test "$extra_verbose" = "yes"; then echo " Prepending \"-laudio\" to \$libs_x"; fi cat > conftest.$ac_ext < EOF @@ -11534,7 +12051,7 @@ if test "$with_esd_sound" != "no"; then # Extract the first word of "esd-config", so it can be a program name with args. set dummy esd-config; ac_word=$2 echo $ac_n "checking for $ac_word""... $ac_c" 1>&6 -echo "configure:11538: checking for $ac_word" >&5 +echo "configure:12055: checking for $ac_word" >&5 if test -n "$have_esd_config"; then ac_cv_prog_have_esd_config="$have_esd_config" # Let the user override the test. @@ -11563,10 +12080,10 @@ fi c_switch_site="$c_switch_site `esd-config --cflags`" && if test "$extra_verbose" = "yes"; then echo " Appending \"`esd-config --cflags`\" to \$c_switch_site"; fi LIBS="`esd-config --libs` $LIBS" && if test "$extra_verbose" = "yes"; then echo " Prepending \"`esd-config --libs`\" to \$LIBS"; fi echo $ac_n "checking for esd_play_stream""... $ac_c" 1>&6 -echo "configure:11567: checking for esd_play_stream" >&5 +echo "configure:12084: checking for esd_play_stream" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12110: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_esd_play_stream=yes" else @@ -11640,7 +12157,7 @@ test -z "$with_tty" && with_tty=yes if test "$with_tty" = "yes" ; then echo "checking for TTY-related features" 1>&6 -echo "configure:11644: checking for TTY-related features" >&5 +echo "configure:12161: checking for TTY-related features" >&5 { test "$extra_verbose" = "yes" && cat << \EOF Defining HAVE_TTY EOF @@ -11656,12 +12173,12 @@ EOF if test -z "$with_ncurses"; then echo $ac_n "checking for tgetent in -lncurses""... $ac_c" 1>&6 -echo "configure:11660: checking for tgetent in -lncurses" >&5 +echo "configure:12177: checking for tgetent in -lncurses" >&5 ac_lib_var=`echo ncurses'_'tgetent | sed 'y%./+-%__p_%'` xe_check_libs=" -lncurses " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12193: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -11705,15 +12222,15 @@ EOF ac_safe=`echo "ncurses/curses.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for ncurses/curses.h""... $ac_c" 1>&6 -echo "configure:11709: checking for ncurses/curses.h" >&5 +echo "configure:12226: checking for ncurses/curses.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11717: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:12234: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11728,22 +12245,22 @@ fi rm -f conftest* if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 - curses_h_path=ncurses/curses.h + curses_h_file=ncurses/curses.h else echo "$ac_t""no" 1>&6 fi ac_safe=`echo "ncurses/term.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for ncurses/term.h""... $ac_c" 1>&6 -echo "configure:11739: checking for ncurses/term.h" >&5 +echo "configure:12256: checking for ncurses/term.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11747: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:12264: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11758,7 +12275,7 @@ fi rm -f conftest* if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 - term_h_path=ncurses/term.h + term_h_file=ncurses/term.h else echo "$ac_t""no" 1>&6 fi @@ -11773,15 +12290,15 @@ fi c_switch_site="$c_switch_site -I/usr/include/ncurses" ac_safe=`echo "ncurses/curses.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for ncurses/curses.h""... $ac_c" 1>&6 -echo "configure:11777: checking for ncurses/curses.h" >&5 +echo "configure:12294: checking for ncurses/curses.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11785: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:12302: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11796,7 +12313,7 @@ fi rm -f conftest* if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo "$ac_t""yes" 1>&6 - curses_h_path=ncurses/curses.h + curses_h_file=ncurses/curses.h else echo "$ac_t""no" 1>&6 fi @@ -11816,12 +12333,12 @@ fi for lib in curses termlib termcap; do echo $ac_n "checking for tgetent in -l$lib""... $ac_c" 1>&6 -echo "configure:11820: checking for tgetent in -l$lib" >&5 +echo "configure:12337: checking for tgetent in -l$lib" >&5 ac_lib_var=`echo $lib'_'tgetent | sed 'y%./+-%__p_%'` xe_check_libs=" -l$lib " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12353: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -11863,12 +12380,12 @@ fi else echo $ac_n "checking for tgetent in -lcurses""... $ac_c" 1>&6 -echo "configure:11867: checking for tgetent in -lcurses" >&5 +echo "configure:12384: checking for tgetent in -lcurses" >&5 ac_lib_var=`echo curses'_'tgetent | sed 'y%./+-%__p_%'` xe_check_libs=" -lcurses " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12400: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -11897,12 +12414,12 @@ if eval "test \"`echo '$ac_cv_lib_'$ac_lib_var`\" = yes" ; then else echo "$ac_t""no" 1>&6 echo $ac_n "checking for tgetent in -ltermcap""... $ac_c" 1>&6 -echo "configure:11901: checking for tgetent in -ltermcap" >&5 +echo "configure:12418: checking for tgetent in -ltermcap" >&5 ac_lib_var=`echo termcap'_'tgetent | sed 'y%./+-%__p_%'` xe_check_libs=" -ltermcap " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12434: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -11943,33 +12460,33 @@ fi fi fi { test "$extra_verbose" = "yes" && cat << EOF - Defining CURSES_H_PATH = "${curses_h_path-curses.h}" + Defining CURSES_H_FILE = "${curses_h_file-curses.h}" EOF cat >> confdefs.h <> confdefs.h <&6 -echo "configure:11965: checking for gpm.h" >&5 +echo "configure:12482: checking for gpm.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:11973: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:12490: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -11992,12 +12509,12 @@ fi } test -z "$with_gpm" && { echo $ac_n "checking for Gpm_Open in -lgpm""... $ac_c" 1>&6 -echo "configure:11996: checking for Gpm_Open in -lgpm" >&5 +echo "configure:12513: checking for Gpm_Open in -lgpm" >&5 ac_lib_var=`echo gpm'_'Gpm_Open | sed 'y%./+-%__p_%'` xe_check_libs=" -lgpm " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12529: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -12058,20 +12575,20 @@ test "$with_x11" = "yes" -o "$with_tty" = "yes" && extra_objs="$extra_objs event test "$with_database_gdbm $with_database_dbm $with_database_berkdb" \ != "no no no" && echo "checking for database support" 1>&6 -echo "configure:12062: checking for database support" >&5 +echo "configure:12579: checking for database support" >&5 if test "$with_database_gdbm $with_database_dbm" != "no no"; then ac_safe=`echo "ndbm.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for ndbm.h""... $ac_c" 1>&6 -echo "configure:12067: checking for ndbm.h" >&5 +echo "configure:12584: checking for ndbm.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:12075: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:12592: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -12101,12 +12618,12 @@ fi if test "$with_database_gdbm" != "no"; then echo $ac_n "checking for dbm_open in -lgdbm""... $ac_c" 1>&6 -echo "configure:12105: checking for dbm_open in -lgdbm" >&5 +echo "configure:12622: checking for dbm_open in -lgdbm" >&5 ac_lib_var=`echo gdbm'_'dbm_open | sed 'y%./+-%__p_%'` xe_check_libs=" -lgdbm " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12638: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -12145,10 +12662,10 @@ fi if test "$with_database_dbm" != "no"; then echo $ac_n "checking for dbm_open""... $ac_c" 1>&6 -echo "configure:12149: checking for dbm_open" >&5 +echo "configure:12666: checking for dbm_open" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12692: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_dbm_open=yes" else @@ -12190,12 +12707,12 @@ else echo $ac_n "checking for dbm_open in -ldbm""... $ac_c" 1>&6 -echo "configure:12194: checking for dbm_open in -ldbm" >&5 +echo "configure:12711: checking for dbm_open in -ldbm" >&5 ac_lib_var=`echo dbm'_'dbm_open | sed 'y%./+-%__p_%'` xe_check_libs=" -ldbm " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12727: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -12247,11 +12764,14 @@ EOF if test "$with_database_berkdb" != "no"; then echo $ac_n "checking for Berkeley db.h""... $ac_c" 1>&6 -echo "configure:12251: checking for Berkeley db.h" >&5 - for path in "db/db.h" "db.h"; do +echo "configure:12768: checking for Berkeley db.h" >&5 + for header in "db/db.h" "db.h"; do cat > conftest.$ac_ext < +#if !(defined __GLIBC__ && __GLIBC_MINOR__ >= 1) #ifdef HAVE_INTTYPES_H #define __BIT_TYPES_DEFINED__ #include @@ -12262,33 +12782,34 @@ typedef uint32_t u_int32_t; typedef uint64_t u_int64_t; #endif #endif -#include <$path> +#endif +#include <$header> int main() { ; return 0; } EOF -if { (eval echo configure:12272: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:12793: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* - db_h_path="$path"; break + db_h_file="$header"; break else echo "configure: failed program was:" >&5 cat conftest.$ac_ext >&5 fi rm -f conftest* done - if test -z "$db_h_path" + if test -z "$db_h_file" then echo "$ac_t""no" 1>&6; with_database_berkdb=no - else echo "$ac_t""$db_h_path" 1>&6 + else echo "$ac_t""$db_h_file" 1>&6 fi if test "$with_database_berkdb" != "no"; then echo $ac_n "checking for Berkeley DB version""... $ac_c" 1>&6 -echo "configure:12288: checking for Berkeley DB version" >&5 +echo "configure:12809: checking for Berkeley DB version" >&5 cat > conftest.$ac_ext < +#include <$db_h_file> #if DB_VERSION_MAJOR > 1 yes #endif @@ -12305,10 +12826,10 @@ fi rm -f conftest* echo $ac_n "checking for $dbfunc""... $ac_c" 1>&6 -echo "configure:12309: checking for $dbfunc" >&5 +echo "configure:12830: checking for $dbfunc" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12856: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$dbfunc=yes" else @@ -12350,12 +12871,12 @@ else echo $ac_n "checking for $dbfunc in -ldb""... $ac_c" 1>&6 -echo "configure:12354: checking for $dbfunc in -ldb" >&5 +echo "configure:12875: checking for $dbfunc in -ldb" >&5 ac_lib_var=`echo db'_'$dbfunc | sed 'y%./+-%__p_%'` xe_check_libs=" -ldb " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12891: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -12392,10 +12913,10 @@ fi if test "$with_database_berkdb" = "yes"; then { test "$extra_verbose" = "yes" && cat << EOF - Defining DB_H_PATH = "$db_h_path" + Defining DB_H_FILE = "$db_h_file" EOF cat >> confdefs.h <&6 -echo "configure:12434: checking for SOCKSinit in -lsocks" >&5 +echo "configure:12955: checking for SOCKSinit in -lsocks" >&5 ac_lib_var=`echo socks'_'SOCKSinit | sed 'y%./+-%__p_%'` xe_check_libs=" -lsocks " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:12971: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -12501,19 +13022,19 @@ fi if test "$with_modules" != "no"; then echo "checking for module support" 1>&6 -echo "configure:12505: checking for module support" >&5 +echo "configure:13026: checking for module support" >&5 ac_safe=`echo "dlfcn.h" | sed 'y%./+-%__p_%'` echo $ac_n "checking for dlfcn.h""... $ac_c" 1>&6 -echo "configure:12509: checking for dlfcn.h" >&5 +echo "configure:13030: checking for dlfcn.h" >&5 cat > conftest.$ac_ext < EOF ac_try="$ac_cpp conftest.$ac_ext >/dev/null 2>conftest.out" -{ (eval echo configure:12517: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } +{ (eval echo configure:13038: \"$ac_try\") 1>&5; (eval $ac_try) 2>&5; } ac_err=`grep -v '^ *+' conftest.out | grep -v "^conftest.${ac_ext}\$"` if test -z "$ac_err"; then rm -rf conftest* @@ -12531,12 +13052,12 @@ if eval "test \"`echo '$ac_cv_header_'$ac_safe`\" = yes"; then echo $ac_n "checking for dlopen in -ldl""... $ac_c" 1>&6 -echo "configure:12535: checking for dlopen in -ldl" >&5 +echo "configure:13056: checking for dlopen in -ldl" >&5 ac_lib_var=`echo dl'_'dlopen | sed 'y%./+-%__p_%'` xe_check_libs=" -ldl " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:13072: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -12566,12 +13087,12 @@ else echo "$ac_t""no" 1>&6 echo $ac_n "checking for dlopen in -lc""... $ac_c" 1>&6 -echo "configure:12570: checking for dlopen in -lc" >&5 +echo "configure:13091: checking for dlopen in -lc" >&5 ac_lib_var=`echo c'_'dlopen | sed 'y%./+-%__p_%'` xe_check_libs=" -lc " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:13107: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -12621,12 +13142,12 @@ EOF else echo $ac_n "checking for shl_load in -ldld""... $ac_c" 1>&6 -echo "configure:12625: checking for shl_load in -ldld" >&5 +echo "configure:13146: checking for shl_load in -ldld" >&5 ac_lib_var=`echo dld'_'shl_load | sed 'y%./+-%__p_%'` xe_check_libs=" -ldld " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:13162: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -12664,12 +13185,12 @@ else echo "$ac_t""no" 1>&6 echo $ac_n "checking for dld_init in -ldld""... $ac_c" 1>&6 -echo "configure:12668: checking for dld_init in -ldld" >&5 +echo "configure:13189: checking for dld_init in -ldld" >&5 ac_lib_var=`echo dld'_'dld_init | sed 'y%./+-%__p_%'` xe_check_libs=" -ldld " cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:13205: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_lib_$ac_lib_var=yes" else @@ -12725,7 +13246,7 @@ xehost=$canonical xealias=$internal_configuration echo "checking how to build dynamic libraries for ${xehost}" 1>&6 -echo "configure:12729: checking how to build dynamic libraries for ${xehost}" >&5 +echo "configure:13250: checking how to build dynamic libraries for ${xehost}" >&5 # Transform *-*-linux* to *-*-linux-gnu*, to support old configure scripts. case "$xehost" in *-*-linux-gnu*) ;; @@ -12753,9 +13274,9 @@ if test "$GCC" = "yes"; then XEGCC=yes else echo $ac_n "checking checking whether we are using GNU C""... $ac_c" 1>&6 -echo "configure:12757: checking checking whether we are using GNU C" >&5 +echo "configure:13278: checking checking whether we are using GNU C" >&5 cat > conftest.$ac_ext <&6 -echo "configure:12781: checking how to produce PIC code" >&5 +echo "configure:13302: checking how to produce PIC code" >&5 wl= can_build_shared=yes @@ -12789,7 +13310,7 @@ if test "$XEGCC" = yes; then # PIC is the default for these OSes. ;; - os2*) + aix3* | aix4* | os2*) # We can build DLLs from non-PIC. ;; amigaos*) @@ -12870,18 +13391,18 @@ if test -n "$dll_cflags"; then # Check to make sure the dll_cflags actually works. echo $ac_n "checking if PIC flag ${dll_cflags} really works""... $ac_c" 1>&6 -echo "configure:12874: checking if PIC flag ${dll_cflags} really works" >&5 +echo "configure:13395: checking if PIC flag ${dll_cflags} really works" >&5 save_CFLAGS="$CFLAGS" CFLAGS="$CFLAGS $dll_cflags -DPIC" cat > conftest.$ac_ext <&5; (eval $ac_compile) 2>&5; }; then +if { (eval echo configure:13406: \"$ac_compile\") 1>&5; (eval $ac_compile) 2>&5; }; then rm -rf conftest* # On HP-UX, the stripped-down bundled CC doesn't accept +Z, but also @@ -12912,7 +13433,7 @@ cc_produces_so=no xldf= xcldf= echo $ac_n "checking if C compiler can produce shared libraries""... $ac_c" 1>&6 -echo "configure:12916: checking if C compiler can produce shared libraries" >&5 +echo "configure:13437: checking if C compiler can produce shared libraries" >&5 if test "$XEGCC" = yes; then xcldf="-shared" xldf="-shared" @@ -12963,14 +13484,14 @@ if test -n "$xcldf"; then xe_libs= ac_link='${CC-cc} -o conftest $CFLAGS '"$xe_cppflags $xe_ldflags"' conftest.$ac_ext '"$xe_libs"' 1>&5' cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:13495: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* cc_produces_so=yes else @@ -12995,7 +13516,7 @@ if test -z "$LTLD"; then if test "$XEGCC" = yes; then # Check if gcc -print-prog-name=ld gives a path. echo $ac_n "checking for ld used by GCC""... $ac_c" 1>&6 -echo "configure:12999: checking for ld used by GCC" >&5 +echo "configure:13520: checking for ld used by GCC" >&5 ac_prog=`($CC -print-prog-name=ld) 2>&5` case "$ac_prog" in # Accept absolute paths. @@ -13020,7 +13541,7 @@ echo "configure:12999: checking for ld used by GCC" >&5 esac else echo $ac_n "checking for GNU ld""... $ac_c" 1>&6 -echo "configure:13024: checking for GNU ld" >&5 +echo "configure:13545: checking for GNU ld" >&5 fi if test -z "$LTLD"; then @@ -13058,7 +13579,7 @@ ld_dynamic_link_flags= # Check to see if it really is or isn't GNU ld. echo $ac_n "checking if the linker is GNU ld""... $ac_c" 1>&6 -echo "configure:13062: checking if the linker is GNU ld" >&5 +echo "configure:13583: checking if the linker is GNU ld" >&5 # I'd rather use --version here, but apparently some GNU ld's only accept -v. if $LTLD -v 2>&1 &5; then xe_gnu_ld=yes @@ -13081,11 +13602,12 @@ if test "$cc_produces_so" = "yes"; then dll_ld=$CC dll_ldflags=$xcldf can_build_shared=yes + ld_shlibs=yes else # OK - only NOW do we futz about with ld. # See if the linker supports building shared libraries. echo $ac_n "checking whether the linker supports shared libraries""... $ac_c" 1>&6 -echo "configure:13089: checking whether the linker supports shared libraries" >&5 +echo "configure:13611: checking whether the linker supports shared libraries" >&5 dll_ld=$CC dll_ldflags=$LDFLAGS ld_shlibs=yes @@ -13300,10 +13822,10 @@ EOF for ac_func in dlerror _dlerror do echo $ac_n "checking for $ac_func""... $ac_c" 1>&6 -echo "configure:13304: checking for $ac_func" >&5 +echo "configure:13826: checking for $ac_func" >&5 cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then +if { (eval echo configure:13852: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest${ac_exeext}; then rm -rf conftest* eval "ac_cv_func_$ac_func=yes" else @@ -13365,11 +13887,11 @@ done fi cat > conftest.$ac_ext <&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 +if { (eval echo configure:13895: \"$ac_link\") 1>&5; (eval $ac_link) 2>&5; } && test -s conftest && (./conftest; exit $?) 2>&5 then : else @@ -13896,11 +14418,11 @@ cat >> confdefs.h <<\EOF EOF } -test "$no_doc_file" = "yes" && { test "$extra_verbose" = "yes" && cat << \EOF - Defining NO_DOC_FILE +test "$quick_build" = "yes" && { test "$extra_verbose" = "yes" && cat << \EOF + Defining QUICK_BUILD EOF cat >> confdefs.h <<\EOF -#define NO_DOC_FILE 1 +#define QUICK_BUILD 1 EOF } @@ -13985,59 +14507,113 @@ fi echo " XEmacs ${emacs_major_version}.${emacs_minor_version}${xemacs_betaname} \"$xemacs_codename\" configured for \`$canonical'. - - Where should the build process find the source code? $srcdir - What installation prefix should install use? $prefix - What operating system and machine description files should XEmacs use? - \`$opsysfile' and \`$machfile' - What compiler should XEmacs be built with? $CC $CFLAGS - Should XEmacs use the GNU version of malloc? ${GNU_MALLOC}${GNU_MALLOC_reason} - Should XEmacs use the relocating allocator for buffers? $rel_alloc - What window system should XEmacs use? ${window_system}" -if test "$with_x11" = "yes"; then - echo " Where do we find X Windows header files? $x_includes" - echo " Where do we find X Windows libraries? $x_libraries" -fi +" +echo " +Compilation / Installation:" +echo " Source code location: $srcdir" +echo " Installation prefix: $prefix" if test -n "$site_includes"; then - echo " Additional header files: $site_includes" + echo " Additional header files: $site_includes" fi if test -n "$site_libraries"; then - echo " Additional libraries: $site_libraries" + echo " Additional libraries: $site_libraries" fi if test -n "$site_prefixes"; then - echo " Additional prefixes: $site_prefixes" + echo " Additional prefixes: $site_prefixes" fi if test -n "$runpath"; then - echo " Runtime library search path: $runpath" + echo " Runtime library search path: $runpath" +fi +echo " Operating system description file: \`$opsysfile'" +echo " Machine description file: \`$machfile'" +echo " Compiler: $CC $CFLAGS" +echo " Relocating allocator for buffers: $rel_alloc" +echo " GNU version of malloc: ${GNU_MALLOC}${GNU_MALLOC_reason}" + +echo " +Window System:" +if test "$with_msw" = "yes"; then + echo " Compiling in support for the Microsoft window system." +fi +if test "$with_x11" = "yes"; then + echo " Compiling in support for the X window system:" + echo " - X Windows headers location: $x_includes" + echo " - X Windows libraries location: $x_libraries" + if test "$with_xauth" != yes; then + echo " - Xau (X authority) not available." + fi + if test "$with_xmu" != yes; then + echo " - Xmu library not available; substituting equivalent routines." + fi + if test "$with_wmcommand" != no; then + echo " - Handling WM_COMMAND properly." + fi fi if test "$have_xaw" = "yes"; then - echo " Athena library to link: $athena_lib" - echo " Athena header include path: $athena_h_path" + echo " Compiling in support for the Athena widget set:" + echo " - Athena headers location: $athena_h_path" + echo " - Athena library to link: $athena_lib" fi -test "$with_dnet" = yes && echo " Compiling in support for DNET." -test "$with_socks" = yes && echo " Compiling in support for SOCKS." -test "$with_xauth" = yes && echo " Compiling in support for XAUTH." -if test "$with_xmu" != yes -a "$with_x11" = yes; then - echo " No Xmu; substituting equivalent routines." +case "$with_menubars" in + lucid ) echo " Using Lucid menubars." ;; + motif ) echo " Using Motif menubars." + echo " *WARNING* The Motif menubar implementation is currently buggy." + echo " We recommend using the Lucid menubar instead." + echo " Re-run configure with --with-menubars='lucid'." ;; + msw ) echo " Using MS-Windows menubars." ;; +esac +case "$with_scrollbars" in + lucid ) echo " Using Lucid scrollbars." ;; + motif ) echo " Using Motif scrollbars." ;; + athena ) echo " Using Athena scrollbars." ;; + msw ) echo " Using MS-Windows scrollbars." ;; +esac +case "$with_dialogs" in + motif ) echo " Using Motif dialog boxes." + if test "$unexec" = "unexaix.o"; then if test "`uname -v`" = 4 -a "`uname -r`" -ge 3; then + echo " *WARNING* The Motif dialog boxes cause problems on AIX 4.3 and higher." + echo " We recommend using the Athena dialog boxes instead." + echo " Install libXaw and re-run configure with --with-dialogs='athena'." + echo " Read the PROBLEMS file for more information." + fi; fi ;; + athena ) echo " Using Athena dialog boxes." ;; + msw ) echo " Using MS-Windows dialog boxes." ;; +esac +case "$with_widgets" in + motif ) echo " Using Motif native widgets." ;; + athena ) echo " Using Athena native widgets." ;; + msw ) echo " Using MS-Windows native widgets." ;; +esac +if test "$with_dragndrop" = yes; then + echo " Compiling in support for Drag'n'Drop (EXPERIMENTAL)." + echo " - Drag'n'Drop prototype: $dragndrop_proto." fi +echo " +TTY:" +test "$with_ncurses" = yes && echo " Compiling in support for ncurses." +test "$with_gpm" = yes && echo " Compiling in support for GPM (General Purpose Mouse)." + +echo " +Images:" +test "$with_gif" = yes && echo " Compiling in support for GIF images (builtin)." if test "$with_xpm" = yes; then - echo " Compiling in support for XPM images." + echo " Compiling in support for XPM images." elif test "$with_x11" = yes; then - echo " --------------------------------------------------------------------" - echo " WARNING: Compiling without XPM support." + echo " WARNING: -----------------------------------------------------------" + echo " WARNING: Compiling without XPM image support." if test "$xpm_problem" != ""; then echo " Reason: $xpm_problem" fi echo " WARNING: You should strongly consider installing XPM." echo " WARNING: Otherwise toolbars and other graphics will look suboptimal." echo " WARNING: (a copy may be found in ftp://ftp.xemacs.org/pub/xemacs/aux)" - echo " --------------------------------------------------------------------" + echo " WARNING: -----------------------------------------------------------" fi if test "$with_png" = yes; then - echo " Compiling in support for PNG image handling." + echo " Compiling in support for PNG images." elif test "$window_system" != "none"; then - echo " --------------------------------------------------------------------" + echo " WARNING: -----------------------------------------------------------" echo " WARNING: Compiling without PNG image support." if test "$png_problem" != ""; then echo " Reason: $png_problem" @@ -14045,93 +14621,74 @@ elif test "$window_system" != "none"; then echo " WARNING: You should strongly consider installing the PNG libraries." echo " WARNING: Otherwise certain images and glyphs may not display." echo " WARNING: (a copy may be found in ftp://ftp.xemacs.org/pub/xemacs/aux)" - echo " --------------------------------------------------------------------" + echo " WARNING: -----------------------------------------------------------" fi -test "$with_gif" = yes && echo " Compiling in support for (builtin) GIF image handling." -test "$with_jpeg" = yes && echo " Compiling in support for JPEG image handling." -test "$with_tiff" = yes && echo " Compiling in support for TIFF image handling." +test "$with_jpeg" = yes && echo " Compiling in support for JPEG images." +test "$with_tiff" = yes && echo " Compiling in support for TIFF images." test "$with_xface" = yes && echo " Compiling in support for X-Face message headers." -test "$with_native_sound" = yes && echo " Compiling in native sound support." -test "$with_nas_sound" = yes && echo " Compiling in network sound (NAS) support." -test "$old_nas" = yes && echo " nas library lacks error trapping, will play synchronously." -test "$with_esd_sound" = yes && echo " Compiling in support for Enlightened Sound Daemon (ESD)." +echo " +Sound:" +test "$with_native_sound" = yes && echo " Compiling in support for sound (native)." +test "$with_nas_sound" = yes && echo " Compiling in support for NAS (network audio system)." +test "$old_nas" = yes && echo " - NAS library lacks error trapping; will play synchronously." +test "$with_esd_sound" = yes && echo " Compiling in support for ESD (Enlightened Sound Daemon)." -test "$with_database_berkdb" = yes && echo " Compiling in support for Berkeley DB." +echo " +Databases:" +test "$with_database_berkdb" = yes && echo " Compiling in support for Berkeley database." test "$with_database_dbm" = yes && echo " Compiling in support for DBM." test "$with_database_gdbm" = yes && echo " Compiling in support for GNU DBM." +test "$with_ldap" = yes && echo " Compiling in support for LDAP." +if test "$with_postgresql" = yes; then + echo " Compiling in support for PostgreSQL." + if test "$with_postgresqlv7" = yes; then + echo " - Using PostgreSQL V7 bindings." + fi + if test -n "$postgres_h_path"; then + echo " - PostgreSQL headers location: $postgres_h_path" + fi +fi -test "$with_ldap" = yes && echo " Compiling in support for LDAP." - -test "$with_ncurses" = yes && echo " Compiling in support for ncurses." -test "$with_gpm" = yes && echo " Compiling in support for GPM (General Purpose Mouse)." - -test "$with_mule" = yes && echo " Compiling in Mule (multi-lingual) support." +echo " +Internationalization:" +test "$with_mule" = yes && echo " Compiling in support for Mule (multi-lingual Emacs)." test "$with_utf_2000" = yes && echo " Using UTF-2000 (UTF-8) buffer/string representation." -test "$with_text_coding" = yes && echo " Compiling in Text coding support." -test "$with_file_coding" = yes && echo " Compiling in File coding support." -test "$with_xim" != no && echo " Compiling in XIM (X11R5+ I18N input method) support." -test "$with_xim" = motif && echo " Using Motif to provide XIM support." -test "$with_xim" = xlib && echo " Using raw Xlib to provide XIM support." -test "$with_xfs" = yes && echo " Using XFontSet to provide bilingual menubar." -test "$with_canna" = yes && echo " Compiling in support for Canna on Mule." +test "$with_text_coding" = yes && echo " Compiling in support for text coding." +test "$with_file_coding" = yes && echo " Compiling in support for file coding." +test "$with_xim" != no && echo " Compiling in support for XIM (X11R5+ I18N input method)." +test "$with_xim" = motif && echo " - Using Motif to provide XIM support." +test "$with_xim" = xlib && echo " - Using raw Xlib to provide XIM support." +test "$with_xfs" = yes && echo " - Using XFontSet to provide bilingual menubar." +test "$with_canna" = yes && echo " Compiling in support for Canna on Mule." if test "$with_wnn" = yes; then echo " Compiling in support for the WNN input method on Mule." - test "$with_wnn6" = yes && echo " Using WNN version 6." + test "$with_wnn6" = yes && echo " - Using WNN version 6." fi -test "$with_i18n3" = yes && echo " Compiling in I18N support, level 3 (doesn't currently work)." +test "$with_i18n3" = yes && echo " Compiling in support for I18N level 3 (doesn't currently work)." + +echo " +Mail:" +test "$with_pop" = yes && echo " Compiling in support for POP mail retrieval." +test "$with_kerberos" = yes && echo " Compiling in support for Kerberos POP authentication." +test "$with_hesiod" = yes && echo " Compiling in support for Hesiod POP server access." +echo " Compiling in support for \"$mail_locking\" mail spool file locking method." -test "$with_cde" = yes && echo " Compiling in support for CDE." +echo " +Other Features:" test "$with_tooltalk" = yes && echo " Compiling in support for ToolTalk." -test "$with_offix" = yes && echo " Compiling in support for OffiX." -test "$with_dragndrop" = yes && echo " Compiling in EXPERIMENTAL support for Drag'n'Drop ($dragndrop_proto )." test "$with_workshop" = yes && echo " Compiling in support for Sun WorkShop." -test "$with_wmcommand" != no && echo " Compiling in support for proper WM_COMMAND handling." -case "$with_menubars" in - lucid ) echo " Using Lucid menubars." ;; - motif ) echo " Using Motif menubars." - echo " *WARNING* The Motif menubar implementation is currently buggy." - echo " We recommend using the Lucid menubar instead." - echo " Re-run configure with --with-menubars='lucid'." ;; - msw ) echo " Using MS-Windows menubars." ;; -esac -case "$with_scrollbars" in - lucid ) echo " Using Lucid scrollbars." ;; - motif ) echo " Using Motif scrollbars." ;; - athena ) echo " Using Athena scrollbars." ;; - msw ) echo " Using MS-Windows scrollbars." ;; -esac -case "$with_widgets" in - motif ) echo " Using Motif native widgets." ;; - athena ) echo " Using Athena native widgets." ;; - msw ) echo " Using MS-Windows native widgets." ;; -esac -case "$with_dialogs" in - motif ) - echo " Using Motif dialog boxes." - if test "$unexec" = "unexaix.o"; then if test "`uname -v`" = 4 -a "`uname -r`" -ge 3; then - echo " *WARNING* The Motif dialog boxes cause problems on AIX 4.3 and higher." - echo " We recommend using the Athena dialog boxes instead." - echo " Install libXaw and re-run configure with --with-dialogs='athena'." - echo " Read the PROBLEMS file for more information." - fi; fi - ;; - athena ) echo " Using Athena dialog boxes." ;; - msw ) echo " Using MS-Windows dialog boxes." ;; -esac -test "$with_modules" = "yes" && echo " Compiling in dynamic shared object module support." -test "$with_clash_detection" = yes && \ +test "$with_socks" = yes && echo " Compiling in support for SOCKS." +test "$with_dnet" = yes && echo " Compiling in support for DNET." +test "$with_modules" = "yes" && echo " Compiling in support for dynamic shared object modules." +test "$with_clash_detection" != "no" && \ echo " Clash detection will use \"$lockdir\" for locking files." -echo " movemail will use \"$mail_locking\" for locking mail spool files." -test "$with_pop" = yes && echo " Using POP for mail access." -test "$with_kerberos" = yes && echo " Using Kerberos for POP authentication." -test "$with_hesiod" = yes && echo " Using Hesiod to get POP server host." -test "$use_union_type" = yes && echo " Using the union type for Lisp_Objects." -test "$pdump" = yes && echo " Using the new portable dumper (wishful thinking)." -test "$debug" = yes && echo " Compiling in extra code for debugging." -test "$usage_tracking" = yes && echo " Compiling with usage tracking active (Sun internal)." -if test "$error_check_extents $error_check_typecheck $error_check_bufpos $error_check_gc $error_check_malloc" \ - != "no no no no no"; then +test "$use_union_type" = yes && echo " Using the union type for Lisp_Objects." +test "$pdump" = yes && echo " Using the new portable dumper." +test "$debug" = yes && echo " Compiling in support for extra debugging code." +test "$usage_tracking" = yes && echo " Compiling in support for active usage tracking (Sun internal)." +if test "$error_check_extents $error_check_typecheck $error_check_bufpos $error_check_gc $error_check_malloc $error_check_glyphs" \ + != "no no no no no no"; then echo " WARNING: ---------------------------------------------------------" echo " WARNING: Compiling in support for runtime error checking." echo " WARNING: XEmacs will run noticeably more slowly as a result." diff --git a/configure.in b/configure.in index 3ebf3cf..7c69a86 100644 --- a/configure.in +++ b/configure.in @@ -14,7 +14,7 @@ define([AC_INIT_NOTICE], ### from the file `./configure.in'. ### To rebuild it, execute the command ### autoconf -### in the this directory. You must have autoconf version 2.12 or later. +### in the this directory. You must have autoconf version 2.13 or later. ### This file is part of XEmacs. @@ -50,7 +50,7 @@ dnl configuration code and autoconf macros. dnl We use the m4 quoting characters [ ] (as established by the dnl autoconf system), so quote them like this: [[foo]] -AC_PREREQ(2.12)dnl +AC_PREREQ(2.13)dnl dnl Redefine some standard autoconf macros dnl here is how XEmacs is different: dnl - no cache file @@ -307,6 +307,7 @@ mandir='${prefix}/man' dnl Initialize some other variables. subdirs= MFLAGS= MAKEFLAGS= +SHELL=${CONFIG_SHELL-/bin/sh} dnl Maximum number of lines to put in a shell here document. ac_max_here_lines=12 ])dnl AC_INIT_PARSE_ARGS @@ -368,9 +369,6 @@ with_scrollbars='' with_widgets='' with_dialogs='' with_file_coding='' -dnl const_is_losing is removed - we rely on AC_C_CONST instead. -dnl We accept (and ignore) the --const-is-losing option for compatibility. -dnl const_is_losing='yes' cpp='' cppflags='' libs='' ldflags='' dynamic='' with_x11='' @@ -510,6 +508,7 @@ while test $# != 0; do with_sparcworks | \ with_tooltalk | \ with_ldap | \ + with_postgresql | \ with_pop | \ with_kerberos | \ with_hesiod | \ @@ -518,7 +517,6 @@ while test $# != 0; do external_widget | \ verbose | \ extra_verbose | \ - const_is_losing | \ usage_tracking | \ use_union_type | \ pdump | \ @@ -527,7 +525,7 @@ while test $# != 0; do memory_usage_stats | \ with_clash_detection | \ with_modules | \ - no_doc_file ) + quick_build ) dnl Make sure the value given was either "yes" or "no". case "$val" in y | ye | yes ) val=yes ;; @@ -715,14 +713,17 @@ The default is to autodetect all sound support."]) byte_code ) error_check_byte_code=yes ;; nobyte_code ) error_check_byte_code=no ;; + glyphs ) error_check_glyphs=yes ;; + noglyphs ) error_check_glyphs=no ;; + * ) bogus_error_check=yes ;; esac if test "$bogus_error_check" -o \ \( -n "$new_default" -a -n "$echeck_notfirst" \) ; then if test "$error_check_default" = yes ; then - types="\`all' (default), \`none', \`noextents', \`notypecheck', \`nobufpos', \`nogc', \`nomalloc', and \`nobyte-code'." + types="\`all' (default), \`none', \`noextents', \`notypecheck', \`nobufpos', \`nogc', \`nomalloc', \`noglyphs' and \`nobyte-code'." else - types="\`all', \`none' (default), \`extents', \`typecheck', \`bufpos', \`gc', \`malloc', and \`byte-code'." + types="\`all', \`none' (default), \`extents', \`typecheck', \`bufpos', \`gc', \`malloc', \`glyphs' and \`byte-code'." fi USAGE_ERROR(["Valid types for the \`--$optname' option are: $types."]) @@ -733,6 +734,7 @@ The default is to autodetect all sound support."]) error_check_gc=$new_default error_check_malloc=$new_default error_check_byte_code=$new_default + error_check_glyphs=$new_default new_default= # reset this fi echeck_notfirst=true @@ -806,6 +808,7 @@ The default is to autodetect all sound support."]) "use_minimal_tagbits" | \ "use_indexed_lrecord_implementation" | \ "run_in_place" | \ + "const_is_losing" | \ "with_gnu_make" ) AC_MSG_WARN([Obsolete option \`--$optname' ignored.]) ;; @@ -1006,6 +1009,8 @@ else PROGNAME=xemacs fi +AC_DEFINE_UNQUOTED(EMACS_PROGNAME, "$PROGNAME") + dnl ---------------------------------- dnl Error checking and debugging flags dnl ---------------------------------- @@ -1018,6 +1023,7 @@ test "${error_check_bufpos=$beta}" = yes && AC_DEFINE(ERROR_CHECK_BUFPOS) test "${error_check_gc=$beta}" = yes && AC_DEFINE(ERROR_CHECK_GC) test "${error_check_malloc=$beta}" = yes && AC_DEFINE(ERROR_CHECK_MALLOC) test "${error_check_byte_code=$beta}" = yes && AC_DEFINE(ERROR_CHECK_BYTE_CODE) +test "${error_check_glyphs=$beta}" = yes && AC_DEFINE(ERROR_CHECK_GLYPHS) dnl debug=yes must be set when error checking is present. This should be dnl fixed up. dnl debug implies other options @@ -1088,8 +1094,7 @@ case "$canonical" in m68*-sony-* ) machine=news ;; mips-sony-* ) machine=news-risc ;; clipper-* ) machine=clipper ;; - arm-* ) machine=arm ;; - armv[34][lb]-* ) machine=arm ;; + arm* ) machine=arm ;; ns32k-* ) machine=ns32000 ;; esac @@ -1599,7 +1604,7 @@ if test "$with_workshop" = "yes"; then XE_ADD_OBJS(sunpro.o) fi -if test "$with_clash_detection" = "yes"; then +if test "$with_clash_detection" != "no"; then AC_DEFINE(CLASH_DETECTION) XE_ADD_OBJS(filelock.o) fi @@ -1646,7 +1651,44 @@ test -n "$NON_GNU_CPP" -a "$GCC" != "yes" -a -z "$CPP" && CPP="$NON_GNU_CPP" AC_PROG_CPP -AC_AIX +dnl -------------------------------------------------------------------- +dnl Compiler feature macros +dnl -------------------------------------------------------------------- + +AC_AIX dnl Defines _ALL_SOURCE on AIX. + +dnl Determine which SMART_INCLUDE macro will work for this system +cat > $srcdir/conffoo.h < +#define CONFFOO_H_PATH $srcdir +#define CONFFOO_INCLUDE(file) SMART_INCLUDE (CONFFOO_H_PATH,file) +#include CONFFOO_INCLUDE(conffoo.h) +], [ AC_MSG_RESULT(direct); AC_DEFINE(SMART_INCLUDE_INDIRECTIONS,0) ], +AC_TRY_COMPILE(,[ +#define GLUE_INCLUDE(path,file) <##path##/##file##> +#define SMART_INCLUDE(path,file) GLUE_INCLUDE(path,file) +#define CONFFOO_H_PATH $srcdir +#define CONFFOO_INCLUDE(file) SMART_INCLUDE(CONFFOO_H_PATH,file) +#include CONFFOO_INCLUDE(conffoo.h) +], [ AC_MSG_RESULT(simple); AC_DEFINE(SMART_INCLUDE_INDIRECTIONS,1) ], +AC_TRY_COMPILE(,[ +#define GLUE_INCLUDE_2(path,file) <##path##/##file##> +#define GLUE_INCLUDE_1(path,file) GLUE_INCLUDE_2(path,file) +#define SMART_INCLUDE(path,file) GLUE_INCLUDE_1(path,file) +#define CONFFOO_H_PATH $srcdir +#define CONFFOO_INCLUDE(file) SMART_INCLUDE (CONFFOO_H_PATH,file) +#include CONFFOO_INCLUDE(conffoo.h) +], [ AC_MSG_RESULT(double); AC_DEFINE(SMART_INCLUDE_INDIRECTIONS,2) ], + AC_MSG_ERROR([Cannot define a proper SMART_INCLUDE macro. Please report.])))) +rm -f $srcdir/conffoo.h + + +dnl We want feature macros defined here and in config.h.in, so that +dnl the compilation environment at configure time and compile time agree. AC_MSG_CHECKING(for GNU libc) AC_TRY_COMPILE([#include ],[ @@ -1660,6 +1702,23 @@ dnl I'm tired of pop being broken with GLIBC -slb dnl Well. then why not fix fucking pop? test "$have_glibc" = "yes" && AC_DEFINE(_GNU_SOURCE) +dnl We'd like to use vendor extensions, where available. +dnl We'd like to use functions from the latest Unix98 standards. +dnl See http://www.opengroup.org/onlinepubs/007908799/xsh/compilation.html +case "$opsys" in + sol2) + AC_DEFINE(__EXTENSIONS__) + dnl Solaris 2 before 2.5 had some bugs with feature test macro interaction. + if test "$os_release" -ge 55; then + AC_DEFINE(_XOPEN_SOURCE,500) + AC_DEFINE(_XOPEN_SOURCE_EXTENDED) + fi ;; + linux) + AC_DEFINE(_POSIX_C_SOURCE,199506L) + AC_DEFINE(_XOPEN_SOURCE,500) + AC_DEFINE(_XOPEN_SOURCE_EXTENDED) + ;; +esac dnl Identify compilers to enable compiler-specific hacks. dnl Add support for other compilers HERE! @@ -1740,8 +1799,11 @@ CPP_to_sh(UNEXEC, unexec, unexec.o) CPP_to_sh(LD_SWITCH_SHARED, ld_switch_shared, -c) +#define ORDINARY_LD "\$(CC) \$(CFLAGS)" +configure___ ordinary_ld=ORDINARY_LD + #ifdef ORDINARY_LINK -#define LD "\$(CC) \$(CFLAGS)" +#define LD ORDINARY_LD #else /* no ORDINARY LINK */ #ifdef COFF_ENCAPSULATE #define LD "\$(CC) -nostdlib" @@ -1795,6 +1857,15 @@ changequote([, ])dnl rm $tempcname +if test "$pdump" = "yes"; then + ordinary_link="yes" + ld="${ordinary_ld}" + start_files= + libs_standard= + unexec= + lib_gcc= +fi + dnl For debugging... test "$extra_verbose" = "yes" && \ PRINT_VAR(libs_machine libs_system libs_termcap libs_standard @@ -1842,6 +1913,70 @@ if test "$cflags_specified" = "no"; then fi fi +dnl Search for GCC specific build problems we know about +if test "$GCC" = "yes"; then +AC_MSG_CHECKING(for buggy gcc versions) +GCC_VERSION=`$CC --version` +case `uname -s`:`uname -m`:$GCC_VERSION in + dnl egcs 2.90.21 (egcs-1.00 release) + dnl egcs 2.90.29 (egcs-1.0.3 release) + *:sun4*:2.8.1|*:sun4*:egcs-2.90.*) + dnl Don't use -O2 with gcc 2.8.1 and egcs 1.0 under SPARC architectures + dnl without also using `-fno-schedule-insns'. + case "$CFLAGS" in + *-O2*|*-O3*) + case "$CFLAGS" in + *-fno-schedule-insns*) ;; + *) + AC_MSG_RESULT(Yes) + AC_MSG_WARN(Don't use -O2 with gcc 2.8.1 and egcs 1.0 under SPARC architectures) + AC_MSG_WARN(without also using -fno-schedule-insns.) + AC_MSG_ERROR(Aborting due to known problem) + ;; + esac + ;; + esac + ;; + dnl egcs-2.91.57 (egcs-1.1 release) + dnl egcs-2.91.66 (egcs-1.1.2 release) + Linux:alpha:egcs-2.91.*) + AC_MSG_RESULT(Yes) + AC_MSG_WARN(There have been reports of egcs-1.1 not compiling XEmacs correctly on) + AC_MSG_WARN(Alpha Linux. There have also been reports that egcs-1.0.3a is O.K.) + AC_MSG_ERROR(Aborting due to known problem) + ;; + *:i*86*:2.7.2*) + case "$GCC_VERSION" in + 2.7.2) + case "$CFLAGS" in + *-O2*|*-O3*) + case "$CFLAGS" in + *-fno-strength-reduce*) ;; + *) + AC_MSG_RESULT(Yes) + AC_MSG_WARN(Don't use -O2 with gcc 2.7.2 under Intel/XXX without also using) + AC_MSG_WARN(-fno-strength-reduce.) + AC_MSG_ERROR(Aborting due to known problem) + ;; + esac + ;; + esac + ;; + esac + case "$CFLAGS" in + *-fno-caller-saves*) ;; + *) + AC_MSG_RESULT(Yes) + AC_MSG_WARN(Don't use -O2 with gcc 2.7.2 under Intel/XXX without also using) + AC_MSG_WARN(-fno-caller-saves.) + AC_MSG_ERROR(Aborting due to known problem) + ;; + esac + ;; +esac +fi +AC_MSG_RESULT(No) + dnl Inform compiler that certain flags are meant for the linker dnl XE_PROTECT_LINKER_FLAGS(shell_var) define([XE_PROTECT_LINKER_FLAGS], [ @@ -1865,7 +2000,8 @@ XE_PROTECT_LINKER_FLAGS(ld_call_shared) dnl Add s&m-determined objects (including unexec) to link line test -n "$objects_machine" && XE_ADD_OBJS($objects_machine) test -n "$objects_system" && XE_ADD_OBJS($objects_system) -test -n "$unexec" && XE_ADD_OBJS($unexec) +test -n "$unexec" && test ! "$pdump" = "yes" && XE_ADD_OBJS($unexec) +test "$pdump" = "yes" && XE_ADD_OBJS(dumper.o) dnl Dynodump (Solaris 2.x, x<6) AC_MSG_CHECKING(for dynodump) @@ -2001,10 +2137,10 @@ dnl safe to use them at link time, and less controversial than forcing dnl the run-time to use the link-time libraries. This also helps avoid dnl mismatches between the link-time and run-time libraries. -dnl #### Unfortunately, there are horrible libc4 and libc5 libraries -dnl listed in /etc/ld.so.conf on some systems, and including them on -dnl the link path leads to linking in utterly broken libc's. -dnl There are many clever ways of approaching this problem, +dnl #### Unfortunately, there are horrible libc4 and libc5 libraries +dnl listed in /etc/ld.so.conf on some systems, and including them on +dnl the link path leads to linking in utterly broken libc's. +dnl There are many clever ways of approaching this problem, dnl but finding out that actually works... dnl if test -z "$LD_RUN_PATH" -a -r "/etc/ld.so.conf"; then @@ -2147,26 +2283,26 @@ AC_TRY_LINK([extern void (* __after_morecore_hook)();],[__after_morecore_hook = if test "$system_malloc" = "yes" ; then GNU_MALLOC=no GNU_MALLOC_reason=" - (The GNU allocators don't work with this system configuration)." + - The GNU allocators don't work with this system configuration." elif test "$with_system_malloc" = "yes" ; then GNU_MALLOC=no GNU_MALLOC_reason=" - (User chose not to use GNU allocators)." + - User chose not to use GNU allocators." elif test "$with_debug_malloc" = "yes" ; then GNU_MALLOC=no GNU_MALLOC_reason=" - (User chose to use Debugging Malloc)." + - User chose to use Debugging Malloc." fi if test "$doug_lea_malloc" = "yes" ; then if test "$GNU_MALLOC" = yes ; then GNU_MALLOC_reason=" - (Using Doug Lea's new malloc from the GNU C Library.)" + - Using Doug Lea's new malloc from the GNU C Library." fi AC_DEFINE(DOUG_LEA_MALLOC) if test "$after_morecore_hook_exists" = "no" ; then GNU_MALLOC_reason=" - (Using Doug Lea's new malloc from the Linux C Library.)" + - Using Doug Lea's new malloc from the Linux C Library." AC_DEFINE(_NO_MALLOC_WARNING_) fi use_minimal_tagbits=yes @@ -2198,9 +2334,25 @@ AC_PROG_INSTALL AC_PROG_YACC dnl checks for header files -AC_CHECK_HEADERS(mach/mach.h sys/stropts.h sys/timeb.h sys/time.h unistd.h) -AC_CHECK_HEADERS(utime.h locale.h libgen.h fcntl.h ulimit.h cygwin/version.h) -AC_CHECK_HEADERS(kstat.h sys/pstat.h inttypes.h sys/un.h a.out.h) +AC_CHECK_HEADERS(dnl + a.out.h dnl + cygwin/version.h dnl + fcntl.h dnl + inttypes.h dnl + libgen.h dnl + locale.h dnl + mach/mach.h dnl + sys/param.h dnl + sys/pstat.h dnl + sys/stropts.h dnl + sys/time.h dnl + sys/timeb.h dnl + sys/un.h dnl + kstat.h dnl + ulimit.h dnl + unistd.h dnl + utime.h dnl +) AC_HEADER_SYS_WAIT AC_HEADER_STDC AC_HEADER_TIME @@ -2325,13 +2477,15 @@ if ${CC-cc} '-###' -xildon no_such_file.c 2>&1 | grep '^[^ ]*/ild ' > /dev/nu fi dnl Link with "-z ignore" on Solaris if supported -if test "$opsys" = "sol2" && test "$OS_RELEASE" -ge 56; then - AC_MSG_CHECKING(for \"-z ignore\" linker flag) - case "`ld -h 2>&1`" in - *-z\ ignore\|record* ) AC_MSG_RESULT(yes) - XE_PREPEND(-z ignore, ld_switch_site) ;; - *) AC_MSG_RESULT(no) ;; - esac +if test "$opsys" = "sol2"; then + if test "$os_release" -ge 56; then + AC_MSG_CHECKING(for \"-z ignore\" linker flag) + case "`ld -h 2>&1`" in + *-z\ ignore\|record* ) AC_MSG_RESULT(yes) + XE_PREPEND(-z ignore, ld_switch_site) ;; + *) AC_MSG_RESULT(no) ;; + esac + fi fi dnl ---------------------- @@ -2513,6 +2667,8 @@ EOF AC_MSG_RESULT(R${x11_release}) AC_DEFINE_UNQUOTED(THIS_IS_X11R${x11_release}) + AC_CHECK_FUNCS(XConvertCase) + AC_CHECK_HEADERS(X11/Xlocale.h) dnl remove this - we should avoid checking for specific OS @@ -2587,7 +2743,6 @@ if test "$with_msw" != "no"; then AC_TRY_RUN([#include int main() { return (open("/dev/windows", O_RDONLY, 0) > 0)? 0 : 1; }], [AC_DEFINE(HAVE_MSG_SELECT)]) - const_is_losing=no with_file_coding=yes XE_ADD_OBJS(console-msw.o device-msw.o event-msw.o frame-msw.o objects-msw.o select-msw.o redisplay-msw.o glyphs-msw.o gui-msw.o) fi @@ -2682,9 +2837,9 @@ if test "$with_tooltalk" != "no" ; then dnl autodetect the location of tt_c.h dnl tt_c.h might be in Tt or desktop include directories for dir in "" "Tt/" "desktop/" ; do - AC_CHECK_HEADER(${dir}tt_c.h, tt_c_h_path="${dir}tt_c.h"; break) + AC_CHECK_HEADER(${dir}tt_c.h, tt_c_h_file="${dir}tt_c.h"; break) done - if test -z "$tt_c_h_path"; then + if test -z "$tt_c_h_file"; then if test "$with_tooltalk" = "yes"; then USAGE_ERROR("Unable to find required tooltalk header files.") fi @@ -2706,7 +2861,7 @@ fi test -z "$with_tooltalk" && with_tooltalk=yes if test "$with_tooltalk" = "yes"; then AC_DEFINE(TOOLTALK) - AC_DEFINE_UNQUOTED(TT_C_H_PATH, "$tt_c_h_path") + AC_DEFINE_UNQUOTED(TT_C_H_FILE, "$tt_c_h_file") XE_PREPEND($tt_libs, libs_x) XE_ADD_OBJS(tooltalk.o) fi @@ -2797,6 +2952,70 @@ if test "$with_ldap" = "yes"; then AC_CHECK_FUNCS(ldap_set_option ldap_get_lderrno ldap_result2error ldap_parse_result) fi +dnl Autodetect PostgreSQL +dnl The default installation location (non-Linux) is /usr/local/pgsql; +dnl a different prefix can be selected at build/install time. If PostgreSQL +dnl is installed into a different prefix, that prefix must be specified in +dnl in the --site-prefixes flag. +dnl The default RPM-based Linux installation location is /usr. +AC_CHECKING(for PostgreSQL) +postgres_h_path="" +postgres_includes_found=no +save_c_switch_site="$c_switch_site" + +dnl First, test standard location and site prefixes only: +if test "$with_postgresql" != "no"; then + AC_CHECK_HEADER(libpq-fe.h,postgres_includes_found=yes) +fi + +dnl Otherwise, test different known headers locations on linux: +if test "$postgres_includes_found" = "no" -a "$with_postgresql" != "no" -a \ + -d "/usr/local/pgsql/include"; then + c_switch_site="$c_switch_site -I/usr/local/pgsql/include" + AC_CHECK_HEADER(libpq-fe.h,postgres_includes_found=yes) + if test "$postgres_includes_found" != "yes"; then + postgres_h_path="/usr/local/pgsql/include" + fi + c_switch_site="$save_c_switch_site" +fi +if test "$postgres_includes_found" = "no" -a "$with_postgresql" != "no" -a \ + -d "/usr/include/pgsql"; then + c_switch_site="$c_switch_site -I/usr/include/pgsql" + AC_CHECK_HEADER(libpq-fe.h,postgres_includes_found=yes) + if test "$postgres_includes_found" = "yes"; then + postgres_h_path="pgsql" + fi + c_switch_site="$save_c_switch_site" + fi +if test "$postgres_includes_found" = "no" -a "$with_postgresql" != "no" -a \ + -d "/usr/include/postgresql"; then + c_switch_site="$c_switch_site -I/usr/include/postgresql" + AC_CHECK_HEADER(libpq-fe.h,postgres_includes_found=yes) + if test "$postgres_includes_found" = "yes"; then + postgres_h_path="postgresql" +fi + c_switch_site="$save_c_switch_site" +fi + +dnl Finally, check if we can link with libpq: +if test "$postgres_includes_found" = "yes"; then + AC_CHECK_LIB(pq,PQconnectdb,with_postgresql=yes,with_postgresql=no) +fi +if test "$with_postgresql" = "yes"; then + AC_CHECK_LIB(pq,PQconnectStart,with_postgresqlv7=yes,with_postgresqlv7=no) +fi +if test "$with_postgresql" = "yes"; then + if test -n "$postgres_h_path"; then + AC_DEFINE_UNQUOTED(POSTGRES_H_PATH, $postgres_h_path) + fi + AC_DEFINE(HAVE_POSTGRESQL) + if test "$with_postgresqlv7" = "yes"; then + AC_DEFINE(HAVE_POSTGRESQLV7) + fi + XE_PREPEND(-lpq, LIBS) + XE_ADD_OBJS(postgresql.o) +fi + dnl ---------------------- dnl Graphics libraries dnl ---------------------- @@ -2809,7 +3028,8 @@ if test "$window_system" != "none"; then if test -z "$with_xpm"; then AC_MSG_CHECKING(for Xpm - no older than 3.4f) xe_check_libs=-lXpm - AC_TRY_RUN([#include + AC_TRY_RUN([#define XPM_NUMBERS +#include int main(int c, char **v) { return c == 1 ? 0 : XpmIncludeVersion != XpmLibraryVersion() ? 1 : @@ -3414,8 +3634,7 @@ AC_TRY_LINK([ ], [ struct timeval time; - struct timezone dummy; - gettimeofday (&time, &dummy); + gettimeofday (&time, 0); ], [AC_MSG_RESULT(two)], [AC_MSG_RESULT(one) @@ -3424,10 +3643,7 @@ fi AC_C_INLINE -if test "$ac_cv_c_inline" != "no"; then - AC_DEFINE(HAVE_INLINE) - test "$GCC" = "yes" && XE_ADD_OBJS(inline.o) -fi +test "$ac_cv_c_inline" != "no" -a "$GCC" = "yes" && XE_ADD_OBJS(inline.o) dnl HP-UX has a working alloca in libPW. dnl case "${GCC}${opsys}" in hpux* ) @@ -3492,8 +3708,21 @@ test "$have_mmap" = "yes" && AC_DEFINE(HAVE_MMAP) dnl rel_alloc requires either GNU malloc or system malloc with mmap dnl We only turn rel_alloc on by default if mmap is available. -test "$GNU_MALLOC" != "yes" -a "$have_mmap" != "yes" && rel_alloc=no -test "$rel_alloc" = "default" -a "$have_mmap" = "yes" && rel_alloc=yes +test "$GNU_MALLOC" != "yes" -a "$have_mmap" != "yes" && rel_alloc=no +if test "$rel_alloc $have_mmap" = "default yes"; then + if test "$doug_lea_malloc" = "yes"; then + dnl Check if malloc() calls mmap(), making rel_alloc pointless. + AC_MSG_CHECKING(for M_MMAP_THRESHOLD) + AC_TRY_COMPILE([#include ],[ +#ifndef M_MMAP_THRESHOLD +#error No M_MMAP_THRESHOLD :-( +!@+$%^&*_)(_ - unlikely to compile... +#endif +], [rel_alloc=no; AC_MSG_RESULT(yes);], [rel_alloc=yes; AC_MSG_RESULT(no);]) + else + rel_alloc=yes + fi +fi test "$rel_alloc" = "yes" && AC_DEFINE(REL_ALLOC) dnl Check for terminal I/O variants @@ -3604,7 +3833,7 @@ if test "$with_native_sound" != "no"; then sound_found=yes need_miscplay=yes XE_ADD_OBJS(linuxplay.o) - [AC_DEFINE_UNQUOTED(SOUNDCARD_H_PATH, "${dir}/soundcard.h")] + [AC_DEFINE_UNQUOTED(SOUNDCARD_H_FILE, "${dir}/soundcard.h")] break) done fi @@ -3679,8 +3908,8 @@ if test "$with_tty" = "yes" ; then fi if test "$with_ncurses" = "yes"; then AC_DEFINE(HAVE_NCURSES) - AC_CHECK_HEADER(ncurses/curses.h, curses_h_path=ncurses/curses.h) - AC_CHECK_HEADER(ncurses/term.h, term_h_path=ncurses/term.h) + AC_CHECK_HEADER(ncurses/curses.h, curses_h_file=ncurses/curses.h) + AC_CHECK_HEADER(ncurses/term.h, term_h_file=ncurses/term.h) XE_ADD_OBJS(terminfo.o) XE_PREPEND(-lncurses, LIBS) @@ -3690,7 +3919,7 @@ if test "$with_tty" = "yes" ; then dnl ) save_c_switch_site="$c_switch_site" c_switch_site="$c_switch_site -I/usr/include/ncurses" - AC_CHECK_HEADER(ncurses/curses.h, curses_h_path=ncurses/curses.h) + AC_CHECK_HEADER(ncurses/curses.h, curses_h_file=ncurses/curses.h) if test "$ac_cv_header_ncurses_curses_h" = "yes" then AC_MSG_WARN("Your system has the bogus ncurses include bug.") else c_switch_site="$save_c_switch_site" @@ -3722,8 +3951,8 @@ if test "$with_tty" = "yes" ; then fi fi fi - AC_DEFINE_UNQUOTED(CURSES_H_PATH, "${curses_h_path-curses.h}") - AC_DEFINE_UNQUOTED(TERM_H_PATH, "${term_h_path-term.h}") + AC_DEFINE_UNQUOTED(CURSES_H_FILE, "${curses_h_file-curses.h}") + AC_DEFINE_UNQUOTED(TERM_H_FILE, "${term_h_file-term.h}") dnl Autodetect gpm test -z "$with_gpm" && { AC_CHECK_HEADER(gpm.h, , with_gpm=no) } @@ -3791,8 +4020,11 @@ test "$with_database_gdbm" = "yes" -o \ dnl Check for Berkeley DB. if test "$with_database_berkdb" != "no"; then AC_MSG_CHECKING(for Berkeley db.h) - for path in "db/db.h" "db.h"; do - AC_TRY_COMPILE([#ifdef HAVE_INTTYPES_H + for header in "db/db.h" "db.h"; do + AC_TRY_COMPILE([ +#include +#if !(defined __GLIBC__ && __GLIBC_MINOR__ >= 1) +#ifdef HAVE_INTTYPES_H #define __BIT_TYPES_DEFINED__ #include typedef uint8_t u_int8_t; @@ -3802,18 +4034,19 @@ typedef uint32_t u_int32_t; typedef uint64_t u_int64_t; #endif #endif -#include <$path> -],[], db_h_path="$path"; break) +#endif +#include <$header> +],[], db_h_file="$header"; break) done - if test -z "$db_h_path" + if test -z "$db_h_file" then AC_MSG_RESULT(no); with_database_berkdb=no - else AC_MSG_RESULT($db_h_path) + else AC_MSG_RESULT($db_h_file) fi if test "$with_database_berkdb" != "no"; then AC_MSG_CHECKING(for Berkeley DB version) AC_EGREP_CPP(yes, -[#include <$db_h_path> +[#include <$db_h_file> #if DB_VERSION_MAJOR > 1 yes #endif @@ -3823,7 +4056,7 @@ yes fi if test "$with_database_berkdb" = "yes"; then - AC_DEFINE_UNQUOTED(DB_H_PATH, "$db_h_path") + AC_DEFINE_UNQUOTED(DB_H_FILE, "$db_h_file") AC_DEFINE(HAVE_BERKELEY_DB) test "$need_libdb" = "yes" && XE_PREPEND(-ldb, LIBS) else with_database_berkdb=no @@ -4252,8 +4485,7 @@ fi test "$with_i18n3" = "yes" && AC_DEFINE(I18N3) test "$GCC" = "yes" && AC_DEFINE(USE_GCC) test "$external_widget" = "yes" && AC_DEFINE(EXTERNAL_WIDGET) -test "$no_doc_file" = "yes" && AC_DEFINE(NO_DOC_FILE) -dnl test "$const_is_losing" = "yes" && AC_DEFINE(CONST_IS_LOSING) +test "$quick_build" = "yes" && AC_DEFINE(QUICK_BUILD) test "$with_purify" = "yes" && AC_DEFINE(PURIFY) test "$with_quantify" = "yes" && AC_DEFINE(QUANTIFY) test "$with_pop" = "yes" && AC_DEFINE(MAIL_USE_POP) @@ -4292,59 +4524,113 @@ dnl Start stdout redirection to '| tee -a Installation' echo " XEmacs ${emacs_major_version}.${emacs_minor_version}${xemacs_betaname} \"$xemacs_codename\" configured for \`$canonical'. - - Where should the build process find the source code? $srcdir - What installation prefix should install use? $prefix - What operating system and machine description files should XEmacs use? - \`$opsysfile' and \`$machfile' - What compiler should XEmacs be built with? $CC $CFLAGS - Should XEmacs use the GNU version of malloc? ${GNU_MALLOC}${GNU_MALLOC_reason} - Should XEmacs use the relocating allocator for buffers? $rel_alloc - What window system should XEmacs use? ${window_system}" -if test "$with_x11" = "yes"; then - echo " Where do we find X Windows header files? $x_includes" - echo " Where do we find X Windows libraries? $x_libraries" -fi +" +echo " +Compilation / Installation:" +echo " Source code location: $srcdir" +echo " Installation prefix: $prefix" if test -n "$site_includes"; then - echo " Additional header files: $site_includes" + echo " Additional header files: $site_includes" fi if test -n "$site_libraries"; then - echo " Additional libraries: $site_libraries" + echo " Additional libraries: $site_libraries" fi if test -n "$site_prefixes"; then - echo " Additional prefixes: $site_prefixes" + echo " Additional prefixes: $site_prefixes" fi if test -n "$runpath"; then - echo " Runtime library search path: $runpath" + echo " Runtime library search path: $runpath" +fi +echo " Operating system description file: \`$opsysfile'" +echo " Machine description file: \`$machfile'" +echo " Compiler: $CC $CFLAGS" +echo " Relocating allocator for buffers: $rel_alloc" +echo " GNU version of malloc: ${GNU_MALLOC}${GNU_MALLOC_reason}" + +echo " +Window System:" +if test "$with_msw" = "yes"; then + echo " Compiling in support for the Microsoft window system." +fi +if test "$with_x11" = "yes"; then + echo " Compiling in support for the X window system:" + echo " - X Windows headers location: $x_includes" + echo " - X Windows libraries location: $x_libraries" + if test "$with_xauth" != yes; then + echo " - Xau (X authority) not available." + fi + if test "$with_xmu" != yes; then + echo " - Xmu library not available; substituting equivalent routines." + fi + if test "$with_wmcommand" != no; then + echo " - Handling WM_COMMAND properly." + fi fi if test "$have_xaw" = "yes"; then - echo " Athena library to link: $athena_lib" - echo " Athena header include path: $athena_h_path" + echo " Compiling in support for the Athena widget set:" + echo " - Athena headers location: $athena_h_path" + echo " - Athena library to link: $athena_lib" fi -test "$with_dnet" = yes && echo " Compiling in support for DNET." -test "$with_socks" = yes && echo " Compiling in support for SOCKS." -test "$with_xauth" = yes && echo " Compiling in support for XAUTH." -if test "$with_xmu" != yes -a "$with_x11" = yes; then - echo " No Xmu; substituting equivalent routines." +case "$with_menubars" in + lucid ) echo " Using Lucid menubars." ;; + motif ) echo " Using Motif menubars." + echo " *WARNING* The Motif menubar implementation is currently buggy." + echo " We recommend using the Lucid menubar instead." + echo " Re-run configure with --with-menubars='lucid'." ;; + msw ) echo " Using MS-Windows menubars." ;; +esac +case "$with_scrollbars" in + lucid ) echo " Using Lucid scrollbars." ;; + motif ) echo " Using Motif scrollbars." ;; + athena ) echo " Using Athena scrollbars." ;; + msw ) echo " Using MS-Windows scrollbars." ;; +esac +case "$with_dialogs" in + motif ) echo " Using Motif dialog boxes." + if test "$unexec" = "unexaix.o"; then if test "`uname -v`" = 4 -a "`uname -r`" -ge 3; then + echo " *WARNING* The Motif dialog boxes cause problems on AIX 4.3 and higher." + echo " We recommend using the Athena dialog boxes instead." + echo " Install libXaw and re-run configure with --with-dialogs='athena'." + echo " Read the PROBLEMS file for more information." + fi; fi ;; + athena ) echo " Using Athena dialog boxes." ;; + msw ) echo " Using MS-Windows dialog boxes." ;; +esac +case "$with_widgets" in + motif ) echo " Using Motif native widgets." ;; + athena ) echo " Using Athena native widgets." ;; + msw ) echo " Using MS-Windows native widgets." ;; +esac +if test "$with_dragndrop" = yes; then + echo " Compiling in support for Drag'n'Drop (EXPERIMENTAL)." + echo " - Drag'n'Drop prototype: $dragndrop_proto." fi +echo " +TTY:" +test "$with_ncurses" = yes && echo " Compiling in support for ncurses." +test "$with_gpm" = yes && echo " Compiling in support for GPM (General Purpose Mouse)." + +echo " +Images:" +test "$with_gif" = yes && echo " Compiling in support for GIF images (builtin)." if test "$with_xpm" = yes; then - echo " Compiling in support for XPM images." + echo " Compiling in support for XPM images." elif test "$with_x11" = yes; then - echo " --------------------------------------------------------------------" - echo " WARNING: Compiling without XPM support." + echo " WARNING: -----------------------------------------------------------" + echo " WARNING: Compiling without XPM image support." if test "$xpm_problem" != ""; then echo " Reason: $xpm_problem" fi echo " WARNING: You should strongly consider installing XPM." echo " WARNING: Otherwise toolbars and other graphics will look suboptimal." echo " WARNING: (a copy may be found in ftp://ftp.xemacs.org/pub/xemacs/aux)" - echo " --------------------------------------------------------------------" + echo " WARNING: -----------------------------------------------------------" fi if test "$with_png" = yes; then - echo " Compiling in support for PNG image handling." + echo " Compiling in support for PNG images." elif test "$window_system" != "none"; then - echo " --------------------------------------------------------------------" + echo " WARNING: -----------------------------------------------------------" echo " WARNING: Compiling without PNG image support." if test "$png_problem" != ""; then echo " Reason: $png_problem" @@ -4352,93 +4638,74 @@ elif test "$window_system" != "none"; then echo " WARNING: You should strongly consider installing the PNG libraries." echo " WARNING: Otherwise certain images and glyphs may not display." echo " WARNING: (a copy may be found in ftp://ftp.xemacs.org/pub/xemacs/aux)" - echo " --------------------------------------------------------------------" + echo " WARNING: -----------------------------------------------------------" fi -test "$with_gif" = yes && echo " Compiling in support for (builtin) GIF image handling." -test "$with_jpeg" = yes && echo " Compiling in support for JPEG image handling." -test "$with_tiff" = yes && echo " Compiling in support for TIFF image handling." +test "$with_jpeg" = yes && echo " Compiling in support for JPEG images." +test "$with_tiff" = yes && echo " Compiling in support for TIFF images." test "$with_xface" = yes && echo " Compiling in support for X-Face message headers." -test "$with_native_sound" = yes && echo " Compiling in native sound support." -test "$with_nas_sound" = yes && echo " Compiling in network sound (NAS) support." -test "$old_nas" = yes && echo " nas library lacks error trapping, will play synchronously." -test "$with_esd_sound" = yes && echo " Compiling in support for Enlightened Sound Daemon (ESD)." +echo " +Sound:" +test "$with_native_sound" = yes && echo " Compiling in support for sound (native)." +test "$with_nas_sound" = yes && echo " Compiling in support for NAS (network audio system)." +test "$old_nas" = yes && echo " - NAS library lacks error trapping; will play synchronously." +test "$with_esd_sound" = yes && echo " Compiling in support for ESD (Enlightened Sound Daemon)." -test "$with_database_berkdb" = yes && echo " Compiling in support for Berkeley DB." +echo " +Databases:" +test "$with_database_berkdb" = yes && echo " Compiling in support for Berkeley database." test "$with_database_dbm" = yes && echo " Compiling in support for DBM." test "$with_database_gdbm" = yes && echo " Compiling in support for GNU DBM." +test "$with_ldap" = yes && echo " Compiling in support for LDAP." +if test "$with_postgresql" = yes; then + echo " Compiling in support for PostgreSQL." + if test "$with_postgresqlv7" = yes; then + echo " - Using PostgreSQL V7 bindings." + fi + if test -n "$postgres_h_path"; then + echo " - PostgreSQL headers location: $postgres_h_path" + fi +fi -test "$with_ldap" = yes && echo " Compiling in support for LDAP." - -test "$with_ncurses" = yes && echo " Compiling in support for ncurses." -test "$with_gpm" = yes && echo " Compiling in support for GPM (General Purpose Mouse)." - -test "$with_mule" = yes && echo " Compiling in Mule (multi-lingual) support." +echo " +Internationalization:" +test "$with_mule" = yes && echo " Compiling in support for Mule (multi-lingual Emacs)." test "$with_utf_2000" = yes && echo " Using UTF-2000 (UTF-8) buffer/string representation." -test "$with_text_coding" = yes && echo " Compiling in Text coding support." -test "$with_file_coding" = yes && echo " Compiling in File coding support." -test "$with_xim" != no && echo " Compiling in XIM (X11R5+ I18N input method) support." -test "$with_xim" = motif && echo " Using Motif to provide XIM support." -test "$with_xim" = xlib && echo " Using raw Xlib to provide XIM support." -test "$with_xfs" = yes && echo " Using XFontSet to provide bilingual menubar." -test "$with_canna" = yes && echo " Compiling in support for Canna on Mule." +test "$with_text_coding" = yes && echo " Compiling in support for text coding." +test "$with_file_coding" = yes && echo " Compiling in support for file coding." +test "$with_xim" != no && echo " Compiling in support for XIM (X11R5+ I18N input method)." +test "$with_xim" = motif && echo " - Using Motif to provide XIM support." +test "$with_xim" = xlib && echo " - Using raw Xlib to provide XIM support." +test "$with_xfs" = yes && echo " - Using XFontSet to provide bilingual menubar." +test "$with_canna" = yes && echo " Compiling in support for Canna on Mule." if test "$with_wnn" = yes; then echo " Compiling in support for the WNN input method on Mule." - test "$with_wnn6" = yes && echo " Using WNN version 6." + test "$with_wnn6" = yes && echo " - Using WNN version 6." fi -test "$with_i18n3" = yes && echo " Compiling in I18N support, level 3 (doesn't currently work)." +test "$with_i18n3" = yes && echo " Compiling in support for I18N level 3 (doesn't currently work)." -test "$with_cde" = yes && echo " Compiling in support for CDE." +echo " +Mail:" +test "$with_pop" = yes && echo " Compiling in support for POP mail retrieval." +test "$with_kerberos" = yes && echo " Compiling in support for Kerberos POP authentication." +test "$with_hesiod" = yes && echo " Compiling in support for Hesiod POP server access." +echo " Compiling in support for \"$mail_locking\" mail spool file locking method." + +echo " +Other Features:" test "$with_tooltalk" = yes && echo " Compiling in support for ToolTalk." -test "$with_offix" = yes && echo " Compiling in support for OffiX." -test "$with_dragndrop" = yes && echo " Compiling in EXPERIMENTAL support for Drag'n'Drop ($dragndrop_proto )." test "$with_workshop" = yes && echo " Compiling in support for Sun WorkShop." -test "$with_wmcommand" != no && echo " Compiling in support for proper WM_COMMAND handling." -case "$with_menubars" in - lucid ) echo " Using Lucid menubars." ;; - motif ) echo " Using Motif menubars." - echo " *WARNING* The Motif menubar implementation is currently buggy." - echo " We recommend using the Lucid menubar instead." - echo " Re-run configure with --with-menubars='lucid'." ;; - msw ) echo " Using MS-Windows menubars." ;; -esac -case "$with_scrollbars" in - lucid ) echo " Using Lucid scrollbars." ;; - motif ) echo " Using Motif scrollbars." ;; - athena ) echo " Using Athena scrollbars." ;; - msw ) echo " Using MS-Windows scrollbars." ;; -esac -case "$with_widgets" in - motif ) echo " Using Motif native widgets." ;; - athena ) echo " Using Athena native widgets." ;; - msw ) echo " Using MS-Windows native widgets." ;; -esac -case "$with_dialogs" in - motif ) - echo " Using Motif dialog boxes." - if test "$unexec" = "unexaix.o"; then if test "`uname -v`" = 4 -a "`uname -r`" -ge 3; then - echo " *WARNING* The Motif dialog boxes cause problems on AIX 4.3 and higher." - echo " We recommend using the Athena dialog boxes instead." - echo " Install libXaw and re-run configure with --with-dialogs='athena'." - echo " Read the PROBLEMS file for more information." - fi; fi - ;; - athena ) echo " Using Athena dialog boxes." ;; - msw ) echo " Using MS-Windows dialog boxes." ;; -esac -test "$with_modules" = "yes" && echo " Compiling in dynamic shared object module support." -test "$with_clash_detection" = yes && \ +test "$with_socks" = yes && echo " Compiling in support for SOCKS." +test "$with_dnet" = yes && echo " Compiling in support for DNET." +test "$with_modules" = "yes" && echo " Compiling in support for dynamic shared object modules." +test "$with_clash_detection" != "no" && \ echo " Clash detection will use \"$lockdir\" for locking files." -echo " movemail will use \"$mail_locking\" for locking mail spool files." -test "$with_pop" = yes && echo " Using POP for mail access." -test "$with_kerberos" = yes && echo " Using Kerberos for POP authentication." -test "$with_hesiod" = yes && echo " Using Hesiod to get POP server host." -test "$use_union_type" = yes && echo " Using the union type for Lisp_Objects." -test "$pdump" = yes && echo " Using the new portable dumper (wishful thinking)." -test "$debug" = yes && echo " Compiling in extra code for debugging." -test "$usage_tracking" = yes && echo " Compiling with usage tracking active (Sun internal)." -if test "$error_check_extents $error_check_typecheck $error_check_bufpos $error_check_gc $error_check_malloc" \ - != "no no no no no"; then +test "$use_union_type" = yes && echo " Using the union type for Lisp_Objects." +test "$pdump" = yes && echo " Using the new portable dumper." +test "$debug" = yes && echo " Compiling in support for extra debugging code." +test "$usage_tracking" = yes && echo " Compiling in support for active usage tracking (Sun internal)." +if test "$error_check_extents $error_check_typecheck $error_check_bufpos $error_check_gc $error_check_malloc $error_check_glyphs" \ + != "no no no no no no"; then echo " WARNING: ---------------------------------------------------------" echo " WARNING: Compiling in support for runtime error checking." echo " WARNING: XEmacs will run noticeably more slowly as a result." diff --git a/configure.usage b/configure.usage index a6e9c6b..89c648e 100644 --- a/configure.usage +++ b/configure.usage @@ -88,6 +88,17 @@ Window-system options: unpredictable. --without-xmu (*) For those unfortunates whose vendors don't ship Xmu. --external-widget Compile with external widget support. + + +TTY options: + +--without-tty Don't support TTY-s. +--with-ncurses (*) Use the ncurses library for tty support. +--with-gpm (*) Compile in support for General Purpose Mouse. + + +Image options: + --with-xpm (*) Compile with support for XPM files. It is highly recommended that you obtain XPM (version 3.4h or better) if you don't already @@ -107,22 +118,8 @@ Window-system options: Get if from the XEmacs FTP site. -TTY options: +Sound options: ---without-tty Don't support TTY-s. ---with-ncurses (*) Use the ncurses library for tty support. ---with-gpm (*) Compile in support for General Purpose Mouse. - - -Additional features: - ---with-tooltalk (*) Support the ToolTalk IPC protocol. ---with-workshop Support the Sun WorkShop (formerly Sparcworks) - development environment. ---with-socks Compile with support for SOCKS (an Internet proxy). ---with-database=TYPE (*) Compile with database support. Valid types are - `no' or a comma-separated list of one or more - of `berkdb' and either `dbm' or `gnudbm'. --with-sound=TYPE,[TYPE],... Compile with native sound support. Valid types are `native', `nas' and `esd'. Prefix a type with 'no' to disable. @@ -133,15 +130,36 @@ Additional features: --native-sound-lib=LIB Native sound support library. Needed on Suns with --with-sound=both because both sound libraries are called libaudio. ---with-pop support POP for mail retrieval ---with-kerberos support Kerberos-authenticated POP ---with-hesiod support Hesiod to get the POP server host ---with-dnet (*) Compile with support for DECnet. + + +Database options: + +--with-database=TYPE (*) Compile with database support. Valid types are + `no' or a comma-separated list of one or more + of `berkdb' and either `dbm' or `gnudbm'. --with-ldap (*) Compile with support for the LDAP protocol (requires installed LDAP libraries on the system). +--with-postgresql (*) Compile with support for the PostgreSQL RDBMS (requires + installed PostreSQL libraries on the system). + + +Mail options: + --mail-locking=TYPE (*) Specify the locking to be used by movemail to prevent concurrent updates of mail spool files. Valid types are `lockf', `flock', and `dot'. +--with-pop support POP for mail retrieval +--with-kerberos support Kerberos-authenticated POP +--with-hesiod support Hesiod to get the POP server host + + +Additional features: + +--with-tooltalk (*) Support the ToolTalk IPC protocol. +--with-workshop Support the Sun WorkShop (formerly Sparcworks) + development environment. +--with-socks Compile with support for SOCKS (an Internet proxy). +--with-dnet (*) Compile with support for DECnet. --with-modules Compile in experimental support for dynamically loaded libraries (Dynamic Shared Objects). --with-site-lisp=yes Allow for a site-lisp directory in the XEmacs hierarchy @@ -230,7 +248,7 @@ Other options: --with-system-malloc Force use of the system malloc, rather than GNU malloc. --with-debug-malloc Use the debugging malloc package. --with-clash-detection Use lock files to detect multiple edits of the same - file. The default is to not do clash detection. + file. The default is to do clash detection. --lockdir=DIR The directory to put clash detection files in, such as `/var/lock/emacs'. Defaults to `${statedir}/xemacs/lock'. diff --git a/etc/Emacs.ad b/etc/Emacs.ad index 4754a7f..39ac03a 100644 --- a/etc/Emacs.ad +++ b/etc/Emacs.ad @@ -191,6 +191,10 @@ *menubar*Font: -*-helvetica-bold-r-*-*-*-120-*-*-*-*-iso8859-* *popup*Font: -*-helvetica-bold-r-*-*-*-120-*-*-*-*-iso8859-* +! Gui elements share this font +! +Emacs.gui-element.attributeFont: -*-helvetica-medium-r-*-*-*-120-*-*-*-*-iso8859-* + ! Font in the Motif dialog boxes. ! (Motif uses `fontList' while most other things use `font' - if you don't ! know why you probably don't want to.) @@ -260,6 +264,11 @@ Ctrlm: ArmAndActivate()\n : Enter()\n\ : Leave()\n +! Native Widget translations +! ======================= +Emacs*Text*translations: #override\n\ + : widget-focus-in()\n + ! XIM input method style ! ======================= diff --git a/etc/NEWS b/etc/NEWS index ee6e827..0f586dd 100644 --- a/etc/NEWS +++ b/etc/NEWS @@ -47,6 +47,28 @@ to set `delete-key-deletes-forward' to nil is if you want to use the Delete key to delete backwards, despite the presence (according to Xlib) of a BackSpace key on the keyboard. +** Shifted motion keys now select text by default. You can turn this +off by setting `shifted-motion-keys-select-region' to nil. + +** You can now set the variable `kill-whole-line' to `always', which +makes `kill-line' (C-k) delete the entire line always, not just when +the cursor is at the beginning of the line. This behavior, as well as +the existing kill-whole-line behavior, now only take effect when +kill-line is called interactively, although this is a departure from a +previous behavior in the case of setting this variable kill-whole-line +to t. It is almost certainly what has always been intended, and most +likely the old way of doing things introduced bugs. + +The new function `historical-kill-line' ignores the `kill-whole-line' +setting and always gives the historical behavior of only killing to +the end of the line. This function is bound to Sh-C-k, so that the +kill to end of line behavior is available, even when `kill-whole-line' +has been customized. + +** XEmacs menus now have accelerators by default. If a menu item does +not have an accelerator specified, one is created dynamically, using +numbers 1-9 and letters. + ** Interactive searching and matching case improvements. Case sensitiveness in searching operations is normally controlled by @@ -68,13 +90,20 @@ point. If you want to disable the feature, set ** You can now use the buffer tabs to switch between buffers. The tabs are located between the toolbar and the uppermost window, in a location called "gutter". If you dislike the buffer tabs, you can -disable them by specifying: +disable them by customizing `gutter-buffers-tab-visible-p', or by +placing this in your .emacs: - (set-specifier default-gutter-visible-p nil) + (set-gutter-element-visible-p default-gutter-visible-p 'buffers-tab nil) -in your `.emacs'. You can change the location of the gutter with +You can change the location of the gutter with `set-default-gutter-position', however currently only MS-Windows -supports tab widgets with orientations other than vertical.. +supports tab widgets with orientations other than vertical. + +** Kill and yank now interact with the clipboard by default under +Windows. This was done by changing the default value of +`interprogram-cut-function' and `interprogram-paste-function'. You +can get the old behavior by setting these to nil, and there is an +option on the options menu to do this. ** When you press RET at a minibuffer prompt that provides a default value, the value is stored in history instead of an empty line. Also, @@ -91,6 +120,13 @@ the left side. All functions have been rewritten to avoid inserting unwanted spaces, and an optional prefix now allows them to behave the old way. +Also, the behavior of `string-rectangle' is now compliant with +`pending-delete-mode': if this mode is active, then the string +replaces the region rectangle. Otherwise, the command does not delete +or overwrite any existing text. For those who want that feature but do +not use pending-delete-mode, a new function, `replace-rectangle', is +available. + As a side effect, the FORCE argument to `move-to-column' now understands the special value `coerce', which means that the line should not be filled if it is too short to reach the desired column. @@ -177,15 +213,38 @@ Moreover, -user (which used to only work in unpredictable ways) is now equivalent to -user-init-file ~/.emacs -user-init-directory ~/.xemacs. +** Init file may be called .emacs.el. + +Like in GNU Emacs 20.4 and on, you can now name the XEmacs init file +`.emacs.el'. Formerly the name had to be `.emacs'. If you use the +name `.emacs.el', you can byte-compile the file in the usual way. + +If both `.emacs' and `.emacs.el' exist, the latter file is the one +that is used. + ** New variable `mswindows-meta-activates-menu'. -If you set this variable to nil then pressing the Alt key under -MS-Windows will no longer activate the menubar. The default is t. +If you set this variable to nil then pressing and releasing the Alt +key under MS-Windows will no longer activate the menubar. The default +is t. This is not to be confused with `menu-accelerator-enabled', +which enables the use of Alt+ accelerators to invoke the +menus. -** Pixel-based scrolling has been implemented. +** Pixel-based scrolling has been implemented. By default this will attempt to scroll in increments equal to the -height of the default face. Set `window-pixel-scroll-increment' to +height of the default face. Set `window-pixel-scroll-increment' to modify this behaviour. +** Operation progress can be displayed using graphical widgets. +See `lprogress-display' for details. This support has been switched +on by default for font-lock and some web browsing functions. If you +do not like this behaviour set `progress-display-use-echo-area'. + +** The PostgreSQL Relational Database Management System is now supported. +It is now possible to build XEmacs so that the programming interface +to the PostgreSQL RDBMS (libpq) is available in XEmacs Lisp. +Supported versions of PostgreSQL are 6.5.3 (earlier versions may work, +but have not been tested) and 7.0-beta1. + ** Etags changes. *** In DOS, etags looks for file.cgz if it cannot find file.c. @@ -241,15 +300,7 @@ get to the initialized data. In that scheme, there is no difference between `temacs' and `xemacs'. This is all very experimental, though. Configure with `--pdump' to -try testing it. NOTE: it is expected that `make' will fail after -dumping `xemacs.dmp'. This is because Makefiles have not yet been -modified to not expect `temacs' producing an `xemacs' executable. You -can try it out by simply running `src/temacs'. If it starts without -failure, the portable dumping worked. - -#### NOTE: the portable dumper is not really usable yet, because the -state of built-in variables is not yet saved. Olivier promised to fix -it. Nag, nag. +try testing it. ** Much effort has been invested to make XEmacs Lisp faster: @@ -295,8 +346,8 @@ buttons, scrollbars, combo boxes, edit fields and progress gauges in a buffer. As a side effect subwindow support now works once again. All of this is still fairly experimental and there is no -documentation. The current APIs might change in a future version of -XEmacs. Some widgets are only available under MS-Windows. See the +documentation. The current APIs might change in a future version of +XEmacs. Some widgets are only available under MS-Windows. See the file glyphs-test.el in the XEmacs src distribution for examples of usage. @@ -443,6 +494,21 @@ beginning with colon as keywords only if they are interned in the global obarray. `keywordp' used to wrongly return t in both cases above. +** New variables `this-command-properties' and +`last-command-properties' are now available for communication between +consecutive commands. Commands should use these to communicate with +the pre/post-command hooks, subsequent commands, wrapping commands, +etc. in preference to looking at and/or setting `this-command'. + +** New functions `add-one-shot-hook' and `add-local-one-shot-hook' make +it possible to add a "one-shot" hook, which is to say a hook that runs +only once, and automatically removes itself after the first time it +has run. + +** The descriptor that specifies the text of a menu item can now be an +evaluated expression. This makes this descriptor parallel with +others, which can also be expressions. + * Changes in XEmacs 21.0 ======================== diff --git a/etc/OONEWS b/etc/OONEWS index 57b3174..5ed4498 100644 --- a/etc/OONEWS +++ b/etc/OONEWS @@ -4568,7 +4568,7 @@ whether a symbol begins with a colon. `get', `put', and `remprop' have been generalized to allow you to set and retrieve properties on many different kinds of objects: symbols, strings, faces, glyphs, and extents (for extents, however, this is not -yet implemented). They are joined by a new function `object-props' +yet implemented). They are joined by a new function `object-plist' that returns all of the properties that have been set on an object. New functions `plists-eq' and `plists-equal' are provided for diff --git a/etc/TUTORIAL.fr b/etc/TUTORIAL.fr index 4a0d27c..e78ae19 100644 --- a/etc/TUTORIAL.fr +++ b/etc/TUTORIAL.fr @@ -1,9 +1,9 @@ -Copyright (c) 1997, Didier Verna . +Copyright (c) 1997-2000, Didier Verna . Se reporter à la fin du document pour les conditions. Vous lisez actuellement la version française du tutoriel d'Emacs. -Cette version a été produite à partir de la version anglaise, qui est +Cette version a été produite à partir de la version anglaise, qui est Copyright (c) 1985, 1996 Free Software Foundation, Inc. @@ -29,7 +29,7 @@ disponibles dans Emacs, les conventions suivantes sont utilis NOTE IMPORTANTE: pour quitter Emacs, tapez C-x C-c (deux caractères). -Quand vous trouvez les caractères >> au début d'une ligne, cette ligne +Quand vous trouvez les caractères >> au début d'une ligne, cette ligne vous donne des directives pour essayer une commande. Par exemple: <> >> Maintenant, tapez C-v («view next screen») pour passer à l'écran @@ -37,7 +37,7 @@ vous donne des directives pour essayer une commande. Par exemple: enfoncée et tapez 'v'). À partir de maintenant, refaites la même chose quand vous avez fini de lire tout l'écran. -Remarquez que quand vous changez d'écran, les deux dernières lignes de +Remarquez que quand vous changez d'écran, les deux dernières lignes de l'écran précédent sont conservées, ceci afin de conserver un minimum de continuité dans la lecture. @@ -70,7 +70,7 @@ Les commandes suivantes sont utiles pour voir des * MOUVEMENTS DE BASE DU CURSEUR ------------------------------- -Passer d'un écran à l'autre, c'est bien ... mais comment faire pour se +Passer d'un écran à l'autre, c'est bien ... mais comment faire pour se déplacer dans le texte d'un seul écran? Il existe plusieurs manières de faire. La plus simple est d'utiliser @@ -98,8 +98,8 @@ car vous vous en servirez tr >> Amenez le curseur sur cette ligne avec quelques C-n. ->> Déplacez vous sur la ligne avec des C-f, puis vers le haut avec des - C-p. Remarquez ce que fait C-p quand le curseur est au milieu de la +>> Déplacez vous sur la ligne avec des C-f, puis vers le haut avec des + C-p. Remarquez ce que fait C-p quand le curseur est au milieu de la ligne. Chaque ligne de texte se termine avec un caractère nommé Newline, qui @@ -125,7 +125,7 @@ op se passe. Si vous trouvez que le déplacement caractère par caractère est trop -lent, vous pouvez vous déplacer mot par mot. M-f et M-b vous déplacent +lent, vous pouvez vous déplacer mot par mot. M-f et M-b vous déplacent respectivement d'un mot en avant et en arrière. >> Tapez quelques M-f et M-b. @@ -143,7 +143,7 @@ unit commandes Control agissent sur des unités plus primaires (caractères, lignes etc.). -Ce parallèle existe encore entre les lignes et les phrases: C-a et C-e +Ce parallèle existe encore entre les lignes et les phrases: C-a et C-e vous positionnent au début ou à la fin d'une ligne, tandis que M-a et M-e vous déplacent au début ou à la fin d'une phrase. @@ -157,7 +157,7 @@ La position du curseur sur dans le texte est aussi appel «point». En d'autres termes, le curseur à l'écran se trouve où le point est dans le texte. -Voici un résumé des commandes simples de déplacement, y compris celles +Voici un résumé des commandes simples de déplacement, y compris celles relatives aux mots et aux phrases: C-f En avant d'un caractère @@ -203,21 +203,21 @@ clavier. Enfin, quand vous aurez l'habitude d'utiliser la touche déplacement plus complexes. La plupart des commandes d'Emacs acceptent un argument numérique, qui -sert souvent comme compteur de répétition. Pour donner un tel argument +sert souvent comme compteur de répétition. Pour donner un tel argument à une fonction, tapez C-u puis les chiffres, et enfin entrez la commande. Si vous disposez de la touche (ou ou ), vous pouvez aussi tapez directement les chiffres tout en maintenant la -touche enfoncée. Il est préférable d'apprendre la méthode C-u car +touche enfoncée. Il est préférable d'apprendre la méthode C-u car elle fonctionne sur tous les terminaux. Par exemple, C-u 8 C-f vous déplace de huit caractères en avant. - + >> Essayez d'utiliser C-n avec un argument numérique pour vous déplacer d'un seul coup sur une autre ligne. Certaines commandes n'interprètent pas leur argument numérique comme -un compteur de répétition. C'est le cas de C-v et M-v qui déplacent le -texte d'autant de lignes plutôt que d'écrans entiers. Par exemple, C-u +un compteur de répétition. C'est le cas de C-v et M-v qui déplacent le +texte d'autant de lignes plutôt que d'écrans entiers. Par exemple, C-u 4 C-v déroulera l'écran de 4 lignes. >> Essayez C-u 8 C-v. @@ -253,14 +253,14 @@ fichier. Si enfin votre pav , celles-ci vous déplaceront d'écran en écran comme C-v et M-v. Toutes ces commandes acceptent des arguments numériques comme décrit -précédemment. +précédemment. * QUAND EMACS EST BLOQUÉ ------------------------ Si jamais Emacs ne répond plus à vos ordres, vous pouvez l'arrêter en -toute sécurité en tapant C-g. C-g peut aussi être utilisé pour stopper +toute sécurité en tapant C-g. C-g peut aussi être utilisé pour stopper une commande qui met trop de temps à s'exécuter. C-g sert également à annuler un argument numérique, ou une commande @@ -271,7 +271,7 @@ que vous ne voulez plus mener Maintenant, tapez C-f. Le curseur doit finalement ne bouger que d'un seul caractère, puisque vous avez annulé l'argument. -Si vous avez tapé un par erreur, vous pourrez toujours l'annuler +Si vous avez tapé un par erreur, vous pourrez toujours l'annuler avec C-g. @@ -296,12 +296,12 @@ espace. Sinon, r Emacs peut afficher plusieurs fenêtres, chacune avec un texte différent. Le terme «fenêtre» signifie ici une zone particulière dans -la fenêtre d'Emacs; il ne s'agit pas de fenêtres pouvant se superposer +la fenêtre d'Emacs; il ne s'agit pas de fenêtres pouvant se superposer dans votre système de multifenétrage. Emacs peut aussi ouvrir -plusieurs fenêtres X (appelées «frames» en jargon Emacsien), mais ceci +plusieurs fenêtres X (appelées «frames» en jargon Emacsien), mais ceci est décrit ultérieurement. -Pour l'instant, mieux vaut ne pas trop s'occuper de plusieurs fenêtres +Pour l'instant, mieux vaut ne pas trop s'occuper de plusieurs fenêtres simultanées, sauf peut-être pour savoir les éliminer toutes sauf une. Ceci est effectué par la commande C-x 1 ('un', pas 'L'). Cette commande tue toutes les fenêtres sauf celle dans laquelle vous vous @@ -335,7 +335,7 @@ quelques fois temps! Plus généralement, efface le caractère situé juste avant le -curseur. +curseur. >> Maintenant, tapez quelques caractères, puis effacez-les avec . Ne vous inquiétez pas pour le contenu de ce tutoriel, ce @@ -364,11 +364,11 @@ pr >> Tapez pour réinsérer le Newline que vous avez effacé. Rappelez-vous bien que la plupart des commandes acceptent un argument -numérique, y compris l'insertion de caractères: +numérique, y compris l'insertion de caractères: >> Tapez C-u 8 *, vous obtiendrez "********". -Vous connaissez maintenant les commandes de base pour insérer du texte +Vous connaissez maintenant les commandes de base pour insérer du texte et corriger des erreurs. Toujours grâce aux touches et , vous pouvez aussi effacer du texte par mot ou par ligne: @@ -386,7 +386,7 @@ Quand vous supprimez plus d'un caract texte pour vous donner la possibilité de le réintroduire. L'opération de réintroduction s'appelle le «yanking». Vous pouvez réintroduire le texte à la même place ou ailleurs. Vous pouvez même le réintroduire -plusieurs fois, pourquoi pas à des endroits différents. La commande de +plusieurs fois, pourquoi pas à des endroits différents. La commande de «yanking» est C-y. Notez bien la différence entre «effacer» et «supprimer». Un texte @@ -396,7 +396,7 @@ vides ne sauvegardent rien. >> Placez le curseur au début d'une ligne non vide. Tapez C-k pour supprimer le texte sur cette ligne. ->> Tapez C-k une deuxième fois. Vous remarquerez que cette fois-ci, la +>> Tapez C-k une deuxième fois. Vous remarquerez que cette fois-ci, la ligne elle-même est supprimée (le caractère Newline). C-k traite son argument numérique de manière spéciale: il supprime @@ -455,7 +455,7 @@ de C-x u Une alternative à C-x u est C-_. C-x u existe car c'est plus facile à taper sur certains claviers. Sur d'autres vous pouvez également -obtenir C-_ en tapant C-/. +obtenir C-_ en tapant C-/. Enfin, la commande d'annulation accepte les argument numériques. @@ -466,18 +466,18 @@ Enfin, la commande d'annulation accepte les argument num Pour sauver votre texte, vous avez besoin de le mettre dans un fichier, sans quoi il disparaîtra quand vous quitterez Emacs. On dit «trouver» un fichier («finding»), ou encore «visiter» un fichier -(«visiting»), ou bien «ouvrir». +(«visiting»), ou bien «ouvrir». Visiter un fichier revient à voir son contenu dans Emacs. Si vous -modifiez le texte du fichier dans Emacs, ces changements ne deviennent -pas permanent, sauf si vous «sauvez» le fichier. Cela permet de ne pas +modifiez le texte du fichier dans Emacs, ces changements ne deviennent +pas permanent, sauf si vous «sauvez» le fichier. Cela permet de ne pas avoir des fichiers à moitié modifiés sur votre système, à moins que vous ne le souhaitiez vraiment. D'autre part, quand Emacs «sauve» un -fichier, il commence par copier l'ancienne version sous un nouveau nom +fichier, il commence par copier l'ancienne version sous un nouveau nom afin que vous puissiez toujours revenir en arrière. Regardez en bas de la fenêtre d'Emacs. Vous trouverez une ligne -contenant des tirets '-', et la chaîne de caractères +contenant des tirets '-', et la chaîne de caractères «Emacs: TUTORIAL.FRANCAIS». Cela vous donne le nom du fichier que vous êtes en train de visiter. En ce moment, vous visitez le fichier «TUTORIAL.FRANCAIS» qui correspond au Tutoriel d'Emacs, version @@ -501,14 +501,14 @@ de la fen manière, on l'appelle «minibuffer». Les commandes d'édition ordinaires peuvent être utilisées pour éditer le nom du fichier. -Pendant que vous êtes en train de taper le nom du fichier, vous pouvez +Pendant que vous êtes en train de taper le nom du fichier, vous pouvez annuler la commande grâce à C-g. >> Tapez C-x C-f puis C-g. Cela annule le minibuffer ainsi que la commande C-x C-f. Vous n'allez finalement pas visiter de fichier. Quand le nom du fichier est correct, tapez . La commande -prendra alors effet et ira chercher le fichier. Après avoir terminé la +prendra alors effet et ira chercher le fichier. Après avoir terminé la saisie du nom, le minibuffer disparaît. Au bout d'un petit moment, le contenu du fichier apparaît et vous @@ -519,7 +519,7 @@ C-x C-s ( Cette commande copie le texte contenu dans Emacs vers le fichier lui-même. La première fois que vous le faites, Emacs sauvegarde la -version initiale du fichier sous un autre nom, en ajoutant un '~' à la +version initiale du fichier sous un autre nom, en ajoutant un '~' à la fin du nom. Quand la sauvegarde est terminée, Emacs affiche le nom du fichier dans @@ -528,17 +528,17 @@ souvent les fichiers pour système (non pas qu'Emacs ne puisse jamais crasher lui-même ...). >> Tapez C-x C-s pour sauver votre copie du tutoriel. - Vous devriez voir apparaître «Wrote ...TUTORIAL.FRANCAIS" tout en bas + Vous devriez voir apparaître «Wrote ...TUTORIAL.FRANCAIS" tout en bas de la fenêtre. NOTE: Sur certains systèmes, C-x C-s bloque l'écran et Emacs ne dit plus rien. Cela signifie qu'une «fonctionnalité» système que l'on -appelle le «flow control» intercepte le C-s et l'empêche de parvenir à +appelle le «flow control» intercepte le C-s et l'empêche de parvenir à Emacs. Pour débloquer la situation, tapez C-q. Reportez-vous dans ce cas à la section «Spontaneous Entry to Incremental Search» du manuel -d'Emacs pour plus d'information sur cette ... «particularité». +d'Emacs pour plus d'information sur cette ... «particularité». -Vous pouvez visiter des fichiers existant, mais aussi des fichiers qui +Vous pouvez visiter des fichiers existant, mais aussi des fichiers qui n'existent pas. C'est en fait comme cela que l'on crée un nouveau fichier dans Emacs. Initialement, le fichier sera inexistant, et la première fois que vous demanderez à Emacs de le sauver, il créera @@ -572,7 +572,7 @@ buffers non attach C-b. Par contre, TOUT texte que vous pouvez voir dans Emacs appartient à un buffer. ->> Tapez C-x 1 pour faire disparaître le buffer contenant la liste des +>> Tapez C-x 1 pour faire disparaître le buffer contenant la liste des buffers. Quand vous éditez un fichier, puis que vous en ouvrez un autre, le @@ -608,7 +608,7 @@ son Remarquez qu'il existe des boutons n'ayant aucun équivalent clavier. Par exemple, le menu «Buffers» donne la liste de tous les -buffers par ordre de plus récente utilisation. Vous pouvez passer d'un +buffers par ordre de plus récente utilisation. Vous pouvez passer d'un buffer à l'autre en les sélectionnant par leur nom dans ce menu. @@ -622,12 +622,12 @@ d cliquant le bouton de gauche au début de la portion à sélectionner, puis en Shift-cliquant à l'autre bout. -Pour supprimer un morceau de texte, utilisez C-w ou le bouton «Cut» du +Pour supprimer un morceau de texte, utilisez C-w ou le bouton «Cut» du menu «Edit». Notez bien que ces deux commandes ne sont pas -équivalentes: C-w ne fait que supprimer le texte en le sauvegardant de +équivalentes: C-w ne fait que supprimer le texte en le sauvegardant de manière interne (comme C-k), mais «Cut» sauvegarde en plus le texte dans le clipboard de X Window, où il pourra être accédé par d'autres -applications. +applications. Pour récupérer du texte en provenance d'autres applications, utilisez «Paste» du menu «Edit». @@ -664,11 +664,11 @@ utilise la commande X (eXtension) qui se pr Ces commandes, bien que très utiles, sont utilisées moins souvent que celles que vous avez déjà apprises. Vous en connaissez déjà deux: les commandes relatives aux fichiers (C-x C-f et C-x C-s). Un autre -exemple est la commande pour quitter définitivement Emacs, C-x C-c (ne +exemple est la commande pour quitter définitivement Emacs, C-x C-c (ne vous inquiétez pas des éventuels changements qui seraient perdus, C-x C-c vous propose de sauver ces changements avant de tuer Emacs). -C-z est la commande qui vous permet de quitter Emacs «temporairement», +C-z est la commande qui vous permet de quitter Emacs «temporairement», pour que vous puissiez y revenir plus tard. Sur les systèmes le permettant, C-z «suspend» Emacs, ce qui signifie @@ -688,7 +688,7 @@ ceux-ci ne sachant pas forc des circonstances où vous ne vous déloguez pas, mieux vaut suspendre par C-z au lieu de sortir véritablement d'Emacs. -Il existe de nombreuses commandes sous C-x. Voici celles que vous avez +Il existe de nombreuses commandes sous C-x. Voici celles que vous avez apprises jusque là: C-x C-f Visiter un fichier (Find File). @@ -702,7 +702,7 @@ souvent, ou disponibles seulement sous certains modes. Par exemple, la commande «replace-string» substitue globalement une chaîne de caractères par une autre. Si vous tapez M-x, Emacs vous affichera M-x en bas de la fenêtre et vous pourrez alors taper le nom d'une -commande, ici replace-string. Tapez simplement 'repl s ' +commande, ici replace-string. Tapez simplement 'repl s ' et Emacs complétera le nom pour vous. Terminez le nom avec La commande replace-string requiert deux arguments: la chaîne à @@ -710,12 +710,12 @@ remplacer et la cha chaînes par . >> Déplacez le curseur sur la ligne blanche en dessous de ce - paragraphe, puis tapez - M-x replsRemarquezNotez. + paragraphe, puis tapez + M-x replsRemarquezNotez. Remarquez comme cette ligne a changé: le mot R-e-m-a-r-q-u-e-z a été remplacé par N-o-t-e-z partout où il est apparu après le - curseur. + curseur. * SAUVEGARDE AUTOMATIQUE @@ -749,15 +749,15 @@ area La ligne juste au dessus de la zone d'écho s'appelle ligne de mode («modeline»). Elle dit actuellement quelque chose comme ça: ---**-XEmacs: TUTORIAL.FRANCAIS (Fundamental)--L752--67%--------- +--**-XEmacs: TUTORIAL.FRANCAIS (Fundamental)--L752--67%--------- -Cette ligne fournit des renseignements utiles sur le status d'Emacs et +Cette ligne fournit des renseignements utiles sur le status d'Emacs et le texte que vous éditez. Vous connaissez déjà la signification du nom de fichier: c'est celui -que vous êtes en train d'éditer. -xx%- indique le pourcentage de texte +que vous êtes en train d'éditer. -xx%- indique le pourcentage de texte situé au dessus du curseur. Si vous pouvez voir le début du fichier à -l'écran, --Top-- sera indiqué au lieu de --00%--. Si le bas du fichier +l'écran, --Top-- sera indiqué au lieu de --00%--. Si le bas du fichier est visible, il y aura --Bot-- à la place. Si votre texte est tout entier contenu dans la fenêtre, vous verrez --All--. @@ -793,7 +793,7 @@ pouvez constater par exemple que M-b et M-f traitent les apostrophes comme faisant partie des mots. Auparavant, ces caractères étaient considérés comme des séparateurs de mots. En général, les modes majeurs ne changent que très peu le comportement des commandes -habituelles. +habituelles. Pour voir la documentation du mode majeur courant, tapez C-h m. @@ -808,7 +808,7 @@ comportement de tel ou tel mode majeur. Ils peuvent désactivés indépendamment du mode majeur courant. Vous pouvez en utiliser autant que possible en même temps. -Un mode mineur très utile pour éditer du texte est le mode +Un mode mineur très utile pour éditer du texte est le mode «Auto Fill». Quand ce mode est activé, Emacs coupe lui-même les lignes si vous tapez du texte trop long pour être contenu sur une seule. @@ -828,7 +828,7 @@ num Tapez du texte jusqu'à ce que la ligne soit coupée, puis replacez la marge à 70. -Si vous faites des changements au milieu d'un paragraphe, le mode Auto +Si vous faites des changements au milieu d'un paragraphe, le mode Auto Fill ne recoupera pas les lignes tout seul. Pour réajuster les lignes d'un tel paragraphe, tapez M-q avec le curseur n'importe où dans le paragraphe. @@ -847,7 +847,7 @@ prochain (ou pr La commande de recherche d'Emacs est un peu différente de celle des autres éditeurs de texte dans la mesure où elle est incrémentale: la recherche intervient au fur et à mesure que vous tapez la chaîne à -rechercher. +rechercher. Pour démarrer une recherche, tapez C-s (en avant) ou C-r (en arrière). MAIS PAS TOUT DE SUITE !! Attendez un peu pour tester ... @@ -872,10 +872,10 @@ n'existe, C-s produira un NOTE: Sur certains systèmes, C-x C-s bloque l'écran et Emacs ne dit plus rien. Cela signifie qu'une «fonctionnalité» système que l'on -appelle le «flow control» intercepte le C-s et l'empêche de parvenir à +appelle le «flow control» intercepte le C-s et l'empêche de parvenir à Emacs. Pour débloquer la situation, tapez C-q. Reportez-vous dans ce cas à la section «Spontaneous Entry to Incremental Search» du manuel -d'Emacs pour plus d'information sur cette ... «particularité». +d'Emacs pour plus d'information sur cette ... «particularité». Si vous êtes au milieu d'une recherche incrémentale et que vous tapez , vous constaterez que le dernier caractère de la chaîne est @@ -923,7 +923,7 @@ r C-M-v (ou C-v si vous n'avez pas de touche ) est un exemple de Control-Méta caractère. L'ordre dans lequel les touches - et sont enfoncées n'a pas d'importance. Ce sont juste + et sont enfoncées n'a pas d'importance. Ce sont juste des modificateurs. Par contre, n'est pas un modificateur, donc vous êtes obligés de taper d'abord , et C-v ensuite. @@ -959,7 +959,7 @@ Pour sortir d'un niveau r l'utiliser pour sortir du minibuffer ou éliminer des fenêtres superflues. ->> Tapez M-x pour vous rendre dans le minibuffer, puis tapez +>> Tapez M-x pour vous rendre dans le minibuffer, puis tapez pour en sortir. Il n'est pas possible d'utiliser C-g pour sortir d'un niveau récursif @@ -985,7 +985,7 @@ Emacs vous indiquera quelles sortes d'aide il peut vous fournir. Si vous ne désirez finalement pas d'aide après avoir tapé C-h, tapez simplement C-g. -(Quelques sites redéfinissent la commande C-h. Cela ne devrait vraiment +(Quelques sites redéfinissent la commande C-h. Cela ne devrait vraiment pas être fait, donc allez vous plaindre à votre administrateur système. Si C-h ne marche pas, tapez M-x help.) @@ -994,7 +994,7 @@ s la commande en question. >> Tapez C-h c C-p. - Le message doit ressembler à quelque chose comme + Le message doit ressembler à quelque chose comme C-p runs the command previous-line @@ -1041,11 +1041,11 @@ C-c. Pour quitter temporairement (et pour pouvoir revenir), tapez C-z Ce tutoriel est fait pour être compréhensible par tout nouvel utilisateur. Donc si quelque chose n'est pas clair, n'hésitez pas à -vous plaindre !! +vous plaindre !! Si vous avez plus particulièrement des remarques à faire sur la version française, vous pouvez aussi me contacter directement -(Didier Verna ). +(Didier Verna ). COPIES / DISTRIBUTION @@ -1057,7 +1057,7 @@ Un peu d'histoire ... Cracraft. * Ben Wing l'a mis à jour pour X Windows. * Martin Buchholz et Hrvoje Niksic y ont apporté des corrections pour - XEmacs. + XEmacs. * J'en (Didier Verna) ai fait une version française un beau jour de 1997. Cette version du tutoriel, tout comme Emacs, est copyrightée, et vous @@ -1082,4 +1082,3 @@ dans le m COPYING et à distribuer Emacs à vos amis. Aidez-nous à tuer l'obstructionnisme logiciel en utilisant, écrivant et partageant du logiciel libre! - diff --git a/etc/TUTORIAL.ja b/etc/TUTORIAL.ja index e7cfc57..c4da971 100644 --- a/etc/TUTORIAL.ja +++ b/etc/TUTORIAL.ja @@ -1,741 +1,1052 @@ - ============================== - $BF|K\8l(B GNUEMACS(Mule) $BF~LgJT(B - ============================== +Copyright (c) 1985, 1996 Free Software Foundation, Inc. +$B;HMQ>r7o$O%U%!%$%k:G8e$r;2>H$N$3$H(B + $B$"$J$?$,8=:_8+$F$$$k$N$O(B XEmacs $BF~Lg%,%$%I$G$9!#(B -$BCm0U!'(B $B$3$NF~LgJT$O!"!V=,$&$h$j47$l$m!W$r%b%C%H!<$K:n@.$5$l$F$$$^(B - $B$9!#(B">>" $B$+$i;O$^$k9T$O!"$=$N;~2?$r$9$Y$-$+$r;X<($7$F$$$^$9!#(B +XEmacs $B$N%3%^%s%I$rF~NO$9$k$K$O!"0lHL$K%3%s%H%m!<%k%-!$N$b$N$G$"$C$?$j$7$^$9(B +$B!JNc$($P!"(BSun $B$N%-!<%\!<%I$G$O!"%9%Z!<%9%P!<$N:8$N%@%$%"%b%s%I%-!<$,(B +META $B$G$9!K!#(BMETA $B%-!<$,L5$$>l9g$O!"(BESC $B$rBe$o$j$K;H$&$3$H$,$G$-$^$9!#(B +$B$=$3$G!"(BMETA $B$H$+(B CONTROL $B$H$+$r=q$/Be$o$j$K!" $B%3%s%H%m!<%k%-!<$r2!$7$?$^$^!"(B<$BJ8;z(B>$B%-!<$r2!$7$^$9!#Nc$($P!"(B + C-f $B$O%3%s%H%m!<%k%-!<$r2!$7$J$,$i(B f $B$N%-!<$r2!$9$3$H$G$9!#(B - 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$B:G$b4pK\E*$J$b$N$O!"(BC-h c $B$G$9!#$3$l$KB3$$$F%-!<$rF~NO$9$k$H!"$=$N%3%^(B -$B%s%I$K$D$$$F$NC;$$@bL@$rI=<($7$^$9!#(B +C-g $B$G$O:F5"JT=8%l%Y%k$+$i$OH4$1=P$;$^$;$s!#$3$l$O!"(BC-g $B$,:F5"JT=8%l%Y(B +$B%kFb$G$N%3%^%s%I$d0z?t$rC$9$N$K;H$o$l$F$$$k$+$i$G$9!#(B - >> C-h c C-p $B$H%?%$%W$7$F$_$J$5$$!#(B"C-p runs the command previous- - line"$B$N$h$&$J%a%C%;!<%8$,I=<($5$l$k$O$:$G$9!#(B - $B8+$?$3$H$O$"$k$,!"3P$($F$O$$$J$$%3%^%s%I$b;W$$=P$;$k$N$G$9!#(BC-x C-s $B$N(B -$B$h$&$JJ#?t$G#1$D$N%3%^%s%I$b(BC-h c $B$N8e$m$KB3$1$i$l$^$9!#(B +$B!v$b$C$H$b$C$H%X%k%W(B +==================== - $B$b$C$H>\$7$/CN$j$?$+$C$?$i!"(Bc $B$NBe$o$j$K(B k $B$r;XDj$7$^$9!#(B +$B$3$NF~Lg%,%$%I$G$O(B XEmacs $B$r;H$$;O$a$k$N$K==J,$J>pJs$rDs6!$7$?$D$b$j$G(B +$B$9!#(BXEmacs $B$K$O$"$^$j$K$bB?$/$N5!G=$,$"$k$N$G!"$3$3$G$9$Y$F$r@bL@$9$k(B +$B$N$OL5M}$G$9!#$=$l$G$bLr$KN)$D5!G=$r$b$C$HB?$/3X$S$?$$$H;W$&?M$N$?$a$K(B +$B$O!"(BXEmacs $B$N%3%^%s%I$N@bL@$rFI$`$?$a$N%3%^%s%I$,$"$j$^$9!#$3$l$i$N(B +$B!V%X%k%W!W%3%^%s%I$O3'(B Control-h $BJ8;z!J%X%k%WJ8;z$H8F$S$^$9!K$G;O$^$j(B +$B$^$9!#(B + +$B%X%k%W5!G=$r;H$&$K$O!"(BC-h $B$KB3$$$F$I$s$Jl9g$O(B C-h ? $B$H%?%$%W$7$^$7$g$&!#(B +$B$I$s$JC$9$3$H$,$G$-$^$9!#(B - >> C-h k C-p $B$H%?%$%W$7$F$_$J$5$$!#(B +$B!J%5%$%H$K$h$C$F$O(B C-h $BJ8;z$r:FB+G{$7$^$9!#Am3gE*$Jl9g$O%7%9%F%`4IM}A0$H5!G=$,I=<($5$l$^$9!#FI$_=*$($?$i!"(B -C-x 1 $B$H%?%$%W$9$k$H!"H4$1$i$l$^$9!#(B +$B:G$b4pK\E*$J%X%k%W5!G=$O(B C-h c $B$G$9!#(BC-h$B!"$=$l$+$i(B c$B!"$=$7$F%3%^%s%I$N(B +$BJ8;z$K$bLr$KN)$D%*%W%7%g%s$,$"$j$^$9!#(B +>> C-h c Control-p $B$H%?%$%W$7$F$_$^$7$g$&!#(B + $B0J2<$N$h$&$J%a%C%;!<%8$,I=<($5$l$k$O$:$G$9!#(B - C-h f $B%U%!%s%/%7%g%sL>$rF~NO$9$k$H!"%U%!%s%/%7%g%s$rI=<($7$^$9!#(B + C-p runs the command previous-line - >> C-h f previous-line $B$r%?%$%W$7!"(B $B$r2!$7$J$5$$!#(BC-p $B%3%^%s(B - $B%I$rpJs$rI=<($7$^$9!#(B +$B$3$l$O!V%U%!%s%/%7%g%s$NL>A0!W$rI=<($7$?$N$G$9!#%U%!%s%/%7%g%sL>$O$O$=$N%3%^%s%I$,2?$r$9$k$b$N$J$N$+$,J,$k$h$&$KIU$1$i$l$^$9(B +$B$N$G!"4JC1$J@bL@$H$7$F$b$=$N$^$^Lr$KN)$A$^$9!#0lEY3X$s$@%3%^%s%I$K$D$$(B +$B$F;W$$=P$9$K$O==J,$G$9!#(B - C-h a $B%-!<%o!<%I$rF~NO$9$k$H!"L>A0$K$=$N%-!<%o!<%I$r4^$`!"A4$F$N%3(B - $B%^%s%I$rI=<($7$^$9!#$3$l$i$N%3%^%s%I$O$9$Y$F(BESC x $B$Gl9g$N!K(B v $B$J$I$NJ#?tJ8;z(B +$B$N%3%^%s%I$r(B C-h c $B$N8e$K%?%$%W$9$k$3$H$b$G$-$^$9!#(B - >> C-h a file $B$H%?%$%W$7!"(B$B$r2!$7$J$5$$!#L>A0$K(B"file"$B$H$$$&J8(B - $B;z$r;}$DA4$F$N%3%^%s%I$rI=<($7$^$9!#$^$?!"(Bfind-file $B$d(B write-file - $B$H$$$&L>$N(B C-x C-f $B$d(B C-x C-w $B$N$h$&$J%3%^%s%I$bI=<($5$l$^$9!#(B +$B%3%^%s%I$K$D$$$F$b$C$HB?$/$N>pJs$,M_$7$1$l$P(B C-h c $B$NBe$o$j$K(B C-h k $B$r(B +$B;H$$$^$9!#(B -$B$*$o$j$K(B -======== +>> C-h k Control-p $B$H%?%$%W$7$F$_$^$7$g$&!#(B -$BK:$l$:$K!'(B $B=*N;$9$k$K$O!"(BC-x C-c $B$H$7$^$9!#(B +XEmacs$B$N%&%#%s%I%&$K!"%3%^%s%I$NL>A0$HF1;~$K$=$N5!G=$N@bL@$,I=<($5$l$^(B +$B$9!#FI$_=*$($?$i!"(Bq $B$H%?%$%W$7$F%X%k%W$N%F%-%9%H$r>C$7$^$7$g$&!#(B +C-h $B$K$OB>$K$bLr$KN)$D%*%W%7%g%s$,$"$j$^$9!#(B - $B$3$NF~LgJT$O!"$^$C$?$/$N=i?4$rF~NO$7$^$9!#(B +>> C-h f previous-line $B$H%?%$%W$7$F$_$^$7$g$&!#(B + C-p $B%3%^%s%I$rpJs$rI=<($7(B + $B$^$9!#(B - $B$b$7!"(BEMACS $B$r2?F|$+$G$b;H$C$F$_$l$P!"$=$l$r$d$a$F$7$^$&$3$H$J$I$G$-$J(B -$B$/$J$k$G$7$g$&!#:G=i$O8MOG$&$+$bCN$l$^$;$s!#$7$+$7!"$=$l$O$I$s$J%(%G%#%?$G(B -$B$bF1MM$G$9!#(BEMACS $B$N$h$&$K!"Hs>o$KB?$/$N$3$H$,$G$-$k>l9g$K$OFC$K$=$&$G$7$g(B -$B$&!#$=$7$F!"(BEMACS $B$G$O!"A0$K4^$`A4$F$N4X?t$HJQ?t$r%j%9%H%"%C%W$7$^$9!#(B + Meta-x $B$G5/F0$G$-$k%3%^%s%I$K$O:8B&$K%"%9%?%j%9%/$,IU(B + $B$-$^$9!#(B +>> C-h a newline $B$H%?%$%W$7$F$_$F2<$5$$!#(B +"newline"$B$H$$$&J8;zNs$rL>A0$N0lIt$K;}$DA4$F$N4X?t$HJQ?t$rI=<($7$^$9!#(B +$B4X?t$dJQ?t$r$h$j>\$7$/CN$k$?$a$K(B $B$+??Cf$N%^%&%9%\%?%s$r2!$7$F(B +$B$/$@$5$$!#(Bhyper-apropos $B$r=*N;$9$k$?$a$K$O(B `q' $B$rF~NO$7$^$9!#(B -$B $B$,(BNemacs/Mule $BMQ(B +$B$KJQ99!"$5$i$K5HEDLPO$O(BGMW + -Wnn + Nemacs$B$r;H$C$F=q$-$^$7$?!#$=$N$h$&$JAG@2$i$7$$%W%m%0%i%`$r:n$C$?J}!9(B -$B$X46M;R$5$s!"$I$&$b$"$j$,$H$&!#(B +$B!vCx:n8"I=<((B +============ +$B$3$3$K85$N1Q8lHG$NCx:n8"I=<($r$=$N$^$^IU$1$^$9!#$3$NK]LuHG$b$3$l$K=>$$(B +$B$^$9!#(B +This tutorial descends from a long line of Emacs tutorials +starting with the one written by Stuart Cracraft for the original Emacs. +Ben Wing updated the tutorial for X Windows. Martin Buchholz and +Hrvoje Niksic added more corrections for XEmacs. +This version of the tutorial, like XEmacs, is copyrighted, and comes +with permission to distribute copies on certain conditions: -$B8mLu!"13!"$=$NB>!"$NJ8@U$O!"0J2<$N ^ <------------------------------------------------------> - tag | a pointer to a structure, or an integer - | - mark bit - - The tag describes the type of the Lisp object. For integers and -chars, the lower 28 bits contain the value of the integer or char; for -all others, the lower 28 bits contain a pointer. The mark bit is used -during garbage-collection, and is always 0 when garbage collection is -not happening. (The way that garbage collection works, basically, is -that it loops over all places where Lisp objects could exist--this -includes all global variables in C that contain Lisp objects [including -`Vobarray', the C equivalent of `obarray'; through this, all Lisp -variables will get marked], plus various other places--and recursively -scans through the Lisp objects, marking each object it finds by setting -the mark bit. Then it goes through the lists of all objects allocated, -freeing the ones that are not marked and turning off the mark bit of -the ones that are marked.) + <---------------------------------------------------------> <-> + a pointer to a structure, or an integer tag + + A tag of 00 is used for all pointer object types, a tag of 10 is used +for characters, and the other two tags 01 and 11 are joined together to +form the integer object type. This representation gives us 31 bit +integers and 30 bit characters, while pointers are represented directly +without any bit masking or shifting. This representation, though, +assumes that pointers to structs are always aligned to multiples of 4, +so the lower 2 bits are always zero. Lisp objects use the typedef `Lisp_Object', but the actual C type used for the Lisp object can vary. It can be either a simple type @@ -433,95 +425,23 @@ because it ensures that the compiler will actually use a machine word to represent the object (some compilers will use more general and less efficient code for unions and structs even if they can fit in a machine word). The union type, however, has the advantage of stricter type -checking (if you accidentally pass an integer where a Lisp object is -desired, you get a compile error), and it makes it easier to decode -Lisp objects when debugging. The choice of which type to use is +checking. If you accidentally pass an integer where a Lisp object is +desired, you get a compile error. The choice of which type to use is determined by the preprocessor constant `USE_UNION_TYPE' which is defined via the `--use-union-type' option to `configure'. - Note that there are only eight types that the tag can represent, but -many more actual types than this. This is handled by having one of the -tag types specify a meta-type called a "record"; for all such objects, -the first four bytes of the pointed-to structure indicate what the -actual type is. - - Note also that having 28 bits for pointers and integers restricts a -lot of things to 256 megabytes of memory. (Basically, enough pointers -and indices and whatnot get stuffed into Lisp objects that the total -amount of memory used by XEmacs can't grow above 256 megabytes. In -older versions of XEmacs and GNU Emacs, the tag was 5 bits wide, -allowing for 32 types, which was more than the actual number of types -that existed at the time, and no "record" type was necessary. However, -this limited the editor to 64 megabytes total, which some users who -edited large files might conceivably exceed.) - - Also, note that there is an implicit assumption here that all -pointers are low enough that the top bits are all zero and can just be -chopped off. On standard machines that allocate memory from the bottom -up (and give each process its own address space), this works fine. Some -machines, however, put the data space somewhere else in memory (e.g. -beginning at 0x80000000). Those machines cope by defining -`DATA_SEG_BITS' in the corresponding `m/' or `s/' file to the proper -mask. Then, pointers retrieved from Lisp objects are automatically -OR'ed with this value prior to being used. - - A corollary of the previous paragraph is that *(pointers to) -stack-allocated structures cannot be put into Lisp objects*. The stack -is generally located near the top of memory; if you put such a pointer -into a Lisp object, it will get its top bits chopped off, and you will -lose. - - Actually, there's an alternative representation of a `Lisp_Object', -invented by Kyle Jones, that is used when the `--use-minimal-tagbits' -option to `configure' is used. In this case the 2 lower bits are used -for the tag bits. This representation assumes that pointers to structs -are always aligned to multiples of 4, so the lower 2 bits are always -zero. - - [ 3 3 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 ] - [ 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 9 8 7 6 5 4 3 2 1 0 ] - - <---------------------------------------------------------> <-> - a pointer to a structure, or an integer tag - - A tag of 00 is used for all pointer object types, a tag of 10 is used -for characters, and the other two tags 01 and 11 are joined together to -form the integer object type. The markbit is moved to part of the -structure being pointed at (integers and chars do not need to be marked, -since no memory is allocated). This representation has these -advantages: - - 1. 31 bits can be used for Lisp Integers. - - 2. _Any_ pointer can be represented directly, and no bit masking - operations are necessary. - - The disadvantages are: - - 1. An extra level of indirection is needed when accessing the object - types that were not record types. So checking whether a Lisp - object is a cons cell becomes a slower operation. - - 2. Mark bits can no longer be stored directly in Lisp objects, so - another place for them must be found. This means that a cons cell - requires more memory than merely room for 2 lisp objects, leading - to extra memory use. - - Various macros are used to construct Lisp objects and extract the -components. Macros of the form `XINT()', `XCHAR()', `XSTRING()', -`XSYMBOL()', etc. mask out the pointer/integer field and cast it to the -appropriate type. All of the macros that construct pointers will `OR' -with `DATA_SEG_BITS' if necessary. `XINT()' needs to be a bit tricky -so that negative numbers are properly sign-extended: Usually it does -this by shifting the number four bits to the left and then four bits to -the right. This assumes that the right-shift operator does an -arithmetic shift (i.e. it leaves the most-significant bit as-is rather -than shifting in a zero, so that it mimics a divide-by-two even for -negative numbers). Not all machines/compilers do this, and on the ones -that don't, a more complicated definition is selected by defining -`EXPLICIT_SIGN_EXTEND'. - - Note that when `ERROR_CHECK_TYPECHECK' is defined, the extractor + Various macros are used to convert between Lisp_Objects and the +corresponding C type. Macros of the form `XINT()', `XCHAR()', +`XSTRING()', `XSYMBOL()', do any required bit shifting and/or masking +and cast it to the appropriate type. `XINT()' needs to be a bit tricky +so that negative numbers are properly sign-extended. Since integers +are stored left-shifted, if the right-shift operator does an arithmetic +shift (i.e. it leaves the most-significant bit as-is rather than +shifting in a zero, so that it mimics a divide-by-two even for negative +numbers) the shift to remove the tag bit is enough. This is the case +on all the systems we support. + + Note that when `ERROR_CHECK_TYPECHECK' is defined, the converter macros become more complicated--they check the tag bits and/or the type field in the first four bytes of a record type to ensure that the object is really of the correct type. This is great for catching places @@ -533,22 +453,24 @@ unpredictable (and sometimes not easily traceable) results. These macros are of the form `XSETTYPE (LVALUE, RESULT)', i.e. they have to be a statement rather than just used in an expression. The reason for this is that standard C doesn't let you "construct" a -structure (but GCC does). Granted, this sometimes isn't too convenient; -for the case of integers, at least, you can use the function -`make_int()', which constructs and _returns_ an integer Lisp object. -Note that the `XSETTYPE()' macros are also affected by +structure (but GCC does). Granted, this sometimes isn't too +convenient; for the case of integers, at least, you can use the +function `make_int()', which constructs and _returns_ an integer Lisp +object. Note that the `XSETTYPE()' macros are also affected by `ERROR_CHECK_TYPECHECK' and make sure that the structure is of the right type in the case of record types, where the type is contained in the structure. The C programmer is responsible for *guaranteeing* that a -Lisp_Object is is the correct type before using the `XTYPE' macros. -This is especially important in the case of lists. Use `XCAR' and -`XCDR' if a Lisp_Object is certainly a cons cell, else use `Fcar()' and -`Fcdr()'. Trust other C code, but not Lisp code. On the other hand, -if XEmacs has an internal logic error, it's better to crash -immediately, so sprinkle "unreachable" `abort()'s liberally about the -source code. +Lisp_Object is the correct type before using the `XTYPE' macros. This +is especially important in the case of lists. Use `XCAR' and `XCDR' if +a Lisp_Object is certainly a cons cell, else use `Fcar()' and `Fcdr()'. +Trust other C code, but not Lisp code. On the other hand, if XEmacs +has an internal logic error, it's better to crash immediately, so +sprinkle `assert()'s and "unreachable" `abort()'s liberally about the +source code. Where performance is an issue, use `type_checking_assert', +`bufpos_checking_assert', and `gc_checking_assert', which do nothing +unless the corresponding configure error checking flag was specified.  File: internals.info, Node: Rules When Writing New C Code, Next: A Summary of the Various XEmacs Modules, Prev: How Lisp Objects Are Represented in C, Up: Top @@ -572,7 +494,7 @@ situations, often in code far away from where the actual breakage is. * Techniques for XEmacs Developers::  -File: internals.info, Node: General Coding Rules, Next: Writing Lisp Primitives, Up: Rules When Writing New C Code +File: internals.info, Node: General Coding Rules, Next: Writing Lisp Primitives, Prev: Rules When Writing New C Code, Up: Rules When Writing New C Code General Coding Rules ==================== @@ -608,13 +530,13 @@ to ensure that certain tricks played by various `s/' and `m/' files work out correctly. When including header files, always use angle brackets, not double -quotes, except when the file to be included is in the same directory as -the including file. If either file is a generated file, then that is -not likely to be the case. In order to understand why we have this -rule, imagine what happens when you do a build in the source directory -using `./configure' and another build in another directory using -`../work/configure'. There will be two different `config.h' files. -Which one will be used if you `#include "config.h"'? +quotes, except when the file to be included is always in the same +directory as the including file. If either file is a generated file, +then that is not likely to be the case. In order to understand why we +have this rule, imagine what happens when you do a build in the source +directory using `./configure' and another build in another directory +using `../work/configure'. There will be two different `config.h' +files. Which one will be used if you `#include "config.h"'? *All global and static variables that are to be modifiable must be declared uninitialized.* This means that you may not use the "declare @@ -624,8 +546,7 @@ dumping process: If possible, the initialized data segment is re-mapped so that it becomes part of the (unmodifiable) code segment in the dumped executable. This allows this memory to be shared among multiple running XEmacs processes. XEmacs is careful to place as much constant -data as possible into initialized variables (in particular, into what's -called the "pure space"--see below) during the `temacs' phase. +data as possible into initialized variables during the `temacs' phase. *Please note:* This kludge only works on a few systems nowadays, and is rapidly becoming irrelevant because most modern operating systems @@ -654,7 +575,7 @@ them. This awful kludge has been removed in XEmacs because The C source code makes heavy use of C preprocessor macros. One popular macro style is: - #define FOO(var, value) do { \ + #define FOO(var, value) do { \ Lisp_Object FOO_value = (value); \ ... /* compute using FOO_value */ \ (var) = bar; \ @@ -1000,7 +921,7 @@ of code generalization for future I18N work. * An Example of Mule-Aware Code::  -File: internals.info, Node: Character-Related Data Types, Next: Working With Character and Byte Positions, Up: Coding for Mule +File: internals.info, Node: Character-Related Data Types, Next: Working With Character and Byte Positions, Prev: Coding for Mule, Up: Coding for Mule Character-Related Data Types ---------------------------- @@ -1026,27 +947,32 @@ glance at the declaration can tell the intended use of the variable. The data representing the text in a buffer or string is logically a set of `Bufbyte's. - XEmacs does not work with character formats all the time; when - reading characters from the outside, it decodes them to an + XEmacs does not work with the same character formats all the time; + when reading characters from the outside, it decodes them to an internal format, and likewise encodes them when writing. `Bufbyte' (in fact `unsigned char') is the basic unit of XEmacs - internal buffers and strings format. + internal buffers and strings format. A `Bufbyte *' is the type + that points at text encoded in the variable-width internal + encoding. One character can correspond to one or more `Bufbyte's. In the - current implementation, an ASCII character is represented by the - same `Bufbyte', and extended characters are represented by a - sequence of `Bufbyte's. + current Mule implementation, an ASCII character is represented by + the same `Bufbyte', and other characters are represented by a + sequence of two or more `Bufbyte's. - Without Mule support, a `Bufbyte' is equivalent to an `Emchar'. + Without Mule support, there are exactly 256 characters, implicitly + Latin-1, and each character is represented using one `Bufbyte', and + there is a one-to-one correspondence between `Bufbyte's and + `Emchar's. `Bufpos' `Charcount' A `Bufpos' represents a character position in a buffer or string. A `Charcount' represents a number (count) of characters. Logically, subtracting two `Bufpos' values yields a `Charcount' - value. Although all of these are `typedef'ed to `int', we use - them in preference to `int' to make it clear what sort of position - is being used. + value. Although all of these are `typedef'ed to `EMACS_INT', we + use them in preference to `EMACS_INT' to make it clear what sort + of position is being used. `Bufpos' and `Charcount' values are the only ones that are ever visible to Lisp. @@ -1054,9 +980,9 @@ glance at the declaration can tell the intended use of the variable. `Bytind' `Bytecount' A `Bytind' represents a byte position in a buffer or string. A - `Bytecount' represents the distance between two positions in bytes. - The relationship between `Bytind' and `Bytecount' is the same as - the relationship between `Bufpos' and `Charcount'. + `Bytecount' represents the distance between two positions, in + bytes. The relationship between `Bytind' and `Bytecount' is the + same as the relationship between `Bufpos' and `Charcount'. `Extbyte' `Extcount' @@ -1065,3 +991,102 @@ glance at the declaration can tell the intended use of the variable. is the distance between two `Extbyte's. Extbytes and Extcounts are not all that frequent in XEmacs code. + +File: internals.info, Node: Working With Character and Byte Positions, Next: Conversion to and from External Data, Prev: Character-Related Data Types, Up: Coding for Mule + +Working With Character and Byte Positions +----------------------------------------- + + Now that we have defined the basic character-related types, we can +look at the macros and functions designed for work with them and for +conversion between them. Most of these macros are defined in +`buffer.h', and we don't discuss all of them here, but only the most +important ones. Examining the existing code is the best way to learn +about them. + +`MAX_EMCHAR_LEN' + This preprocessor constant is the maximum number of buffer bytes to + represent an Emacs character in the variable width internal + encoding. It is useful when allocating temporary strings to keep + a known number of characters. For instance: + + { + Charcount cclen; + ... + { + /* Allocate place for CCLEN characters. */ + Bufbyte *buf = (Bufbyte *)alloca (cclen * MAX_EMCHAR_LEN); + ... + + If you followed the previous section, you can guess that, + logically, multiplying a `Charcount' value with `MAX_EMCHAR_LEN' + produces a `Bytecount' value. + + In the current Mule implementation, `MAX_EMCHAR_LEN' equals 4. + Without Mule, it is 1. + +`charptr_emchar' +`set_charptr_emchar' + The `charptr_emchar' macro takes a `Bufbyte' pointer and returns + the `Emchar' stored at that position. If it were a function, its + prototype would be: + + Emchar charptr_emchar (Bufbyte *p); + + `set_charptr_emchar' stores an `Emchar' to the specified byte + position. It returns the number of bytes stored: + + Bytecount set_charptr_emchar (Bufbyte *p, Emchar c); + + It is important to note that `set_charptr_emchar' is safe only for + appending a character at the end of a buffer, not for overwriting a + character in the middle. This is because the width of characters + varies, and `set_charptr_emchar' cannot resize the string if it + writes, say, a two-byte character where a single-byte character + used to reside. + + A typical use of `set_charptr_emchar' can be demonstrated by this + example, which copies characters from buffer BUF to a temporary + string of Bufbytes. + + { + Bufpos pos; + for (pos = beg; pos < end; pos++) + { + Emchar c = BUF_FETCH_CHAR (buf, pos); + p += set_charptr_emchar (buf, c); + } + } + + Note how `set_charptr_emchar' is used to store the `Emchar' and + increment the counter, at the same time. + +`INC_CHARPTR' +`DEC_CHARPTR' + These two macros increment and decrement a `Bufbyte' pointer, + respectively. They will adjust the pointer by the appropriate + number of bytes according to the byte length of the character + stored there. Both macros assume that the memory address is + located at the beginning of a valid character. + + Without Mule support, `INC_CHARPTR (p)' and `DEC_CHARPTR (p)' + simply expand to `p++' and `p--', respectively. + +`bytecount_to_charcount' + Given a pointer to a text string and a length in bytes, return the + equivalent length in characters. + + Charcount bytecount_to_charcount (Bufbyte *p, Bytecount bc); + +`charcount_to_bytecount' + Given a pointer to a text string and a length in characters, + return the equivalent length in bytes. + + Bytecount charcount_to_bytecount (Bufbyte *p, Charcount cc); + +`charptr_n_addr' + Return a pointer to the beginning of the character offset CC (in + characters) from P. + + Bufbyte *charptr_n_addr (Bufbyte *p, Charcount cc); + diff --git a/info/internals.info-3 b/info/internals.info-3 index c6ed97c..2025e00 100644 --- a/info/internals.info-3 +++ b/info/internals.info-3 @@ -38,105 +38,6 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  -File: internals.info, Node: Working With Character and Byte Positions, Next: Conversion to and from External Data, Prev: Character-Related Data Types, Up: Coding for Mule - -Working With Character and Byte Positions ------------------------------------------ - - Now that we have defined the basic character-related types, we can -look at the macros and functions designed for work with them and for -conversion between them. Most of these macros are defined in -`buffer.h', and we don't discuss all of them here, but only the most -important ones. Examining the existing code is the best way to learn -about them. - -`MAX_EMCHAR_LEN' - This preprocessor constant is the maximum number of buffer bytes - per Emacs character, i.e. the byte length of an `Emchar'. It is - useful when allocating temporary strings to keep a known number of - characters. For instance: - - { - Charcount cclen; - ... - { - /* Allocate place for CCLEN characters. */ - Bufbyte *buf = (Bufbyte *)alloca (cclen * MAX_EMCHAR_LEN); - ... - - If you followed the previous section, you can guess that, - logically, multiplying a `Charcount' value with `MAX_EMCHAR_LEN' - produces a `Bytecount' value. - - In the current Mule implementation, `MAX_EMCHAR_LEN' equals 4. - Without Mule, it is 1. - -`charptr_emchar' -`set_charptr_emchar' - The `charptr_emchar' macro takes a `Bufbyte' pointer and returns - the `Emchar' stored at that position. If it were a function, its - prototype would be: - - Emchar charptr_emchar (Bufbyte *p); - - `set_charptr_emchar' stores an `Emchar' to the specified byte - position. It returns the number of bytes stored: - - Bytecount set_charptr_emchar (Bufbyte *p, Emchar c); - - It is important to note that `set_charptr_emchar' is safe only for - appending a character at the end of a buffer, not for overwriting a - character in the middle. This is because the width of characters - varies, and `set_charptr_emchar' cannot resize the string if it - writes, say, a two-byte character where a single-byte character - used to reside. - - A typical use of `set_charptr_emchar' can be demonstrated by this - example, which copies characters from buffer BUF to a temporary - string of Bufbytes. - - { - Bufpos pos; - for (pos = beg; pos < end; pos++) - { - Emchar c = BUF_FETCH_CHAR (buf, pos); - p += set_charptr_emchar (buf, c); - } - } - - Note how `set_charptr_emchar' is used to store the `Emchar' and - increment the counter, at the same time. - -`INC_CHARPTR' -`DEC_CHARPTR' - These two macros increment and decrement a `Bufbyte' pointer, - respectively. They will adjust the pointer by the appropriate - number of bytes according to the byte length of the character - stored there. Both macros assume that the memory address is - located at the beginning of a valid character. - - Without Mule support, `INC_CHARPTR (p)' and `DEC_CHARPTR (p)' - simply expand to `p++' and `p--', respectively. - -`bytecount_to_charcount' - Given a pointer to a text string and a length in bytes, return the - equivalent length in characters. - - Charcount bytecount_to_charcount (Bufbyte *p, Bytecount bc); - -`charcount_to_bytecount' - Given a pointer to a text string and a length in characters, - return the equivalent length in bytes. - - Bytecount charcount_to_bytecount (Bufbyte *p, Charcount cc); - -`charptr_n_addr' - Return a pointer to the beginning of the character offset CC (in - characters) from P. - - Bufbyte *charptr_n_addr (Bufbyte *p, Charcount cc); - - File: internals.info, Node: Conversion to and from External Data, Next: General Guidelines for Writing Mule-Aware Code, Prev: Working With Character and Byte Positions, Up: Coding for Mule Conversion to and from External Data @@ -152,99 +53,132 @@ convert it to an appropriate external encoding, lest the internal stuff The interface to conversion between the internal and external representations of text are the numerous conversion macros defined in -`buffer.h'. Before looking at them, we'll look at the external formats -supported by these macros. - - Currently meaningful formats are `FORMAT_BINARY', `FORMAT_FILENAME', -`FORMAT_OS', and `FORMAT_CTEXT'. Here is a description of these. - -`FORMAT_BINARY' - Binary format. This is the simplest format and is what we use in - the absence of a more appropriate format. This converts according - to the `binary' coding system: - - a. On input, bytes 0-255 are converted into characters 0-255. +`buffer.h'. There used to be a fixed set of external formats supported +by these macros, but now any coding system can be used with these +macros. The coding system alias mechanism is used to create the +following logical coding systems, which replace the fixed external +formats. The (dontusethis-set-symbol-value-handler) mechanism was +enhanced to make this possible (more work on that is needed - like +remove the `dontusethis-' prefix). + +`Qbinary' + This is the simplest format and is what we use in the absence of a + more appropriate format. This converts according to the `binary' + coding system: + + a. On input, bytes 0-255 are converted into (implicitly Latin-1) + characters 0-255. A non-Mule xemacs doesn't really know about + different character sets and the fonts to display them, so + the bytes can be treated as text in different 1-byte + encodings by simply setting the appropriate fonts. So in a + sense, non-Mule xemacs is a multi-lingual editor if, for + example, different fonts are used to display text in + different buffers, faces, or windows. The specifier + mechanism gives the user complete control over this kind of + behavior. b. On output, characters 0-255 are converted into bytes 0-255 - and other characters are converted into `X'. + and other characters are converted into `~'. -`FORMAT_FILENAME' - Format used for filenames. In the original Mule, this is - user-definable with the `pathname-coding-system' variable. For - the moment, we just use the `binary' coding system. +`Qfile_name' + Format used for filenames. This is user-definable via either the + `file-name-coding-system' or `pathname-coding-system' (now + obsolete) variables. -`FORMAT_OS' +`Qnative' Format used for the external Unix environment--`argv[]', stuff from `getenv()', stuff from the `/etc/passwd' file, etc. + Currently this is the same as Qfile_name. The two should be + distinguished for clarity and possible future separation. + +`Qctext' + Compound-text format. This is the standard X11 format used for + data stored in properties, selections, and the like. This is an + 8-bit no-lock-shift ISO2022 coding system. This is a real coding + system, unlike Qfile_name, which is user-definable. + + There are two fundamental macros to convert between external and +internal format. + + `TO_INTERNAL_FORMAT' converts external data to internal format, and +`TO_EXTERNAL_FORMAT' converts the other way around. The arguments each +of these receives are a source type, a source, a sink type, a sink, and +a coding system (or a symbol naming a coding system). + + A typical call looks like + TO_EXTERNAL_FORMAT (LISP_STRING, str, C_STRING_MALLOC, ptr, Qfile_name); + + which means that the contents of the lisp string `str' are written +to a malloc'ed memory area which will be pointed to by `ptr', after the +function returns. The conversion will be done using the `file-name' +coding system, which will be controlled by the user indirectly by +setting or binding the variable `file-name-coding-system'. + + Some sources and sinks require two C variables to specify. We use +some preprocessor magic to allow different source and sink types, and +even different numbers of arguments to specify different types of +sources and sinks. + + So we can have a call that looks like + TO_INTERNAL_FORMAT (DATA, (ptr, len), + MALLOC, (ptr, len), + coding_system); + + The parenthesized argument pairs are required to make the +preprocessor magic work. + + Here are the different source and sink types: + +``DATA, (ptr, len),'' + input data is a fixed buffer of size LEN at address PTR + +``ALLOCA, (ptr, len),'' + output data is placed in an alloca()ed buffer of size LEN pointed + to by PTR + +``MALLOC, (ptr, len),'' + output data is in a malloc()ed buffer of size LEN pointed to by PTR + +``C_STRING_ALLOCA, ptr,'' + equivalent to `ALLOCA (ptr, len_ignored)' on output. + +``C_STRING_MALLOC, ptr,'' + equivalent to `MALLOC (ptr, len_ignored)' on output + +``C_STRING, ptr,'' + equivalent to `DATA, (ptr, strlen (ptr) + 1)' on input + +``LISP_STRING, string,'' + input or output is a Lisp_Object of type string + +``LISP_BUFFER, buffer,'' + output is written to `(point)' in lisp buffer BUFFER + +``LISP_LSTREAM, lstream,'' + input or output is a Lisp_Object of type lstream - Perhaps should be the same as FORMAT_FILENAME. - -`FORMAT_CTEXT' - Compound-text format. This is the standard X format used for data - stored in properties, selections, and the like. This is an 8-bit - no-lock-shift ISO2022 coding system. - - The macros to convert between these formats and the internal format, -and vice versa, follow. - -`GET_CHARPTR_INT_DATA_ALLOCA' -`GET_CHARPTR_EXT_DATA_ALLOCA' - These two are the most basic conversion macros. - `GET_CHARPTR_INT_DATA_ALLOCA' converts external data to internal - format, and `GET_CHARPTR_EXT_DATA_ALLOCA' converts the other way - around. The arguments each of these receives are PTR (pointer to - the text in external format), LEN (length of texts in bytes), FMT - (format of the external text), PTR_OUT (lvalue to which new text - should be copied), and LEN_OUT (lvalue which will be assigned the - length of the internal text in bytes). The resulting text is - stored to a stack-allocated buffer. If the text doesn't need - changing, these macros will do nothing, except for setting LEN_OUT. - - The macros above take many arguments which makes them unwieldy. - For this reason, a number of convenience macros are defined with - obvious functionality, but accepting less arguments. The general - rule is that macros with `INT' in their name convert text to - internal Emacs representation, whereas the `EXT' macros convert to - external representation. - -`GET_C_CHARPTR_INT_DATA_ALLOCA' -`GET_C_CHARPTR_EXT_DATA_ALLOCA' - As their names imply, these macros work on C char pointers, which - are zero-terminated, and thus do not need LEN or LEN_OUT - parameters. - -`GET_STRING_EXT_DATA_ALLOCA' -`GET_C_STRING_EXT_DATA_ALLOCA' - These two macros convert a Lisp string into an external - representation. The difference between them is that - `GET_STRING_EXT_DATA_ALLOCA' stores its output to a generic - string, providing LEN_OUT, the length of the resulting external - string. On the other hand, `GET_C_STRING_EXT_DATA_ALLOCA' assumes - that the caller will be satisfied with output string being - zero-terminated. - - Note that for Lisp strings only one conversion direction makes - sense. - -`GET_C_CHARPTR_EXT_BINARY_DATA_ALLOCA' -`GET_CHARPTR_EXT_BINARY_DATA_ALLOCA' -`GET_STRING_BINARY_DATA_ALLOCA' -`GET_C_STRING_BINARY_DATA_ALLOCA' -`GET_C_CHARPTR_EXT_FILENAME_DATA_ALLOCA' -`...' - These macros convert internal text to a specific external - representation, with the external format being encoded into the - name of the macro. Note that the `GET_STRING_...' and - `GET_C_STRING...' macros lack the `EXT' tag, because they only - make sense in that direction. - -`GET_C_CHARPTR_INT_BINARY_DATA_ALLOCA' -`GET_CHARPTR_INT_BINARY_DATA_ALLOCA' -`GET_C_CHARPTR_INT_FILENAME_DATA_ALLOCA' -`...' - These macros convert external text of a specific format to its - internal representation, with the external format being incoded - into the name of the macro. +``LISP_OPAQUE, object,'' + input or output is a Lisp_Object of type opaque + + Often, the data is being converted to a '\0'-byte-terminated string, +which is the format required by many external system C APIs. For these +purposes, a source type of `C_STRING' or a sink type of +`C_STRING_ALLOCA' or `C_STRING_MALLOC' is appropriate. Otherwise, we +should try to keep XEmacs '\0'-byte-clean, which means using (ptr, len) +pairs. + + The sinks to be specified must be lvalues, unless they are the lisp +object types `LISP_LSTREAM' or `LISP_BUFFER'. + + For the sink types `ALLOCA' and `C_STRING_ALLOCA', the resulting +text is stored in a stack-allocated buffer, which is automatically +freed on returning from the function. However, the sink types `MALLOC' +and `C_STRING_MALLOC' return `xmalloc()'ed memory. The caller is +responsible for freeing this memory using `xfree()'. + + Note that it doesn't make sense for `LISP_STRING' to be a source for +`TO_INTERNAL_FORMAT' or a sink for `TO_EXTERNAL_FORMAT'. You'll get an +assertion failure if you try.  File: internals.info, Node: General Guidelines for Writing Mule-Aware Code, Next: An Example of Mule-Aware Code, Prev: Conversion to and from External Data, Up: Coding for Mule @@ -275,10 +209,22 @@ _Always convert external data_ internal buffers literally. This means that when a system function, such as `readdir', returns - a string, you need to convert it using one of the conversion macros - described in the previous chapter, before passing it further to - Lisp. In the case of `readdir', you would use the - `GET_C_CHARPTR_INT_FILENAME_DATA_ALLOCA' macro. + a string, you may need to convert it using one of the conversion + macros described in the previous chapter, before passing it + further to Lisp. + + Actually, most of the basic system functions that accept + '\0'-terminated string arguments, like `stat()' and `open()', have + been *encapsulated* so that they are they `always' do internal to + external conversion themselves. This means you must pass + internally encoded data, typically the `XSTRING_DATA' of a + Lisp_String to these functions. This is actually a design bug, + since it unexpectedly changes the semantics of the system + functions. A better design would be to provide separate versions + of these system functions that accepted Lisp_Objects which were + lisp strings in place of their current `char *' arguments. + + int stat_lisp (Lisp_Object path, struct stat *buf); /* Implement me */ Also note that many internal functions, such as `make_string', accept Bufbytes, which removes the need for them to convert the @@ -292,7 +238,7 @@ File: internals.info, Node: An Example of Mule-Aware Code, Prev: General Guide An Example of Mule-Aware Code ----------------------------- - As an example of Mule-aware code, we shall will analyze the `string' + As an example of Mule-aware code, we will analyze the `string' function, which conses up a Lisp string from the character arguments it receives. Here is the definition, pasted from `alloc.c': @@ -340,13 +286,17 @@ File: internals.info, Node: Techniques for XEmacs Developers, Prev: Coding for Techniques for XEmacs Developers ================================ - To make a quantified XEmacs, do: `make quantmacs'. + To make a purified XEmacs, do: `make puremacs'. To make a +quantified XEmacs, do: `make quantmacs'. - You simply can't dump Quantified and Purified images. Run the image -like so: `quantmacs -batch -l loadup.el run-temacs XEMACS-ARGS...'. + You simply can't dump Quantified and Purified images (unless using +the portable dumper). Purify gets confused when xemacs frees memory in +one process that was allocated in a _different_ process on a different +machine!. Run it like so: + temacs -batch -l loadup.el run-temacs XEMACS-ARGS... Before you go through the trouble, are you compiling with all -debugging and error-checking off? If not try that first. Be warned +debugging and error-checking off? If not, try that first. Be warned that while Quantify is directly responsible for quite a few optimizations which have been made to XEmacs, doing a run which generates results which can be acted upon is not necessarily a trivial @@ -382,14 +332,105 @@ out where the cycles are going. Specific projects: Function calls in elisp are especially expensive. Iterating over a long list is going to be 30 times faster implemented in C than in Elisp. + Heavily used small code fragments need to be fast. The traditional +way to implement such code fragments in C is with macros. But macros +in C are known to be broken. + + Macro arguments that are repeatedly evaluated may suffer from +repeated side effects or suboptimal performance. + + Variable names used in macros may collide with caller's variables, +causing (at least) unwanted compiler warnings. + + In order to solve these problems, and maintain statement semantics, +one should use the `do { ... } while (0)' trick while trying to +reference macro arguments exactly once using local variables. + + Let's take a look at this poor macro definition: + + #define MARK_OBJECT(obj) \ + if (!marked_p (obj)) mark_object (obj), did_mark = 1 + + This macro evaluates its argument twice, and also fails if used like +this: + if (flag) MARK_OBJECT (obj); else do_something(); + + A much better definition is + + #define MARK_OBJECT(obj) do { \ + Lisp_Object mo_obj = (obj); \ + if (!marked_p (mo_obj)) \ + { \ + mark_object (mo_obj); \ + did_mark = 1; \ + } \ + } while (0) + + Notice the elimination of double evaluation by using the local +variable with the obscure name. Writing safe and efficient macros +requires great care. The one problem with macros that cannot be +portably worked around is, since a C block has no value, a macro used +as an expression rather than a statement cannot use the techniques just +described to avoid multiple evaluation. + + In most cases where a macro has function semantics, an inline +function is a better implementation technique. Modern compiler +optimizers tend to inline functions even if they have no `inline' +keyword, and configure magic ensures that the `inline' keyword can be +safely used as an additional compiler hint. Inline functions used in a +single .c files are easy. The function must already be defined to be +`static'. Just add another `inline' keyword to the definition. + + inline static int + heavily_used_small_function (int arg) + { + ... + } + + Inline functions in header files are trickier, because we would like +to make the following optimization if the function is _not_ inlined +(for example, because we're compiling for debugging). We would like the +function to be defined externally exactly once, and each calling +translation unit would create an external reference to the function, +instead of including a definition of the inline function in the object +code of every translation unit that uses it. This optimization is +currently only available for gcc. But you don't have to worry about the +trickiness; just define your inline functions in header files using this +pattern: + + INLINE_HEADER int + i_used_to_be_a_crufty_macro_but_look_at_me_now (int arg); + INLINE_HEADER int + i_used_to_be_a_crufty_macro_but_look_at_me_now (int arg) + { + ... + } + + The declaration right before the definition is to prevent warnings +when compiling with `gcc -Wmissing-declarations'. I consider issuing +this warning for inline functions a gcc bug, but the gcc maintainers +disagree. + + Every header which contains inline functions, either directly by +using `INLINE_HEADER' or indirectly by using `DECLARE_LRECORD' must be +added to `inline.c''s includes to make the optimization described above +work. (Optimization note: if all INLINE_HEADER functions are in fact +inlined in all translation units, then the linker can just discard +`inline.o', since it contains only unreferenced code). + To get started debugging XEmacs, take a look at the `.gdbinit' and -`.dbxrc' files in the `src' directory. *Note Q2.1.15 - How to Debug an -XEmacs problem with a debugger: (xemacs-faq)Q2.1.15 - How to Debug an -XEmacs problem with a debugger. +`.dbxrc' files in the `src' directory. See the section in the XEmacs +FAQ on How to Debug an XEmacs problem with a debugger. After making source code changes, run `make check' to ensure that -you haven't introduced any regressions. If you're feeling ambitious, -you can try to improve the test suite in `tests/automated'. +you haven't introduced any regressions. If you want to make xemacs more +reliable, please improve the test suite in `tests/automated'. + + Did you make sure you didn't introduce any new compiler warnings? + + Before submitting a patch, please try compiling at least once with + + configure --with-mule --with-union-type --error-checking=all Here are things to know when you create a new source file: @@ -400,7 +441,7 @@ you can try to improve the test suite in `tests/automated'. <...>' syntax, not the `#include "..."' syntax. The generated headers are: - `config.h puresize-adjust.h sheap-adjust.h paths.h Emacs.ad.h' + `config.h sheap-adjust.h paths.h Emacs.ad.h' The basic rule is that you should assume builds using `--srcdir' and the `#include <...>' syntax needs to be used when the @@ -412,15 +453,27 @@ you can try to improve the test suite in `tests/automated'. * Header files should _not_ include `' and `"lisp.h"'. It is the responsibility of the `.c' files that use it to do so. - * If the header uses `INLINE', either directly or through - `DECLARE_LRECORD', then it must be added to `inline.c''s includes. - * Try compiling at least once with + Here is a checklist of things to do when creating a new lisp object +type named FOO: + + 1. create FOO.h + + 2. create FOO.c + + 3. add definitions of `syms_of_FOO', etc. to `FOO.c' - gcc --with-mule --with-union-type --error-checking=all + 4. add declarations of `syms_of_FOO', etc. to `symsinit.h' - * Did I mention that you should run the test suite? - make check + 5. add calls to `syms_of_FOO', etc. to `emacs.c' + + 6. add definitions of macros like `CHECK_FOO' and `FOOP' to `FOO.h' + + 7. add the new type index to `enum lrecord_type' + + 8. add a DEFINE_LRECORD_IMPLEMENTATION call to `FOO.c' + + 9. add an INIT_LRECORD_IMPLEMENTATION call to `syms_of_FOO.c'  File: internals.info, Node: A Summary of the Various XEmacs Modules, Next: Allocation of Objects in XEmacs Lisp, Prev: Rules When Writing New C Code, Up: Top @@ -446,7 +499,7 @@ A Summary of the Various XEmacs Modules * Modules for Internationalization::  -File: internals.info, Node: Low-Level Modules, Next: Basic Lisp Modules, Up: A Summary of the Various XEmacs Modules +File: internals.info, Node: Low-Level Modules, Next: Basic Lisp Modules, Prev: A Summary of the Various XEmacs Modules, Up: A Summary of the Various XEmacs Modules Low-Level Modules ================= @@ -674,8 +727,6 @@ special-purpose argument types requiring definitions not in `lisp.h'.) All initialization functions are prototyped in `symsinit.h'. alloc.c - pure.c - puresize.h The large module `alloc.c' implements all of the basic allocation and garbage collection for Lisp objects. The most commonly used Lisp @@ -700,33 +751,6 @@ require changes to the generic subsystem code or affect any of the other subtypes in the subsystem; this provides a great deal of robustness to the XEmacs code. - `pure.c' contains the declaration of the "purespace" array. Pure -space is a hack used to place some constant Lisp data into the code -segment of the XEmacs executable, even though the data needs to be -initialized through function calls. (See above in section VIII for more -info about this.) During startup, certain sorts of data is -automatically copied into pure space, and other data is copied manually -in some of the basic Lisp files by calling the function `purecopy', -which copies the object if possible (this only works in temacs, of -course) and returns the new object. In particular, while temacs is -executing, the Lisp reader automatically copies all compiled-function -objects that it reads into pure space. Since compiled-function objects -are large, are never modified, and typically comprise the majority of -the contents of a compiled-Lisp file, this works well. While XEmacs is -running, any attempt to modify an object that resides in pure space -causes an error. Objects in pure space are never garbage collected - -almost all of the time, they're intended to be permanent, and in any -case you can't write into pure space to set the mark bits. - - `puresize.h' contains the declaration of the size of the pure space -array. This depends on the optional features that are compiled in, any -extra purespace requested by the user at compile time, and certain other -factors (e.g. 64-bit machines need more pure space because their Lisp -objects are larger). The smallest size that suffices should be used, so -that there's no wasted space. If there's not enough pure space, you -will get an error during the build process, specifying how much more -pure space is needed. - eval.c backtrace.h diff --git a/info/internals.info-4 b/info/internals.info-4 index af2f27c..26d82a9 100644 --- a/info/internals.info-4 +++ b/info/internals.info-4 @@ -597,7 +597,7 @@ method. None of this code is currently working. Asian-language support, and is not currently used.  -File: internals.info, Node: Allocation of Objects in XEmacs Lisp, Next: Events and the Event Loop, Prev: A Summary of the Various XEmacs Modules, Up: Top +File: internals.info, Node: Allocation of Objects in XEmacs Lisp, Next: Dumping, Prev: A Summary of the Various XEmacs Modules, Up: Top Allocation of Objects in XEmacs Lisp ************************************ @@ -612,7 +612,6 @@ Allocation of Objects in XEmacs Lisp * Allocation from Frob Blocks:: * lrecords:: * Low-level allocation:: -* Pure Space:: * Cons:: * Vector:: * Bit Vector:: @@ -622,7 +621,7 @@ Allocation of Objects in XEmacs Lisp * Compiled Function::  -File: internals.info, Node: Introduction to Allocation, Next: Garbage Collection, Up: Allocation of Objects in XEmacs Lisp +File: internals.info, Node: Introduction to Allocation, Next: Garbage Collection, Prev: Allocation of Objects in XEmacs Lisp, Up: Allocation of Objects in XEmacs Lisp Introduction to Allocation ========================== @@ -646,9 +645,9 @@ corresponding Lisp primitives. Every Lisp object, though, has at least one C primitive for creating it. Recall from section (VII) that a Lisp object, as stored in a 32-bit -or 64-bit word, has a mark bit, a few tag bits, and a "value" that -occupies the remainder of the bits. We can separate the different Lisp -object types into four broad categories: +or 64-bit word, has a few tag bits, and a "value" that occupies the +remainder of the bits. We can separate the different Lisp object types +into three broad categories: * (a) Those for whom the value directly represents the contents of the Lisp object. Only two types are in this category: integers and @@ -656,51 +655,27 @@ object types into four broad categories: necessary for such objects. Lisp objects of these types do not need to be `GCPRO'ed. - In the remaining three categories, the value is a pointer to a -structure. - - * (b) Those for whom the tag directly specifies the type. Recall - that there are only three tag bits; this means that at most five - types can be specified this way. The most commonly-used types are - stored in this format; this includes conses, strings, vectors, and - sometimes symbols. With the exception of vectors, objects in this - category are allocated in "frob blocks", i.e. large blocks of - memory that are subdivided into individual objects. This saves a - lot on malloc overhead, since there are typically quite a lot of - these objects around, and the objects are small. (A cons, for - example, occupies 8 bytes on 32-bit machines--4 bytes for each of - the two objects it contains.) Vectors are individually - `malloc()'ed since they are of variable size. (It would be - possible, and desirable, to allocate vectors of certain small - sizes out of frob blocks, but it isn't currently done.) Strings - are handled specially: Each string is allocated in two parts, a - fixed size structure containing a length and a data pointer, and - the actual data of the string. The former structure is allocated - in frob blocks as usual, and the latter data is stored in "string - chars blocks" and is relocated during garbage collection to - eliminate holes. - In the remaining two categories, the type is stored in the object itself. The tag for all such objects is the generic "lrecord" -(Lisp_Record) tag. The first four bytes (or eight, for 64-bit machines) -of the object's structure are a pointer to a structure that describes -the object's type, which includes method pointers and a pointer to a -string naming the type. Note that it's possible to save some space by -using a one- or two-byte tag, rather than a four- or eight-byte pointer -to store the type, but it's not clear it's worth making the change. - - * (c) Those lrecords that are allocated in frob blocks (see above). +(Lisp_Type_Record) tag. The first bytes of the object's structure are +an integer (actually a char) characterising the object's type and some +flags, in particular the mark bit used for garbage collection. A +structure describing the type is accessible thru the +lrecord_implementation_table indexed with said integer. This structure +includes the method pointers and a pointer to a string naming the type. + + * (b) Those lrecords that are allocated in frob blocks (see above). This includes the objects that are most common and relatively - small, and includes floats, compiled functions, symbols (when not - in category (b)), extents, events, and markers. With the cleanup - of frob blocks done in 19.12, it's not terribly hard to add more - objects to this category, but it's a bit trickier than adding an - object type to type (d) (esp. if the object needs a finalization - method), and is not likely to save much space unless the object is - small and there are many of them. (In fact, if there are very few - of them, it might actually waste space.) - - * (d) Those lrecords that are individually `malloc()'ed. These are + small, and includes conses, strings, subrs, floats, compiled + functions, symbols, extents, events, and markers. With the + cleanup of frob blocks done in 19.12, it's not terribly hard to + add more objects to this category, but it's a bit trickier than + adding an object type to type (c) (esp. if the object needs a + finalization method), and is not likely to save much space unless + the object is small and there are many of them. (In fact, if there + are very few of them, it might actually waste space.) + + * (c) Those lrecords that are individually `malloc()'ed. These are called "lcrecords". All other types are in this category. Adding a new type to this category is comparatively easy, and all types added since 19.8 (when the current allocation scheme was devised, @@ -708,18 +683,11 @@ to store the type, but it's not clear it's worth making the change. have been in this category. Note that bit vectors are a bit of a special case. They are simple -lrecords as in category (c), but are individually `malloc()'ed like +lrecords as in category (b), but are individually `malloc()'ed like vectors. You can basically view them as exactly like vectors except that their type is stored in lrecord fashion rather than in directly-tagged fashion. - Note that FSF Emacs redesigned their object system in 19.29 to follow -a similar scheme. However, given RMS's expressed dislike for data -abstraction, the FSF scheme is not nearly as clean or as easy to -extend. (FSF calls items of type (c) `Lisp_Misc' and items of type (d) -`Lisp_Vectorlike', with separate tags for each, although -`Lisp_Vectorlike' is also used for vectors.) -  File: internals.info, Node: Garbage Collection, Next: GCPROing, Prev: Introduction to Allocation, Up: Allocation of Objects in XEmacs Lisp @@ -738,52 +706,10 @@ allocated objects. Traversing all these objects means traversing all frob blocks, all vectors (which are chained in one big list), and all lcrecords (which are likewise chained). - Note that, when an object is marked, the mark has to occur inside of -the object's structure, rather than in the 32-bit `Lisp_Object' holding -the object's pointer; i.e. you can't just set the pointer's mark bit. -This is because there may be many pointers to the same object. This -means that the method of marking an object can differ depending on the -type. The different marking methods are approximately as follows: - - 1. For conses, the mark bit of the car is set. - - 2. For strings, the mark bit of the string's plist is set. - - 3. For symbols when not lrecords, the mark bit of the symbol's plist - is set. - - 4. For vectors, the length is negated after adding 1. - - 5. For lrecords, the pointer to the structure describing the type is - changed (see below). - - 6. Integers and characters do not need to be marked, since no - allocation occurs for them. - - The details of this are in the `mark_object()' function. - - Note that any code that operates during garbage collection has to be -especially careful because of the fact that some objects may be marked -and as such may not look like they normally do. In particular: - - Some object pointers may have their mark bit set. This will make - `FOOBARP()' predicates fail. Use `GC_FOOBARP()' to deal with this. - - * Even if you clear the mark bit, `FOOBARP()' will still fail for - lrecords because the implementation pointer has been changed (see - below). `GC_FOOBARP()' will correctly deal with this. - - * Vectors have their size field munged, so anything that looks at - this field will fail. - - * Note that `XFOOBAR()' macros _will_ work correctly on object - pointers with their mark bit set, because the logical shift - operations that remove the tag also remove the mark bit. - - Finally, note that garbage collection can be invoked explicitly by -calling `garbage-collect' but is also called automatically by `eval', -once a certain amount of memory has been allocated since the last -garbage collection (according to `gc-cons-threshold'). + Garbage collection can be invoked explicitly by calling +`garbage-collect' but is also called automatically by `eval', once a +certain amount of memory has been allocated since the last garbage +collection (according to `gc-cons-threshold').  File: internals.info, Node: GCPROing, Next: Garbage Collection - Step by Step, Prev: Garbage Collection, Up: Allocation of Objects in XEmacs Lisp @@ -796,14 +722,17 @@ internals. The basic idea is that whenever garbage collection occurs, all in-use objects must be reachable somehow or other from one of the roots of accessibility. The roots of accessibility are: - 1. All objects that have been `staticpro()'d. This is used for any - global C variables that hold Lisp objects. A call to - `staticpro()' happens implicitly as a result of any symbols - declared with `defsymbol()' and any variables declared with - `DEFVAR_FOO()'. You need to explicitly call `staticpro()' (in the - `vars_of_foo()' method of a module) for other global C variables - holding Lisp objects. (This typically includes internal lists and - such things.) + 1. All objects that have been `staticpro()'d or + `staticpro_nodump()'ed. This is used for any global C variables + that hold Lisp objects. A call to `staticpro()' happens implicitly + as a result of any symbols declared with `defsymbol()' and any + variables declared with `DEFVAR_FOO()'. You need to explicitly + call `staticpro()' (in the `vars_of_foo()' method of a module) for + other global C variables holding Lisp objects. (This typically + includes internal lists and such things.). Use + `staticpro_nodump()' only in the rare cases when you do not want + the pointed variable to be saved at dump time but rather recompute + it at startup. Note that `obarray' is one of the `staticpro()'d things. Therefore, all functions and variables get marked through this. @@ -937,7 +866,7 @@ Garbage Collection - Step by Step * sweep_bit_vectors_1::  -File: internals.info, Node: Invocation, Next: garbage_collect_1, Up: Garbage Collection - Step by Step +File: internals.info, Node: Invocation, Next: garbage_collect_1, Prev: Garbage Collection - Step by Step, Up: Garbage Collection - Step by Step Invocation ---------- @@ -983,7 +912,7 @@ can occur _implicitly_ in four different situations: The upshot is that garbage collection can basically occur everywhere `Feval', respectively `Ffuncall', is used - either directly or through another function. Since calls to these two functions are hidden in -various other functions, many calls to `garabge_collect_1' are not +various other functions, many calls to `garbage_collect_1' are not obviously foreseeable, and therefore unexpected. Instances where they are used that are worth remembering are various elisp commands, as for example `or', `and', `if', `cond', `while', `setq', etc., miscellaneous @@ -992,3 +921,219 @@ example `or', `and', `if', `cond', `while', `setq', etc., miscellaneous signals, as for example the ones raised by every `QUITE'-macro triggered after pressing Ctrl-g. + +File: internals.info, Node: garbage_collect_1, Next: mark_object, Prev: Invocation, Up: Garbage Collection - Step by Step + +`garbage_collect_1' +------------------- + + We can now describe exactly what happens after the invocation takes +place. + 1. There are several cases in which the garbage collector is left + immediately: when we are already garbage collecting + (`gc_in_progress'), when the garbage collection is somehow + forbidden (`gc_currently_forbidden'), when we are currently + displaying something (`in_display') or when we are preparing for + the armageddon of the whole system (`preparing_for_armageddon'). + + 2. Next the correct frame in which to put all the output occurring + during garbage collecting is determined. In order to be able to + restore the old display's state after displaying the message, some + data about the current cursor position has to be saved. The + variables `pre_gc_cursor' and `cursor_changed' take care of that. + + 3. The state of `gc_currently_forbidden' must be restored after the + garbage collection, no matter what happens during the process. We + accomplish this by `record_unwind_protect'ing the suitable function + `restore_gc_inhibit' together with the current value of + `gc_currently_forbidden'. + + 4. If we are concurrently running an interactive xemacs session, the + next step is simply to show the garbage collector's cursor/message. + + 5. The following steps are the intrinsic steps of the garbage + collector, therefore `gc_in_progress' is set. + + 6. For debugging purposes, it is possible to copy the current C stack + frame. However, this seems to be a currently unused feature. + + 7. Before actually starting to go over all live objects, references to + objects that are no longer used are pruned. We only have to do + this for events (`clear_event_resource') and for specifiers + (`cleanup_specifiers'). + + 8. Now the mark phase begins and marks all accessible elements. In + order to start from all slots that serve as roots of + accessibility, the function `mark_object' is called for each root + individually to go out from there to mark all reachable objects. + All roots that are traversed are shown in their processed order: + * all constant symbols and static variables that are registered + via `staticpro' in the array `staticvec'. *Note Adding + Global Lisp Variables::. + + * all Lisp objects that are created in C functions and that + must be protected from freeing them. They are registered in + the global list `gcprolist'. *Note GCPROing::. + + * all local variables (i.e. their name fields `symbol' and old + values `old_values') that are bound during the evaluation by + the Lisp engine. They are stored in `specbinding' structs + pushed on a stack called `specpdl'. *Note Dynamic Binding; + The specbinding Stack; Unwind-Protects::. + + * all catch blocks that the Lisp engine encounters during the + evaluation cause the creation of structs `catchtag' inserted + in the list `catchlist'. Their tag (`tag') and value (`val' + fields are freshly created objects and therefore have to be + marked. *Note Catch and Throw::. + + * every function application pushes new structs `backtrace' on + the call stack of the Lisp engine (`backtrace_list'). The + unique parts that have to be marked are the fields for each + function (`function') and all their arguments (`args'). + *Note Evaluation::. + + * all objects that are used by the redisplay engine that must + not be freed are marked by a special function called + `mark_redisplay' (in `redisplay.c'). + + * all objects created for profiling purposes are allocated by C + functions instead of using the lisp allocation mechanisms. In + order to receive the right ones during the sweep phase, they + also have to be marked manually. That is done by the function + `mark_profiling_info' + + 9. Hash tables in XEmacs belong to a kind of special objects that + make use of a concept often called 'weak pointers'. To make a + long story short, these kind of pointers are not followed during + the estimation of the live objects during garbage collection. Any + object referenced only by weak pointers is collected anyway, and + the reference to it is cleared. In hash tables there are different + usage patterns of them, manifesting in different types of hash + tables, namely 'non-weak', 'weak', 'key-weak' and 'value-weak' + (internally also 'key-car-weak' and 'value-car-weak') hash tables, + each clearing entries depending on different conditions. More + information can be found in the documentation to the function + `make-hash-table'. + + Because there are complicated dependency rules about when and what + to mark while processing weak hash tables, the standard `marker' + method is only active if it is marking non-weak hash tables. As + soon as a weak component is in the table, the hash table entries + are ignored while marking. Instead their marking is done each + separately by the function `finish_marking_weak_hash_tables'. This + function iterates over each hash table entry `hentries' for each + weak hash table in `Vall_weak_hash_tables'. Depending on the type + of a table, the appropriate action is performed. If a table is + acting as `HASH_TABLE_KEY_WEAK', and a key already marked, + everything reachable from the `value' component is marked. If it is + acting as a `HASH_TABLE_VALUE_WEAK' and the value component is + already marked, the marking starts beginning only from the `key' + component. If it is a `HASH_TABLE_KEY_CAR_WEAK' and the car of + the key entry is already marked, we mark both the `key' and + `value' components. Finally, if the table is of the type + `HASH_TABLE_VALUE_CAR_WEAK' and the car of the value components is + already marked, again both the `key' and the `value' components + get marked. + + Again, there are lists with comparable properties called weak + lists. There exist different peculiarities of their types called + `simple', `assoc', `key-assoc' and `value-assoc'. You can find + further details about them in the description to the function + `make-weak-list'. The scheme of their marking is similar: all weak + lists are listed in `Qall_weak_lists', therefore we iterate over + them. The marking is advanced until we hit an already marked pair. + Then we know that during a former run all the rest has been marked + completely. Again, depending on the special type of the weak list, + our jobs differ. If it is a `WEAK_LIST_SIMPLE' and the elem is + marked, we mark the `cons' part. If it is a `WEAK_LIST_ASSOC' and + not a pair or a pair with both marked car and cdr, we mark the + `cons' and the `elem'. If it is a `WEAK_LIST_KEY_ASSOC' and not a + pair or a pair with a marked car of the elem, we mark the `cons' + and the `elem'. Finally, if it is a `WEAK_LIST_VALUE_ASSOC' and + not a pair or a pair with a marked cdr of the elem, we mark both + the `cons' and the `elem'. + + Since, by marking objects in reach from weak hash tables and weak + lists, other objects could get marked, this perhaps implies + further marking of other weak objects, both finishing functions + are redone as long as yet unmarked objects get freshly marked. + + 10. After completing the special marking for the weak hash tables and + for the weak lists, all entries that point to objects that are + going to be swept in the further process are useless, and + therefore have to be removed from the table or the list. + + The function `prune_weak_hash_tables' does the job for weak hash + tables. Totally unmarked hash tables are removed from the list + `Vall_weak_hash_tables'. The other ones are treated more carefully + by scanning over all entries and removing one as soon as one of + the components `key' and `value' is unmarked. + + The same idea applies to the weak lists. It is accomplished by + `prune_weak_lists': An unmarked list is pruned from + `Vall_weak_lists' immediately. A marked list is treated more + carefully by going over it and removing just the unmarked pairs. + + 11. The function `prune_specifiers' checks all listed specifiers held + in `Vall_specifiers' and removes the ones from the lists that are + unmarked. + + 12. All syntax tables are stored in a list called + `Vall_syntax_tables'. The function `prune_syntax_tables' walks + through it and unlinks the tables that are unmarked. + + 13. Next, we will attack the complete sweeping - the function + `gc_sweep' which holds the predominance. + + 14. First, all the variables with respect to garbage collection are + reset. `consing_since_gc' - the counter of the created cells since + the last garbage collection - is set back to 0, and + `gc_in_progress' is not `true' anymore. + + 15. In case the session is interactive, the displayed cursor and + message are removed again. + + 16. The state of `gc_inhibit' is restored to the former value by + unwinding the stack. + + 17. A small memory reserve is always held back that can be reached by + `breathing_space'. If nothing more is left, we create a new reserve + and exit. + + +File: internals.info, Node: mark_object, Next: gc_sweep, Prev: garbage_collect_1, Up: Garbage Collection - Step by Step + +`mark_object' +------------- + + The first thing that is checked while marking an object is whether +the object is a real Lisp object `Lisp_Type_Record' or just an integer +or a character. Integers and characters are the only two types that are +stored directly - without another level of indirection, and therefore +they don't have to be marked and collected. *Note How Lisp Objects Are +Represented in C::. + + The second case is the one we have to handle. It is the one when we +are dealing with a pointer to a Lisp object. But, there exist also three +possibilities, that prevent us from doing anything while marking: The +object is read only which prevents it from being garbage collected, +i.e. marked (`C_READONLY_RECORD_HEADER'). The object in question is +already marked, and need not be marked for the second time (checked by +`MARKED_RECORD_HEADER_P'). If it is a special, unmarkable object +(`UNMARKABLE_RECORD_HEADER_P', apparently, these are objects that sit +in some const space, and can therefore not be marked, see +`this_one_is_unmarkable' in `alloc.c'). + + Now, the actual marking is feasible. We do so by once using the macro +`MARK_RECORD_HEADER' to mark the object itself (actually the special +flag in the lrecord header), and calling its special marker "method" +`marker' if available. The marker method marks every other object that +is in reach from our current object. Note, that these marker methods +should not call `mark_object' recursively, but instead should return +the next object from where further marking has to be performed. + + In case another object was returned, as mentioned before, we +reiterate the whole `mark_object' process beginning with this next +object. + diff --git a/info/internals.info-5 b/info/internals.info-5 index 163f1c5..d2c73c5 100644 --- a/info/internals.info-5 +++ b/info/internals.info-5 @@ -38,222 +38,6 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  -File: internals.info, Node: garbage_collect_1, Next: mark_object, Prev: Invocation, Up: Garbage Collection - Step by Step - -`garbage_collect_1' -------------------- - - We can now describe exactly what happens after the invocation takes -place. - 1. There are several cases in which the garbage collector is left - immediately: when we are already garbage collecting - (`gc_in_progress'), when the garbage collection is somehow - forbidden (`gc_currently_forbidden'), when we are currently - displaying something (`in_display') or when we are preparing for - the armageddon of the whole system (`preparing_for_armageddon'). - - 2. Next the correct frame in which to put all the output occurring - during garbage collecting is determined. In order to be able to - restore the old display's state after displaying the message, some - data about the current cursor position has to be saved. The - variables `pre_gc_curser' and `cursor_changed' take care of that. - - 3. The state of `gc_currently_forbidden' must be restored after the - garbage collection, no matter what happens during the process. We - accomplish this by `record_unwind_protect'ing the suitable function - `restore_gc_inhibit' together with the current value of - `gc_currently_forbidden'. - - 4. If we are concurrently running an interactive xemacs session, the - next step is simply to show the garbage collector's cursor/message. - - 5. The following steps are the intrinsic steps of the garbage - collector, therefore `gc_in_progress' is set. - - 6. For debugging purposes, it is possible to copy the current C stack - frame. However, this seems to be a currently unused feature. - - 7. Before actually starting to go over all live objects, references to - objects that are no longer used are pruned. We only have to do - this for events (`clear_event_resource') and for specifiers - (`cleanup_specifiers'). - - 8. Now the mark phase begins and marks all accessible elements. In - order to start from all slots that serve as roots of - accessibility, the function `mark_object' is called for each root - individually to go out from there to mark all reachable objects. - All roots that are traversed are shown in their processed order: - * all constant symbols and static variables that are registered - via `staticpro' in the array `staticvec'. *Note Adding - Global Lisp Variables::. - - * all Lisp objects that are created in C functions and that - must be protected from freeing them. They are registered in - the global list `gcprolist'. *Note GCPROing::. - - * all local variables (i.e. their name fields `symbol' and old - values `old_values') that are bound during the evaluation by - the Lisp engine. They are stored in `specbinding' structs - pushed on a stack called `specpdl'. *Note Dynamic Binding; - The specbinding Stack; Unwind-Protects::. - - * all catch blocks that the Lisp engine encounters during the - evaluation cause the creation of structs `catchtag' inserted - in the list `catchlist'. Their tag (`tag') and value (`val' - fields are freshly created objects and therefore have to be - marked. *Note Catch and Throw::. - - * every function application pushes new structs `backtrace' on - the call stack of the Lisp engine (`backtrace_list'). The - unique parts that have to be marked are the fields for each - function (`function') and all their arguments (`args'). - *Note Evaluation::. - - * all objects that are used by the redisplay engine that must - not be freed are marked by a special function called - `mark_redisplay' (in `redisplay.c'). - - * all objects created for profiling purposes are allocated by C - functions instead of using the lisp allocation mechanisms. In - order to receive the right ones during the sweep phase, they - also have to be marked manually. That is done by the function - `mark_profiling_info' - - 9. Hash tables in XEmacs belong to a kind of special objects that - make use of a concept often called 'weak pointers'. To make a - long story short, these kind of pointers are not followed during - the estimation of the live objects during garbage collection. Any - object referenced only by weak pointers is collected anyway, and - the reference to it is cleared. In hash tables there are different - usage patterns of them, manifesting in different types of hash - tables, namely 'non-weak', 'weak', 'key-weak' and 'value-weak' - (internally also 'key-car-weak' and 'value-car-weak') hash tables, - each clearing entries depending on different conditions. More - information can be found in the documentation to the function - `make-hash-table'. - - Because there are complicated dependency rules about when and what - to mark while processing weak hash tables, the standard `marker' - method is only active if it is marking non-weak hash tables. As - soon as a weak component is in the table, the hash table entries - are ignored while marking. Instead their marking is done each - separately by the function `finish_marking_weak_hash_tables'. This - function iterates over each hash table entry `hentries' for each - weak hash table in `Vall_weak_hash_tables'. Depending on the type - of a table, the appropriate action is performed. If a table is - acting as `HASH_TABLE_KEY_WEAK', and a key already marked, - everything reachable from the `value' component is marked. If it is - acting as a `HASH_TABLE_VALUE_WEAK' and the value component is - already marked, the marking starts beginning only from the `key' - component. If it is a `HASH_TABLE_KEY_CAR_WEAK' and the car of - the key entry is already marked, we mark both the `key' and - `value' components. Finally, if the table is of the type - `HASH_TABLE_VALUE_CAR_WEAK' and the car of the value components is - already marked, again both the `key' and the `value' components - get marked. - - Again, there are lists with comparable properties called weak - lists. There exist different peculiarities of their types called - `simple', `assoc', `key-assoc' and `value-assoc'. You can find - further details about them in the description to the function - `make-weak-list'. The scheme of their marking is similar: all weak - lists are listed in `Qall_weak_lists', therefore we iterate over - them. The marking is advanced until we hit an already marked pair. - Then we know that during a former run all the rest has been marked - completely. Again, depending on the special type of the weak list, - our jobs differ. If it is a `WEAK_LIST_SIMPLE' and the elem is - marked, we mark the `cons' part. If it is a `WEAK_LIST_ASSOC' and - not a pair or a pair with both marked car and cdr, we mark the - `cons' and the `elem'. If it is a `WEAK_LIST_KEY_ASSOC' and not a - pair or a pair with a marked car of the elem, we mark the `cons' - and the `elem'. Finally, if it is a `WEAK_LIST_VALUE_ASSOC' and - not a pair or a pair with a marked cdr of the elem, we mark both - the `cons' and the `elem'. - - Since, by marking objects in reach from weak hash tables and weak - lists, other objects could get marked, this perhaps implies - further marking of other weak objects, both finishing functions - are redone as long as yet unmarked objects get freshly marked. - - 10. After completing the special marking for the weak hash tables and - for the weak lists, all entries that point to objects that are - going to be swept in the further process are useless, and - therefore have to be removed from the table or the list. - - The function `prune_weak_hash_tables' does the job for weak hash - tables. Totally unmarked hash tables are removed from the list - `Vall_weak_hash_tables'. The other ones are treated more carefully - by scanning over all entries and removing one as soon as one of - the components `key' and `value' is unmarked. - - The same idea applies to the weak lists. It is accomplished by - `prune_weak_lists': An unmarked list is pruned from - `Vall_weak_lists' immediately. A marked list is treated more - carefully by going over it and removing just the unmarked pairs. - - 11. The function `prune_specifiers' checks all listed specifiers held - in `Vall_speficiers' and removes the ones from the lists that are - unmarked. - - 12. All syntax tables are stored in a list called - `Vall_syntax_tables'. The function `prune_syntax_tables' walks - through it and unlinks the tables that are unmarked. - - 13. Next, we will attack the complete sweeping - the function - `gc_sweep' which holds the predominance. - - 14. First, all the variables with respect to garbage collection are - reset. `consing_since_gc' - the counter of the created cells since - the last garbage collection - is set back to 0, and - `gc_in_progress' is not `true' anymore. - - 15. In case the session is interactive, the displayed cursor and - message are removed again. - - 16. The state of `gc_inhibit' is restored to the former value by - unwinding the stack. - - 17. A small memory reserve is always held back that can be reached by - `breathing_space'. If nothing more is left, we create a new reserve - and exit. - - -File: internals.info, Node: mark_object, Next: gc_sweep, Prev: garbage_collect_1, Up: Garbage Collection - Step by Step - -`mark_object' -------------- - - The first thing that is checked while marking an object is whether -the object is a real Lisp object `Lisp_Type_Record' or just an integer -or a character. Integers and characters are the only two types that are -stored directly - without another level of indirection, and therefore -they don't have to be marked and collected. *Note How Lisp Objects Are -Represented in C::. - - The second case is the one we have to handle. It is the one when we -are dealing with a pointer to a Lisp object. But, there exist also three -possibilities, that prevent us from doing anything while marking: The -object is read only which prevents it from being garbage collected, -i.e. marked (`C_READONLY_RECORD_HEADER'). The object in question is -already marked, and need not be marked for the second time (checked by -`MARKED_RECORD_HEADER_P'). If it is a special, unmarkable object -(`UNMARKABLE_RECORD_HEADER_P', apparently, these are objects that sit -in some CONST space, and can therefore not be marked, see -`this_one_is_unmarkable' in `alloc.c'). - - Now, the actual marking is feasible. We do so by once using the macro -`MARK_RECORD_HEADER' to mark the object itself (actually the special -flag in the lrecord header), and calling its special marker "method" -`marker' if available. The marker method marks every other object that -is in reach from our current object. Note, that these marker methods -should not call `mark_object' recursively, but instead should return -the next object from where further marking has to be performed. - - In case another object was returned, as mentioned before, we -reiterate the whole `mark_object' process beginning with this next -object. - - File: internals.info, Node: gc_sweep, Next: sweep_lcrecords_1, Prev: mark_object, Up: Garbage Collection - Step by Step `gc_sweep' @@ -501,24 +285,17 @@ lrecords [see `lrecord.h'] All lrecords have at the beginning of their structure a `struct -lrecord_header'. This just contains a pointer to a `struct +lrecord_header'. This just contains a type number and some flags, +including the mark bit. All builtin type numbers are defined as +constants in `enum lrecord_type', to allow the compiler to generate +more efficient code for `TYPEP'. The type number, thru the +`lrecord_implementation_table', gives access to a `struct lrecord_implementation', which is a structure containing method pointers and such. There is one of these for each type, and it is a global, constant, statically-declared structure that is declared in the -`DEFINE_LRECORD_IMPLEMENTATION()' macro. (This macro actually declares -an array of two `struct lrecord_implementation' structures. The first -one contains all the standard method pointers, and is used in all -normal circumstances. During garbage collection, however, the lrecord -is "marked" by bumping its implementation pointer by one, so that it -points to the second structure in the array. This structure contains a -special indication in it that it's a "marked-object" structure: the -finalize method is the special function `this_marks_a_marked_record()', -and all other methods are null pointers. At the end of garbage -collection, all lrecords will either be reclaimed or unmarked by -decrementing their implementation pointers, so this second structure -pointer will never remain past garbage collection. - - Simple lrecords (of type (c) above) just have a `struct +`DEFINE_LRECORD_IMPLEMENTATION()' macro. + + Simple lrecords (of type (b) above) just have a `struct lrecord_header' at their beginning. lcrecords, however, actually have a `struct lcrecord_header'. This, in turn, has a `struct lrecord_header' at its beginning, so sanity is preserved; but it also has a pointer @@ -544,20 +321,21 @@ allocation function for each lrecord type. Whenever you create an lrecord, you need to call either `DEFINE_LRECORD_IMPLEMENTATION()' or `DEFINE_LRECORD_SEQUENCE_IMPLEMENTATION()'. This needs to be specified -in a C file, at the top level. What this actually does is define and -initialize the implementation structure for the lrecord. (And possibly -declares a function `error_check_foo()' that implements the `XFOO()' -macro when error-checking is enabled.) The arguments to the macros are -the actual type name (this is used to construct the C variable name of -the lrecord implementation structure and related structures using the -`##' macro concatenation operator), a string that names the type on the -Lisp level (this may not be the same as the C type name; typically, the -C type name has underscores, while the Lisp string has dashes), various -method pointers, and the name of the C structure that contains the -object. The methods are used to encapsulate type-specific information -about the object, such as how to print it or mark it for garbage -collection, so that it's easy to add new object types without having to -add a specific case for each new type in a bunch of different places. +in a `.c' file, at the top level. What this actually does is define +and initialize the implementation structure for the lrecord. (And +possibly declares a function `error_check_foo()' that implements the +`XFOO()' macro when error-checking is enabled.) The arguments to the +macros are the actual type name (this is used to construct the C +variable name of the lrecord implementation structure and related +structures using the `##' macro concatenation operator), a string that +names the type on the Lisp level (this may not be the same as the C +type name; typically, the C type name has underscores, while the Lisp +string has dashes), various method pointers, and the name of the C +structure that contains the object. The methods are used to +encapsulate type-specific information about the object, such as how to +print it or mark it for garbage collection, so that it's easy to add +new object types without having to add a specific case for each new +type in a bunch of different places. The difference between `DEFINE_LRECORD_IMPLEMENTATION()' and `DEFINE_LRECORD_SEQUENCE_IMPLEMENTATION()' is that the former is used @@ -571,21 +349,20 @@ for keeping allocation statistics.) For the purpose of keeping allocation statistics, the allocation engine keeps a list of all the different types that exist. Note that, since `DEFINE_LRECORD_IMPLEMENTATION()' is a macro that is specified at -top-level, there is no way for it to add to the list of all existing -types. What happens instead is that each implementation structure -contains in it a dynamically assigned number that is particular to that -type. (Or rather, it contains a pointer to another structure that -contains this number. This evasiveness is done so that the -implementation structure can be declared const.) In the sweep stage of -garbage collection, each lrecord is examined to see if its -implementation structure has its dynamically-assigned number set. If -not, it must be a new type, and it is added to the list of known types -and a new number assigned. The number is used to index into an array -holding the number of objects of each type and the total memory -allocated for objects of that type. The statistics in this array are -also computed during the sweep stage. These statistics are returned by -the call to `garbage-collect' and are printed out at the end of the -loadup phase. +top-level, there is no way for it to initialize the global data +structures containing type information, like +`lrecord_implementations_table'. For this reason a call to +`INIT_LRECORD_IMPLEMENTATION' must be added to the same source file +containing `DEFINE_LRECORD_IMPLEMENTATION', but instead of to the top +level, to one of the init functions, typically `syms_of_FOO.c'. +`INIT_LRECORD_IMPLEMENTATION' must be called before an object of this +type is used. + + The type number is also used to index into an array holding the +number of objects of each type and the total memory allocated for +objects of that type. The statistics in this array are computed during +the sweep stage. These statistics are returned by the call to +`garbage-collect'. Note that for every type defined with a `DEFINE_LRECORD_*()' macro, there needs to be a `DECLARE_LRECORD_IMPLEMENTATION()' somewhere in a @@ -723,7 +500,7 @@ create one of these, copy an existing model and modify as necessary. configurations and opaques.  -File: internals.info, Node: Low-level allocation, Next: Pure Space, Prev: lrecords, Up: Allocation of Objects in XEmacs Lisp +File: internals.info, Node: Low-level allocation, Next: Cons, Prev: lrecords, Up: Allocation of Objects in XEmacs Lisp Low-level allocation ==================== @@ -784,10 +561,9 @@ system, when memory gets to 75%, 85%, and 95% full. (On some systems, the memory warnings are not functional.) Allocated memory that is going to be used to make a Lisp object is -created using `allocate_lisp_storage()'. This calls `xmalloc()' but -also verifies that the pointer to the memory can fit into a Lisp word -(remember that some bits are taken away for a type tag and a mark bit). -If not, an error is issued through `memory_full()'. +created using `allocate_lisp_storage()'. This just calls `xmalloc()'. +It used to verify that the pointer to the memory can fit into a Lisp +word, before the current Lisp object representation was introduced. `allocate_lisp_storage()' is called by `alloc_lcrecord()', `ALLOCATE_FIXED_TYPE()', and the vector and bit-vector creation routines. These routines also call `INCREMENT_CONS_COUNTER()' at the @@ -796,15 +572,7 @@ allocated, so that garbage-collection can be invoked when the threshold is reached.  -File: internals.info, Node: Pure Space, Next: Cons, Prev: Low-level allocation, Up: Allocation of Objects in XEmacs Lisp - -Pure Space -========== - - Not yet documented. - - -File: internals.info, Node: Cons, Next: Vector, Prev: Pure Space, Up: Allocation of Objects in XEmacs Lisp +File: internals.info, Node: Cons, Next: Vector, Prev: Low-level allocation, Up: Allocation of Objects in XEmacs Lisp Cons ==== @@ -851,13 +619,8 @@ File: internals.info, Node: Symbol, Next: Marker, Prev: Bit Vector, Up: Allo Symbol ====== - Symbols are also allocated in frob blocks. Note that the code -exists for symbols to be either lrecords (category (c) above) or simple -types (category (b) above), and are lrecords by default (I think), -although there is no good reason for this. - - Note that symbols in the awful horrible obarray structure are -chained through their `next' field. + Symbols are also allocated in frob blocks. Symbols in the awful +horrible obarray structure are chained through their `next' field. Remember that `intern' looks up a symbol in an obarray, creating one if necessary. @@ -949,7 +712,379 @@ Compiled Function Not yet documented.  -File: internals.info, Node: Events and the Event Loop, Next: Evaluation; Stack Frames; Bindings, Prev: Allocation of Objects in XEmacs Lisp, Up: Top +File: internals.info, Node: Dumping, Next: Events and the Event Loop, Prev: Allocation of Objects in XEmacs Lisp, Up: Top + +Dumping +******* + +What is dumping and its justification +===================================== + + The C code of XEmacs is just a Lisp engine with a lot of built-in +primitives useful for writing an editor. The editor itself is written +mostly in Lisp, and represents around 100K lines of code. Loading and +executing the initialization of all this code takes a bit a time (five +to ten times the usual startup time of current xemacs) and requires +having all the lisp source files around. Having to reload them each +time the editor is started would not be acceptable. + + The traditional solution to this problem is called dumping: the build +process first creates the lisp engine under the name `temacs', then +runs it until it has finished loading and initializing all the lisp +code, and eventually creates a new executable called `xemacs' including +both the object code in `temacs' and all the contents of the memory +after the initialization. + + This solution, while working, has a huge problem: the creation of the +new executable from the actual contents of memory is an extremely +system-specific process, quite error-prone, and which interferes with a +lot of system libraries (like malloc). It is even getting worse +nowadays with libraries using constructors which are automatically +called when the program is started (even before main()) which tend to +crash when they are called multiple times, once before dumping and once +after (IRIX 6.x libz.so pulls in some C++ image libraries thru +dependencies which have this problem). Writing the dumper is also one +of the most difficult parts of porting XEmacs to a new operating system. +Basically, `dumping' is an operation that is just not officially +supported on many operating systems. + + The aim of the portable dumper is to solve the same problem as the +system-specific dumper, that is to be able to reload quickly, using only +a small number of files, the fully initialized lisp part of the editor, +without any system-specific hacks. + +* Menu: + +* Overview:: +* Data descriptions:: +* Dumping phase:: +* Reloading phase:: +* Remaining issues:: + + +File: internals.info, Node: Overview, Next: Data descriptions, Prev: Dumping, Up: Dumping + +Overview +======== + + The portable dumping system has to: + + 1. At dump time, write all initialized, non-quickly-rebuildable data + to a file [Note: currently named `xemacs.dmp', but the name will + change], along with all informations needed for the reloading. + + 2. When starting xemacs, reload the dump file, relocate it to its new + starting address if needed, and reinitialize all pointers to this + data. Also, rebuild all the quickly rebuildable data. + + +File: internals.info, Node: Data descriptions, Next: Dumping phase, Prev: Overview, Up: Dumping + +Data descriptions +================= + + The more complex task of the dumper is to be able to write lisp +objects (lrecords) and C structs to disk and reload them at a different +address, updating all the pointers they include in the process. This +is done by using external data descriptions that give information about +the layout of the structures in memory. + + The specification of these descriptions is in lrecord.h. A +description of an lrecord is an array of struct lrecord_description. +Each of these structs include a type, an offset in the structure and +some optional parameters depending on the type. For instance, here is +the string description: + + static const struct lrecord_description string_description[] = { + { XD_BYTECOUNT, offsetof (Lisp_String, size) }, + { XD_OPAQUE_DATA_PTR, offsetof (Lisp_String, data), XD_INDIRECT(0, 1) }, + { XD_LISP_OBJECT, offsetof (Lisp_String, plist) }, + { XD_END } + }; + + The first line indicates a member of type Bytecount, which is used by +the next, indirect directive. The second means "there is a pointer to +some opaque data in the field `data'". The length of said data is +given by the expression `XD_INDIRECT(0, 1)', which means "the value in +the 0th line of the description (welcome to C) plus one". The third +line means "there is a Lisp_Object member `plist' in the Lisp_String +structure". `XD_END' then ends the description. + + This gives us all the information we need to move around what is +pointed to by a structure (C or lrecord) and, by transitivity, +everything that it points to. The only missing information for dumping +is the size of the structure. For lrecords, this is part of the +lrecord_implementation, so we don't need to duplicate it. For C +structures we use a struct struct_description, which includes a size +field and a pointer to an associated array of lrecord_description. + + +File: internals.info, Node: Dumping phase, Next: Reloading phase, Prev: Data descriptions, Up: Dumping + +Dumping phase +============= + + Dumping is done by calling the function pdump() (in alloc.c) which is +invoked from Fdump_emacs (in emacs.c). This function performs a number +of tasks. + +* Menu: + +* Object inventory:: +* Address allocation:: +* The header:: +* Data dumping:: +* Pointers dumping:: + + +File: internals.info, Node: Object inventory, Next: Address allocation, Prev: Dumping phase, Up: Dumping phase + +Object inventory +---------------- + + The first task is to build the list of the objects to dump. This +includes: + + * lisp objects + + * C structures + + We end up with one `pdump_entry_list_elmt' per object group (arrays +of C structs are kept together) which includes a pointer to the first +object of the group, the per-object size and the count of objects in the +group, along with some other information which is initialized later. + + These entries are linked together in `pdump_entry_list' structures +and can be enumerated thru either: + + 1. the `pdump_object_table', an array of `pdump_entry_list', one per + lrecord type, indexed by type number. + + 2. the `pdump_opaque_data_list', used for the opaque data which does + not include pointers, and hence does not need descriptions. + + 3. the `pdump_struct_table', which is a vector of + `struct_description'/`pdump_entry_list' pairs, used for non-opaque + C structures. + + This uses a marking strategy similar to the garbage collector. Some +differences though: + + 1. We do not use the mark bit (which does not exist for C structures + anyway), we use a big hash table instead. + + 2. We do not use the mark function of lrecords but instead rely on the + external descriptions. This happens essentially because we need to + follow pointers to C structures and opaque data in addition to + Lisp_Object members. + + This is done by `pdump_register_object', which handles Lisp_Object +variables, and pdump_register_struct which handles C structures, which +both delegate the description management to pdump_register_sub. + + The hash table doubles as a map object to pdump_entry_list_elmt (i.e. +allows us to look up a pdump_entry_list_elmt with the object it points +to). Entries are added with `pdump_add_entry()' and looked up with +`pdump_get_entry()'. There is no need for entry removal. The hash +value is computed quite basically from the object pointer by +`pdump_make_hash()'. + + The roots for the marking are: + + 1. the `staticpro''ed variables (there is a special + `staticpro_nodump()' call for protected variables we do not want + to dump). + + 2. the `pdump_wire''d variables (`staticpro' is equivalent to + `staticpro_nodump()' + `pdump_wire()'). + + 3. the `dumpstruct''ed variables, which points to C structures. + + This does not include the GCPRO'ed variables, the specbinds, the +catchtags, the backlist, the redisplay or the profiling info, since we +do not want to rebuild the actual chain of lisp calls which end up to +the dump-emacs call, only the global variables. + + Weak lists and weak hash tables are dumped as if they were their +non-weak equivalent (without changing their type, of course). This has +not yet been a problem. + + +File: internals.info, Node: Address allocation, Next: The header, Prev: Object inventory, Up: Dumping phase + +Address allocation +------------------ + + The next step is to allocate the offsets of each of the objects in +the final dump file. This is done by `pdump_allocate_offset()' which +is called indirectly by `pdump_scan_by_alignment()'. + + The strategy to deal with alignment problems uses these facts: + + 1. real world alignment requirements are powers of two. + + 2. the C compiler is required to adjust the size of a struct so that + you can have an array of them next to each other. This means you + can have a upper bound of the alignment requirements of a given + structure by looking at which power of two its size is a multiple. + + 3. the non-variant part of variable size lrecords has an alignment + requirement of 4. + + Hence, for each lrecord type, C struct type or opaque data block the +alignment requirement is computed as a power of two, with a minimum of +2^2 for lrecords. `pdump_scan_by_alignment()' then scans all the +`pdump_entry_list_elmt''s, the ones with the highest requirements +first. This ensures the best packing. + + The maximum alignment requirement we take into account is 2^8. + + `pdump_allocate_offset()' only has to do a linear allocation, +starting at offset 256 (this leaves room for the header and keep the +alignments happy). + + +File: internals.info, Node: The header, Next: Data dumping, Prev: Address allocation, Up: Dumping phase + +The header +---------- + + The next step creates the file and writes a header with a signature +and some random informations in it (number of staticpro, number of +assigned lrecord types, etc...). The reloc_address field, which +indicates at which address the file should be loaded if we want to +avoid post-reload relocation, is set to 0. It then seeks to offset 256 +(base offset for the objects). + + +File: internals.info, Node: Data dumping, Next: Pointers dumping, Prev: The header, Up: Dumping phase + +Data dumping +------------ + + The data is dumped in the same order as the addresses were allocated +by `pdump_dump_data()', called from `pdump_scan_by_alignment()'. This +function copies the data to a temporary buffer, relocates all pointers +in the object to the addresses allocated in step Address Allocation, +and writes it to the file. Using the same order means that, if we are +careful with lrecords whose size is not a multiple of 4, we are ensured +that the object is always written at the offset in the file allocated +in step Address Allocation. + + +File: internals.info, Node: Pointers dumping, Prev: Data dumping, Up: Dumping phase + +Pointers dumping +---------------- + + A bunch of tables needed to reassign properly the global pointers are +then written. They are: + + 1. the staticpro array + + 2. the dumpstruct array + + 3. the lrecord_implementation_table array + + 4. a vector of all the offsets to the objects in the file that + include a description (for faster relocation at reload time) + + 5. the pdump_wired and pdump_wired_list arrays + + For each of the arrays we write both the pointer to the variables and +the relocated offset of the object they point to. Since these variables +are global, the pointers are still valid when restarting the program and +are used to regenerate the global pointers. + + The `pdump_wired_list' array is a special case. The variables it +points to are the head of weak linked lists of lisp objects of the same +type. Not all objects of this list are dumped so the relocated pointer +we associate with them points to the first dumped object of the list, or +Qnil if none is available. This is also the reason why they are not +used as roots for the purpose of object enumeration. + + This is the end of the dumping part. + + +File: internals.info, Node: Reloading phase, Next: Remaining issues, Prev: Dumping phase, Up: Dumping + +Reloading phase +=============== + +File loading +------------ + + The file is mmap'ed in memory (which ensures a PAGESIZE alignment, at +least 4096), or if mmap is unavailable or fails, a 256-bytes aligned +malloc is done and the file is loaded. + + Some variables are reinitialized from the values found in the header. + + The difference between the actual loading address and the +reloc_address is computed and will be used for all the relocations. + +Putting back the staticvec +-------------------------- + + The staticvec array is memcpy'd from the file and the variables it +points to are reset to the relocated objects addresses. + +Putting back the dumpstructed variables +--------------------------------------- + + The variables pointed to by dumpstruct in the dump phase are reset to +the right relocated object addresses. + +lrecord_implementations_table +----------------------------- + + The lrecord_implementations_table is reset to its dump time state and +the right lrecord_type_index values are put in. + +Object relocation +----------------- + + All the objects are relocated using their description and their +offset by `pdump_reloc_one'. This step is unnecessary if the +reloc_address is equal to the file loading address. + +Putting back the pdump_wire and pdump_wire_list variables +--------------------------------------------------------- + + Same as Putting back the dumpstructed variables. + +Reorganize the hash tables +-------------------------- + + Since some of the hash values in the lisp hash tables are +address-dependent, their layout is now wrong. So we go through each of +them and have them resorted by calling `pdump_reorganize_hash_table'. + + +File: internals.info, Node: Remaining issues, Prev: Reloading phase, Up: Dumping + +Remaining issues +================ + + The build process will have to start a post-dump xemacs, ask it the +loading address (which will, hopefully, be always the same between +different xemacs invocations) and relocate the file to the new address. +This way the object relocation phase will not have to be done, which +means no writes in the objects and that, because of the use of mmap, the +dumped data will be shared between all the xemacs running on the +computer. + + Some executable signature will be necessary to ensure that a given +dump file is really associated with a given executable, or random +crashes will occur. Maybe a random number set at compile or configure +time thru a define. This will also allow for having +differently-compiled xemacsen on the same system (mule and no-mule +comes to mind). + + The DOC file contents should probably end up in the dump file. + + +File: internals.info, Node: Events and the Event Loop, Next: Evaluation; Stack Frames; Bindings, Prev: Dumping, Up: Top Events and the Event Loop ************************* @@ -965,42 +1100,3 @@ Events and the Event Loop * Converting Events:: * Dispatching Events; The Command Builder:: - -File: internals.info, Node: Introduction to Events, Next: Main Loop, Up: Events and the Event Loop - -Introduction to Events -====================== - - An event is an object that encapsulates information about an -interesting occurrence in the operating system. Events are generated -either by user action, direct (e.g. typing on the keyboard or moving -the mouse) or indirect (moving another window, thereby generating an -expose event on an Emacs frame), or as a result of some other typically -asynchronous action happening, such as output from a subprocess being -ready or a timer expiring. Events come into the system in an -asynchronous fashion (typically through a callback being called) and -are converted into a synchronous event queue (first-in, first-out) in a -process that we will call "collection". - - Note that each application has its own event queue. (It is -immaterial whether the collection process directly puts the events in -the proper application's queue, or puts them into a single system -queue, which is later split up.) - - The most basic level of event collection is done by the operating -system or window system. Typically, XEmacs does its own event -collection as well. Often there are multiple layers of collection in -XEmacs, with events from various sources being collected into a queue, -which is then combined with other sources to go into another queue -(i.e. a second level of collection), with perhaps another level on top -of this, etc. - - XEmacs has its own types of events (called "Emacs events"), which -provides an abstract layer on top of the system-dependent nature of the -most basic events that are received. Part of the complex nature of the -XEmacs event collection process involves converting from the -operating-system events into the proper Emacs events--there may not be -a one-to-one correspondence. - - Emacs events are documented in `events.h'; I'll discuss them later. - diff --git a/info/internals.info-6 b/info/internals.info-6 index 66d9da0..6f09b10 100644 --- a/info/internals.info-6 +++ b/info/internals.info-6 @@ -38,6 +38,45 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: internals.info, Node: Introduction to Events, Next: Main Loop, Prev: Events and the Event Loop, Up: Events and the Event Loop + +Introduction to Events +====================== + + An event is an object that encapsulates information about an +interesting occurrence in the operating system. Events are generated +either by user action, direct (e.g. typing on the keyboard or moving +the mouse) or indirect (moving another window, thereby generating an +expose event on an Emacs frame), or as a result of some other typically +asynchronous action happening, such as output from a subprocess being +ready or a timer expiring. Events come into the system in an +asynchronous fashion (typically through a callback being called) and +are converted into a synchronous event queue (first-in, first-out) in a +process that we will call "collection". + + Note that each application has its own event queue. (It is +immaterial whether the collection process directly puts the events in +the proper application's queue, or puts them into a single system +queue, which is later split up.) + + The most basic level of event collection is done by the operating +system or window system. Typically, XEmacs does its own event +collection as well. Often there are multiple layers of collection in +XEmacs, with events from various sources being collected into a queue, +which is then combined with other sources to go into another queue +(i.e. a second level of collection), with perhaps another level on top +of this, etc. + + XEmacs has its own types of events (called "Emacs events"), which +provides an abstract layer on top of the system-dependent nature of the +most basic events that are received. Part of the complex nature of the +XEmacs event collection process involves converting from the +operating-system events into the proper Emacs events--there may not be +a one-to-one correspondence. + + Emacs events are documented in `events.h'; I'll discuss them later. + + File: internals.info, Node: Main Loop, Next: Specifics of the Event Gathering Mechanism, Prev: Introduction to Events, Up: Events and the Event Loop Main Loop @@ -412,7 +451,7 @@ Evaluation; Stack Frames; Bindings * Catch and Throw::  -File: internals.info, Node: Evaluation, Next: Dynamic Binding; The specbinding Stack; Unwind-Protects, Up: Evaluation; Stack Frames; Bindings +File: internals.info, Node: Evaluation, Next: Dynamic Binding; The specbinding Stack; Unwind-Protects, Prev: Evaluation; Stack Frames; Bindings, Up: Evaluation; Stack Frames; Bindings Evaluation ========== @@ -482,14 +521,13 @@ lambda list. converted into an internal form for faster execution. When a compiled function is executed for the first time by -`funcall_compiled_function()', or when it is `Fpurecopy()'ed during the -dump phase of building XEmacs, the byte-code instructions are converted -from a `Lisp_String' (which is inefficient to access, especially in the -presence of MULE) into a `Lisp_Opaque' object containing an array of -unsigned char, which can be directly executed by the byte-code -interpreter. At this time the byte code is also analyzed for validity -and transformed into a more optimized form, so that -`execute_optimized_program()' can really fly. +`funcall_compiled_function()', or during the dump phase of building +XEmacs, the byte-code instructions are converted from a `Lisp_String' +(which is inefficient to access, especially in the presence of MULE) +into a `Lisp_Opaque' object containing an array of unsigned char, which +can be directly executed by the byte-code interpreter. At this time +the byte code is also analyzed for validity and transformed into a more +optimized form, so that `execute_optimized_program()' can really fly. Here are some of the optimizations performed by the internal byte-code transformer: @@ -501,7 +539,7 @@ byte-code transformer: `nil', or `keywordp') symbols, so that the byte interpreter doesn't have to. - 3. The maxiumum number of variable bindings in the byte-code is + 3. The maximum number of variable bindings in the byte-code is pre-computed, so that space on the `specpdl' stack can be pre-reserved once for the whole function execution. @@ -604,7 +642,7 @@ or `Fprogn()' as necessary and (in the case of `let' and `let*') using `specbind()' to create bindings and `unbind_to()' to undo the bindings when finished. - Note that, with the exeption of `Fprogn', these functions are + Note that, with the exception of `Fprogn', these functions are typically called in real life only in interpreted code, since the byte compiler knows how to convert calls to these functions directly into byte code. @@ -679,7 +717,7 @@ Symbols and Variables * Symbol Values::  -File: internals.info, Node: Introduction to Symbols, Next: Obarrays, Up: Symbols and Variables +File: internals.info, Node: Introduction to Symbols, Next: Obarrays, Prev: Symbols and Variables, Up: Symbols and Variables Introduction to Symbols ======================= @@ -827,7 +865,7 @@ Buffers and Textual Representation * The Buffer Object:: The Lisp object corresponding to a buffer.  -File: internals.info, Node: Introduction to Buffers, Next: The Text in a Buffer, Up: Buffers and Textual Representation +File: internals.info, Node: Introduction to Buffers, Next: The Text in a Buffer, Prev: Buffers and Textual Representation, Up: Buffers and Textual Representation Introduction to Buffers ======================= @@ -879,141 +917,3 @@ and "buffer of the selected window", and the distinction between window. (This latter distinction is explained in detail in the section on windows.) - -File: internals.info, Node: The Text in a Buffer, Next: Buffer Lists, Prev: Introduction to Buffers, Up: Buffers and Textual Representation - -The Text in a Buffer -==================== - - The text in a buffer consists of a sequence of zero or more -characters. A "character" is an integer that logically represents a -letter, number, space, or other unit of text. Most of the characters -that you will typically encounter belong to the ASCII set of characters, -but there are also characters for various sorts of accented letters, -special symbols, Chinese and Japanese ideograms (i.e. Kanji, Katakana, -etc.), Cyrillic and Greek letters, etc. The actual number of possible -characters is quite large. - - For now, we can view a character as some non-negative integer that -has some shape that defines how it typically appears (e.g. as an -uppercase A). (The exact way in which a character appears depends on the -font used to display the character.) The internal type of characters in -the C code is an `Emchar'; this is just an `int', but using a symbolic -type makes the code clearer. - - Between every character in a buffer is a "buffer position" or -"character position". We can speak of the character before or after a -particular buffer position, and when you insert a character at a -particular position, all characters after that position end up at new -positions. When we speak of the character "at" a position, we really -mean the character after the position. (This schizophrenia between a -buffer position being "between" a character and "on" a character is -rampant in Emacs.) - - Buffer positions are numbered starting at 1. This means that -position 1 is before the first character, and position 0 is not valid. -If there are N characters in a buffer, then buffer position N+1 is -after the last one, and position N+2 is not valid. - - The internal makeup of the Emchar integer varies depending on whether -we have compiled with MULE support. If not, the Emchar integer is an -8-bit integer with possible values from 0 - 255. 0 - 127 are the -standard ASCII characters, while 128 - 255 are the characters from the -ISO-8859-1 character set. If we have compiled with MULE support, an -Emchar is a 19-bit integer, with the various bits having meanings -according to a complex scheme that will be detailed later. The -characters numbered 0 - 255 still have the same meanings as for the -non-MULE case, though. - - Internally, the text in a buffer is represented in a fairly simple -fashion: as a contiguous array of bytes, with a "gap" of some size in -the middle. Although the gap is of some substantial size in bytes, -there is no text contained within it: From the perspective of the text -in the buffer, it does not exist. The gap logically sits at some buffer -position, between two characters (or possibly at the beginning or end of -the buffer). Insertion of text in a buffer at a particular position is -always accomplished by first moving the gap to that position (i.e. -through some block moving of text), then writing the text into the -beginning of the gap, thereby shrinking the gap. If the gap shrinks -down to nothing, a new gap is created. (What actually happens is that a -new gap is "created" at the end of the buffer's text, which requires -nothing more than changing a couple of indices; then the gap is "moved" -to the position where the insertion needs to take place by moving up in -memory all the text after that position.) Similarly, deletion occurs -by moving the gap to the place where the text is to be deleted, and -then simply expanding the gap to include the deleted text. -("Expanding" and "shrinking" the gap as just described means just that -the internal indices that keep track of where the gap is located are -changed.) - - Note that the total amount of memory allocated for a buffer text -never decreases while the buffer is live. Therefore, if you load up a -20-megabyte file and then delete all but one character, there will be a -20-megabyte gap, which won't get any smaller (except by inserting -characters back again). Once the buffer is killed, the memory allocated -for the buffer text will be freed, but it will still be sitting on the -heap, taking up virtual memory, and will not be released back to the -operating system. (However, if you have compiled XEmacs with rel-alloc, -the situation is different. In this case, the space _will_ be released -back to the operating system. However, this tends to result in a -noticeable speed penalty.) - - Astute readers may notice that the text in a buffer is represented as -an array of _bytes_, while (at least in the MULE case) an Emchar is a -19-bit integer, which clearly cannot fit in a byte. This means (of -course) that the text in a buffer uses a different representation from -an Emchar: specifically, the 19-bit Emchar becomes a series of one to -four bytes. The conversion between these two representations is complex -and will be described later. - - In the non-MULE case, everything is very simple: An Emchar is an -8-bit value, which fits neatly into one byte. - - If we are given a buffer position and want to retrieve the character -at that position, we need to follow these steps: - - 1. Pretend there's no gap, and convert the buffer position into a - "byte index" that indexes to the appropriate byte in the buffer's - stream of textual bytes. By convention, byte indices begin at 1, - just like buffer positions. In the non-MULE case, byte indices - and buffer positions are identical, since one character equals one - byte. - - 2. Convert the byte index into a "memory index", which takes the gap - into account. The memory index is a direct index into the block of - memory that stores the text of a buffer. This basically just - involves checking to see if the byte index is past the gap, and if - so, adding the size of the gap to it. By convention, memory - indices begin at 1, just like buffer positions and byte indices, - and when referring to the position that is "at" the gap, we always - use the memory position at the _beginning_, not at the end, of the - gap. - - 3. Fetch the appropriate bytes at the determined memory position. - - 4. Convert these bytes into an Emchar. - - In the non-Mule case, (3) and (4) boil down to a simple one-byte -memory access. - - Note that we have defined three types of positions in a buffer: - - 1. "buffer positions" or "character positions", typedef `Bufpos' - - 2. "byte indices", typedef `Bytind' - - 3. "memory indices", typedef `Memind' - - All three typedefs are just `int's, but defining them this way makes -things a lot clearer. - - Most code works with buffer positions. In particular, all Lisp code -that refers to text in a buffer uses buffer positions. Lisp code does -not know that byte indices or memory indices exist. - - Finally, we have a typedef for the bytes in a buffer. This is a -`Bufbyte', which is an unsigned char. Referring to them as Bufbytes -underscores the fact that we are working with a string of bytes in the -internal Emacs buffer representation rather than in one of a number of -possible alternative representations (e.g. EUC-encoded text, etc.). - diff --git a/info/internals.info-7 b/info/internals.info-7 index 2562605..90d5872 100644 --- a/info/internals.info-7 +++ b/info/internals.info-7 @@ -38,6 +38,144 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: internals.info, Node: The Text in a Buffer, Next: Buffer Lists, Prev: Introduction to Buffers, Up: Buffers and Textual Representation + +The Text in a Buffer +==================== + + The text in a buffer consists of a sequence of zero or more +characters. A "character" is an integer that logically represents a +letter, number, space, or other unit of text. Most of the characters +that you will typically encounter belong to the ASCII set of characters, +but there are also characters for various sorts of accented letters, +special symbols, Chinese and Japanese ideograms (i.e. Kanji, Katakana, +etc.), Cyrillic and Greek letters, etc. The actual number of possible +characters is quite large. + + For now, we can view a character as some non-negative integer that +has some shape that defines how it typically appears (e.g. as an +uppercase A). (The exact way in which a character appears depends on the +font used to display the character.) The internal type of characters in +the C code is an `Emchar'; this is just an `int', but using a symbolic +type makes the code clearer. + + Between every character in a buffer is a "buffer position" or +"character position". We can speak of the character before or after a +particular buffer position, and when you insert a character at a +particular position, all characters after that position end up at new +positions. When we speak of the character "at" a position, we really +mean the character after the position. (This schizophrenia between a +buffer position being "between" a character and "on" a character is +rampant in Emacs.) + + Buffer positions are numbered starting at 1. This means that +position 1 is before the first character, and position 0 is not valid. +If there are N characters in a buffer, then buffer position N+1 is +after the last one, and position N+2 is not valid. + + The internal makeup of the Emchar integer varies depending on whether +we have compiled with MULE support. If not, the Emchar integer is an +8-bit integer with possible values from 0 - 255. 0 - 127 are the +standard ASCII characters, while 128 - 255 are the characters from the +ISO-8859-1 character set. If we have compiled with MULE support, an +Emchar is a 19-bit integer, with the various bits having meanings +according to a complex scheme that will be detailed later. The +characters numbered 0 - 255 still have the same meanings as for the +non-MULE case, though. + + Internally, the text in a buffer is represented in a fairly simple +fashion: as a contiguous array of bytes, with a "gap" of some size in +the middle. Although the gap is of some substantial size in bytes, +there is no text contained within it: From the perspective of the text +in the buffer, it does not exist. The gap logically sits at some buffer +position, between two characters (or possibly at the beginning or end of +the buffer). Insertion of text in a buffer at a particular position is +always accomplished by first moving the gap to that position (i.e. +through some block moving of text), then writing the text into the +beginning of the gap, thereby shrinking the gap. If the gap shrinks +down to nothing, a new gap is created. (What actually happens is that a +new gap is "created" at the end of the buffer's text, which requires +nothing more than changing a couple of indices; then the gap is "moved" +to the position where the insertion needs to take place by moving up in +memory all the text after that position.) Similarly, deletion occurs +by moving the gap to the place where the text is to be deleted, and +then simply expanding the gap to include the deleted text. +("Expanding" and "shrinking" the gap as just described means just that +the internal indices that keep track of where the gap is located are +changed.) + + Note that the total amount of memory allocated for a buffer text +never decreases while the buffer is live. Therefore, if you load up a +20-megabyte file and then delete all but one character, there will be a +20-megabyte gap, which won't get any smaller (except by inserting +characters back again). Once the buffer is killed, the memory allocated +for the buffer text will be freed, but it will still be sitting on the +heap, taking up virtual memory, and will not be released back to the +operating system. (However, if you have compiled XEmacs with rel-alloc, +the situation is different. In this case, the space _will_ be released +back to the operating system. However, this tends to result in a +noticeable speed penalty.) + + Astute readers may notice that the text in a buffer is represented as +an array of _bytes_, while (at least in the MULE case) an Emchar is a +19-bit integer, which clearly cannot fit in a byte. This means (of +course) that the text in a buffer uses a different representation from +an Emchar: specifically, the 19-bit Emchar becomes a series of one to +four bytes. The conversion between these two representations is complex +and will be described later. + + In the non-MULE case, everything is very simple: An Emchar is an +8-bit value, which fits neatly into one byte. + + If we are given a buffer position and want to retrieve the character +at that position, we need to follow these steps: + + 1. Pretend there's no gap, and convert the buffer position into a + "byte index" that indexes to the appropriate byte in the buffer's + stream of textual bytes. By convention, byte indices begin at 1, + just like buffer positions. In the non-MULE case, byte indices + and buffer positions are identical, since one character equals one + byte. + + 2. Convert the byte index into a "memory index", which takes the gap + into account. The memory index is a direct index into the block of + memory that stores the text of a buffer. This basically just + involves checking to see if the byte index is past the gap, and if + so, adding the size of the gap to it. By convention, memory + indices begin at 1, just like buffer positions and byte indices, + and when referring to the position that is "at" the gap, we always + use the memory position at the _beginning_, not at the end, of the + gap. + + 3. Fetch the appropriate bytes at the determined memory position. + + 4. Convert these bytes into an Emchar. + + In the non-Mule case, (3) and (4) boil down to a simple one-byte +memory access. + + Note that we have defined three types of positions in a buffer: + + 1. "buffer positions" or "character positions", typedef `Bufpos' + + 2. "byte indices", typedef `Bytind' + + 3. "memory indices", typedef `Memind' + + All three typedefs are just `int's, but defining them this way makes +things a lot clearer. + + Most code works with buffer positions. In particular, all Lisp code +that refers to text in a buffer uses buffer positions. Lisp code does +not know that byte indices or memory indices exist. + + Finally, we have a typedef for the bytes in a buffer. This is a +`Bufbyte', which is an unsigned char. Referring to them as Bufbytes +underscores the fact that we are working with a string of bytes in the +internal Emacs buffer representation rather than in one of a number of +possible alternative representations (e.g. EUC-encoded text, etc.). + + File: internals.info, Node: Buffer Lists, Next: Markers and Extents, Prev: The Text in a Buffer, Up: Buffers and Textual Representation Buffer Lists @@ -248,7 +386,7 @@ representation is that it's compact and is compatible with ASCII. * CCL::  -File: internals.info, Node: Character Sets, Next: Encodings, Up: MULE Character Sets and Encodings +File: internals.info, Node: Character Sets, Next: Encodings, Prev: MULE Character Sets and Encodings, Up: MULE Character Sets and Encodings Character Sets ============== @@ -355,7 +493,7 @@ common usage of "byte"). * JIS7::  -File: internals.info, Node: Japanese EUC (Extended Unix Code), Next: JIS7, Up: Encodings +File: internals.info, Node: Japanese EUC (Extended Unix Code), Next: JIS7, Prev: Encodings, Up: Encodings Japanese EUC (Extended Unix Code) --------------------------------- @@ -459,7 +597,7 @@ followed later by the exact details.) * Internal Character Encoding::  -File: internals.info, Node: Internal String Encoding, Next: Internal Character Encoding, Up: Internal Mule Encodings +File: internals.info, Node: Internal String Encoding, Next: Internal Character Encoding, Prev: Internal Mule Encodings, Up: Internal Mule Encodings Internal String Encoding ------------------------ @@ -738,7 +876,7 @@ blocking data together in order to achieve efficiency. * Lstream Methods:: Creating new lstream types.  -File: internals.info, Node: Creating an Lstream, Next: Lstream Types, Up: Lstreams +File: internals.info, Node: Creating an Lstream, Next: Lstream Types, Prev: Lstreams, Up: Lstreams Creating an Lstream =================== @@ -803,7 +941,7 @@ File: internals.info, Node: Lstream Functions, Next: Lstream Methods, Prev: L Lstream Functions ================= - - Function: Lstream * Lstream_new (Lstream_implementation *IMP, CONST + - Function: Lstream * Lstream_new (Lstream_implementation *IMP, const char *MODE) Allocate and return a new Lstream. This function is not really meant to be called directly; rather, each stream type should @@ -900,7 +1038,7 @@ Lstream Methods This function can be `NULL' if the stream is output-only. - - Lstream Method: ssize_t writer (Lstream *STREAM, CONST unsigned char + - Lstream Method: ssize_t writer (Lstream *STREAM, const unsigned char *DATA, size_t SIZE) Send some data to the stream's end. Data to be sent is in DATA and is SIZE bytes. Return the number of bytes sent. This @@ -954,7 +1092,7 @@ Consoles; Devices; Frames; Windows * The Window Object::  -File: internals.info, Node: Introduction to Consoles; Devices; Frames; Windows, Next: Point, Up: Consoles; Devices; Frames; Windows +File: internals.info, Node: Introduction to Consoles; Devices; Frames; Windows, Next: Point, Prev: Consoles; Devices; Frames; Windows, Up: Consoles; Devices; Frames; Windows Introduction to Consoles; Devices; Frames; Windows ================================================== @@ -991,9 +1129,9 @@ Furthermore, there is logically a "selected console", "selected display", "selected frame", and "selected window". Each of these objects is distinguished in various ways, such as being the default object for various functions that act on objects of that type. Note -that every containing object rememembers the "selected" object among -the objects that it contains: e.g. not only is there a selected window, -but every frame remembers the last window in it that was selected, and +that every containing object remembers the "selected" object among the +objects that it contains: e.g. not only is there a selected window, but +every frame remembers the last window in it that was selected, and changing the selected frame causes the remembered window within it to become the selected window. Similar relationships apply for consoles to devices and devices to frames. @@ -1022,196 +1160,3 @@ the buffer's point instead. This is related to why `save-window-excursion' does not save the selected window's value of `point'. - -File: internals.info, Node: Window Hierarchy, Next: The Window Object, Prev: Point, Up: Consoles; Devices; Frames; Windows - -Window Hierarchy -================ - - If a frame contains multiple windows (panes), they are always created -by splitting an existing window along the horizontal or vertical axis. -Terminology is a bit confusing here: to "split a window horizontally" -means to create two side-by-side windows, i.e. to make a _vertical_ cut -in a window. Likewise, to "split a window vertically" means to create -two windows, one above the other, by making a _horizontal_ cut. - - If you split a window and then split again along the same axis, you -will end up with a number of panes all arranged along the same axis. -The precise way in which the splits were made should not be important, -and this is reflected internally. Internally, all windows are arranged -in a tree, consisting of two types of windows, "combination" windows -(which have children, and are covered completely by those children) and -"leaf" windows, which have no children and are visible. Every -combination window has two or more children, all arranged along the same -axis. There are (logically) two subtypes of windows, depending on -whether their children are horizontally or vertically arrayed. There is -always one root window, which is either a leaf window (if the frame -contains only one window) or a combination window (if the frame contains -more than one window). In the latter case, the root window will have -two or more children, either horizontally or vertically arrayed, and -each of those children will be either a leaf window or another -combination window. - - Here are some rules: - - 1. Horizontal combination windows can never have children that are - horizontal combination windows; same for vertical. - - 2. Only leaf windows can be split (obviously) and this splitting does - one of two things: (a) turns the leaf window into a combination - window and creates two new leaf children, or (b) turns the leaf - window into one of the two new leaves and creates the other leaf. - Rule (1) dictates which of these two outcomes happens. - - 3. Every combination window must have at least two children. - - 4. Leaf windows can never become combination windows. They can be - deleted, however. If this results in a violation of (3), the - parent combination window also gets deleted. - - 5. All functions that accept windows must be prepared to accept - combination windows, and do something sane (e.g. signal an error - if so). Combination windows _do_ escape to the Lisp level. - - 6. All windows have three fields governing their contents: these are - "hchild" (a list of horizontally-arrayed children), "vchild" (a - list of vertically-arrayed children), and "buffer" (the buffer - contained in a leaf window). Exactly one of these will be - non-nil. Remember that "horizontally-arrayed" means - "side-by-side" and "vertically-arrayed" means "one above the - other". - - 7. Leaf windows also have markers in their `start' (the first buffer - position displayed in the window) and `pointm' (the window's - stashed value of `point'--see above) fields, while combination - windows have nil in these fields. - - 8. The list of children for a window is threaded through the `next' - and `prev' fields of each child window. - - 9. *Deleted windows can be undeleted*. This happens as a result of - restoring a window configuration, and is unlike frames, displays, - and consoles, which, once deleted, can never be restored. - Deleting a window does nothing except set a special `dead' bit to - 1 and clear out the `next', `prev', `hchild', and `vchild' fields, - for GC purposes. - - 10. Most frames actually have two top-level windows--one for the - minibuffer and one (the "root") for everything else. The modeline - (if present) separates these two. The `next' field of the root - points to the minibuffer, and the `prev' field of the minibuffer - points to the root. The other `next' and `prev' fields are `nil', - and the frame points to both of these windows. Minibuffer-less - frames have no minibuffer window, and the `next' and `prev' of the - root window are `nil'. Minibuffer-only frames have no root - window, and the `next' of the minibuffer window is `nil' but the - `prev' points to itself. (#### This is an artifact that should be - fixed.) - - -File: internals.info, Node: The Window Object, Prev: Window Hierarchy, Up: Consoles; Devices; Frames; Windows - -The Window Object -================= - - Windows have the following accessible fields: - -`frame' - The frame that this window is on. - -`mini_p' - Non-`nil' if this window is a minibuffer window. - -`buffer' - The buffer that the window is displaying. This may change often - during the life of the window. - -`dedicated' - Non-`nil' if this window is dedicated to its buffer. - -`pointm' - This is the value of point in the current buffer when this window - is selected; when it is not selected, it retains its previous - value. - -`start' - The position in the buffer that is the first character to be - displayed in the window. - -`force_start' - If this flag is non-`nil', it says that the window has been - scrolled explicitly by the Lisp program. This affects what the - next redisplay does if point is off the screen: instead of - scrolling the window to show the text around point, it moves point - to a location that is on the screen. - -`last_modified' - The `modified' field of the window's buffer, as of the last time a - redisplay completed in this window. - -`last_point' - The buffer's value of point, as of the last time a redisplay - completed in this window. - -`left' - This is the left-hand edge of the window, measured in columns. - (The leftmost column on the screen is column 0.) - -`top' - This is the top edge of the window, measured in lines. (The top - line on the screen is line 0.) - -`height' - The height of the window, measured in lines. - -`width' - The width of the window, measured in columns. - -`next' - This is the window that is the next in the chain of siblings. It - is `nil' in a window that is the rightmost or bottommost of a - group of siblings. - -`prev' - This is the window that is the previous in the chain of siblings. - It is `nil' in a window that is the leftmost or topmost of a group - of siblings. - -`parent' - Internally, XEmacs arranges windows in a tree; each group of - siblings has a parent window whose area includes all the siblings. - This field points to a window's parent. - - Parent windows do not display buffers, and play little role in - display except to shape their child windows. Emacs Lisp programs - usually have no access to the parent windows; they operate on the - windows at the leaves of the tree, which actually display buffers. - -`hscroll' - This is the number of columns that the display in the window is - scrolled horizontally to the left. Normally, this is 0. - -`use_time' - This is the last time that the window was selected. The function - `get-lru-window' uses this field. - -`display_table' - The window's display table, or `nil' if none is specified for it. - -`update_mode_line' - Non-`nil' means this window's mode line needs to be updated. - -`base_line_number' - The line number of a certain position in the buffer, or `nil'. - This is used for displaying the line number of point in the mode - line. - -`base_line_pos' - The position in the buffer for which the line number is known, or - `nil' meaning none is known. - -`region_showing' - If the region (or part of it) is highlighted in this window, this - field holds the mark position that made one end of that region. - Otherwise, this field is `nil'. - diff --git a/info/internals.info-8 b/info/internals.info-8 index b0c7fbd..94b603c 100644 --- a/info/internals.info-8 +++ b/info/internals.info-8 @@ -38,6 +38,199 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: internals.info, Node: Window Hierarchy, Next: The Window Object, Prev: Point, Up: Consoles; Devices; Frames; Windows + +Window Hierarchy +================ + + If a frame contains multiple windows (panes), they are always created +by splitting an existing window along the horizontal or vertical axis. +Terminology is a bit confusing here: to "split a window horizontally" +means to create two side-by-side windows, i.e. to make a _vertical_ cut +in a window. Likewise, to "split a window vertically" means to create +two windows, one above the other, by making a _horizontal_ cut. + + If you split a window and then split again along the same axis, you +will end up with a number of panes all arranged along the same axis. +The precise way in which the splits were made should not be important, +and this is reflected internally. Internally, all windows are arranged +in a tree, consisting of two types of windows, "combination" windows +(which have children, and are covered completely by those children) and +"leaf" windows, which have no children and are visible. Every +combination window has two or more children, all arranged along the same +axis. There are (logically) two subtypes of windows, depending on +whether their children are horizontally or vertically arrayed. There is +always one root window, which is either a leaf window (if the frame +contains only one window) or a combination window (if the frame contains +more than one window). In the latter case, the root window will have +two or more children, either horizontally or vertically arrayed, and +each of those children will be either a leaf window or another +combination window. + + Here are some rules: + + 1. Horizontal combination windows can never have children that are + horizontal combination windows; same for vertical. + + 2. Only leaf windows can be split (obviously) and this splitting does + one of two things: (a) turns the leaf window into a combination + window and creates two new leaf children, or (b) turns the leaf + window into one of the two new leaves and creates the other leaf. + Rule (1) dictates which of these two outcomes happens. + + 3. Every combination window must have at least two children. + + 4. Leaf windows can never become combination windows. They can be + deleted, however. If this results in a violation of (3), the + parent combination window also gets deleted. + + 5. All functions that accept windows must be prepared to accept + combination windows, and do something sane (e.g. signal an error + if so). Combination windows _do_ escape to the Lisp level. + + 6. All windows have three fields governing their contents: these are + "hchild" (a list of horizontally-arrayed children), "vchild" (a + list of vertically-arrayed children), and "buffer" (the buffer + contained in a leaf window). Exactly one of these will be + non-nil. Remember that "horizontally-arrayed" means + "side-by-side" and "vertically-arrayed" means "one above the + other". + + 7. Leaf windows also have markers in their `start' (the first buffer + position displayed in the window) and `pointm' (the window's + stashed value of `point'--see above) fields, while combination + windows have nil in these fields. + + 8. The list of children for a window is threaded through the `next' + and `prev' fields of each child window. + + 9. *Deleted windows can be undeleted*. This happens as a result of + restoring a window configuration, and is unlike frames, displays, + and consoles, which, once deleted, can never be restored. + Deleting a window does nothing except set a special `dead' bit to + 1 and clear out the `next', `prev', `hchild', and `vchild' fields, + for GC purposes. + + 10. Most frames actually have two top-level windows--one for the + minibuffer and one (the "root") for everything else. The modeline + (if present) separates these two. The `next' field of the root + points to the minibuffer, and the `prev' field of the minibuffer + points to the root. The other `next' and `prev' fields are `nil', + and the frame points to both of these windows. Minibuffer-less + frames have no minibuffer window, and the `next' and `prev' of the + root window are `nil'. Minibuffer-only frames have no root + window, and the `next' of the minibuffer window is `nil' but the + `prev' points to itself. (#### This is an artifact that should be + fixed.) + + +File: internals.info, Node: The Window Object, Prev: Window Hierarchy, Up: Consoles; Devices; Frames; Windows + +The Window Object +================= + + Windows have the following accessible fields: + +`frame' + The frame that this window is on. + +`mini_p' + Non-`nil' if this window is a minibuffer window. + +`buffer' + The buffer that the window is displaying. This may change often + during the life of the window. + +`dedicated' + Non-`nil' if this window is dedicated to its buffer. + +`pointm' + This is the value of point in the current buffer when this window + is selected; when it is not selected, it retains its previous + value. + +`start' + The position in the buffer that is the first character to be + displayed in the window. + +`force_start' + If this flag is non-`nil', it says that the window has been + scrolled explicitly by the Lisp program. This affects what the + next redisplay does if point is off the screen: instead of + scrolling the window to show the text around point, it moves point + to a location that is on the screen. + +`last_modified' + The `modified' field of the window's buffer, as of the last time a + redisplay completed in this window. + +`last_point' + The buffer's value of point, as of the last time a redisplay + completed in this window. + +`left' + This is the left-hand edge of the window, measured in columns. + (The leftmost column on the screen is column 0.) + +`top' + This is the top edge of the window, measured in lines. (The top + line on the screen is line 0.) + +`height' + The height of the window, measured in lines. + +`width' + The width of the window, measured in columns. + +`next' + This is the window that is the next in the chain of siblings. It + is `nil' in a window that is the rightmost or bottommost of a + group of siblings. + +`prev' + This is the window that is the previous in the chain of siblings. + It is `nil' in a window that is the leftmost or topmost of a group + of siblings. + +`parent' + Internally, XEmacs arranges windows in a tree; each group of + siblings has a parent window whose area includes all the siblings. + This field points to a window's parent. + + Parent windows do not display buffers, and play little role in + display except to shape their child windows. Emacs Lisp programs + usually have no access to the parent windows; they operate on the + windows at the leaves of the tree, which actually display buffers. + +`hscroll' + This is the number of columns that the display in the window is + scrolled horizontally to the left. Normally, this is 0. + +`use_time' + This is the last time that the window was selected. The function + `get-lru-window' uses this field. + +`display_table' + The window's display table, or `nil' if none is specified for it. + +`update_mode_line' + Non-`nil' means this window's mode line needs to be updated. + +`base_line_number' + The line number of a certain position in the buffer, or `nil'. + This is used for displaying the line number of point in the mode + line. + +`base_line_pos' + The position in the buffer for which the line number is known, or + `nil' meaning none is known. + +`region_showing' + If the region (or part of it) is highlighted in this window, this + field holds the mark position that made one end of that region. + Otherwise, this field is `nil'. + + File: internals.info, Node: The Redisplay Mechanism, Next: Extents, Prev: Consoles; Devices; Frames; Windows, Up: Top The Redisplay Mechanism @@ -65,7 +258,7 @@ of Redisplay: * Redisplay Piece by Piece::  -File: internals.info, Node: Critical Redisplay Sections, Next: Line Start Cache, Up: The Redisplay Mechanism +File: internals.info, Node: Critical Redisplay Sections, Next: Line Start Cache, Prev: The Redisplay Mechanism, Up: The Redisplay Mechanism Critical Redisplay Sections =========================== @@ -177,7 +370,7 @@ on the workings of redisplay. 3. Output changes Implemented by `redisplay-output.c', `redisplay-x.c', `redisplay-msw.c' and `redisplay-tty.c' - Steps 1 and 2 are device-independant and relatively complex. Step 3 + Steps 1 and 2 are device-independent and relatively complex. Step 3 is mostly device-dependent. Determining the desired display @@ -188,7 +381,7 @@ is mostly device-dependent. `display_line''s are held by each window representing the current display and the desired display. - The `display_line' structures are tighly tied to buffers which + The `display_line' structures are tightly tied to buffers which presents a problem for redisplay as this connection is bogus for the modeline. Hence the `display_line' generation routines are duplicated for generating the modeline. This means that the modeline display code @@ -218,11 +411,11 @@ Extents * Extent Ordering:: How extents are ordered internally. * Format of the Extent Info:: The extent information in a buffer or string. * Zero-Length Extents:: A weird special case. -* Mathematics of Extent Ordering:: A rigorous foundation. +* Mathematics of Extent Ordering:: A rigorous foundation. * Extent Fragments:: Cached information useful for redisplay.  -File: internals.info, Node: Introduction to Extents, Next: Extent Ordering, Up: Extents +File: internals.info, Node: Introduction to Extents, Next: Extent Ordering, Prev: Extents, Up: Extents Introduction to Extents ======================= @@ -518,7 +711,7 @@ possible to display an image-instance in multiple domains. For instance if we create a Pixmap, we can actually display this on multiple windows - even though we only need a single Pixmap instance to do this. If caching wasn't done then it would be necessary to create -image-instances for every displayable occurrance of a glyph - and every +image-instances for every displayable occurrence of a glyph - and every usage - and this would be extremely memory and cpu intensive. Widget-glyphs (a.k.a native widgets) are not cached in this way. @@ -556,7 +749,7 @@ the widget_instance tree recursively. This has desirable properties such as lw_modify_all_widgets which is called from glyphs-x.c and updates all the properties of a widget without having to know what the widget is or what toolkit it is from. -Unfortunately this also has hairy properrties such as making the lwlib +Unfortunately this also has hairy properties such as making the lwlib code quite complex. And of course lwlib has to know at some level what the widget is and how to set its properties. @@ -755,7 +948,6 @@ Index * external widget: Modules for Interfacing with X Windows. * flusher: Lstream Methods. * Free Software Foundation: A History of Emacs. -* frob block: Introduction to Allocation. * FSF: A History of Emacs. * FSF Emacs <1>: GNU Emacs 20. * FSF Emacs: GNU Emacs 19. @@ -825,11 +1017,9 @@ Index * permanent objects: The XEmacs Object System (Abstractly Speaking). * pi, calculating: XEmacs From the Outside. * pseudo_closer: Lstream Methods. -* pure space: Basic Lisp Modules. * read syntax: The XEmacs Object System (Abstractly Speaking). * read-eval-print: XEmacs From the Outside. * reader: Lstream Methods. -* record type: How Lisp Objects Are Represented in C. * Redisplay Piece by Piece: Redisplay Piece by Piece. * relocating allocator: Low-Level Modules. * rename to XEmacs: XEmacs. diff --git a/info/lispref.info b/info/lispref.info index 87a898d..320da86 100644 --- a/info/lispref.info +++ b/info/lispref.info @@ -52,838 +52,864 @@ Foundation instead of in the original English.  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Range Tables1798403 +Node: Databases1799288 +Node: Connecting to a Database1799587 +Node: Working With a Database1800678 +Node: Other Database Functions1801536 +Node: Processes1802110 +Node: Subprocess Creation1804334 +Node: Synchronous Processes1807623 +Node: MS-DOS Subprocesses1814341 +Node: Asynchronous Processes1815415 +Node: Deleting Processes1819128 +Node: Process Information1820999 +Node: Input to Processes1824925 +Node: Signals to Processes1827215 +Node: Output from Processes1831635 +Node: Process Buffers1832447 +Node: Filter Functions1835314 +Node: Accepting Output1840884 +Node: Sentinels1842411 +Node: Process Window Size1845901 +Node: Transaction Queues1846250 +Node: Network1847948 +Node: System Interface1849782 +Node: Starting Up1851052 +Node: Start-up Summary1851646 +Node: Init File1855200 +Node: Terminal-Specific1857581 +Node: Command Line Arguments1860740 +Node: Getting Out1864229 +Node: Killing XEmacs1864798 +Node: Suspending XEmacs1866467 +Node: System Environment1869809 +Node: User Identification1876476 +Node: Time of Day1880005 +Node: Time Conversion1882792 +Node: Timers1887832 +Node: Terminal Input1890005 +Node: Input Modes1890508 +Node: Translating Input1892921 +Node: Recording Input1897086 +Node: Terminal Output1899186 +Node: Flow Control1902809 +Node: Batch Mode1906601 +Node: X-Windows1907983 +Node: X Selections1908854 +Node: X Server1911064 +Node: Resources1911515 +Node: Server Data1916824 +Node: Grabs1918031 +Node: X Miscellaneous1919611 +Node: ToolTalk Support1921996 +Node: XEmacs ToolTalk API Summary1922213 +Node: Sending Messages1923513 +Node: Example of Sending Messages1923764 +Node: Elisp Interface for Sending Messages1924826 +Node: Receiving Messages1931218 +Node: Example of Receiving Messages1931441 +Node: Elisp Interface for Receiving Messages1932277 +Node: LDAP Support1936102 +Node: Building XEmacs with LDAP support1936596 +Node: XEmacs LDAP API1937573 +Node: LDAP Variables1938625 +Node: The High-Level LDAP API1941225 +Node: The Low-Level LDAP API1944688 +Node: The LDAP Lisp Object1945519 +Node: Opening and Closing a LDAP Connection1946072 +Node: Low-level Operations on a LDAP Server1947872 +Node: LDAP Internationalization1950566 +Node: LDAP Internationalization Variables1951471 +Node: Encoder/Decoder Functions1953200 +Node: Syntax of Search Filters1954239 +Node: PostgreSQL Support1955537 +Node: Building XEmacs with PostgreSQL support1955932 +Node: XEmacs PostgreSQL libpq API1957199 +Node: libpq Lisp Variables1959074 +Node: libpq Lisp Symbols and DataTypes1962038 +Node: Synchronous Interface Functions1975278 +Node: Asynchronous Interface Functions1979769 +Node: Large Object Support1983270 +Node: Other libpq Functions1983897 +Node: Unimplemented libpq Functions1986932 +Node: XEmacs PostgreSQL libpq Examples1992251 +Node: Internationalization1998342 +Node: I18N Levels 1 and 21998685 +Node: I18N Level 31999391 +Node: Level 3 Basics1999672 +Node: Level 3 Primitives2000505 +Node: Dynamic Messaging2002111 +Node: Domain Specification2002574 +Node: Documentation String Extraction2004477 +Node: I18N Level 42005395 +Node: MULE2005587 +Node: Internationalization Terminology2006636 +Node: Charsets2018835 +Node: Charset Properties2019531 +Node: Basic Charset Functions2024246 +Node: Charset Property Functions2026427 +Node: Predefined Charsets2028469 +Node: MULE Characters2031389 +Node: Composite Characters2032236 +Node: Coding Systems2033496 +Node: Coding System Types2035636 +Node: ISO 20222039620 +Node: EOL Conversion2051897 +Node: Coding System Properties2053069 +Node: Basic Coding System Functions2057386 +Node: Coding System Property Functions2059420 +Node: Encoding and Decoding Text2059978 +Node: Detection of Textual Encoding2061114 +Node: Big5 and Shift-JIS Functions2062650 +Node: Predefined Coding Systems2063776 +Node: CCL2075870 +Node: CCL Syntax2078974 +Node: CCL Statements2080550 +Node: CCL Expressions2085198 +Node: Calling CCL2087737 +Node: CCL Examples2090726 +Node: Category Tables2090863 +Node: Tips2093221 +Node: Style Tips2093862 +Node: Compilation Tips2103381 +Node: Documentation Tips2105295 +Node: Comment Tips2110804 +Node: Library Headers2113806 +Node: Building XEmacs and Object Allocation2117778 +Node: Building XEmacs2118661 +Node: Pure Storage2124996 +Node: Garbage Collection2127784 +Node: Standard Errors2138923 +Node: Standard Buffer-Local Variables2143132 +Node: Standard Keymaps2145765 +Node: Standard Hooks2149497 +Node: Index2156997  End Tag Table diff --git a/info/lispref.info-1 b/info/lispref.info-1 index cfc1fa8..1850e70 100644 --- a/info/lispref.info-1 +++ b/info/lispref.info-1 @@ -89,6 +89,7 @@ Reference Manual, corresponding to XEmacs version 21.0. * Menus:: Defining pull-down and pop-up menus. * Dialog Boxes:: Creating dialog boxes. * Toolbar:: Controlling the toolbar. +* Gutter:: Controlling the gutter. * Scrollbars:: Controlling the scrollbars. * Drag and Drop:: Generic API to inter-application communication via specific protocols. @@ -134,6 +135,7 @@ Reference Manual, corresponding to XEmacs version 21.0. * ToolTalk Support:: Interfacing with the ToolTalk message service. * LDAP Support:: Interfacing with the Lightweight Directory Access Protocol. +* PostgreSQL Support:: Interfacing to the PostgreSQL libpq library. * Internationalization:: How Emacs supports different languages and cultural conventions. * MULE:: Specifics of the Asian-language support. @@ -553,6 +555,8 @@ Toolbar * Specifying the Toolbar:: Setting a toolbar. * Other Toolbar Variables:: Controlling the size of toolbars. +Gutter + Scrollbars Major and Minor Modes @@ -1025,12 +1029,18 @@ XEmacs LDAP API * LDAP Variables:: Lisp variables related to LDAP * The High-Level LDAP API:: High-level LDAP lisp functions * The Low-Level LDAP API:: Low-level LDAP lisp primitives +* LDAP Internationalization:: I18n variables and functions The Low-Level LDAP API * The LDAP Lisp Object:: * Opening and Closing a LDAP Connection:: -* Searching on a LDAP Server (Low-level):: +* Low-level Operations on a LDAP Server:: + +LDAP Internationalization + +* LDAP Internationalization Variables:: +* Encoder/Decoder Functions:: Internationalization diff --git a/info/lispref.info-15 b/info/lispref.info-15 index 18fc766..9818e56 100644 --- a/info/lispref.info-15 +++ b/info/lispref.info-15 @@ -735,20 +735,23 @@ Defining Commands::. from the minibuffer on other occasions. However, if user is supposed to edit default value, INITIAL-CONTENTS may be preferred. - - Function: read-string prompt &optional initial history + - Function: read-string prompt &optional initial history default-value This function reads a string from the minibuffer and returns it. The arguments PROMPT and INITIAL are used as in `read-from-minibuffer'. The keymap used is `minibuffer-local-map'. The optional argument HISTORY, if non-nil, specifies a history - list and optionally the initial position in the list. + list and optionally the initial position in the list. The optional + argument DEFAULT specifies a default value to return if the user + enters null input; it should be a string. This function is a simplified interface to the `read-from-minibuffer' function: - (read-string PROMPT INITIAL) + (read-string PROMPT INITIAL HISTORY DEFAULT) == - (read-from-minibuffer PROMPT INITIAL nil nil nil) + (read-from-minibuffer PROMPT INITIAL nil nil + HISTORY nil DEFAULT))) - Variable: minibuffer-local-map This is the default local keymap for reading from the minibuffer. @@ -784,22 +787,29 @@ Reading Lisp Objects with the Minibuffer This section describes functions for reading Lisp objects with the minibuffer. - - Function: read-minibuffer prompt &optional initial + - Function: read-expression prompt &optional initial history + default-value This function reads a Lisp object using the minibuffer, and returns it without evaluating it. The arguments PROMPT and INITIAL are used as in `read-from-minibuffer'. + The optional argument HISTORY, if non-nil, specifies a history + list and optionally the initial position in the list. The optional + argument DEFAULT-VALUE specifies a default value to return if the + user enters null input; it should be a string. + This is a simplified interface to the `read-from-minibuffer' function: - (read-minibuffer PROMPT INITIAL) + (read-expression PROMPT INITIAL HISTORY DEFAULT-VALUE) == - (read-from-minibuffer PROMPT INITIAL nil t) + (read-from-minibuffer PROMPT INITIAL nil t + HISTORY nil DEFAULT-VALUE) Here is an example in which we supply the string `"(testing)"' as initial input: - (read-minibuffer + (read-expression "Enter an expression: " (format "%s" '(testing))) ;; Here is how the minibuffer is displayed: @@ -811,22 +821,33 @@ minibuffer. The user can type immediately to use the initial input as a default, or can edit the input. - - Function: eval-minibuffer prompt &optional initial + - Function: read-minibuffer prompt &optional initial history + default-value + This is a FSF Emacs compatible function. Use `read-expression' + instead. + + - Function: eval-minibuffer prompt &optional initial history + default-value This function reads a Lisp expression using the minibuffer, evaluates it, then returns the result. The arguments PROMPT and INITIAL are used as in `read-from-minibuffer'. + The optional argument HISTORY, if non-nil, specifies a history + list and optionally the initial position in the list. The optional + argument DEFAULT-VALUE specifies a default value to return if the + user enters null input; it should be a string. + This function simply evaluates the result of a call to - `read-minibuffer': + `read-expression': (eval-minibuffer PROMPT INITIAL) == - (eval (read-minibuffer PROMPT INITIAL)) + (eval (read-expression PROMPT INITIAL)) - - Function: edit-and-eval-command prompt form + - Function: edit-and-eval-command prompt command &optional history This function reads a Lisp expression in the minibuffer, and then evaluates it. The difference between this command and - `eval-minibuffer' is that here the initial FORM is not optional + `eval-minibuffer' is that here the initial COMMAND is not optional and it is treated as a Lisp object to be converted to printed representation rather than as a string of text. It is printed with `prin1', so if it is a string, double-quote characters (`"') @@ -1131,7 +1152,7 @@ minibuffer with completion. the value of REQUIRE-MATCH, and regardless of whether the empty string is included in COLLECTION. - The function `completing-read' works by calling `read-minibuffer'. + The function `completing-read' works by calling `read-expression'. It uses `minibuffer-local-completion-map' as the keymap if REQUIRE-MATCH is `nil', and uses `minibuffer-local-must-match-map' if REQUIRE-MATCH is non-`nil'. *Note Completion Commands::. @@ -1168,121 +1189,3 @@ minibuffer with completion. `minibuffer-completion-confirm'. For more information about them, see *Note Completion Commands::. - -File: lispref.info, Node: Completion Commands, Next: High-Level Completion, Prev: Minibuffer Completion, Up: Completion - -Minibuffer Commands That Do Completion --------------------------------------- - - This section describes the keymaps, commands and user options used in -the minibuffer to do completion. - - - Variable: minibuffer-local-completion-map - `completing-read' uses this value as the local keymap when an - exact match of one of the completions is not required. By - default, this keymap makes the following bindings: - - `?' - `minibuffer-completion-help' - - - `minibuffer-complete-word' - - - `minibuffer-complete' - - with other characters bound as in `minibuffer-local-map' (*note - Text from Minibuffer::). - - - Variable: minibuffer-local-must-match-map - `completing-read' uses this value as the local keymap when an - exact match of one of the completions is required. Therefore, no - keys are bound to `exit-minibuffer', the command that exits the - minibuffer unconditionally. By default, this keymap makes the - following bindings: - - `?' - `minibuffer-completion-help' - - - `minibuffer-complete-word' - - - `minibuffer-complete' - - `C-j' - `minibuffer-complete-and-exit' - - - `minibuffer-complete-and-exit' - - with other characters bound as in `minibuffer-local-map'. - - - Variable: minibuffer-completion-table - The value of this variable is the alist or obarray used for - completion in the minibuffer. This is the global variable that - contains what `completing-read' passes to `try-completion'. It is - used by minibuffer completion commands such as - `minibuffer-complete-word'. - - - Variable: minibuffer-completion-predicate - This variable's value is the predicate that `completing-read' - passes to `try-completion'. The variable is also used by the other - minibuffer completion functions. - - - Command: minibuffer-complete-word - This function completes the minibuffer contents by at most a single - word. Even if the minibuffer contents have only one completion, - `minibuffer-complete-word' does not add any characters beyond the - first character that is not a word constituent. *Note Syntax - Tables::. - - - Command: minibuffer-complete - This function completes the minibuffer contents as far as possible. - - - Command: minibuffer-complete-and-exit - This function completes the minibuffer contents, and exits if - confirmation is not required, i.e., if - `minibuffer-completion-confirm' is `nil'. If confirmation _is_ - required, it is given by repeating this command immediately--the - command is programmed to work without confirmation when run twice - in succession. - - - Variable: minibuffer-completion-confirm - When the value of this variable is non-`nil', XEmacs asks for - confirmation of a completion before exiting the minibuffer. The - function `minibuffer-complete-and-exit' checks the value of this - variable before it exits. - - - Command: minibuffer-completion-help - This function creates a list of the possible completions of the - current minibuffer contents. It works by calling `all-completions' - using the value of the variable `minibuffer-completion-table' as - the COLLECTION argument, and the value of - `minibuffer-completion-predicate' as the PREDICATE argument. The - list of completions is displayed as text in a buffer named - `*Completions*'. - - - Function: display-completion-list completions - This function displays COMPLETIONS to the stream in - `standard-output', usually a buffer. (*Note Read and Print::, for - more information about streams.) The argument COMPLETIONS is - normally a list of completions just returned by `all-completions', - but it does not have to be. Each element may be a symbol or a - string, either of which is simply printed, or a list of two - strings, which is printed as if the strings were concatenated. - - This function is called by `minibuffer-completion-help'. The most - common way to use it is together with - `with-output-to-temp-buffer', like this: - - (with-output-to-temp-buffer "*Completions*" - (display-completion-list - (all-completions (buffer-string) my-alist))) - - - User Option: completion-auto-help - If this variable is non-`nil', the completion commands - automatically display a list of possible completions whenever - nothing can be completed because the next character is not - uniquely determined. - diff --git a/info/lispref.info-16 b/info/lispref.info-16 index 1ba0d48..e9b7573 100644 --- a/info/lispref.info-16 +++ b/info/lispref.info-16 @@ -50,6 +50,124 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Completion Commands, Next: High-Level Completion, Prev: Minibuffer Completion, Up: Completion + +Minibuffer Commands That Do Completion +-------------------------------------- + + This section describes the keymaps, commands and user options used in +the minibuffer to do completion. + + - Variable: minibuffer-local-completion-map + `completing-read' uses this value as the local keymap when an + exact match of one of the completions is not required. By + default, this keymap makes the following bindings: + + `?' + `minibuffer-completion-help' + + + `minibuffer-complete-word' + + + `minibuffer-complete' + + with other characters bound as in `minibuffer-local-map' (*note + Text from Minibuffer::). + + - Variable: minibuffer-local-must-match-map + `completing-read' uses this value as the local keymap when an + exact match of one of the completions is required. Therefore, no + keys are bound to `exit-minibuffer', the command that exits the + minibuffer unconditionally. By default, this keymap makes the + following bindings: + + `?' + `minibuffer-completion-help' + + + `minibuffer-complete-word' + + + `minibuffer-complete' + + `C-j' + `minibuffer-complete-and-exit' + + + `minibuffer-complete-and-exit' + + with other characters bound as in `minibuffer-local-map'. + + - Variable: minibuffer-completion-table + The value of this variable is the alist or obarray used for + completion in the minibuffer. This is the global variable that + contains what `completing-read' passes to `try-completion'. It is + used by minibuffer completion commands such as + `minibuffer-complete-word'. + + - Variable: minibuffer-completion-predicate + This variable's value is the predicate that `completing-read' + passes to `try-completion'. The variable is also used by the other + minibuffer completion functions. + + - Command: minibuffer-complete-word + This function completes the minibuffer contents by at most a single + word. Even if the minibuffer contents have only one completion, + `minibuffer-complete-word' does not add any characters beyond the + first character that is not a word constituent. *Note Syntax + Tables::. + + - Command: minibuffer-complete + This function completes the minibuffer contents as far as possible. + + - Command: minibuffer-complete-and-exit + This function completes the minibuffer contents, and exits if + confirmation is not required, i.e., if + `minibuffer-completion-confirm' is `nil'. If confirmation _is_ + required, it is given by repeating this command immediately--the + command is programmed to work without confirmation when run twice + in succession. + + - Variable: minibuffer-completion-confirm + When the value of this variable is non-`nil', XEmacs asks for + confirmation of a completion before exiting the minibuffer. The + function `minibuffer-complete-and-exit' checks the value of this + variable before it exits. + + - Command: minibuffer-completion-help + This function creates a list of the possible completions of the + current minibuffer contents. It works by calling `all-completions' + using the value of the variable `minibuffer-completion-table' as + the COLLECTION argument, and the value of + `minibuffer-completion-predicate' as the PREDICATE argument. The + list of completions is displayed as text in a buffer named + `*Completions*'. + + - Function: display-completion-list completions &rest cl-keys + This function displays COMPLETIONS to the stream in + `standard-output', usually a buffer. (*Note Read and Print::, for + more information about streams.) The argument COMPLETIONS is + normally a list of completions just returned by `all-completions', + but it does not have to be. Each element may be a symbol or a + string, either of which is simply printed, or a list of two + strings, which is printed as if the strings were concatenated. + + This function is called by `minibuffer-completion-help'. The most + common way to use it is together with + `with-output-to-temp-buffer', like this: + + (with-output-to-temp-buffer "*Completions*" + (display-completion-list + (all-completions (buffer-string) my-alist))) + + - User Option: completion-auto-help + If this variable is non-`nil', the completion commands + automatically display a list of possible completions whenever + nothing can be completed because the next character is not + uniquely determined. + + File: lispref.info, Node: High-Level Completion, Next: Reading File Names, Prev: Completion Commands, Up: Completion High-Level Completion Functions @@ -94,13 +212,19 @@ Defining Commands::. ;; The user types `minibuffer.t '. => "minibuffer.texi" - - Function: read-command prompt + - Function: read-command prompt &optinal default-value This function reads the name of a command and returns it as a Lisp symbol. The argument PROMPT is used as in `read-from-minibuffer'. Recall that a command is anything for which `commandp' returns `t', and a command name is a symbol for which `commandp' returns `t'. *Note Interactive Call::. + The argument DEFAULT-VALUE specifies what to return if the user + enters null input. It can be a symbol or a string; if it is a + string, `read-command' interns it before returning it. If DEFAULT + is `nil', that means no default has been specified; then if the + user enters null input, the return value is `nil'. + (read-command "Command name? ") ;; After evaluation of the preceding expression, @@ -123,10 +247,16 @@ Defining Commands::. (intern (completing-read PROMPT obarray 'commandp t nil)) - - Function: read-variable prompt + - Function: read-variable prompt &optional default-value This function reads the name of a user variable and returns it as a symbol. + The argument DEFAULT-VALUE specifies what to return if the user + enters null input. It can be a symbol or a string; if it is a + string, `read-variable' interns it before returning it. If DEFAULT + is `nil', that means no default has been specified; then if the + user enters null input, the return value is `nil'. + (read-variable "Variable name? ") ;; After evaluation of the preceding expression, @@ -160,7 +290,7 @@ a file name. It provides special features including automatic insertion of the default directory. - Function: read-file-name prompt &optional directory default existing - initial + initial history This function reads a file name in the minibuffer, prompting with PROMPT and providing completion. If DEFAULT is non-`nil', then the function returns DEFAULT if the user just types . @@ -1084,128 +1214,3 @@ Examples of Using `interactive' (three-b "*scratch*" "declarations.texi" "*mail*") => nil - -File: lispref.info, Node: Interactive Call, Next: Command Loop Info, Prev: Defining Commands, Up: Command Loop - -Interactive Call -================ - - After the command loop has translated a key sequence into a -definition, it invokes that definition using the function -`command-execute'. If the definition is a function that is a command, -`command-execute' calls `call-interactively', which reads the arguments -and calls the command. You can also call these functions yourself. - - - Function: commandp object - Returns `t' if OBJECT is suitable for calling interactively; that - is, if OBJECT is a command. Otherwise, returns `nil'. - - The interactively callable objects include strings and vectors - (treated as keyboard macros), lambda expressions that contain a - top-level call to `interactive', compiled-function objects made - from such lambda expressions, autoload objects that are declared - as interactive (non-`nil' fourth argument to `autoload'), and some - of the primitive functions. - - A symbol is `commandp' if its function definition is `commandp'. - - Keys and keymaps are not commands. Rather, they are used to look - up commands (*note Keymaps::). - - See `documentation' in *Note Accessing Documentation::, for a - realistic example of using `commandp'. - - - Function: call-interactively command &optional record-flag - This function calls the interactively callable function COMMAND, - reading arguments according to its interactive calling - specifications. An error is signaled if COMMAND is not a function - or if it cannot be called interactively (i.e., is not a command). - Note that keyboard macros (strings and vectors) are not accepted, - even though they are considered commands, because they are not - functions. - - If RECORD-FLAG is the symbol `lambda', the interactive calling - arguments for `command' are read and returned as a list, but the - function is not called on them. - - If RECORD-FLAG is `t', then this command and its arguments are - unconditionally added to the list `command-history'. Otherwise, - the command is added only if it uses the minibuffer to read an - argument. *Note Command History::. - - - Function: command-execute command &optional record-flag - This function executes COMMAND as an editing command. The - argument COMMAND must satisfy the `commandp' predicate; i.e., it - must be an interactively callable function or a keyboard macro. - - A string or vector as COMMAND is executed with - `execute-kbd-macro'. A function is passed to - `call-interactively', along with the optional RECORD-FLAG. - - A symbol is handled by using its function definition in its place. - A symbol with an `autoload' definition counts as a command if it - was declared to stand for an interactively callable function. - Such a definition is handled by loading the specified library and - then rechecking the definition of the symbol. - - - Command: execute-extended-command prefix-argument - This function reads a command name from the minibuffer using - `completing-read' (*note Completion::). Then it uses - `command-execute' to call the specified command. Whatever that - command returns becomes the value of `execute-extended-command'. - - If the command asks for a prefix argument, it receives the value - PREFIX-ARGUMENT. If `execute-extended-command' is called - interactively, the current raw prefix argument is used for - PREFIX-ARGUMENT, and thus passed on to whatever command is run. - - `execute-extended-command' is the normal definition of `M-x', so - it uses the string `M-x ' as a prompt. (It would be better to - take the prompt from the events used to invoke - `execute-extended-command', but that is painful to implement.) A - description of the value of the prefix argument, if any, also - becomes part of the prompt. - - (execute-extended-command 1) - ---------- Buffer: Minibuffer ---------- - 1 M-x forward-word RET - ---------- Buffer: Minibuffer ---------- - => t - - - Function: interactive-p - This function returns `t' if the containing function (the one that - called `interactive-p') was called interactively, with the function - `call-interactively'. (It makes no difference whether - `call-interactively' was called from Lisp or directly from the - editor command loop.) If the containing function was called by - Lisp evaluation (or with `apply' or `funcall'), then it was not - called interactively. - - The most common use of `interactive-p' is for deciding whether to - print an informative message. As a special exception, - `interactive-p' returns `nil' whenever a keyboard macro is being - run. This is to suppress the informative messages and speed - execution of the macro. - - For example: - - (defun foo () - (interactive) - (and (interactive-p) - (message "foo"))) - => foo - - (defun bar () - (interactive) - (setq foobar (list (foo) (interactive-p)))) - => bar - - ;; Type `M-x foo'. - -| foo - - ;; Type `M-x bar'. - ;; This does not print anything. - - foobar - => (nil t) - diff --git a/info/lispref.info-17 b/info/lispref.info-17 index 1ad01db..f9926db 100644 --- a/info/lispref.info-17 +++ b/info/lispref.info-17 @@ -50,6 +50,131 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Interactive Call, Next: Command Loop Info, Prev: Defining Commands, Up: Command Loop + +Interactive Call +================ + + After the command loop has translated a key sequence into a +definition, it invokes that definition using the function +`command-execute'. If the definition is a function that is a command, +`command-execute' calls `call-interactively', which reads the arguments +and calls the command. You can also call these functions yourself. + + - Function: commandp object + Returns `t' if OBJECT is suitable for calling interactively; that + is, if OBJECT is a command. Otherwise, returns `nil'. + + The interactively callable objects include strings and vectors + (treated as keyboard macros), lambda expressions that contain a + top-level call to `interactive', compiled-function objects made + from such lambda expressions, autoload objects that are declared + as interactive (non-`nil' fourth argument to `autoload'), and some + of the primitive functions. + + A symbol is `commandp' if its function definition is `commandp'. + + Keys and keymaps are not commands. Rather, they are used to look + up commands (*note Keymaps::). + + See `documentation' in *Note Accessing Documentation::, for a + realistic example of using `commandp'. + + - Function: call-interactively command &optional record-flag + This function calls the interactively callable function COMMAND, + reading arguments according to its interactive calling + specifications. An error is signaled if COMMAND is not a function + or if it cannot be called interactively (i.e., is not a command). + Note that keyboard macros (strings and vectors) are not accepted, + even though they are considered commands, because they are not + functions. + + If RECORD-FLAG is the symbol `lambda', the interactive calling + arguments for `command' are read and returned as a list, but the + function is not called on them. + + If RECORD-FLAG is `t', then this command and its arguments are + unconditionally added to the list `command-history'. Otherwise, + the command is added only if it uses the minibuffer to read an + argument. *Note Command History::. + + - Function: command-execute command &optional record-flag + This function executes COMMAND as an editing command. The + argument COMMAND must satisfy the `commandp' predicate; i.e., it + must be an interactively callable function or a keyboard macro. + + A string or vector as COMMAND is executed with + `execute-kbd-macro'. A function is passed to + `call-interactively', along with the optional RECORD-FLAG. + + A symbol is handled by using its function definition in its place. + A symbol with an `autoload' definition counts as a command if it + was declared to stand for an interactively callable function. + Such a definition is handled by loading the specified library and + then rechecking the definition of the symbol. + + - Command: execute-extended-command prefix-argument + This function reads a command name from the minibuffer using + `completing-read' (*note Completion::). Then it uses + `command-execute' to call the specified command. Whatever that + command returns becomes the value of `execute-extended-command'. + + If the command asks for a prefix argument, it receives the value + PREFIX-ARGUMENT. If `execute-extended-command' is called + interactively, the current raw prefix argument is used for + PREFIX-ARGUMENT, and thus passed on to whatever command is run. + + `execute-extended-command' is the normal definition of `M-x', so + it uses the string `M-x ' as a prompt. (It would be better to + take the prompt from the events used to invoke + `execute-extended-command', but that is painful to implement.) A + description of the value of the prefix argument, if any, also + becomes part of the prompt. + + (execute-extended-command 1) + ---------- Buffer: Minibuffer ---------- + 1 M-x forward-word RET + ---------- Buffer: Minibuffer ---------- + => t + + - Function: interactive-p + This function returns `t' if the containing function (the one that + called `interactive-p') was called interactively, with the function + `call-interactively'. (It makes no difference whether + `call-interactively' was called from Lisp or directly from the + editor command loop.) If the containing function was called by + Lisp evaluation (or with `apply' or `funcall'), then it was not + called interactively. + + The most common use of `interactive-p' is for deciding whether to + print an informative message. As a special exception, + `interactive-p' returns `nil' whenever a keyboard macro is being + run. This is to suppress the informative messages and speed + execution of the macro. + + For example: + + (defun foo () + (interactive) + (and (interactive-p) + (message "foo"))) + => foo + + (defun bar () + (interactive) + (setq foobar (list (foo) (interactive-p)))) + => bar + + ;; Type `M-x foo'. + -| foo + + ;; Type `M-x bar'. + ;; This does not print anything. + + foobar + => (nil t) + + File: lispref.info, Node: Command Loop Info, Next: Events, Prev: Interactive Call, Up: Command Loop Information from the Command Loop @@ -1185,54 +1310,3 @@ input. (discard-input)) => nil - -File: lispref.info, Node: Waiting, Next: Quitting, Prev: Reading Input, Up: Command Loop - -Waiting for Elapsed Time or Input -================================= - - The wait functions are designed to wait for a certain amount of time -to pass or until there is input. For example, you may wish to pause in -the middle of a computation to allow the user time to view the display. -`sit-for' pauses and updates the screen, and returns immediately if -input comes in, while `sleep-for' pauses without updating the screen. - - Note that in FSF Emacs, the commands `sit-for' and `sleep-for' take -two arguments to specify the time (one integer and one float value), -instead of a single argument that can be either an integer or a float. - - - Function: sit-for seconds &optional nodisp - This function performs redisplay (provided there is no pending - input from the user), then waits SECONDS seconds, or until input is - available. The result is `t' if `sit-for' waited the full time - with no input arriving (see `input-pending-p' in *Note Peeking and - Discarding::). Otherwise, the value is `nil'. - - The argument SECONDS need not be an integer. If it is a floating - point number, `sit-for' waits for a fractional number of seconds. - - Redisplay is normally preempted if input arrives, and does not - happen at all if input is available before it starts. (You can - force screen updating in such a case by using `force-redisplay'. - *Note Refresh Screen::.) If there is no input pending, you can - force an update with no delay by using `(sit-for 0)'. - - If NODISP is non-`nil', then `sit-for' does not redisplay, but it - still returns as soon as input is available (or when the timeout - elapses). - - The usual purpose of `sit-for' is to give the user time to read - text that you display. - - - Function: sleep-for seconds - This function simply pauses for SECONDS seconds without updating - the display. This function pays no attention to available input. - It returns `nil'. - - The argument SECONDS need not be an integer. If it is a floating - point number, `sleep-for' waits for a fractional number of seconds. - - Use `sleep-for' when you wish to guarantee a delay. - - *Note Time of Day::, for functions to get the current time. - diff --git a/info/lispref.info-18 b/info/lispref.info-18 index 860dab1..47f826c 100644 --- a/info/lispref.info-18 +++ b/info/lispref.info-18 @@ -50,6 +50,57 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Waiting, Next: Quitting, Prev: Reading Input, Up: Command Loop + +Waiting for Elapsed Time or Input +================================= + + The wait functions are designed to wait for a certain amount of time +to pass or until there is input. For example, you may wish to pause in +the middle of a computation to allow the user time to view the display. +`sit-for' pauses and updates the screen, and returns immediately if +input comes in, while `sleep-for' pauses without updating the screen. + + Note that in FSF Emacs, the commands `sit-for' and `sleep-for' take +two arguments to specify the time (one integer and one float value), +instead of a single argument that can be either an integer or a float. + + - Function: sit-for seconds &optional nodisp + This function performs redisplay (provided there is no pending + input from the user), then waits SECONDS seconds, or until input is + available. The result is `t' if `sit-for' waited the full time + with no input arriving (see `input-pending-p' in *Note Peeking and + Discarding::). Otherwise, the value is `nil'. + + The argument SECONDS need not be an integer. If it is a floating + point number, `sit-for' waits for a fractional number of seconds. + + Redisplay is normally preempted if input arrives, and does not + happen at all if input is available before it starts. (You can + force screen updating in such a case by using `force-redisplay'. + *Note Refresh Screen::.) If there is no input pending, you can + force an update with no delay by using `(sit-for 0)'. + + If NODISP is non-`nil', then `sit-for' does not redisplay, but it + still returns as soon as input is available (or when the timeout + elapses). + + The usual purpose of `sit-for' is to give the user time to read + text that you display. + + - Function: sleep-for seconds + This function simply pauses for SECONDS seconds without updating + the display. This function pays no attention to available input. + It returns `nil'. + + The argument SECONDS need not be an integer. If it is a floating + point number, `sleep-for' waits for a fractional number of seconds. + + Use `sleep-for' when you wish to guarantee a delay. + + *Note Time of Day::, for functions to get the current time. + + File: lispref.info, Node: Quitting, Next: Prefix Command Arguments, Prev: Waiting, Up: Command Loop Quitting diff --git a/info/lispref.info-20 b/info/lispref.info-20 index d1c1da4..504086a 100644 --- a/info/lispref.info-20 +++ b/info/lispref.info-20 @@ -342,7 +342,7 @@ Dialog Box Functions using a dialog box.  -File: lispref.info, Node: Toolbar, Next: Scrollbars, Prev: Dialog Boxes, Up: Top +File: lispref.info, Node: Toolbar, Next: Gutter, Prev: Dialog Boxes, Up: Top Toolbar ******* @@ -675,9 +675,378 @@ expanded to take up the slack. startup.  -File: lispref.info, Node: Scrollbars, Next: Drag and Drop, Prev: Toolbar, Up: Top +File: lispref.info, Node: Gutter, Next: Scrollbars, Prev: Toolbar, Up: Top -scrollbars +Gutter +****** + + A gutter is a rectangle displayed along one edge of a frame. It can +contain arbitrary text or graphics. + +* Menu: + +* Gutter Intro:: An introduction. +* Gutter Descriptor Format:: How to create a gutter. +* Specifying a Gutter:: Setting a gutter's contents. +* Other Gutter Variables:: Controlling the size of gutters. +* Common Gutter Widgets:: Things to put in gutters. + + +File: lispref.info, Node: Gutter Intro, Next: Gutter Descriptor Format, Up: Gutter + +Gutter Intro +============ + + A "gutter" is a rectangle displayed along one edge of a frame. It +can contain arbitrary text or graphics. It could be considered a +generalization of a toolbar, although toolbars are not currently +implemented using gutters. + + In XEmacs, a gutter can be displayed along any of the four edges of +the frame, and two or more different edges can be displaying gutters +simultaneously. The contents, thickness, and visibility of the gutters +can be controlled separately, and the values can be per-buffer, +per-frame, etc., using specifiers (*note Specifiers::). + + Normally, there is one gutter displayed in a frame. Usually, this is +the default gutter, containing buffer tabs, but modes cab override this +and substitute their own gutter. This default gutter is usually +positioned along the top of the frame, but this can be changed using +`set-default-gutter-position'. + + Note that, for each of the gutter properties (contents, thickness, +and visibility), there is a separate specifier for each of the four +gutter positions (top, bottom, left, and right), and an additional +specifier for the "default" gutter, i.e. the gutter whose position is +controlled by `set-default-gutter-position'. The way this works is +that `set-default-gutter-position' arranges things so that the +appropriate position-specific specifiers for the default position +inherit from the corresponding default specifiers. That way, if the +position-specific specifier does not give a value (which it usually +doesn't), then the value from the default specifier applies. If you +want to control the default gutter, you just change the default +specifiers, and everything works. A package such as VM that wants to +put its own gutter in a different location from the default just sets +the position-specific specifiers, and if the user sets the default +gutter to the same position, it will just not be visible. + + +File: lispref.info, Node: Gutter Descriptor Format, Next: Specifying a Gutter, Prev: Gutter Intro, Up: Gutter + +Gutter Descriptor Format +======================== + + The contents of a gutter are specified using a "gutter descriptor". +The format of a gutter descriptor is a list of "gutter button +descriptors". Each gutter button descriptor is a vector in one of the +following formats: + + * `[GLYPH-LIST FUNCTION ENABLED-P HELP]' + + * `[:style 2D-OR-3D]' + + * `[:style 2D-OR-3D :size WIDTH-OR-HEIGHT]' + + * `[:size WIDTH-OR-HEIGHT :style 2D-OR-3D]' + + Optionally, one of the gutter button descriptors may be `nil' +instead of a vector; this signifies the division between the gutter +buttons that are to be displayed flush-left, and the buttons to be +displayed flush-right. + + The first vector format above specifies a normal gutter button; the +others specify blank areas in the gutter. + + For the first vector format: + + * GLYPH-LIST should be a list of one to six glyphs (as created by + `make-glyph') or a symbol whose value is such a list. The first + glyph, which must be provided, is the glyph used to display the + gutter button when it is in the "up" (not pressed) state. The + optional second glyph is for displaying the button when it is in + the "down" (pressed) state. The optional third glyph is for when + the button is disabled. The last three glyphs are for displaying + the button in the "up", "down", and "disabled" states, + respectively, but are used when the user has called for captioned + gutter buttons (using `gutter-buttons-captioned-p'). The function + `gutter-make-button-list' is useful in creating these glyph lists. + + * Even if you do not provide separate down-state and disabled-state + glyphs, the user will still get visual feedback to indicate which + state the button is in. Buttons in the up-state are displayed + with a shadowed border that gives a raised appearance to the + button. Buttons in the down-state are displayed with shadows that + give a recessed appearance. Buttons in the disabled state are + displayed with no shadows, giving a 2-d effect. + + * If some of the gutter glyphs are not provided, they inherit as + follows: + + UP: up + DOWN: down -> up + DISABLED: disabled -> up + CAP-UP: cap-up -> up + CAP-DOWN: cap-down -> cap-up -> down -> up + CAP-DISABLED: cap-disabled -> cap-up -> disabled -> up + + * The second element FUNCTION is a function to be called when the + gutter button is activated (i.e. when the mouse is released over + the gutter button, if the press occurred in the gutter). It can + be any form accepted by `call-interactively', since this is how it + is invoked. + + * The third element ENABLED-P specifies whether the gutter button is + enabled (disabled buttons do nothing when they are activated, and + are displayed differently; see above). It should be either a + boolean or a form that evaluates to a boolean. + + * The fourth element HELP, if non-`nil', should be a string. This + string is displayed in the echo area when the mouse passes over the + gutter button. + + For the other vector formats (specifying blank areas of the gutter): + + * 2D-OR-3D should be one of the symbols `2d' or `3d', indicating + whether the area is displayed with shadows (giving it a raised, + 3-d appearance) or without shadows (giving it a flat appearance). + + * WIDTH-OR-HEIGHT specifies the length, in pixels, of the blank + area. If omitted, it defaults to a device-specific value (8 + pixels for X devices). + + - Function: gutter-make-button-list up &optional down disabled cap-up + cap-down cap-disabled + This function calls `make-glyph' on each arg and returns a list of + the results. This is useful for setting the first argument of a + gutter button descriptor (typically, the result of this function + is assigned to a symbol, which is specified as the first argument + of the gutter button descriptor). + + - Function: check-gutter-button-syntax button &optional noerror + Verify the syntax of entry BUTTON in a gutter description list. + If you want to verify the syntax of a gutter description list as a + whole, use `check-valid-instantiator' with a specifier type of + `gutter'. + + +File: lispref.info, Node: Specifying a Gutter, Next: Other Gutter Variables, Prev: Gutter Descriptor Format, Up: Gutter + +Specifying a Gutter +=================== + + In order to specify the contents of a gutter, set one of the +specifier variables `default-gutter', `top-gutter', `bottom-gutter', +`left-gutter', or `right-gutter'. These are specifiers, which means +you set them with `set-specifier' and query them with `specifier-specs' +or `specifier-instance'. You will get an error if you try to set them +using `setq'. The valid instantiators for these specifiers are gutter +descriptors, as described above. *Note Specifiers::, for more +information. + + Most of the time, you will set `default-gutter', which allows the +user to choose where the gutter should go. + + - Specifier: default-gutter + The position of this gutter is specified in the function + `default-gutter-position'. If the corresponding position-specific + gutter (e.g. `top-gutter' if `default-gutter-position' is `top') + does not specify a gutter in a particular domain, then the value + of `default-gutter' in that domain, of any, will be used instead. + + Note that the gutter at any particular position will not be displayed +unless its thickness (width or height, depending on orientation) is +non-zero and its visibility status is true. The thickness is controlled +by the specifiers `top-gutter-height', `bottom-gutter-height', +`left-gutter-width', and `right-gutter-width', and the visibility +status is controlled by the specifiers `top-gutter-visible-p', +`bottom-gutter-visible-p', `left-gutter-visible-p', and +`right-gutter-visible-p' (*note Other Gutter Variables::). + + - Function: set-default-gutter-position position + This function sets the position that the `default-gutter' will be + displayed at. Valid positions are the symbols `top', `bottom', + `left' and `right'. What this actually does is set the fallback + specifier for the position-specific specifier corresponding to the + given position to `default-gutter', and set the fallbacks for the + other position-specific specifiers to `nil'. It also does the + same thing for the position-specific thickness and visibility + specifiers, which inherit from one of `default-gutter-height' or + `default-gutter-width', and from `default-gutter-visible-p', + respectively (*note Other Gutter Variables::). + + - Function: default-gutter-position + This function returns the position that the `default-gutter' will + be displayed at. + + You can also explicitly set a gutter at a particular position. When +redisplay determines what to display at a particular position in a +particular domain (i.e. window), it first consults the position-specific +gutter. If that does not yield a gutter descriptor, the +`default-gutter' is consulted if `default-gutter-position' indicates +this position. + + - Specifier: top-gutter + Specifier for the gutter at the top of the frame. + + - Specifier: bottom-gutter + Specifier for the gutter at the bottom of the frame. + + - Specifier: left-gutter + Specifier for the gutter at the left edge of the frame. + + - Specifier: right-gutter + Specifier for the gutter at the right edge of the frame. + + - Function: gutter-specifier-p object + This function returns non-nil if OBJECT is a gutter specifier. + Gutter specifiers are the actual objects contained in the gutter + variables described above, and their valid instantiators are + gutter descriptors (*note Gutter Descriptor Format::). + + +File: lispref.info, Node: Other Gutter Variables, Next: Common Gutter Widgets, Prev: Specifying a Gutter, Up: Gutter + +Other Gutter Variables +====================== + + The variables to control the gutter thickness, visibility status, and +captioned status are all specifiers. *Note Specifiers::. + + - Specifier: default-gutter-height + This specifies the height of the default gutter, if it's oriented + horizontally. The position of the default gutter is specified by + the function `set-default-gutter-position'. If the corresponding + position-specific gutter thickness specifier (e.g. + `top-gutter-height' if `default-gutter-position' is `top') does + not specify a thickness in a particular domain (a window or a + frame), then the value of `default-gutter-height' or + `default-gutter-width' (depending on the gutter orientation) in + that domain, if any, will be used instead. + + - Specifier: default-gutter-width + This specifies the width of the default gutter, if it's oriented + vertically. This behaves like `default-gutter-height'. + + Note that `default-gutter-height' is only used when +`default-gutter-position' is `top' or `bottom', and +`default-gutter-width' is only used when `default-gutter-position' is +`left' or `right'. + + - Specifier: top-gutter-height + This specifies the height of the top gutter. + + - Specifier: bottom-gutter-height + This specifies the height of the bottom gutter. + + - Specifier: left-gutter-width + This specifies the width of the left gutter. + + - Specifier: right-gutter-width + This specifies the width of the right gutter. + + Note that all of the position-specific gutter thickness specifiers +have a fallback value of zero when they do not correspond to the +default gutter. Therefore, you will have to set a non-zero thickness +value if you want a position-specific gutter to be displayed. + + - Specifier: default-gutter-visible-p + This specifies whether the default gutter is visible. The + position of the default gutter is specified by the function + `set-default-gutter-position'. If the corresponding + position-specific gutter visibility specifier (e.g. + `top-gutter-visible-p' if `default-gutter-position' is `top') does + not specify a visible-p value in a particular domain (a window or + a frame), then the value of `default-gutter-visible-p' in that + domain, if any, will be used instead. + + - Specifier: top-gutter-visible-p + This specifies whether the top gutter is visible. + + - Specifier: bottom-gutter-visible-p + This specifies whether the bottom gutter is visible. + + - Specifier: left-gutter-visible-p + This specifies whether the left gutter is visible. + + - Specifier: right-gutter-visible-p + This specifies whether the right gutter is visible. + + `default-gutter-visible-p' and all of the position-specific gutter +visibility specifiers have a fallback value of true. + + Internally, gutter thickness and visibility specifiers are +instantiated in both window and frame domains, for different purposes. +The value in the domain of a frame's selected window specifies the +actual gutter thickness or visibility that you will see in that frame. +The value in the domain of a frame itself specifies the gutter +thickness or visibility that is used in frame geometry calculations. + + Thus, for example, if you set the frame width to 80 characters and +the left gutter width for that frame to 68 pixels, then the frame will +be sized to fit 80 characters plus a 68-pixel left gutter. If you then +set the left gutter width to 0 for a particular buffer (or if that +buffer does not specify a left gutter or has a nil value specified for +`left-gutter-visible-p'), you will find that, when that buffer is +displayed in the selected window, the window will have a width of 86 or +87 characters - the frame is sized for a 68-pixel left gutter but the +selected window specifies that the left gutter is not visible, so it is +expanded to take up the slack. + + - Specifier: gutter-buttons-captioned-p + Whether gutter buttons are captioned. This affects which glyphs + from a gutter button descriptor are chosen. *Note Gutter + Descriptor Format::. + + You can also reset the gutter to what it was when XEmacs started up. + + - Constant: initial-gutter-spec + The gutter descriptor used to initialize `default-gutter' at + startup. + + +File: lispref.info, Node: Common Gutter Widgets, Prev: Other Gutter Variables, Up: Gutter + +Common Gutter Widgets +===================== + + A gutter can contain arbitrary text. So, for example, in an Info +buffer you could put the title of the current node in the top gutter, +and it would not scroll out of view in a long node. (This is an +artificial example, since usually the node name is sufficiently +descriptive, and Info puts that in the mode line.) + + A more common use for the gutter is to hold some kind of active +widget. The buffer-tab facility, available in all XEmacs frames, +creates an array of file-folder-like tabs, which the user can click with +the mouse to switch buffers. W3 uses a progress-bar widget in the +bottom gutter to give a visual indication of the progress of +time-consuming operations like downloading. + +* Menu: + +* Buffer Tabs:: Tabbed divider index metaphor for switching buffers. +* Progress Bars:: Visual indication of operation progress. + + +File: lispref.info, Node: Buffer Tabs, Next: Progress Bars, Up: Common Gutter Widgets + +Buffer Tabs +=========== + + Not documented yet. + + +File: lispref.info, Node: Progress Bars, Prev: Buffer Tabs, Up: Common Gutter Widgets + +Progress Bars +============= + + Not documented yet. + + +File: lispref.info, Node: Scrollbars, Next: Drag and Drop, Prev: Gutter, Up: Top + +Scrollbars ********** Not yet documented. @@ -847,359 +1216,3 @@ Keymaps::, and *Note Syntax Tables::. * Modeline Format:: Customizing the text that appears in the modeline. * Hooks:: How to use hooks; how to write code that provides hooks. - -File: lispref.info, Node: Major Modes, Next: Minor Modes, Up: Modes - -Major Modes -=========== - - Major modes specialize XEmacs for editing particular kinds of text. -Each buffer has only one major mode at a time. - - The least specialized major mode is called "Fundamental mode". This -mode has no mode-specific definitions or variable settings, so each -XEmacs command behaves in its default manner, and each option is in its -default state. All other major modes redefine various keys and options. -For example, Lisp Interaction mode provides special key bindings for - (`eval-print-last-sexp'), (`lisp-indent-line'), and other -keys. - - When you need to write several editing commands to help you perform a -specialized editing task, creating a new major mode is usually a good -idea. In practice, writing a major mode is easy (in contrast to -writing a minor mode, which is often difficult). - - If the new mode is similar to an old one, it is often unwise to -modify the old one to serve two purposes, since it may become harder to -use and maintain. Instead, copy and rename an existing major mode -definition and alter the copy--or define a "derived mode" (*note -Derived Modes::). For example, Rmail Edit mode, which is in -`emacs/lisp/rmailedit.el', is a major mode that is very similar to Text -mode except that it provides three additional commands. Its definition -is distinct from that of Text mode, but was derived from it. - - Rmail Edit mode is an example of a case where one piece of text is -put temporarily into a different major mode so it can be edited in a -different way (with ordinary XEmacs commands rather than Rmail). In -such cases, the temporary major mode usually has a command to switch -back to the buffer's usual mode (Rmail mode, in this case). You might -be tempted to present the temporary redefinitions inside a recursive -edit and restore the usual ones when the user exits; but this is a bad -idea because it constrains the user's options when it is done in more -than one buffer: recursive edits must be exited most-recently-entered -first. Using alternative major modes avoids this limitation. *Note -Recursive Editing::. - - The standard XEmacs Lisp library directory contains the code for -several major modes, in files including `text-mode.el', `texinfo.el', -`lisp-mode.el', `c-mode.el', and `rmail.el'. You can look at these -libraries to see how modes are written. Text mode is perhaps the -simplest major mode aside from Fundamental mode. Rmail mode is a -complicated and specialized mode. - -* Menu: - -* Major Mode Conventions:: Coding conventions for keymaps, etc. -* Example Major Modes:: Text mode and Lisp modes. -* Auto Major Mode:: How XEmacs chooses the major mode automatically. -* Mode Help:: Finding out how to use a mode. -* Derived Modes:: Defining a new major mode based on another major - mode. - - -File: lispref.info, Node: Major Mode Conventions, Next: Example Major Modes, Up: Major Modes - -Major Mode Conventions ----------------------- - - The code for existing major modes follows various coding conventions, -including conventions for local keymap and syntax table initialization, -global names, and hooks. Please follow these conventions when you -define a new major mode: - - * Define a command whose name ends in `-mode', with no arguments, - that switches to the new mode in the current buffer. This command - should set up the keymap, syntax table, and local variables in an - existing buffer without changing the buffer's text. - - * Write a documentation string for this command that describes the - special commands available in this mode. `C-h m' - (`describe-mode') in your mode will display this string. - - The documentation string may include the special documentation - substrings, `\[COMMAND]', `\{KEYMAP}', and `\', that - enable the documentation to adapt automatically to the user's own - key bindings. *Note Keys in Documentation::. - - * The major mode command should start by calling - `kill-all-local-variables'. This is what gets rid of the local - variables of the major mode previously in effect. - - * The major mode command should set the variable `major-mode' to the - major mode command symbol. This is how `describe-mode' discovers - which documentation to print. - - * The major mode command should set the variable `mode-name' to the - "pretty" name of the mode, as a string. This appears in the mode - line. - - * Since all global names are in the same name space, all the global - variables, constants, and functions that are part of the mode - should have names that start with the major mode name (or with an - abbreviation of it if the name is long). *Note Style Tips::. - - * The major mode should usually have its own keymap, which is used - as the local keymap in all buffers in that mode. The major mode - function should call `use-local-map' to install this local map. - *Note Active Keymaps::, for more information. - - This keymap should be kept in a global variable named - `MODENAME-mode-map'. Normally the library that defines the mode - sets this variable. - - * The mode may have its own syntax table or may share one with other - related modes. If it has its own syntax table, it should store - this in a variable named `MODENAME-mode-syntax-table'. *Note - Syntax Tables::. - - * The mode may have its own abbrev table or may share one with other - related modes. If it has its own abbrev table, it should store - this in a variable named `MODENAME-mode-abbrev-table'. *Note - Abbrev Tables::. - - * Use `defvar' to set mode-related variables, so that they are not - reinitialized if they already have a value. (Such reinitialization - could discard customizations made by the user.) - - * To make a buffer-local binding for an Emacs customization - variable, use `make-local-variable' in the major mode command, not - `make-variable-buffer-local'. The latter function would make the - variable local to every buffer in which it is subsequently set, - which would affect buffers that do not use this mode. It is - undesirable for a mode to have such global effects. *Note - Buffer-Local Variables::. - - It's ok to use `make-variable-buffer-local', if you wish, for a - variable used only within a single Lisp package. - - * Each major mode should have a "mode hook" named - `MODENAME-mode-hook'. The major mode command should run that - hook, with `run-hooks', as the very last thing it does. *Note - Hooks::. - - * The major mode command may also run the hooks of some more basic - modes. For example, `indented-text-mode' runs `text-mode-hook' as - well as `indented-text-mode-hook'. It may run these other hooks - immediately before the mode's own hook (that is, after everything - else), or it may run them earlier. - - * If something special should be done if the user switches a buffer - from this mode to any other major mode, the mode can set a local - value for `change-major-mode-hook'. - - * If this mode is appropriate only for specially-prepared text, then - the major mode command symbol should have a property named - `mode-class' with value `special', put on as follows: - - (put 'funny-mode 'mode-class 'special) - - This tells XEmacs that new buffers created while the current - buffer has Funny mode should not inherit Funny mode. Modes such - as Dired, Rmail, and Buffer List use this feature. - - * If you want to make the new mode the default for files with certain - recognizable names, add an element to `auto-mode-alist' to select - the mode for those file names. If you define the mode command to - autoload, you should add this element in the same file that calls - `autoload'. Otherwise, it is sufficient to add the element in the - file that contains the mode definition. *Note Auto Major Mode::. - - * In the documentation, you should provide a sample `autoload' form - and an example of how to add to `auto-mode-alist', that users can - include in their `.emacs' files. - - * The top-level forms in the file defining the mode should be - written so that they may be evaluated more than once without - adverse consequences. Even if you never load the file more than - once, someone else will. - - - Variable: change-major-mode-hook - This normal hook is run by `kill-all-local-variables' before it - does anything else. This gives major modes a way to arrange for - something special to be done if the user switches to a different - major mode. For best results, make this variable buffer-local, so - that it will disappear after doing its job and will not interfere - with the subsequent major mode. *Note Hooks::. - - -File: lispref.info, Node: Example Major Modes, Next: Auto Major Mode, Prev: Major Mode Conventions, Up: Major Modes - -Major Mode Examples -------------------- - - Text mode is perhaps the simplest mode besides Fundamental mode. -Here are excerpts from `text-mode.el' that illustrate many of the -conventions listed above: - - ;; Create mode-specific tables. - (defvar text-mode-syntax-table nil - "Syntax table used while in text mode.") - - (if text-mode-syntax-table - () ; Do not change the table if it is already set up. - (setq text-mode-syntax-table (make-syntax-table)) - (modify-syntax-entry ?\" ". " text-mode-syntax-table) - (modify-syntax-entry ?\\ ". " text-mode-syntax-table) - (modify-syntax-entry ?' "w " text-mode-syntax-table)) - - (defvar text-mode-abbrev-table nil - "Abbrev table used while in text mode.") - (define-abbrev-table 'text-mode-abbrev-table ()) - - (defvar text-mode-map nil) ; Create a mode-specific keymap. - - (if text-mode-map - () ; Do not change the keymap if it is already set up. - (setq text-mode-map (make-sparse-keymap)) - (define-key text-mode-map "\t" 'tab-to-tab-stop) - (define-key text-mode-map "\es" 'center-line) - (define-key text-mode-map "\eS" 'center-paragraph)) - - Here is the complete major mode function definition for Text mode: - - (defun text-mode () - "Major mode for editing text intended for humans to read. - Special commands: \\{text-mode-map} - Turning on text-mode runs the hook `text-mode-hook'." - (interactive) - (kill-all-local-variables) - (use-local-map text-mode-map) ; This provides the local keymap. - (setq mode-name "Text") ; This name goes into the modeline. - (setq major-mode 'text-mode) ; This is how `describe-mode' - ; finds the doc string to print. - (setq local-abbrev-table text-mode-abbrev-table) - (set-syntax-table text-mode-syntax-table) - (run-hooks 'text-mode-hook)) ; Finally, this permits the user to - ; customize the mode with a hook. - - The three Lisp modes (Lisp mode, Emacs Lisp mode, and Lisp -Interaction mode) have more features than Text mode and the code is -correspondingly more complicated. Here are excerpts from -`lisp-mode.el' that illustrate how these modes are written. - - ;; Create mode-specific table variables. - (defvar lisp-mode-syntax-table nil "") - (defvar emacs-lisp-mode-syntax-table nil "") - (defvar lisp-mode-abbrev-table nil "") - - (if (not emacs-lisp-mode-syntax-table) ; Do not change the table - ; if it is already set. - (let ((i 0)) - (setq emacs-lisp-mode-syntax-table (make-syntax-table)) - - ;; Set syntax of chars up to 0 to class of chars that are - ;; part of symbol names but not words. - ;; (The number 0 is `48' in the ASCII character set.) - (while (< i ?0) - (modify-syntax-entry i "_ " emacs-lisp-mode-syntax-table) - (setq i (1+ i))) - ... - ;; Set the syntax for other characters. - (modify-syntax-entry ? " " emacs-lisp-mode-syntax-table) - (modify-syntax-entry ?\t " " emacs-lisp-mode-syntax-table) - ... - (modify-syntax-entry ?\( "() " emacs-lisp-mode-syntax-table) - (modify-syntax-entry ?\) ")( " emacs-lisp-mode-syntax-table) - ...)) - ;; Create an abbrev table for lisp-mode. - (define-abbrev-table 'lisp-mode-abbrev-table ()) - - Much code is shared among the three Lisp modes. The following -function sets various variables; it is called by each of the major Lisp -mode functions: - - (defun lisp-mode-variables (lisp-syntax) - ;; The `lisp-syntax' argument is `nil' in Emacs Lisp mode, - ;; and `t' in the other two Lisp modes. - (cond (lisp-syntax - (if (not lisp-mode-syntax-table) - ;; The Emacs Lisp mode syntax table always exists, but - ;; the Lisp Mode syntax table is created the first time a - ;; mode that needs it is called. This is to save space. - (progn (setq lisp-mode-syntax-table - (copy-syntax-table emacs-lisp-mode-syntax-table)) - ;; Change some entries for Lisp mode. - (modify-syntax-entry ?\| "\" " - lisp-mode-syntax-table) - (modify-syntax-entry ?\[ "_ " - lisp-mode-syntax-table) - (modify-syntax-entry ?\] "_ " - lisp-mode-syntax-table))) - (set-syntax-table lisp-mode-syntax-table))) - (setq local-abbrev-table lisp-mode-abbrev-table) - ...) - - Functions such as `forward-paragraph' use the value of the -`paragraph-start' variable. Since Lisp code is different from ordinary -text, the `paragraph-start' variable needs to be set specially to -handle Lisp. Also, comments are indented in a special fashion in Lisp -and the Lisp modes need their own mode-specific -`comment-indent-function'. The code to set these variables is the rest -of `lisp-mode-variables'. - - (make-local-variable 'paragraph-start) - ;; Having `^' is not clean, but `page-delimiter' - ;; has them too, and removing those is a pain. - (setq paragraph-start (concat "^$\\|" page-delimiter)) - ... - (make-local-variable 'comment-indent-function) - (setq comment-indent-function 'lisp-comment-indent)) - - Each of the different Lisp modes has a slightly different keymap. -For example, Lisp mode binds `C-c C-l' to `run-lisp', but the other -Lisp modes do not. However, all Lisp modes have some commands in -common. The following function adds these common commands to a given -keymap. - - (defun lisp-mode-commands (map) - (define-key map "\e\C-q" 'indent-sexp) - (define-key map "\177" 'backward-delete-char-untabify) - (define-key map "\t" 'lisp-indent-line)) - - Here is an example of using `lisp-mode-commands' to initialize a -keymap, as part of the code for Emacs Lisp mode. First we declare a -variable with `defvar' to hold the mode-specific keymap. When this -`defvar' executes, it sets the variable to `nil' if it was void. Then -we set up the keymap if the variable is `nil'. - - This code avoids changing the keymap or the variable if it is already -set up. This lets the user customize the keymap. - - (defvar emacs-lisp-mode-map () "") - (if emacs-lisp-mode-map - () - (setq emacs-lisp-mode-map (make-sparse-keymap)) - (define-key emacs-lisp-mode-map "\e\C-x" 'eval-defun) - (lisp-mode-commands emacs-lisp-mode-map)) - - Finally, here is the complete major mode function definition for -Emacs Lisp mode. - - (defun emacs-lisp-mode () - "Major mode for editing Lisp code to run in XEmacs. - Commands: - Delete converts tabs to spaces as it moves back. - Blank lines separate paragraphs. Semicolons start comments. - \\{emacs-lisp-mode-map} - Entry to this mode runs the hook `emacs-lisp-mode-hook'." - (interactive) - (kill-all-local-variables) - (use-local-map emacs-lisp-mode-map) ; This provides the local keymap. - (set-syntax-table emacs-lisp-mode-syntax-table) - (setq major-mode 'emacs-lisp-mode) ; This is how `describe-mode' - ; finds out what to describe. - (setq mode-name "Emacs-Lisp") ; This goes into the modeline. - (lisp-mode-variables nil) ; This defines various variables. - (run-hooks 'emacs-lisp-mode-hook)) ; This permits the user to use a - ; hook to customize the mode. - diff --git a/info/lispref.info-21 b/info/lispref.info-21 index c8cee5a..fb2f5da 100644 --- a/info/lispref.info-21 +++ b/info/lispref.info-21 @@ -50,6 +50,362 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Major Modes, Next: Minor Modes, Up: Modes + +Major Modes +=========== + + Major modes specialize XEmacs for editing particular kinds of text. +Each buffer has only one major mode at a time. + + The least specialized major mode is called "Fundamental mode". This +mode has no mode-specific definitions or variable settings, so each +XEmacs command behaves in its default manner, and each option is in its +default state. All other major modes redefine various keys and options. +For example, Lisp Interaction mode provides special key bindings for + (`eval-print-last-sexp'), (`lisp-indent-line'), and other +keys. + + When you need to write several editing commands to help you perform a +specialized editing task, creating a new major mode is usually a good +idea. In practice, writing a major mode is easy (in contrast to +writing a minor mode, which is often difficult). + + If the new mode is similar to an old one, it is often unwise to +modify the old one to serve two purposes, since it may become harder to +use and maintain. Instead, copy and rename an existing major mode +definition and alter the copy--or define a "derived mode" (*note +Derived Modes::). For example, Rmail Edit mode, which is in +`emacs/lisp/rmailedit.el', is a major mode that is very similar to Text +mode except that it provides three additional commands. Its definition +is distinct from that of Text mode, but was derived from it. + + Rmail Edit mode is an example of a case where one piece of text is +put temporarily into a different major mode so it can be edited in a +different way (with ordinary XEmacs commands rather than Rmail). In +such cases, the temporary major mode usually has a command to switch +back to the buffer's usual mode (Rmail mode, in this case). You might +be tempted to present the temporary redefinitions inside a recursive +edit and restore the usual ones when the user exits; but this is a bad +idea because it constrains the user's options when it is done in more +than one buffer: recursive edits must be exited most-recently-entered +first. Using alternative major modes avoids this limitation. *Note +Recursive Editing::. + + The standard XEmacs Lisp library directory contains the code for +several major modes, in files including `text-mode.el', `texinfo.el', +`lisp-mode.el', `c-mode.el', and `rmail.el'. You can look at these +libraries to see how modes are written. Text mode is perhaps the +simplest major mode aside from Fundamental mode. Rmail mode is a +complicated and specialized mode. + +* Menu: + +* Major Mode Conventions:: Coding conventions for keymaps, etc. +* Example Major Modes:: Text mode and Lisp modes. +* Auto Major Mode:: How XEmacs chooses the major mode automatically. +* Mode Help:: Finding out how to use a mode. +* Derived Modes:: Defining a new major mode based on another major + mode. + + +File: lispref.info, Node: Major Mode Conventions, Next: Example Major Modes, Up: Major Modes + +Major Mode Conventions +---------------------- + + The code for existing major modes follows various coding conventions, +including conventions for local keymap and syntax table initialization, +global names, and hooks. Please follow these conventions when you +define a new major mode: + + * Define a command whose name ends in `-mode', with no arguments, + that switches to the new mode in the current buffer. This command + should set up the keymap, syntax table, and local variables in an + existing buffer without changing the buffer's text. + + * Write a documentation string for this command that describes the + special commands available in this mode. `C-h m' + (`describe-mode') in your mode will display this string. + + The documentation string may include the special documentation + substrings, `\[COMMAND]', `\{KEYMAP}', and `\', that + enable the documentation to adapt automatically to the user's own + key bindings. *Note Keys in Documentation::. + + * The major mode command should start by calling + `kill-all-local-variables'. This is what gets rid of the local + variables of the major mode previously in effect. + + * The major mode command should set the variable `major-mode' to the + major mode command symbol. This is how `describe-mode' discovers + which documentation to print. + + * The major mode command should set the variable `mode-name' to the + "pretty" name of the mode, as a string. This appears in the mode + line. + + * Since all global names are in the same name space, all the global + variables, constants, and functions that are part of the mode + should have names that start with the major mode name (or with an + abbreviation of it if the name is long). *Note Style Tips::. + + * The major mode should usually have its own keymap, which is used + as the local keymap in all buffers in that mode. The major mode + function should call `use-local-map' to install this local map. + *Note Active Keymaps::, for more information. + + This keymap should be kept in a global variable named + `MODENAME-mode-map'. Normally the library that defines the mode + sets this variable. + + * The mode may have its own syntax table or may share one with other + related modes. If it has its own syntax table, it should store + this in a variable named `MODENAME-mode-syntax-table'. *Note + Syntax Tables::. + + * The mode may have its own abbrev table or may share one with other + related modes. If it has its own abbrev table, it should store + this in a variable named `MODENAME-mode-abbrev-table'. *Note + Abbrev Tables::. + + * Use `defvar' to set mode-related variables, so that they are not + reinitialized if they already have a value. (Such reinitialization + could discard customizations made by the user.) + + * To make a buffer-local binding for an Emacs customization + variable, use `make-local-variable' in the major mode command, not + `make-variable-buffer-local'. The latter function would make the + variable local to every buffer in which it is subsequently set, + which would affect buffers that do not use this mode. It is + undesirable for a mode to have such global effects. *Note + Buffer-Local Variables::. + + It's ok to use `make-variable-buffer-local', if you wish, for a + variable used only within a single Lisp package. + + * Each major mode should have a "mode hook" named + `MODENAME-mode-hook'. The major mode command should run that + hook, with `run-hooks', as the very last thing it does. *Note + Hooks::. + + * The major mode command may also run the hooks of some more basic + modes. For example, `indented-text-mode' runs `text-mode-hook' as + well as `indented-text-mode-hook'. It may run these other hooks + immediately before the mode's own hook (that is, after everything + else), or it may run them earlier. + + * If something special should be done if the user switches a buffer + from this mode to any other major mode, the mode can set a local + value for `change-major-mode-hook'. + + * If this mode is appropriate only for specially-prepared text, then + the major mode command symbol should have a property named + `mode-class' with value `special', put on as follows: + + (put 'funny-mode 'mode-class 'special) + + This tells XEmacs that new buffers created while the current + buffer has Funny mode should not inherit Funny mode. Modes such + as Dired, Rmail, and Buffer List use this feature. + + * If you want to make the new mode the default for files with certain + recognizable names, add an element to `auto-mode-alist' to select + the mode for those file names. If you define the mode command to + autoload, you should add this element in the same file that calls + `autoload'. Otherwise, it is sufficient to add the element in the + file that contains the mode definition. *Note Auto Major Mode::. + + * In the documentation, you should provide a sample `autoload' form + and an example of how to add to `auto-mode-alist', that users can + include in their `.emacs' files. + + * The top-level forms in the file defining the mode should be + written so that they may be evaluated more than once without + adverse consequences. Even if you never load the file more than + once, someone else will. + + - Variable: change-major-mode-hook + This normal hook is run by `kill-all-local-variables' before it + does anything else. This gives major modes a way to arrange for + something special to be done if the user switches to a different + major mode. For best results, make this variable buffer-local, so + that it will disappear after doing its job and will not interfere + with the subsequent major mode. *Note Hooks::. + + +File: lispref.info, Node: Example Major Modes, Next: Auto Major Mode, Prev: Major Mode Conventions, Up: Major Modes + +Major Mode Examples +------------------- + + Text mode is perhaps the simplest mode besides Fundamental mode. +Here are excerpts from `text-mode.el' that illustrate many of the +conventions listed above: + + ;; Create mode-specific tables. + (defvar text-mode-syntax-table nil + "Syntax table used while in text mode.") + + (if text-mode-syntax-table + () ; Do not change the table if it is already set up. + (setq text-mode-syntax-table (make-syntax-table)) + (modify-syntax-entry ?\" ". " text-mode-syntax-table) + (modify-syntax-entry ?\\ ". " text-mode-syntax-table) + (modify-syntax-entry ?' "w " text-mode-syntax-table)) + + (defvar text-mode-abbrev-table nil + "Abbrev table used while in text mode.") + (define-abbrev-table 'text-mode-abbrev-table ()) + + (defvar text-mode-map nil) ; Create a mode-specific keymap. + + (if text-mode-map + () ; Do not change the keymap if it is already set up. + (setq text-mode-map (make-sparse-keymap)) + (define-key text-mode-map "\t" 'tab-to-tab-stop) + (define-key text-mode-map "\es" 'center-line) + (define-key text-mode-map "\eS" 'center-paragraph)) + + Here is the complete major mode function definition for Text mode: + + (defun text-mode () + "Major mode for editing text intended for humans to read. + Special commands: \\{text-mode-map} + Turning on text-mode runs the hook `text-mode-hook'." + (interactive) + (kill-all-local-variables) + (use-local-map text-mode-map) ; This provides the local keymap. + (setq mode-name "Text") ; This name goes into the modeline. + (setq major-mode 'text-mode) ; This is how `describe-mode' + ; finds the doc string to print. + (setq local-abbrev-table text-mode-abbrev-table) + (set-syntax-table text-mode-syntax-table) + (run-hooks 'text-mode-hook)) ; Finally, this permits the user to + ; customize the mode with a hook. + + The three Lisp modes (Lisp mode, Emacs Lisp mode, and Lisp +Interaction mode) have more features than Text mode and the code is +correspondingly more complicated. Here are excerpts from +`lisp-mode.el' that illustrate how these modes are written. + + ;; Create mode-specific table variables. + (defvar lisp-mode-syntax-table nil "") + (defvar emacs-lisp-mode-syntax-table nil "") + (defvar lisp-mode-abbrev-table nil "") + + (if (not emacs-lisp-mode-syntax-table) ; Do not change the table + ; if it is already set. + (let ((i 0)) + (setq emacs-lisp-mode-syntax-table (make-syntax-table)) + + ;; Set syntax of chars up to 0 to class of chars that are + ;; part of symbol names but not words. + ;; (The number 0 is `48' in the ASCII character set.) + (while (< i ?0) + (modify-syntax-entry i "_ " emacs-lisp-mode-syntax-table) + (setq i (1+ i))) + ... + ;; Set the syntax for other characters. + (modify-syntax-entry ? " " emacs-lisp-mode-syntax-table) + (modify-syntax-entry ?\t " " emacs-lisp-mode-syntax-table) + ... + (modify-syntax-entry ?\( "() " emacs-lisp-mode-syntax-table) + (modify-syntax-entry ?\) ")( " emacs-lisp-mode-syntax-table) + ...)) + ;; Create an abbrev table for lisp-mode. + (define-abbrev-table 'lisp-mode-abbrev-table ()) + + Much code is shared among the three Lisp modes. The following +function sets various variables; it is called by each of the major Lisp +mode functions: + + (defun lisp-mode-variables (lisp-syntax) + ;; The `lisp-syntax' argument is `nil' in Emacs Lisp mode, + ;; and `t' in the other two Lisp modes. + (cond (lisp-syntax + (if (not lisp-mode-syntax-table) + ;; The Emacs Lisp mode syntax table always exists, but + ;; the Lisp Mode syntax table is created the first time a + ;; mode that needs it is called. This is to save space. + (progn (setq lisp-mode-syntax-table + (copy-syntax-table emacs-lisp-mode-syntax-table)) + ;; Change some entries for Lisp mode. + (modify-syntax-entry ?\| "\" " + lisp-mode-syntax-table) + (modify-syntax-entry ?\[ "_ " + lisp-mode-syntax-table) + (modify-syntax-entry ?\] "_ " + lisp-mode-syntax-table))) + (set-syntax-table lisp-mode-syntax-table))) + (setq local-abbrev-table lisp-mode-abbrev-table) + ...) + + Functions such as `forward-paragraph' use the value of the +`paragraph-start' variable. Since Lisp code is different from ordinary +text, the `paragraph-start' variable needs to be set specially to +handle Lisp. Also, comments are indented in a special fashion in Lisp +and the Lisp modes need their own mode-specific +`comment-indent-function'. The code to set these variables is the rest +of `lisp-mode-variables'. + + (make-local-variable 'paragraph-start) + ;; Having `^' is not clean, but `page-delimiter' + ;; has them too, and removing those is a pain. + (setq paragraph-start (concat "^$\\|" page-delimiter)) + ... + (make-local-variable 'comment-indent-function) + (setq comment-indent-function 'lisp-comment-indent)) + + Each of the different Lisp modes has a slightly different keymap. +For example, Lisp mode binds `C-c C-l' to `run-lisp', but the other +Lisp modes do not. However, all Lisp modes have some commands in +common. The following function adds these common commands to a given +keymap. + + (defun lisp-mode-commands (map) + (define-key map "\e\C-q" 'indent-sexp) + (define-key map "\177" 'backward-delete-char-untabify) + (define-key map "\t" 'lisp-indent-line)) + + Here is an example of using `lisp-mode-commands' to initialize a +keymap, as part of the code for Emacs Lisp mode. First we declare a +variable with `defvar' to hold the mode-specific keymap. When this +`defvar' executes, it sets the variable to `nil' if it was void. Then +we set up the keymap if the variable is `nil'. + + This code avoids changing the keymap or the variable if it is already +set up. This lets the user customize the keymap. + + (defvar emacs-lisp-mode-map () "") + (if emacs-lisp-mode-map + () + (setq emacs-lisp-mode-map (make-sparse-keymap)) + (define-key emacs-lisp-mode-map "\e\C-x" 'eval-defun) + (lisp-mode-commands emacs-lisp-mode-map)) + + Finally, here is the complete major mode function definition for +Emacs Lisp mode. + + (defun emacs-lisp-mode () + "Major mode for editing Lisp code to run in XEmacs. + Commands: + Delete converts tabs to spaces as it moves back. + Blank lines separate paragraphs. Semicolons start comments. + \\{emacs-lisp-mode-map} + Entry to this mode runs the hook `emacs-lisp-mode-hook'." + (interactive) + (kill-all-local-variables) + (use-local-map emacs-lisp-mode-map) ; This provides the local keymap. + (set-syntax-table emacs-lisp-mode-syntax-table) + (setq major-mode 'emacs-lisp-mode) ; This is how `describe-mode' + ; finds out what to describe. + (setq mode-name "Emacs-Lisp") ; This goes into the modeline. + (lisp-mode-variables nil) ; This defines various variables. + (run-hooks 'emacs-lisp-mode-hook)) ; This permits the user to use a + ; hook to customize the mode. + + File: lispref.info, Node: Auto Major Mode, Next: Mode Help, Prev: Example Major Modes, Up: Major Modes How XEmacs Chooses a Major Mode @@ -761,392 +1117,3 @@ obsolete, since you can get the same results with the variables The value of `global-mode-string'. Currently, only `display-time' modifies the value of `global-mode-string'. - -File: lispref.info, Node: Hooks, Prev: Modeline Format, Up: Modes - -Hooks -===== - - A "hook" is a variable where you can store a function or functions -to be called on a particular occasion by an existing program. XEmacs -provides hooks for the sake of customization. Most often, hooks are set -up in the `.emacs' file, but Lisp programs can set them also. *Note -Standard Hooks::, for a list of standard hook variables. - - Most of the hooks in XEmacs are "normal hooks". These variables -contain lists of functions to be called with no arguments. The reason -most hooks are normal hooks is so that you can use them in a uniform -way. You can usually tell when a hook is a normal hook, because its -name ends in `-hook'. - - The recommended way to add a hook function to a normal hook is by -calling `add-hook' (see below). The hook functions may be any of the -valid kinds of functions that `funcall' accepts (*note What Is a -Function::). Most normal hook variables are initially void; `add-hook' -knows how to deal with this. - - As for abnormal hooks, those whose names end in `-function' have a -value that is a single function. Those whose names end in `-hooks' -have a value that is a list of functions. Any hook that is abnormal is -abnormal because a normal hook won't do the job; either the functions -are called with arguments, or their values are meaningful. The name -shows you that the hook is abnormal and that you should look at its -documentation string to see how to use it properly. - - Major mode functions are supposed to run a hook called the "mode -hook" as the last step of initialization. This makes it easy for a user -to customize the behavior of the mode, by overriding the local variable -assignments already made by the mode. But hooks are used in other -contexts too. For example, the hook `suspend-hook' runs just before -XEmacs suspends itself (*note Suspending XEmacs::). - - Here's an expression that uses a mode hook to turn on Auto Fill mode -when in Lisp Interaction mode: - - (add-hook 'lisp-interaction-mode-hook 'turn-on-auto-fill) - - The next example shows how to use a hook to customize the way XEmacs -formats C code. (People often have strong personal preferences for one -format or another.) Here the hook function is an anonymous lambda -expression. - - (add-hook 'c-mode-hook - (function (lambda () - (setq c-indent-level 4 - c-argdecl-indent 0 - c-label-offset -4 - c-continued-statement-indent 0 - c-brace-offset 0 - comment-column 40)))) - - (setq c++-mode-hook c-mode-hook) - - The final example shows how the appearance of the modeline can be -modified for a particular class of buffers only. - - (add-hook 'text-mode-hook - (function (lambda () - (setq modeline-format - '(modeline-modified - "Emacs: %14b" - " " - default-directory - " " - global-mode-string - "%[(" - mode-name - minor-mode-alist - "%n" - modeline-process - ") %]---" - (-3 . "%p") - "-%-"))))) - - At the appropriate time, XEmacs uses the `run-hooks' function to run -particular hooks. This function calls the hook functions you have -added with `add-hooks'. - - - Function: run-hooks &rest hookvar - This function takes one or more hook variable names as arguments, - and runs each hook in turn. Each HOOKVAR argument should be a - symbol that is a hook variable. These arguments are processed in - the order specified. - - If a hook variable has a non-`nil' value, that value may be a - function or a list of functions. If the value is a function - (either a lambda expression or a symbol with a function - definition), it is called. If it is a list, the elements are - called, in order. The hook functions are called with no arguments. - - For example, here's how `emacs-lisp-mode' runs its mode hook: - - (run-hooks 'emacs-lisp-mode-hook) - - - Function: add-hook hook function &optional append local - This function is the handy way to add function FUNCTION to hook - variable HOOK. The argument FUNCTION may be any valid Lisp - function with the proper number of arguments. For example, - - (add-hook 'text-mode-hook 'my-text-hook-function) - - adds `my-text-hook-function' to the hook called `text-mode-hook'. - - You can use `add-hook' for abnormal hooks as well as for normal - hooks. - - It is best to design your hook functions so that the order in - which they are executed does not matter. Any dependence on the - order is "asking for trouble." However, the order is predictable: - normally, FUNCTION goes at the front of the hook list, so it will - be executed first (barring another `add-hook' call). - - If the optional argument APPEND is non-`nil', the new hook - function goes at the end of the hook list and will be executed - last. - - If LOCAL is non-`nil', that says to make the new hook function - local to the current buffer. Before you can do this, you must - make the hook itself buffer-local by calling `make-local-hook' - (*not* `make-local-variable'). If the hook itself is not - buffer-local, then the value of LOCAL makes no difference--the - hook function is always global. - - - Function: remove-hook hook function &optional local - This function removes FUNCTION from the hook variable HOOK. - - If LOCAL is non-`nil', that says to remove FUNCTION from the local - hook list instead of from the global hook list. If the hook - itself is not buffer-local, then the value of LOCAL makes no - difference. - - - Function: make-local-hook hook - This function makes the hook variable `hook' local to the current - buffer. When a hook variable is local, it can have local and - global hook functions, and `run-hooks' runs all of them. - - This function works by making `t' an element of the buffer-local - value. That serves as a flag to use the hook functions in the - default value of the hook variable as well as those in the local - value. Since `run-hooks' understands this flag, `make-local-hook' - works with all normal hooks. It works for only some non-normal - hooks--those whose callers have been updated to understand this - meaning of `t'. - - Do not use `make-local-variable' directly for hook variables; it is - not sufficient. - - -File: lispref.info, Node: Documentation, Next: Files, Prev: Modes, Up: Top - -Documentation -************* - - XEmacs Lisp has convenient on-line help facilities, most of which -derive their information from the documentation strings associated with -functions and variables. This chapter describes how to write good -documentation strings for your Lisp programs, as well as how to write -programs to access documentation. - - Note that the documentation strings for XEmacs are not the same thing -as the XEmacs manual. Manuals have their own source files, written in -the Texinfo language; documentation strings are specified in the -definitions of the functions and variables they apply to. A collection -of documentation strings is not sufficient as a manual because a good -manual is not organized in that fashion; it is organized in terms of -topics of discussion. - -* Menu: - -* Documentation Basics:: Good style for doc strings. - Where to put them. How XEmacs stores them. -* Accessing Documentation:: How Lisp programs can access doc strings. -* Keys in Documentation:: Substituting current key bindings. -* Describing Characters:: Making printable descriptions of - non-printing characters and key sequences. -* Help Functions:: Subroutines used by XEmacs help facilities. -* Obsoleteness:: Upgrading Lisp functionality over time. - - -File: lispref.info, Node: Documentation Basics, Next: Accessing Documentation, Up: Documentation - -Documentation Basics -==================== - - A documentation string is written using the Lisp syntax for strings, -with double-quote characters surrounding the text of the string. This -is because it really is a Lisp string object. The string serves as -documentation when it is written in the proper place in the definition -of a function or variable. In a function definition, the documentation -string follows the argument list. In a variable definition, the -documentation string follows the initial value of the variable. - - When you write a documentation string, make the first line a complete -sentence (or two complete sentences) since some commands, such as -`apropos', show only the first line of a multi-line documentation -string. Also, you should not indent the second line of a documentation -string, if you have one, because that looks odd when you use `C-h f' -(`describe-function') or `C-h v' (`describe-variable'). *Note -Documentation Tips::. - - Documentation strings may contain several special substrings, which -stand for key bindings to be looked up in the current keymaps when the -documentation is displayed. This allows documentation strings to refer -to the keys for related commands and be accurate even when a user -rearranges the key bindings. (*Note Accessing Documentation::.) - - Within the Lisp world, a documentation string is accessible through -the function or variable that it describes: - - * The documentation for a function is stored in the function - definition itself (*note Lambda Expressions::). The function - `documentation' knows how to extract it. - - * The documentation for a variable is stored in the variable's - property list under the property name `variable-documentation'. - The function `documentation-property' knows how to extract it. - - To save space, the documentation for preloaded functions and -variables (including primitive functions and autoloaded functions) is -stored in the "internal doc file" `DOC'. The documentation for -functions and variables loaded during the XEmacs session from -byte-compiled files is stored in those very same byte-compiled files -(*note Docs and Compilation::). - - XEmacs does not keep documentation strings in memory unless -necessary. Instead, XEmacs maintains, for preloaded symbols, an -integer offset into the internal doc file, and for symbols loaded from -byte-compiled files, a list containing the filename of the -byte-compiled file and an integer offset, in place of the documentation -string. The functions `documentation' and `documentation-property' use -that information to read the documentation from the appropriate file; -this is transparent to the user. - - For information on the uses of documentation strings, see *Note -Help: (emacs)Help. - - The `emacs/lib-src' directory contains two utilities that you can -use to print nice-looking hardcopy for the file -`emacs/etc/DOC-VERSION'. These are `sorted-doc.c' and `digest-doc.c'. - - -File: lispref.info, Node: Accessing Documentation, Next: Keys in Documentation, Prev: Documentation Basics, Up: Documentation - -Access to Documentation Strings -=============================== - - - Function: documentation-property symbol property &optional verbatim - This function returns the documentation string that is recorded in - SYMBOL's property list under property PROPERTY. It retrieves the - text from a file if necessary, and runs `substitute-command-keys' - to substitute actual key bindings. (This substitution is not done - if VERBATIM is non-`nil'; the VERBATIM argument exists only as of - Emacs 19.) - - (documentation-property 'command-line-processed - 'variable-documentation) - => "t once command line has been processed" - (symbol-plist 'command-line-processed) - => (variable-documentation 188902) - - - Function: documentation function &optional verbatim - This function returns the documentation string of FUNCTION. It - reads the text from a file if necessary. Then (unless VERBATIM is - non-`nil') it calls `substitute-command-keys', to return a value - containing the actual (current) key bindings. - - The function `documentation' signals a `void-function' error if - FUNCTION has no function definition. However, it is ok if the - function definition has no documentation string. In that case, - `documentation' returns `nil'. - - Here is an example of using the two functions, `documentation' and -`documentation-property', to display the documentation strings for -several symbols in a `*Help*' buffer. - - (defun describe-symbols (pattern) - "Describe the XEmacs Lisp symbols matching PATTERN. - All symbols that have PATTERN in their name are described - in the `*Help*' buffer." - (interactive "sDescribe symbols matching: ") - (let ((describe-func - (function - (lambda (s) - ;; Print description of symbol. - (if (fboundp s) ; It is a function. - (princ - (format "%s\t%s\n%s\n\n" s - (if (commandp s) - (let ((keys (where-is-internal s))) - (if keys - (concat - "Keys: " - (mapconcat 'key-description - keys " ")) - "Keys: none")) - "Function") - (or (documentation s) - "not documented")))) - - (if (boundp s) ; It is a variable. - (princ - (format "%s\t%s\n%s\n\n" s - (if (user-variable-p s) - "Option " "Variable") - (or (documentation-property - s 'variable-documentation) - "not documented"))))))) - sym-list) - - ;; Build a list of symbols that match pattern. - (mapatoms (function - (lambda (sym) - (if (string-match pattern (symbol-name sym)) - (setq sym-list (cons sym sym-list)))))) - - ;; Display the data. - (with-output-to-temp-buffer "*Help*" - (mapcar describe-func (sort sym-list 'string<)) - (print-help-return-message)))) - - The `describe-symbols' function works like `apropos', but provides -more information. - - (describe-symbols "goal") - - ---------- Buffer: *Help* ---------- - goal-column Option - *Semipermanent goal column for vertical motion, as set by C-x C-n, or nil. - - set-goal-column Command: C-x C-n - Set the current horizontal position as a goal for C-n and C-p. - Those commands will move to this position in the line moved to - rather than trying to keep the same horizontal position. - With a non-nil argument, clears out the goal column - so that C-n and C-p resume vertical motion. - The goal column is stored in the variable `goal-column'. - - temporary-goal-column Variable - Current goal column for vertical motion. - It is the column where point was - at the start of current run of vertical motion commands. - When the `track-eol' feature is doing its job, the value is 9999. - ---------- Buffer: *Help* ---------- - - - Function: Snarf-documentation filename - This function is used only during XEmacs initialization, just - before the runnable XEmacs is dumped. It finds the file offsets - of the documentation strings stored in the file FILENAME, and - records them in the in-core function definitions and variable - property lists in place of the actual strings. *Note Building - XEmacs::. - - XEmacs finds the file FILENAME in the `lib-src' directory. When - the dumped XEmacs is later executed, the same file is found in the - directory `doc-directory'. The usual value for FILENAME is `DOC', - but this can be changed by modifying the variable - `internal-doc-file-name'. - - - Variable: internal-doc-file-name - This variable holds the name of the file containing documentation - strings of built-in symbols, usually `DOC'. The full pathname of - the internal doc file is `(concat doc-directory - internal-doc-file-name)'. - - - Variable: doc-directory - This variable holds the name of the directory which contains the - "internal doc file" that contains documentation strings for - built-in and preloaded functions and variables. - - In most cases, this is the same as `exec-directory'. They may be - different when you run XEmacs from the directory where you built - it, without actually installing it. See `exec-directory' in *Note - Help Functions::. - - In older Emacs versions, `exec-directory' was used for this. - - - Variable: data-directory - This variable holds the name of the directory in which XEmacs finds - certain system independent documentation and text files that come - with XEmacs. In older Emacs versions, `exec-directory' was used - for this. - diff --git a/info/lispref.info-22 b/info/lispref.info-22 index b11b775..b42187d 100644 --- a/info/lispref.info-22 +++ b/info/lispref.info-22 @@ -50,6 +50,395 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Hooks, Prev: Modeline Format, Up: Modes + +Hooks +===== + + A "hook" is a variable where you can store a function or functions +to be called on a particular occasion by an existing program. XEmacs +provides hooks for the sake of customization. Most often, hooks are set +up in the `.emacs' file, but Lisp programs can set them also. *Note +Standard Hooks::, for a list of standard hook variables. + + Most of the hooks in XEmacs are "normal hooks". These variables +contain lists of functions to be called with no arguments. The reason +most hooks are normal hooks is so that you can use them in a uniform +way. You can usually tell when a hook is a normal hook, because its +name ends in `-hook'. + + The recommended way to add a hook function to a normal hook is by +calling `add-hook' (see below). The hook functions may be any of the +valid kinds of functions that `funcall' accepts (*note What Is a +Function::). Most normal hook variables are initially void; `add-hook' +knows how to deal with this. + + As for abnormal hooks, those whose names end in `-function' have a +value that is a single function. Those whose names end in `-hooks' +have a value that is a list of functions. Any hook that is abnormal is +abnormal because a normal hook won't do the job; either the functions +are called with arguments, or their values are meaningful. The name +shows you that the hook is abnormal and that you should look at its +documentation string to see how to use it properly. + + Major mode functions are supposed to run a hook called the "mode +hook" as the last step of initialization. This makes it easy for a user +to customize the behavior of the mode, by overriding the local variable +assignments already made by the mode. But hooks are used in other +contexts too. For example, the hook `suspend-hook' runs just before +XEmacs suspends itself (*note Suspending XEmacs::). + + Here's an expression that uses a mode hook to turn on Auto Fill mode +when in Lisp Interaction mode: + + (add-hook 'lisp-interaction-mode-hook 'turn-on-auto-fill) + + The next example shows how to use a hook to customize the way XEmacs +formats C code. (People often have strong personal preferences for one +format or another.) Here the hook function is an anonymous lambda +expression. + + (add-hook 'c-mode-hook + (function (lambda () + (setq c-indent-level 4 + c-argdecl-indent 0 + c-label-offset -4 + c-continued-statement-indent 0 + c-brace-offset 0 + comment-column 40)))) + + (setq c++-mode-hook c-mode-hook) + + The final example shows how the appearance of the modeline can be +modified for a particular class of buffers only. + + (add-hook 'text-mode-hook + (function (lambda () + (setq modeline-format + '(modeline-modified + "Emacs: %14b" + " " + default-directory + " " + global-mode-string + "%[(" + mode-name + minor-mode-alist + "%n" + modeline-process + ") %]---" + (-3 . "%p") + "-%-"))))) + + At the appropriate time, XEmacs uses the `run-hooks' function to run +particular hooks. This function calls the hook functions you have +added with `add-hooks'. + + - Function: run-hooks &rest hookvar + This function takes one or more hook variable names as arguments, + and runs each hook in turn. Each HOOKVAR argument should be a + symbol that is a hook variable. These arguments are processed in + the order specified. + + If a hook variable has a non-`nil' value, that value may be a + function or a list of functions. If the value is a function + (either a lambda expression or a symbol with a function + definition), it is called. If it is a list, the elements are + called, in order. The hook functions are called with no arguments. + + For example, here's how `emacs-lisp-mode' runs its mode hook: + + (run-hooks 'emacs-lisp-mode-hook) + + - Function: add-hook hook function &optional append local + This function is the handy way to add function FUNCTION to hook + variable HOOK. The argument FUNCTION may be any valid Lisp + function with the proper number of arguments. For example, + + (add-hook 'text-mode-hook 'my-text-hook-function) + + adds `my-text-hook-function' to the hook called `text-mode-hook'. + + You can use `add-hook' for abnormal hooks as well as for normal + hooks. + + It is best to design your hook functions so that the order in + which they are executed does not matter. Any dependence on the + order is "asking for trouble." However, the order is predictable: + normally, FUNCTION goes at the front of the hook list, so it will + be executed first (barring another `add-hook' call). + + If the optional argument APPEND is non-`nil', the new hook + function goes at the end of the hook list and will be executed + last. + + If LOCAL is non-`nil', that says to make the new hook function + local to the current buffer. Before you can do this, you must + make the hook itself buffer-local by calling `make-local-hook' + (*not* `make-local-variable'). If the hook itself is not + buffer-local, then the value of LOCAL makes no difference--the + hook function is always global. + + - Function: remove-hook hook function &optional local + This function removes FUNCTION from the hook variable HOOK. + + If LOCAL is non-`nil', that says to remove FUNCTION from the local + hook list instead of from the global hook list. If the hook + itself is not buffer-local, then the value of LOCAL makes no + difference. + + - Function: make-local-hook hook + This function makes the hook variable `hook' local to the current + buffer. When a hook variable is local, it can have local and + global hook functions, and `run-hooks' runs all of them. + + This function works by making `t' an element of the buffer-local + value. That serves as a flag to use the hook functions in the + default value of the hook variable as well as those in the local + value. Since `run-hooks' understands this flag, `make-local-hook' + works with all normal hooks. It works for only some non-normal + hooks--those whose callers have been updated to understand this + meaning of `t'. + + Do not use `make-local-variable' directly for hook variables; it is + not sufficient. + + +File: lispref.info, Node: Documentation, Next: Files, Prev: Modes, Up: Top + +Documentation +************* + + XEmacs Lisp has convenient on-line help facilities, most of which +derive their information from the documentation strings associated with +functions and variables. This chapter describes how to write good +documentation strings for your Lisp programs, as well as how to write +programs to access documentation. + + Note that the documentation strings for XEmacs are not the same thing +as the XEmacs manual. Manuals have their own source files, written in +the Texinfo language; documentation strings are specified in the +definitions of the functions and variables they apply to. A collection +of documentation strings is not sufficient as a manual because a good +manual is not organized in that fashion; it is organized in terms of +topics of discussion. + +* Menu: + +* Documentation Basics:: Good style for doc strings. + Where to put them. How XEmacs stores them. +* Accessing Documentation:: How Lisp programs can access doc strings. +* Keys in Documentation:: Substituting current key bindings. +* Describing Characters:: Making printable descriptions of + non-printing characters and key sequences. +* Help Functions:: Subroutines used by XEmacs help facilities. +* Obsoleteness:: Upgrading Lisp functionality over time. + + +File: lispref.info, Node: Documentation Basics, Next: Accessing Documentation, Up: Documentation + +Documentation Basics +==================== + + A documentation string is written using the Lisp syntax for strings, +with double-quote characters surrounding the text of the string. This +is because it really is a Lisp string object. The string serves as +documentation when it is written in the proper place in the definition +of a function or variable. In a function definition, the documentation +string follows the argument list. In a variable definition, the +documentation string follows the initial value of the variable. + + When you write a documentation string, make the first line a complete +sentence (or two complete sentences) since some commands, such as +`apropos', show only the first line of a multi-line documentation +string. Also, you should not indent the second line of a documentation +string, if you have one, because that looks odd when you use `C-h f' +(`describe-function') or `C-h v' (`describe-variable'). *Note +Documentation Tips::. + + Documentation strings may contain several special substrings, which +stand for key bindings to be looked up in the current keymaps when the +documentation is displayed. This allows documentation strings to refer +to the keys for related commands and be accurate even when a user +rearranges the key bindings. (*Note Accessing Documentation::.) + + Within the Lisp world, a documentation string is accessible through +the function or variable that it describes: + + * The documentation for a function is stored in the function + definition itself (*note Lambda Expressions::). The function + `documentation' knows how to extract it. + + * The documentation for a variable is stored in the variable's + property list under the property name `variable-documentation'. + The function `documentation-property' knows how to extract it. + + To save space, the documentation for preloaded functions and +variables (including primitive functions and autoloaded functions) is +stored in the "internal doc file" `DOC'. The documentation for +functions and variables loaded during the XEmacs session from +byte-compiled files is stored in those very same byte-compiled files +(*note Docs and Compilation::). + + XEmacs does not keep documentation strings in memory unless +necessary. Instead, XEmacs maintains, for preloaded symbols, an +integer offset into the internal doc file, and for symbols loaded from +byte-compiled files, a list containing the filename of the +byte-compiled file and an integer offset, in place of the documentation +string. The functions `documentation' and `documentation-property' use +that information to read the documentation from the appropriate file; +this is transparent to the user. + + For information on the uses of documentation strings, see *Note +Help: (emacs)Help. + + The `emacs/lib-src' directory contains two utilities that you can +use to print nice-looking hardcopy for the file +`emacs/etc/DOC-VERSION'. These are `sorted-doc.c' and `digest-doc.c'. + + +File: lispref.info, Node: Accessing Documentation, Next: Keys in Documentation, Prev: Documentation Basics, Up: Documentation + +Access to Documentation Strings +=============================== + + - Function: documentation-property symbol property &optional verbatim + This function returns the documentation string that is recorded in + SYMBOL's property list under property PROPERTY. It retrieves the + text from a file if necessary, and runs `substitute-command-keys' + to substitute actual key bindings. (This substitution is not done + if VERBATIM is non-`nil'; the VERBATIM argument exists only as of + Emacs 19.) + + (documentation-property 'command-line-processed + 'variable-documentation) + => "t once command line has been processed" + (symbol-plist 'command-line-processed) + => (variable-documentation 188902) + + - Function: documentation function &optional verbatim + This function returns the documentation string of FUNCTION. It + reads the text from a file if necessary. Then (unless VERBATIM is + non-`nil') it calls `substitute-command-keys', to return a value + containing the actual (current) key bindings. + + The function `documentation' signals a `void-function' error if + FUNCTION has no function definition. However, it is ok if the + function definition has no documentation string. In that case, + `documentation' returns `nil'. + + Here is an example of using the two functions, `documentation' and +`documentation-property', to display the documentation strings for +several symbols in a `*Help*' buffer. + + (defun describe-symbols (pattern) + "Describe the XEmacs Lisp symbols matching PATTERN. + All symbols that have PATTERN in their name are described + in the `*Help*' buffer." + (interactive "sDescribe symbols matching: ") + (let ((describe-func + (function + (lambda (s) + ;; Print description of symbol. + (if (fboundp s) ; It is a function. + (princ + (format "%s\t%s\n%s\n\n" s + (if (commandp s) + (let ((keys (where-is-internal s))) + (if keys + (concat + "Keys: " + (mapconcat 'key-description + keys " ")) + "Keys: none")) + "Function") + (or (documentation s) + "not documented")))) + + (if (boundp s) ; It is a variable. + (princ + (format "%s\t%s\n%s\n\n" s + (if (user-variable-p s) + "Option " "Variable") + (or (documentation-property + s 'variable-documentation) + "not documented"))))))) + sym-list) + + ;; Build a list of symbols that match pattern. + (mapatoms (function + (lambda (sym) + (if (string-match pattern (symbol-name sym)) + (setq sym-list (cons sym sym-list)))))) + + ;; Display the data. + (with-output-to-temp-buffer "*Help*" + (mapcar describe-func (sort sym-list 'string<)) + (print-help-return-message)))) + + The `describe-symbols' function works like `apropos', but provides +more information. + + (describe-symbols "goal") + + ---------- Buffer: *Help* ---------- + goal-column Option + *Semipermanent goal column for vertical motion, as set by C-x C-n, or nil. + + set-goal-column Command: C-x C-n + Set the current horizontal position as a goal for C-n and C-p. + Those commands will move to this position in the line moved to + rather than trying to keep the same horizontal position. + With a non-nil argument, clears out the goal column + so that C-n and C-p resume vertical motion. + The goal column is stored in the variable `goal-column'. + + temporary-goal-column Variable + Current goal column for vertical motion. + It is the column where point was + at the start of current run of vertical motion commands. + When the `track-eol' feature is doing its job, the value is 9999. + ---------- Buffer: *Help* ---------- + + - Function: Snarf-documentation filename + This function is used only during XEmacs initialization, just + before the runnable XEmacs is dumped. It finds the file offsets + of the documentation strings stored in the file FILENAME, and + records them in the in-core function definitions and variable + property lists in place of the actual strings. *Note Building + XEmacs::. + + XEmacs finds the file FILENAME in the `lib-src' directory. When + the dumped XEmacs is later executed, the same file is found in the + directory `doc-directory'. The usual value for FILENAME is `DOC', + but this can be changed by modifying the variable + `internal-doc-file-name'. + + - Variable: internal-doc-file-name + This variable holds the name of the file containing documentation + strings of built-in symbols, usually `DOC'. The full pathname of + the internal doc file is `(concat doc-directory + internal-doc-file-name)'. + + - Variable: doc-directory + This variable holds the name of the directory which contains the + "internal doc file" that contains documentation strings for + built-in and preloaded functions and variables. + + In most cases, this is the same as `exec-directory'. They may be + different when you run XEmacs from the directory where you built + it, without actually installing it. See `exec-directory' in *Note + Help Functions::. + + In older Emacs versions, `exec-directory' was used for this. + + - Variable: data-directory + This variable holds the name of the directory in which XEmacs finds + certain system independent documentation and text files that come + with XEmacs. In older Emacs versions, `exec-directory' was used + for this. + + File: lispref.info, Node: Keys in Documentation, Next: Describing Characters, Prev: Accessing Documentation, Up: Documentation Substituting Key Bindings in Documentation @@ -748,364 +1137,3 @@ copying the contents of the buffer into the file. add newlines at all. `nil' is the default value, but a few major modes set it to `t' in particular buffers. - -File: lispref.info, Node: Reading from Files, Next: Writing to Files, Prev: Saving Buffers, Up: Files - -Reading from Files -================== - - You can copy a file from the disk and insert it into a buffer using -the `insert-file-contents' function. Don't use the user-level command -`insert-file' in a Lisp program, as that sets the mark. - - - Function: insert-file-contents filename &optional visit beg end - replace - This function inserts the contents of file FILENAME into the - current buffer after point. It returns a list of the absolute - file name and the length of the data inserted. An error is - signaled if FILENAME is not the name of a file that can be read. - - The function `insert-file-contents' checks the file contents - against the defined file formats, and converts the file contents if - appropriate. *Note Format Conversion::. It also calls the - functions in the list `after-insert-file-functions'; see *Note - Saving Properties::. - - If VISIT is non-`nil', this function additionally marks the buffer - as unmodified and sets up various fields in the buffer so that it - is visiting the file FILENAME: these include the buffer's visited - file name and its last save file modtime. This feature is used by - `find-file-noselect' and you probably should not use it yourself. - - If BEG and END are non-`nil', they should be integers specifying - the portion of the file to insert. In this case, VISIT must be - `nil'. For example, - - (insert-file-contents filename nil 0 500) - - inserts the first 500 characters of a file. - - If the argument REPLACE is non-`nil', it means to replace the - contents of the buffer (actually, just the accessible portion) - with the contents of the file. This is better than simply - deleting the buffer contents and inserting the whole file, because - (1) it preserves some marker positions and (2) it puts less data - in the undo list. - - If you want to pass a file name to another process so that another -program can read the file, use the function `file-local-copy'; see -*Note Magic File Names::. - - -File: lispref.info, Node: Writing to Files, Next: File Locks, Prev: Reading from Files, Up: Files - -Writing to Files -================ - - You can write the contents of a buffer, or part of a buffer, directly -to a file on disk using the `append-to-file' and `write-region' -functions. Don't use these functions to write to files that are being -visited; that could cause confusion in the mechanisms for visiting. - - - Command: append-to-file start end filename - This function appends the contents of the region delimited by - START and END in the current buffer to the end of file FILENAME. - If that file does not exist, it is created. If that file exists - it is overwritten. This function returns `nil'. - - An error is signaled if FILENAME specifies a nonwritable file, or - a nonexistent file in a directory where files cannot be created. - - - Command: write-region start end filename &optional append visit - This function writes the region delimited by START and END in the - current buffer into the file specified by FILENAME. - - If START is a string, then `write-region' writes or appends that - string, rather than text from the buffer. - - If APPEND is non-`nil', then the specified text is appended to the - existing file contents (if any). - - If VISIT is `t', then XEmacs establishes an association between - the buffer and the file: the buffer is then visiting that file. - It also sets the last file modification time for the current - buffer to FILENAME's modtime, and marks the buffer as not - modified. This feature is used by `save-buffer', but you probably - should not use it yourself. - - If VISIT is a string, it specifies the file name to visit. This - way, you can write the data to one file (FILENAME) while recording - the buffer as visiting another file (VISIT). The argument VISIT - is used in the echo area message and also for file locking; VISIT - is stored in `buffer-file-name'. This feature is used to - implement `file-precious-flag'; don't use it yourself unless you - really know what you're doing. - - The function `write-region' converts the data which it writes to - the appropriate file formats specified by `buffer-file-format'. - *Note Format Conversion::. It also calls the functions in the list - `write-region-annotate-functions'; see *Note Saving Properties::. - - Normally, `write-region' displays a message `Wrote file FILENAME' - in the echo area. If VISIT is neither `t' nor `nil' nor a string, - then this message is inhibited. This feature is useful for - programs that use files for internal purposes, files that the user - does not need to know about. - - -File: lispref.info, Node: File Locks, Next: Information about Files, Prev: Writing to Files, Up: Files - -File Locks -========== - - When two users edit the same file at the same time, they are likely -to interfere with each other. XEmacs tries to prevent this situation -from arising by recording a "file lock" when a file is being modified. -XEmacs can then detect the first attempt to modify a buffer visiting a -file that is locked by another XEmacs process, and ask the user what to -do. - - File locks do not work properly when multiple machines can share -file systems, such as with NFS. Perhaps a better file locking system -will be implemented in the future. When file locks do not work, it is -possible for two users to make changes simultaneously, but XEmacs can -still warn the user who saves second. Also, the detection of -modification of a buffer visiting a file changed on disk catches some -cases of simultaneous editing; see *Note Modification Time::. - - - Function: file-locked-p &optional filename - This function returns `nil' if the file FILENAME is not locked by - this XEmacs process. It returns `t' if it is locked by this - XEmacs, and it returns the name of the user who has locked it if it - is locked by someone else. - - (file-locked-p "foo") - => nil - - - Function: lock-buffer &optional filename - This function locks the file FILENAME, if the current buffer is - modified. The argument FILENAME defaults to the current buffer's - visited file. Nothing is done if the current buffer is not - visiting a file, or is not modified. - - - Function: unlock-buffer - This function unlocks the file being visited in the current buffer, - if the buffer is modified. If the buffer is not modified, then - the file should not be locked, so this function does nothing. It - also does nothing if the current buffer is not visiting a file. - - - Function: ask-user-about-lock file other-user - This function is called when the user tries to modify FILE, but it - is locked by another user named OTHER-USER. The value it returns - determines what happens next: - - * A value of `t' says to grab the lock on the file. Then this - user may edit the file and OTHER-USER loses the lock. - - * A value of `nil' says to ignore the lock and let this user - edit the file anyway. - - * This function may instead signal a `file-locked' error, in - which case the change that the user was about to make does - not take place. - - The error message for this error looks like this: - - error--> File is locked: FILE OTHER-USER - - where `file' is the name of the file and OTHER-USER is the - name of the user who has locked the file. - - The default definition of this function asks the user to choose - what to do. If you wish, you can replace the `ask-user-about-lock' - function with your own version that decides in another way. The - code for its usual definition is in `userlock.el'. - - -File: lispref.info, Node: Information about Files, Next: Changing File Attributes, Prev: File Locks, Up: Files - -Information about Files -======================= - - The functions described in this section all operate on strings that -designate file names. All the functions have names that begin with the -word `file'. These functions all return information about actual files -or directories, so their arguments must all exist as actual files or -directories unless otherwise noted. - -* Menu: - -* Testing Accessibility:: Is a given file readable? Writable? -* Kinds of Files:: Is it a directory? A symbolic link? -* Truenames:: Eliminating symbolic links from a file name. -* File Attributes:: How large is it? Any other names? Etc. - - -File: lispref.info, Node: Testing Accessibility, Next: Kinds of Files, Up: Information about Files - -Testing Accessibility ---------------------- - - These functions test for permission to access a file in specific -ways. - - - Function: file-exists-p filename - This function returns `t' if a file named FILENAME appears to - exist. This does not mean you can necessarily read the file, only - that you can find out its attributes. (On Unix, this is true if - the file exists and you have execute permission on the containing - directories, regardless of the protection of the file itself.) - - If the file does not exist, or if fascist access control policies - prevent you from finding the attributes of the file, this function - returns `nil'. - - - Function: file-readable-p filename - This function returns `t' if a file named FILENAME exists and you - can read it. It returns `nil' otherwise. - - (file-readable-p "files.texi") - => t - (file-exists-p "/usr/spool/mqueue") - => t - (file-readable-p "/usr/spool/mqueue") - => nil - - - Function: file-executable-p filename - This function returns `t' if a file named FILENAME exists and you - can execute it. It returns `nil' otherwise. If the file is a - directory, execute permission means you can check the existence and - attributes of files inside the directory, and open those files if - their modes permit. - - - Function: file-writable-p filename - This function returns `t' if the file FILENAME can be written or - created by you, and `nil' otherwise. A file is writable if the - file exists and you can write it. It is creatable if it does not - exist, but the specified directory does exist and you can write in - that directory. - - In the third example below, `foo' is not writable because the - parent directory does not exist, even though the user could create - such a directory. - - (file-writable-p "~/foo") - => t - (file-writable-p "/foo") - => nil - (file-writable-p "~/no-such-dir/foo") - => nil - - - Function: file-accessible-directory-p dirname - This function returns `t' if you have permission to open existing - files in the directory whose name as a file is DIRNAME; otherwise - (or if there is no such directory), it returns `nil'. The value - of DIRNAME may be either a directory name or the file name of a - directory. - - Example: after the following, - - (file-accessible-directory-p "/foo") - => nil - - we can deduce that any attempt to read a file in `/foo/' will give - an error. - - - Function: file-ownership-preserved-p filename - This function returns `t' if deleting the file FILENAME and then - creating it anew would keep the file's owner unchanged. - - - Function: file-newer-than-file-p filename1 filename2 - This function returns `t' if the file FILENAME1 is newer than file - FILENAME2. If FILENAME1 does not exist, it returns `nil'. If - FILENAME2 does not exist, it returns `t'. - - In the following example, assume that the file `aug-19' was written - on the 19th, `aug-20' was written on the 20th, and the file - `no-file' doesn't exist at all. - - (file-newer-than-file-p "aug-19" "aug-20") - => nil - (file-newer-than-file-p "aug-20" "aug-19") - => t - (file-newer-than-file-p "aug-19" "no-file") - => t - (file-newer-than-file-p "no-file" "aug-19") - => nil - - You can use `file-attributes' to get a file's last modification - time as a list of two numbers. *Note File Attributes::. - - -File: lispref.info, Node: Kinds of Files, Next: Truenames, Prev: Testing Accessibility, Up: Information about Files - -Distinguishing Kinds of Files ------------------------------ - - This section describes how to distinguish various kinds of files, -such as directories, symbolic links, and ordinary files. - - - Function: file-symlink-p filename - If the file FILENAME is a symbolic link, the `file-symlink-p' - function returns the file name to which it is linked. This may be - the name of a text file, a directory, or even another symbolic - link, or it may be a nonexistent file name. - - If the file FILENAME is not a symbolic link (or there is no such - file), `file-symlink-p' returns `nil'. - - (file-symlink-p "foo") - => nil - (file-symlink-p "sym-link") - => "foo" - (file-symlink-p "sym-link2") - => "sym-link" - (file-symlink-p "/bin") - => "/pub/bin" - - - - Function: file-directory-p filename - This function returns `t' if FILENAME is the name of an existing - directory, `nil' otherwise. - - (file-directory-p "~rms") - => t - (file-directory-p "~rms/lewis/files.texi") - => nil - (file-directory-p "~rms/lewis/no-such-file") - => nil - (file-directory-p "$HOME") - => nil - (file-directory-p - (substitute-in-file-name "$HOME")) - => t - - - Function: file-regular-p filename - This function returns `t' if the file FILENAME exists and is a - regular file (not a directory, symbolic link, named pipe, - terminal, or other I/O device). - - -File: lispref.info, Node: Truenames, Next: File Attributes, Prev: Kinds of Files, Up: Information about Files - -Truenames ---------- - - The "truename" of a file is the name that you get by following -symbolic links until none remain, then expanding to get rid of `.' and -`..' as components. Strictly speaking, a file need not have a unique -truename; the number of distinct truenames a file has is equal to the -number of hard links to the file. However, truenames are useful -because they eliminate symbolic links as a cause of name variation. - - - Function: file-truename filename &optional default - The function `file-truename' returns the true name of the file - FILENAME. This is the name that you get by following symbolic - links until none remain. - - If the filename is relative, DEFAULT is the directory to start - with. If DEFAULT is `nil' or missing, the current buffer's value - of `default-directory' is used. - - *Note Buffer File Name::, for related information. - diff --git a/info/lispref.info-23 b/info/lispref.info-23 index 6f4fb86..35745c5 100644 --- a/info/lispref.info-23 +++ b/info/lispref.info-23 @@ -50,6 +50,367 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Reading from Files, Next: Writing to Files, Prev: Saving Buffers, Up: Files + +Reading from Files +================== + + You can copy a file from the disk and insert it into a buffer using +the `insert-file-contents' function. Don't use the user-level command +`insert-file' in a Lisp program, as that sets the mark. + + - Function: insert-file-contents filename &optional visit beg end + replace + This function inserts the contents of file FILENAME into the + current buffer after point. It returns a list of the absolute + file name and the length of the data inserted. An error is + signaled if FILENAME is not the name of a file that can be read. + + The function `insert-file-contents' checks the file contents + against the defined file formats, and converts the file contents if + appropriate. *Note Format Conversion::. It also calls the + functions in the list `after-insert-file-functions'; see *Note + Saving Properties::. + + If VISIT is non-`nil', this function additionally marks the buffer + as unmodified and sets up various fields in the buffer so that it + is visiting the file FILENAME: these include the buffer's visited + file name and its last save file modtime. This feature is used by + `find-file-noselect' and you probably should not use it yourself. + + If BEG and END are non-`nil', they should be integers specifying + the portion of the file to insert. In this case, VISIT must be + `nil'. For example, + + (insert-file-contents filename nil 0 500) + + inserts the first 500 characters of a file. + + If the argument REPLACE is non-`nil', it means to replace the + contents of the buffer (actually, just the accessible portion) + with the contents of the file. This is better than simply + deleting the buffer contents and inserting the whole file, because + (1) it preserves some marker positions and (2) it puts less data + in the undo list. + + If you want to pass a file name to another process so that another +program can read the file, use the function `file-local-copy'; see +*Note Magic File Names::. + + +File: lispref.info, Node: Writing to Files, Next: File Locks, Prev: Reading from Files, Up: Files + +Writing to Files +================ + + You can write the contents of a buffer, or part of a buffer, directly +to a file on disk using the `append-to-file' and `write-region' +functions. Don't use these functions to write to files that are being +visited; that could cause confusion in the mechanisms for visiting. + + - Command: append-to-file start end filename + This function appends the contents of the region delimited by + START and END in the current buffer to the end of file FILENAME. + If that file does not exist, it is created. If that file exists + it is overwritten. This function returns `nil'. + + An error is signaled if FILENAME specifies a nonwritable file, or + a nonexistent file in a directory where files cannot be created. + + - Command: write-region start end filename &optional append visit + This function writes the region delimited by START and END in the + current buffer into the file specified by FILENAME. + + If START is a string, then `write-region' writes or appends that + string, rather than text from the buffer. + + If APPEND is non-`nil', then the specified text is appended to the + existing file contents (if any). + + If VISIT is `t', then XEmacs establishes an association between + the buffer and the file: the buffer is then visiting that file. + It also sets the last file modification time for the current + buffer to FILENAME's modtime, and marks the buffer as not + modified. This feature is used by `save-buffer', but you probably + should not use it yourself. + + If VISIT is a string, it specifies the file name to visit. This + way, you can write the data to one file (FILENAME) while recording + the buffer as visiting another file (VISIT). The argument VISIT + is used in the echo area message and also for file locking; VISIT + is stored in `buffer-file-name'. This feature is used to + implement `file-precious-flag'; don't use it yourself unless you + really know what you're doing. + + The function `write-region' converts the data which it writes to + the appropriate file formats specified by `buffer-file-format'. + *Note Format Conversion::. It also calls the functions in the list + `write-region-annotate-functions'; see *Note Saving Properties::. + + Normally, `write-region' displays a message `Wrote file FILENAME' + in the echo area. If VISIT is neither `t' nor `nil' nor a string, + then this message is inhibited. This feature is useful for + programs that use files for internal purposes, files that the user + does not need to know about. + + +File: lispref.info, Node: File Locks, Next: Information about Files, Prev: Writing to Files, Up: Files + +File Locks +========== + + When two users edit the same file at the same time, they are likely +to interfere with each other. XEmacs tries to prevent this situation +from arising by recording a "file lock" when a file is being modified. +XEmacs can then detect the first attempt to modify a buffer visiting a +file that is locked by another XEmacs process, and ask the user what to +do. + + File locks do not work properly when multiple machines can share +file systems, such as with NFS. Perhaps a better file locking system +will be implemented in the future. When file locks do not work, it is +possible for two users to make changes simultaneously, but XEmacs can +still warn the user who saves second. Also, the detection of +modification of a buffer visiting a file changed on disk catches some +cases of simultaneous editing; see *Note Modification Time::. + + - Function: file-locked-p &optional filename + This function returns `nil' if the file FILENAME is not locked by + this XEmacs process. It returns `t' if it is locked by this + XEmacs, and it returns the name of the user who has locked it if it + is locked by someone else. + + (file-locked-p "foo") + => nil + + - Function: lock-buffer &optional filename + This function locks the file FILENAME, if the current buffer is + modified. The argument FILENAME defaults to the current buffer's + visited file. Nothing is done if the current buffer is not + visiting a file, or is not modified. + + - Function: unlock-buffer + This function unlocks the file being visited in the current buffer, + if the buffer is modified. If the buffer is not modified, then + the file should not be locked, so this function does nothing. It + also does nothing if the current buffer is not visiting a file. + + - Function: ask-user-about-lock file other-user + This function is called when the user tries to modify FILE, but it + is locked by another user named OTHER-USER. The value it returns + determines what happens next: + + * A value of `t' says to grab the lock on the file. Then this + user may edit the file and OTHER-USER loses the lock. + + * A value of `nil' says to ignore the lock and let this user + edit the file anyway. + + * This function may instead signal a `file-locked' error, in + which case the change that the user was about to make does + not take place. + + The error message for this error looks like this: + + error--> File is locked: FILE OTHER-USER + + where `file' is the name of the file and OTHER-USER is the + name of the user who has locked the file. + + The default definition of this function asks the user to choose + what to do. If you wish, you can replace the `ask-user-about-lock' + function with your own version that decides in another way. The + code for its usual definition is in `userlock.el'. + + +File: lispref.info, Node: Information about Files, Next: Changing File Attributes, Prev: File Locks, Up: Files + +Information about Files +======================= + + The functions described in this section all operate on strings that +designate file names. All the functions have names that begin with the +word `file'. These functions all return information about actual files +or directories, so their arguments must all exist as actual files or +directories unless otherwise noted. + +* Menu: + +* Testing Accessibility:: Is a given file readable? Writable? +* Kinds of Files:: Is it a directory? A symbolic link? +* Truenames:: Eliminating symbolic links from a file name. +* File Attributes:: How large is it? Any other names? Etc. + + +File: lispref.info, Node: Testing Accessibility, Next: Kinds of Files, Up: Information about Files + +Testing Accessibility +--------------------- + + These functions test for permission to access a file in specific +ways. + + - Function: file-exists-p filename + This function returns `t' if a file named FILENAME appears to + exist. This does not mean you can necessarily read the file, only + that you can find out its attributes. (On Unix, this is true if + the file exists and you have execute permission on the containing + directories, regardless of the protection of the file itself.) + + If the file does not exist, or if fascist access control policies + prevent you from finding the attributes of the file, this function + returns `nil'. + + - Function: file-readable-p filename + This function returns `t' if a file named FILENAME exists and you + can read it. It returns `nil' otherwise. + + (file-readable-p "files.texi") + => t + (file-exists-p "/usr/spool/mqueue") + => t + (file-readable-p "/usr/spool/mqueue") + => nil + + - Function: file-executable-p filename + This function returns `t' if a file named FILENAME exists and you + can execute it. It returns `nil' otherwise. If the file is a + directory, execute permission means you can check the existence and + attributes of files inside the directory, and open those files if + their modes permit. + + - Function: file-writable-p filename + This function returns `t' if the file FILENAME can be written or + created by you, and `nil' otherwise. A file is writable if the + file exists and you can write it. It is creatable if it does not + exist, but the specified directory does exist and you can write in + that directory. + + In the third example below, `foo' is not writable because the + parent directory does not exist, even though the user could create + such a directory. + + (file-writable-p "~/foo") + => t + (file-writable-p "/foo") + => nil + (file-writable-p "~/no-such-dir/foo") + => nil + + - Function: file-accessible-directory-p dirname + This function returns `t' if you have permission to open existing + files in the directory whose name as a file is DIRNAME; otherwise + (or if there is no such directory), it returns `nil'. The value + of DIRNAME may be either a directory name or the file name of a + directory. + + Example: after the following, + + (file-accessible-directory-p "/foo") + => nil + + we can deduce that any attempt to read a file in `/foo/' will give + an error. + + - Function: file-ownership-preserved-p filename + This function returns `t' if deleting the file FILENAME and then + creating it anew would keep the file's owner unchanged. + + - Function: file-newer-than-file-p filename1 filename2 + This function returns `t' if the file FILENAME1 is newer than file + FILENAME2. If FILENAME1 does not exist, it returns `nil'. If + FILENAME2 does not exist, it returns `t'. + + In the following example, assume that the file `aug-19' was written + on the 19th, `aug-20' was written on the 20th, and the file + `no-file' doesn't exist at all. + + (file-newer-than-file-p "aug-19" "aug-20") + => nil + (file-newer-than-file-p "aug-20" "aug-19") + => t + (file-newer-than-file-p "aug-19" "no-file") + => t + (file-newer-than-file-p "no-file" "aug-19") + => nil + + You can use `file-attributes' to get a file's last modification + time as a list of two numbers. *Note File Attributes::. + + +File: lispref.info, Node: Kinds of Files, Next: Truenames, Prev: Testing Accessibility, Up: Information about Files + +Distinguishing Kinds of Files +----------------------------- + + This section describes how to distinguish various kinds of files, +such as directories, symbolic links, and ordinary files. + + - Function: file-symlink-p filename + If the file FILENAME is a symbolic link, the `file-symlink-p' + function returns the file name to which it is linked. This may be + the name of a text file, a directory, or even another symbolic + link, or it may be a nonexistent file name. + + If the file FILENAME is not a symbolic link (or there is no such + file), `file-symlink-p' returns `nil'. + + (file-symlink-p "foo") + => nil + (file-symlink-p "sym-link") + => "foo" + (file-symlink-p "sym-link2") + => "sym-link" + (file-symlink-p "/bin") + => "/pub/bin" + + + - Function: file-directory-p filename + This function returns `t' if FILENAME is the name of an existing + directory, `nil' otherwise. + + (file-directory-p "~rms") + => t + (file-directory-p "~rms/lewis/files.texi") + => nil + (file-directory-p "~rms/lewis/no-such-file") + => nil + (file-directory-p "$HOME") + => nil + (file-directory-p + (substitute-in-file-name "$HOME")) + => t + + - Function: file-regular-p filename + This function returns `t' if the file FILENAME exists and is a + regular file (not a directory, symbolic link, named pipe, + terminal, or other I/O device). + + +File: lispref.info, Node: Truenames, Next: File Attributes, Prev: Kinds of Files, Up: Information about Files + +Truenames +--------- + + The "truename" of a file is the name that you get by following +symbolic links until none remain, then expanding to get rid of `.' and +`..' as components. Strictly speaking, a file need not have a unique +truename; the number of distinct truenames a file has is equal to the +number of hard links to the file. However, truenames are useful +because they eliminate symbolic links as a cause of name variation. + + - Function: file-truename filename &optional default + The function `file-truename' returns the true name of the file + FILENAME. This is the name that you get by following symbolic + links until none remain. + + If the filename is relative, DEFAULT is the directory to start + with. If DEFAULT is `nil' or missing, the current buffer's value + of `default-directory' is used. + + *Note Buffer File Name::, for related information. + + File: lispref.info, Node: File Attributes, Prev: Truenames, Up: Information about Files Other Information about Files @@ -898,361 +1259,3 @@ directories. `delete-file' does not work for files that are directories; you must use `delete-directory' in that case. - -File: lispref.info, Node: Magic File Names, Next: Partial Files, Prev: Create/Delete Dirs, Up: Files - -Making Certain File Names "Magic" -================================= - - You can implement special handling for certain file names. This is -called making those names "magic". You must supply a regular -expression to define the class of names (all those that match the -regular expression), plus a handler that implements all the primitive -XEmacs file operations for file names that do match. - - The variable `file-name-handler-alist' holds a list of handlers, -together with regular expressions that determine when to apply each -handler. Each element has this form: - - (REGEXP . HANDLER) - -All the XEmacs primitives for file access and file name transformation -check the given file name against `file-name-handler-alist'. If the -file name matches REGEXP, the primitives handle that file by calling -HANDLER. - - The first argument given to HANDLER is the name of the primitive; -the remaining arguments are the arguments that were passed to that -operation. (The first of these arguments is typically the file name -itself.) For example, if you do this: - - (file-exists-p FILENAME) - -and FILENAME has handler HANDLER, then HANDLER is called like this: - - (funcall HANDLER 'file-exists-p FILENAME) - - Here are the operations that a magic file name handler gets to -handle: - -`add-name-to-file', `copy-file', `delete-directory', `delete-file', -`diff-latest-backup-file', `directory-file-name', `directory-files', -`dired-compress-file', `dired-uncache', `expand-file-name', -`file-accessible-directory-p', `file-attributes', `file-directory-p', -`file-executable-p', `file-exists-p', `file-local-copy', `file-modes', -`file-name-all-completions', `file-name-as-directory', -`file-name-completion', `file-name-directory', `file-name-nondirectory', -`file-name-sans-versions', `file-newer-than-file-p', `file-readable-p', -`file-regular-p', `file-symlink-p', `file-truename', `file-writable-p', -`get-file-buffer', `insert-directory', `insert-file-contents', `load', -`make-directory', `make-symbolic-link', `rename-file', `set-file-modes', -`set-visited-file-modtime', `unhandled-file-name-directory', -`verify-visited-file-modtime', `write-region'. - - Handlers for `insert-file-contents' typically need to clear the -buffer's modified flag, with `(set-buffer-modified-p nil)', if the -VISIT argument is non-`nil'. This also has the effect of unlocking the -buffer if it is locked. - - The handler function must handle all of the above operations, and -possibly others to be added in the future. It need not implement all -these operations itself--when it has nothing special to do for a -certain operation, it can reinvoke the primitive, to handle the -operation "in the usual way". It should always reinvoke the primitive -for an operation it does not recognize. Here's one way to do this: - - (defun my-file-handler (operation &rest args) - ;; First check for the specific operations - ;; that we have special handling for. - (cond ((eq operation 'insert-file-contents) ...) - ((eq operation 'write-region) ...) - ... - ;; Handle any operation we don't know about. - (t (let ((inhibit-file-name-handlers - (cons 'my-file-handler - (and (eq inhibit-file-name-operation operation) - inhibit-file-name-handlers))) - (inhibit-file-name-operation operation)) - (apply operation args))))) - - When a handler function decides to call the ordinary Emacs primitive -for the operation at hand, it needs to prevent the primitive from -calling the same handler once again, thus leading to an infinite -recursion. The example above shows how to do this, with the variables -`inhibit-file-name-handlers' and `inhibit-file-name-operation'. Be -careful to use them exactly as shown above; the details are crucial for -proper behavior in the case of multiple handlers, and for operations -that have two file names that may each have handlers. - - - Variable: inhibit-file-name-handlers - This variable holds a list of handlers whose use is presently - inhibited for a certain operation. - - - Variable: inhibit-file-name-operation - The operation for which certain handlers are presently inhibited. - - - Function: find-file-name-handler file operation - This function returns the handler function for file name FILE, or - `nil' if there is none. The argument OPERATION should be the - operation to be performed on the file--the value you will pass to - the handler as its first argument when you call it. The operation - is needed for comparison with `inhibit-file-name-operation'. - - - Function: file-local-copy filename - This function copies file FILENAME to an ordinary non-magic file, - if it isn't one already. - - If FILENAME specifies a "magic" file name, which programs outside - Emacs cannot directly read or write, this copies the contents to - an ordinary file and returns that file's name. - - If FILENAME is an ordinary file name, not magic, then this function - does nothing and returns `nil'. - - - Function: unhandled-file-name-directory filename - This function returns the name of a directory that is not magic. - It uses the directory part of FILENAME if that is not magic. - Otherwise, it asks the handler what to do. - - This is useful for running a subprocess; every subprocess must - have a non-magic directory to serve as its current directory, and - this function is a good way to come up with one. - - -File: lispref.info, Node: Partial Files, Next: Format Conversion, Prev: Magic File Names, Up: Files - -Partial Files -============= - -* Menu: - -* Intro to Partial Files:: -* Creating a Partial File:: -* Detached Partial Files:: - - -File: lispref.info, Node: Intro to Partial Files, Next: Creating a Partial File, Up: Partial Files - -Intro to Partial Files ----------------------- - - A "partial file" is a section of a buffer (called the "master -buffer") that is placed in its own buffer and treated as its own file. -Changes made to the partial file are not reflected in the master buffer -until the partial file is "saved" using the standard buffer save -commands. Partial files can be "reverted" (from the master buffer) -just like normal files. When a file part is active on a master buffer, -that section of the master buffer is marked as read-only. Two file -parts on the same master buffer are not allowed to overlap. Partial -file buffers are indicated by the words `File Part' in the modeline. - - The master buffer knows about all the partial files that are active -on it, and thus killing or reverting the master buffer will be handled -properly. When the master buffer is saved, if there are any unsaved -partial files active on it then the user will be given the opportunity -to first save these files. - - When a partial file buffer is first modified, the master buffer is -automatically marked as modified so that saving the master buffer will -work correctly. - - -File: lispref.info, Node: Creating a Partial File, Next: Detached Partial Files, Prev: Intro to Partial Files, Up: Partial Files - -Creating a Partial File ------------------------ - - - Function: make-file-part &optional start end name buffer - Make a file part on buffer BUFFER out of the region. Call it - NAME. This command creates a new buffer containing the contents - of the region and marks the buffer as referring to the specified - buffer, called the "master buffer". When the file-part buffer is - saved, its changes are integrated back into the master buffer. - When the master buffer is deleted, all file parts are deleted with - it. - - When called from a function, expects four arguments, START, END, - NAME, and BUFFER, all of which are optional and default to the - beginning of BUFFER, the end of BUFFER, a name generated from - BUFFER name, and the current buffer, respectively. - - -File: lispref.info, Node: Detached Partial Files, Prev: Creating a Partial File, Up: Partial Files - -Detached Partial Files ----------------------- - - Every partial file has an extent in the master buffer associated -with it (called the "master extent"), marking where in the master -buffer the partial file begins and ends. If the text in master buffer -that is contained by the extent is deleted, then the extent becomes -"detached", meaning that it no longer refers to a specific region of -the master buffer. This can happen either when the text is deleted -directly or when the master buffer is reverted. Neither of these should -happen in normal usage because the master buffer should generally not be -edited directly. - - Before doing any operation that references a partial file's master -extent, XEmacs checks to make sure that the extent is not detached. If -this is the case, XEmacs warns the user of this and the master extent is -deleted out of the master buffer, disconnecting the file part. The file -part's filename is cleared and thus must be explicitly specified if the -detached file part is to be saved. - - -File: lispref.info, Node: Format Conversion, Next: Files and MS-DOS, Prev: Partial Files, Up: Files - -File Format Conversion -====================== - - The variable `format-alist' defines a list of "file formats", which -describe textual representations used in files for the data (text, -text-properties, and possibly other information) in an Emacs buffer. -Emacs performs format conversion if appropriate when reading and writing -files. - - - Variable: format-alist - This list contains one format definition for each defined file - format. - - Each format definition is a list of this form: - - (NAME DOC-STRING REGEXP FROM-FN TO-FN MODIFY MODE-FN) - - Here is what the elements in a format definition mean: - -NAME - The name of this format. - -DOC-STRING - A documentation string for the format. - -REGEXP - A regular expression which is used to recognize files represented - in this format. - -FROM-FN - A function to call to decode data in this format (to convert file - data into the usual Emacs data representation). - - The FROM-FN is called with two args, BEGIN and END, which specify - the part of the buffer it should convert. It should convert the - text by editing it in place. Since this can change the length of - the text, FROM-FN should return the modified end position. - - One responsibility of FROM-FN is to make sure that the beginning - of the file no longer matches REGEXP. Otherwise it is likely to - get called again. - -TO-FN - A function to call to encode data in this format (to convert the - usual Emacs data representation into this format). - - The TO-FN is called with two args, BEGIN and END, which specify - the part of the buffer it should convert. There are two ways it - can do the conversion: - - * By editing the buffer in place. In this case, TO-FN should - return the end-position of the range of text, as modified. - - * By returning a list of annotations. This is a list of - elements of the form `(POSITION . STRING)', where POSITION is - an integer specifying the relative position in the text to be - written, and STRING is the annotation to add there. The list - must be sorted in order of position when TO-FN returns it. - - When `write-region' actually writes the text from the buffer - to the file, it intermixes the specified annotations at the - corresponding positions. All this takes place without - modifying the buffer. - -MODIFY - A flag, `t' if the encoding function modifies the buffer, and - `nil' if it works by returning a list of annotations. - -MODE - A mode function to call after visiting a file converted from this - format. - - The function `insert-file-contents' automatically recognizes file -formats when it reads the specified file. It checks the text of the -beginning of the file against the regular expressions of the format -definitions, and if it finds a match, it calls the decoding function for -that format. Then it checks all the known formats over again. It -keeps checking them until none of them is applicable. - - Visiting a file, with `find-file-noselect' or the commands that use -it, performs conversion likewise (because it calls -`insert-file-contents'); it also calls the mode function for each -format that it decodes. It stores a list of the format names in the -buffer-local variable `buffer-file-format'. - - - Variable: buffer-file-format - This variable states the format of the visited file. More - precisely, this is a list of the file format names that were - decoded in the course of visiting the current buffer's file. It - is always local in all buffers. - - When `write-region' writes data into a file, it first calls the -encoding functions for the formats listed in `buffer-file-format', in -the order of appearance in the list. - - - Function: format-write-file file format - This command writes the current buffer contents into the file FILE - in format FORMAT, and makes that format the default for future - saves of the buffer. The argument FORMAT is a list of format - names. - - - Function: format-find-file file format - This command finds the file FILE, converting it according to - format FORMAT. It also makes FORMAT the default if the buffer is - saved later. - - The argument FORMAT is a list of format names. If FORMAT is - `nil', no conversion takes place. Interactively, typing just - for FORMAT specifies `nil'. - - - Function: format-insert-file file format &optional beg end - This command inserts the contents of file FILE, converting it - according to format FORMAT. If BEG and END are non-`nil', they - specify which part of the file to read, as in - `insert-file-contents' (*note Reading from Files::). - - The return value is like what `insert-file-contents' returns: a - list of the absolute file name and the length of the data inserted - (after conversion). - - The argument FORMAT is a list of format names. If FORMAT is - `nil', no conversion takes place. Interactively, typing just - for FORMAT specifies `nil'. - - - Function: format-find-file file format - This command finds the file FILE, converting it according to - format FORMAT. It also makes FORMAT the default if the buffer is - saved later. - - The argument FORMAT is a list of format names. If FORMAT is - `nil', no conversion takes place. Interactively, typing just - for FORMAT specifies `nil'. - - - Function: format-insert-file file format &optional beg end - This command inserts the contents of file FILE, converting it - according to format FORMAT. If BEG and END are non-`nil', they - specify which part of the file to read, as in - `insert-file-contents' (*note Reading from Files::). - - The return value is like what `insert-file-contents' returns: a - list of the absolute file name and the length of the data inserted - (after conversion). - - The argument FORMAT is a list of format names. If FORMAT is - `nil', no conversion takes place. Interactively, typing just - for FORMAT specifies `nil'. - - - Variable: auto-save-file-format - This variable specifies the format to use for auto-saving. Its - value is a list of format names, just like the value of - `buffer-file-format'; but it is used instead of - `buffer-file-format' for writing auto-save files. This variable - is always local in all buffers. - diff --git a/info/lispref.info-24 b/info/lispref.info-24 index 7d6e8a6..5eeea30 100644 --- a/info/lispref.info-24 +++ b/info/lispref.info-24 @@ -50,6 +50,364 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Magic File Names, Next: Partial Files, Prev: Create/Delete Dirs, Up: Files + +Making Certain File Names "Magic" +================================= + + You can implement special handling for certain file names. This is +called making those names "magic". You must supply a regular +expression to define the class of names (all those that match the +regular expression), plus a handler that implements all the primitive +XEmacs file operations for file names that do match. + + The variable `file-name-handler-alist' holds a list of handlers, +together with regular expressions that determine when to apply each +handler. Each element has this form: + + (REGEXP . HANDLER) + +All the XEmacs primitives for file access and file name transformation +check the given file name against `file-name-handler-alist'. If the +file name matches REGEXP, the primitives handle that file by calling +HANDLER. + + The first argument given to HANDLER is the name of the primitive; +the remaining arguments are the arguments that were passed to that +operation. (The first of these arguments is typically the file name +itself.) For example, if you do this: + + (file-exists-p FILENAME) + +and FILENAME has handler HANDLER, then HANDLER is called like this: + + (funcall HANDLER 'file-exists-p FILENAME) + + Here are the operations that a magic file name handler gets to +handle: + +`add-name-to-file', `copy-file', `delete-directory', `delete-file', +`diff-latest-backup-file', `directory-file-name', `directory-files', +`dired-compress-file', `dired-uncache', `expand-file-name', +`file-accessible-directory-p', `file-attributes', `file-directory-p', +`file-executable-p', `file-exists-p', `file-local-copy', `file-modes', +`file-name-all-completions', `file-name-as-directory', +`file-name-completion', `file-name-directory', `file-name-nondirectory', +`file-name-sans-versions', `file-newer-than-file-p', `file-readable-p', +`file-regular-p', `file-symlink-p', `file-truename', `file-writable-p', +`get-file-buffer', `insert-directory', `insert-file-contents', `load', +`make-directory', `make-symbolic-link', `rename-file', `set-file-modes', +`set-visited-file-modtime', `unhandled-file-name-directory', +`verify-visited-file-modtime', `write-region'. + + Handlers for `insert-file-contents' typically need to clear the +buffer's modified flag, with `(set-buffer-modified-p nil)', if the +VISIT argument is non-`nil'. This also has the effect of unlocking the +buffer if it is locked. + + The handler function must handle all of the above operations, and +possibly others to be added in the future. It need not implement all +these operations itself--when it has nothing special to do for a +certain operation, it can reinvoke the primitive, to handle the +operation "in the usual way". It should always reinvoke the primitive +for an operation it does not recognize. Here's one way to do this: + + (defun my-file-handler (operation &rest args) + ;; First check for the specific operations + ;; that we have special handling for. + (cond ((eq operation 'insert-file-contents) ...) + ((eq operation 'write-region) ...) + ... + ;; Handle any operation we don't know about. + (t (let ((inhibit-file-name-handlers + (cons 'my-file-handler + (and (eq inhibit-file-name-operation operation) + inhibit-file-name-handlers))) + (inhibit-file-name-operation operation)) + (apply operation args))))) + + When a handler function decides to call the ordinary Emacs primitive +for the operation at hand, it needs to prevent the primitive from +calling the same handler once again, thus leading to an infinite +recursion. The example above shows how to do this, with the variables +`inhibit-file-name-handlers' and `inhibit-file-name-operation'. Be +careful to use them exactly as shown above; the details are crucial for +proper behavior in the case of multiple handlers, and for operations +that have two file names that may each have handlers. + + - Variable: inhibit-file-name-handlers + This variable holds a list of handlers whose use is presently + inhibited for a certain operation. + + - Variable: inhibit-file-name-operation + The operation for which certain handlers are presently inhibited. + + - Function: find-file-name-handler file operation + This function returns the handler function for file name FILE, or + `nil' if there is none. The argument OPERATION should be the + operation to be performed on the file--the value you will pass to + the handler as its first argument when you call it. The operation + is needed for comparison with `inhibit-file-name-operation'. + + - Function: file-local-copy filename + This function copies file FILENAME to an ordinary non-magic file, + if it isn't one already. + + If FILENAME specifies a "magic" file name, which programs outside + Emacs cannot directly read or write, this copies the contents to + an ordinary file and returns that file's name. + + If FILENAME is an ordinary file name, not magic, then this function + does nothing and returns `nil'. + + - Function: unhandled-file-name-directory filename + This function returns the name of a directory that is not magic. + It uses the directory part of FILENAME if that is not magic. + Otherwise, it asks the handler what to do. + + This is useful for running a subprocess; every subprocess must + have a non-magic directory to serve as its current directory, and + this function is a good way to come up with one. + + +File: lispref.info, Node: Partial Files, Next: Format Conversion, Prev: Magic File Names, Up: Files + +Partial Files +============= + +* Menu: + +* Intro to Partial Files:: +* Creating a Partial File:: +* Detached Partial Files:: + + +File: lispref.info, Node: Intro to Partial Files, Next: Creating a Partial File, Up: Partial Files + +Intro to Partial Files +---------------------- + + A "partial file" is a section of a buffer (called the "master +buffer") that is placed in its own buffer and treated as its own file. +Changes made to the partial file are not reflected in the master buffer +until the partial file is "saved" using the standard buffer save +commands. Partial files can be "reverted" (from the master buffer) +just like normal files. When a file part is active on a master buffer, +that section of the master buffer is marked as read-only. Two file +parts on the same master buffer are not allowed to overlap. Partial +file buffers are indicated by the words `File Part' in the modeline. + + The master buffer knows about all the partial files that are active +on it, and thus killing or reverting the master buffer will be handled +properly. When the master buffer is saved, if there are any unsaved +partial files active on it then the user will be given the opportunity +to first save these files. + + When a partial file buffer is first modified, the master buffer is +automatically marked as modified so that saving the master buffer will +work correctly. + + +File: lispref.info, Node: Creating a Partial File, Next: Detached Partial Files, Prev: Intro to Partial Files, Up: Partial Files + +Creating a Partial File +----------------------- + + - Function: make-file-part &optional start end name buffer + Make a file part on buffer BUFFER out of the region. Call it + NAME. This command creates a new buffer containing the contents + of the region and marks the buffer as referring to the specified + buffer, called the "master buffer". When the file-part buffer is + saved, its changes are integrated back into the master buffer. + When the master buffer is deleted, all file parts are deleted with + it. + + When called from a function, expects four arguments, START, END, + NAME, and BUFFER, all of which are optional and default to the + beginning of BUFFER, the end of BUFFER, a name generated from + BUFFER name, and the current buffer, respectively. + + +File: lispref.info, Node: Detached Partial Files, Prev: Creating a Partial File, Up: Partial Files + +Detached Partial Files +---------------------- + + Every partial file has an extent in the master buffer associated +with it (called the "master extent"), marking where in the master +buffer the partial file begins and ends. If the text in master buffer +that is contained by the extent is deleted, then the extent becomes +"detached", meaning that it no longer refers to a specific region of +the master buffer. This can happen either when the text is deleted +directly or when the master buffer is reverted. Neither of these should +happen in normal usage because the master buffer should generally not be +edited directly. + + Before doing any operation that references a partial file's master +extent, XEmacs checks to make sure that the extent is not detached. If +this is the case, XEmacs warns the user of this and the master extent is +deleted out of the master buffer, disconnecting the file part. The file +part's filename is cleared and thus must be explicitly specified if the +detached file part is to be saved. + + +File: lispref.info, Node: Format Conversion, Next: Files and MS-DOS, Prev: Partial Files, Up: Files + +File Format Conversion +====================== + + The variable `format-alist' defines a list of "file formats", which +describe textual representations used in files for the data (text, +text-properties, and possibly other information) in an Emacs buffer. +Emacs performs format conversion if appropriate when reading and writing +files. + + - Variable: format-alist + This list contains one format definition for each defined file + format. + + Each format definition is a list of this form: + + (NAME DOC-STRING REGEXP FROM-FN TO-FN MODIFY MODE-FN) + + Here is what the elements in a format definition mean: + +NAME + The name of this format. + +DOC-STRING + A documentation string for the format. + +REGEXP + A regular expression which is used to recognize files represented + in this format. + +FROM-FN + A function to call to decode data in this format (to convert file + data into the usual Emacs data representation). + + The FROM-FN is called with two args, BEGIN and END, which specify + the part of the buffer it should convert. It should convert the + text by editing it in place. Since this can change the length of + the text, FROM-FN should return the modified end position. + + One responsibility of FROM-FN is to make sure that the beginning + of the file no longer matches REGEXP. Otherwise it is likely to + get called again. + +TO-FN + A function to call to encode data in this format (to convert the + usual Emacs data representation into this format). + + The TO-FN is called with two args, BEGIN and END, which specify + the part of the buffer it should convert. There are two ways it + can do the conversion: + + * By editing the buffer in place. In this case, TO-FN should + return the end-position of the range of text, as modified. + + * By returning a list of annotations. This is a list of + elements of the form `(POSITION . STRING)', where POSITION is + an integer specifying the relative position in the text to be + written, and STRING is the annotation to add there. The list + must be sorted in order of position when TO-FN returns it. + + When `write-region' actually writes the text from the buffer + to the file, it intermixes the specified annotations at the + corresponding positions. All this takes place without + modifying the buffer. + +MODIFY + A flag, `t' if the encoding function modifies the buffer, and + `nil' if it works by returning a list of annotations. + +MODE + A mode function to call after visiting a file converted from this + format. + + The function `insert-file-contents' automatically recognizes file +formats when it reads the specified file. It checks the text of the +beginning of the file against the regular expressions of the format +definitions, and if it finds a match, it calls the decoding function for +that format. Then it checks all the known formats over again. It +keeps checking them until none of them is applicable. + + Visiting a file, with `find-file-noselect' or the commands that use +it, performs conversion likewise (because it calls +`insert-file-contents'); it also calls the mode function for each +format that it decodes. It stores a list of the format names in the +buffer-local variable `buffer-file-format'. + + - Variable: buffer-file-format + This variable states the format of the visited file. More + precisely, this is a list of the file format names that were + decoded in the course of visiting the current buffer's file. It + is always local in all buffers. + + When `write-region' writes data into a file, it first calls the +encoding functions for the formats listed in `buffer-file-format', in +the order of appearance in the list. + + - Function: format-write-file file format + This command writes the current buffer contents into the file FILE + in format FORMAT, and makes that format the default for future + saves of the buffer. The argument FORMAT is a list of format + names. + + - Function: format-find-file file format + This command finds the file FILE, converting it according to + format FORMAT. It also makes FORMAT the default if the buffer is + saved later. + + The argument FORMAT is a list of format names. If FORMAT is + `nil', no conversion takes place. Interactively, typing just + for FORMAT specifies `nil'. + + - Function: format-insert-file file format &optional beg end + This command inserts the contents of file FILE, converting it + according to format FORMAT. If BEG and END are non-`nil', they + specify which part of the file to read, as in + `insert-file-contents' (*note Reading from Files::). + + The return value is like what `insert-file-contents' returns: a + list of the absolute file name and the length of the data inserted + (after conversion). + + The argument FORMAT is a list of format names. If FORMAT is + `nil', no conversion takes place. Interactively, typing just + for FORMAT specifies `nil'. + + - Function: format-find-file file format + This command finds the file FILE, converting it according to + format FORMAT. It also makes FORMAT the default if the buffer is + saved later. + + The argument FORMAT is a list of format names. If FORMAT is + `nil', no conversion takes place. Interactively, typing just + for FORMAT specifies `nil'. + + - Function: format-insert-file file format &optional beg end + This command inserts the contents of file FILE, converting it + according to format FORMAT. If BEG and END are non-`nil', they + specify which part of the file to read, as in + `insert-file-contents' (*note Reading from Files::). + + The return value is like what `insert-file-contents' returns: a + list of the absolute file name and the length of the data inserted + (after conversion). + + The argument FORMAT is a list of format names. If FORMAT is + `nil', no conversion takes place. Interactively, typing just + for FORMAT specifies `nil'. + + - Variable: auto-save-file-format + This variable specifies the format to use for auto-saving. Its + value is a list of format names, just like the value of + `buffer-file-format'; but it is used instead of + `buffer-file-format' for writing auto-save files. This variable + is always local in all buffers. + + File: lispref.info, Node: Files and MS-DOS, Prev: Format Conversion, Up: Files Files and MS-DOS @@ -310,7 +668,7 @@ backup version 3 is excess. The function `find-backup-file-name' (*note Backup Names::) is responsible for determining which backup versions to delete, but does not delete them itself. - - User Option: trim-versions-without-asking + - User Option: delete-old-versions If this variable is non-`nil', then saving a file deletes excess backup versions silently. Otherwise, it asks the user whether to delete them. @@ -732,454 +1090,3 @@ Buffers and Windows::. - Function: bufferp object This function returns `t' if OBJECT is a buffer, `nil' otherwise. - -File: lispref.info, Node: Current Buffer, Next: Buffer Names, Prev: Buffer Basics, Up: Buffers - -The Current Buffer -================== - - There are, in general, many buffers in an Emacs session. At any -time, one of them is designated as the "current buffer". This is the -buffer in which most editing takes place, because most of the primitives -for examining or changing text in a buffer operate implicitly on the -current buffer (*note Text::). Normally the buffer that is displayed on -the screen in the selected window is the current buffer, but this is not -always so: a Lisp program can designate any buffer as current -temporarily in order to operate on its contents, without changing what -is displayed on the screen. - - The way to designate a current buffer in a Lisp program is by calling -`set-buffer'. The specified buffer remains current until a new one is -designated. - - When an editing command returns to the editor command loop, the -command loop designates the buffer displayed in the selected window as -current, to prevent confusion: the buffer that the cursor is in when -Emacs reads a command is the buffer that the command will apply to. -(*Note Command Loop::.) Therefore, `set-buffer' is not the way to -switch visibly to a different buffer so that the user can edit it. For -this, you must use the functions described in *Note Displaying -Buffers::. - - However, Lisp functions that change to a different current buffer -should not depend on the command loop to set it back afterwards. -Editing commands written in XEmacs Lisp can be called from other -programs as well as from the command loop. It is convenient for the -caller if the subroutine does not change which buffer is current -(unless, of course, that is the subroutine's purpose). Therefore, you -should normally use `set-buffer' within a `save-excursion' that will -restore the current buffer when your function is done (*note -Excursions::). Here is an example, the code for the command -`append-to-buffer' (with the documentation string abridged): - - (defun append-to-buffer (buffer start end) - "Append to specified buffer the text of the region. - ..." - (interactive "BAppend to buffer: \nr") - (let ((oldbuf (current-buffer))) - (save-excursion - (set-buffer (get-buffer-create buffer)) - (insert-buffer-substring oldbuf start end)))) - -This function binds a local variable to the current buffer, and then -`save-excursion' records the values of point, the mark, and the -original buffer. Next, `set-buffer' makes another buffer current. -Finally, `insert-buffer-substring' copies the string from the original -current buffer to the new current buffer. - - If the buffer appended to happens to be displayed in some window, -the next redisplay will show how its text has changed. Otherwise, you -will not see the change immediately on the screen. The buffer becomes -current temporarily during the execution of the command, but this does -not cause it to be displayed. - - If you make local bindings (with `let' or function arguments) for a -variable that may also have buffer-local bindings, make sure that the -same buffer is current at the beginning and at the end of the local -binding's scope. Otherwise you might bind it in one buffer and unbind -it in another! There are two ways to do this. In simple cases, you may -see that nothing ever changes the current buffer within the scope of the -binding. Otherwise, use `save-excursion' to make sure that the buffer -current at the beginning is current again whenever the variable is -unbound. - - It is not reliable to change the current buffer back with -`set-buffer', because that won't do the job if a quit happens while the -wrong buffer is current. Here is what _not_ to do: - - (let (buffer-read-only - (obuf (current-buffer))) - (set-buffer ...) - ... - (set-buffer obuf)) - -Using `save-excursion', as shown below, handles quitting, errors, and -`throw', as well as ordinary evaluation. - - (let (buffer-read-only) - (save-excursion - (set-buffer ...) - ...)) - - - Function: current-buffer - This function returns the current buffer. - - (current-buffer) - => # - - - Function: set-buffer buffer-or-name - This function makes BUFFER-OR-NAME the current buffer. It does - not display the buffer in the currently selected window or in any - other window, so the user cannot necessarily see the buffer. But - Lisp programs can in any case work on it. - - This function returns the buffer identified by BUFFER-OR-NAME. An - error is signaled if BUFFER-OR-NAME does not identify an existing - buffer. - - -File: lispref.info, Node: Buffer Names, Next: Buffer File Name, Prev: Current Buffer, Up: Buffers - -Buffer Names -============ - - Each buffer has a unique name, which is a string. Many of the -functions that work on buffers accept either a buffer or a buffer name -as an argument. Any argument called BUFFER-OR-NAME is of this sort, -and an error is signaled if it is neither a string nor a buffer. Any -argument called BUFFER must be an actual buffer object, not a name. - - Buffers that are ephemeral and generally uninteresting to the user -have names starting with a space, so that the `list-buffers' and -`buffer-menu' commands don't mention them. A name starting with space -also initially disables recording undo information; see *Note Undo::. - - - Function: buffer-name &optional buffer - This function returns the name of BUFFER as a string. If BUFFER - is not supplied, it defaults to the current buffer. - - If `buffer-name' returns `nil', it means that BUFFER has been - killed. *Note Killing Buffers::. - - (buffer-name) - => "buffers.texi" - - (setq foo (get-buffer "temp")) - => # - (kill-buffer foo) - => nil - (buffer-name foo) - => nil - foo - => # - - - Command: rename-buffer newname &optional unique - This function renames the current buffer to NEWNAME. An error is - signaled if NEWNAME is not a string, or if there is already a - buffer with that name. The function returns `nil'. - - Ordinarily, `rename-buffer' signals an error if NEWNAME is already - in use. However, if UNIQUE is non-`nil', it modifies NEWNAME to - make a name that is not in use. Interactively, you can make - UNIQUE non-`nil' with a numeric prefix argument. - - One application of this command is to rename the `*shell*' buffer - to some other name, thus making it possible to create a second - shell buffer under the name `*shell*'. - - - Function: get-buffer buffer-or-name - This function returns the buffer specified by BUFFER-OR-NAME. If - BUFFER-OR-NAME is a string and there is no buffer with that name, - the value is `nil'. If BUFFER-OR-NAME is a buffer, it is returned - as given. (That is not very useful, so the argument is usually a - name.) For example: - - (setq b (get-buffer "lewis")) - => # - (get-buffer b) - => # - (get-buffer "Frazzle-nots") - => nil - - See also the function `get-buffer-create' in *Note Creating - Buffers::. - - - Function: generate-new-buffer-name starting-name &optional ignore - This function returns a name that would be unique for a new - buffer--but does not create the buffer. It starts with - STARTING-NAME, and produces a name not currently in use for any - buffer by appending a number inside of `<...>'. - - If IGNORE is given, it specifies a name that is okay to use (if it - is in the sequence to be tried), even if a buffer with that name - exists. - - See the related function `generate-new-buffer' in *Note Creating - Buffers::. - - -File: lispref.info, Node: Buffer File Name, Next: Buffer Modification, Prev: Buffer Names, Up: Buffers - -Buffer File Name -================ - - The "buffer file name" is the name of the file that is visited in -that buffer. When a buffer is not visiting a file, its buffer file name -is `nil'. Most of the time, the buffer name is the same as the -nondirectory part of the buffer file name, but the buffer file name and -the buffer name are distinct and can be set independently. *Note -Visiting Files::. - - - Function: buffer-file-name &optional buffer - This function returns the absolute file name of the file that - BUFFER is visiting. If BUFFER is not visiting any file, - `buffer-file-name' returns `nil'. If BUFFER is not supplied, it - defaults to the current buffer. - - (buffer-file-name (other-buffer)) - => "/usr/user/lewis/manual/files.texi" - - - Variable: buffer-file-name - This buffer-local variable contains the name of the file being - visited in the current buffer, or `nil' if it is not visiting a - file. It is a permanent local, unaffected by - `kill-local-variables'. - - buffer-file-name - => "/usr/user/lewis/manual/buffers.texi" - - It is risky to change this variable's value without doing various - other things. See the definition of `set-visited-file-name' in - `files.el'; some of the things done there, such as changing the - buffer name, are not strictly necessary, but others are essential - to avoid confusing XEmacs. - - - Variable: buffer-file-truename - This buffer-local variable holds the truename of the file visited - in the current buffer, or `nil' if no file is visited. It is a - permanent local, unaffected by `kill-local-variables'. *Note - Truenames::. - - - Variable: buffer-file-number - This buffer-local variable holds the file number and directory - device number of the file visited in the current buffer, or `nil' - if no file or a nonexistent file is visited. It is a permanent - local, unaffected by `kill-local-variables'. *Note Truenames::. - - The value is normally a list of the form `(FILENUM DEVNUM)'. This - pair of numbers uniquely identifies the file among all files - accessible on the system. See the function `file-attributes', in - *Note File Attributes::, for more information about them. - - - Function: get-file-buffer filename - This function returns the buffer visiting file FILENAME. If there - is no such buffer, it returns `nil'. The argument FILENAME, which - must be a string, is expanded (*note File Name Expansion::), then - compared against the visited file names of all live buffers. - - (get-file-buffer "buffers.texi") - => # - - In unusual circumstances, there can be more than one buffer - visiting the same file name. In such cases, this function returns - the first such buffer in the buffer list. - - - Command: set-visited-file-name filename - If FILENAME is a non-empty string, this function changes the name - of the file visited in current buffer to FILENAME. (If the buffer - had no visited file, this gives it one.) The _next time_ the - buffer is saved it will go in the newly-specified file. This - command marks the buffer as modified, since it does not (as far as - XEmacs knows) match the contents of FILENAME, even if it matched - the former visited file. - - If FILENAME is `nil' or the empty string, that stands for "no - visited file". In this case, `set-visited-file-name' marks the - buffer as having no visited file. - - When the function `set-visited-file-name' is called interactively, - it prompts for FILENAME in the minibuffer. - - See also `clear-visited-file-modtime' and - `verify-visited-file-modtime' in *Note Buffer Modification::. - - - Variable: list-buffers-directory - This buffer-local variable records a string to display in a buffer - listing in place of the visited file name, for buffers that don't - have a visited file name. Dired buffers use this variable. - - -File: lispref.info, Node: Buffer Modification, Next: Modification Time, Prev: Buffer File Name, Up: Buffers - -Buffer Modification -=================== - - XEmacs keeps a flag called the "modified flag" for each buffer, to -record whether you have changed the text of the buffer. This flag is -set to `t' whenever you alter the contents of the buffer, and cleared -to `nil' when you save it. Thus, the flag shows whether there are -unsaved changes. The flag value is normally shown in the modeline -(*note Modeline Variables::), and controls saving (*note Saving -Buffers::) and auto-saving (*note Auto-Saving::). - - Some Lisp programs set the flag explicitly. For example, the -function `set-visited-file-name' sets the flag to `t', because the text -does not match the newly-visited file, even if it is unchanged from the -file formerly visited. - - The functions that modify the contents of buffers are described in -*Note Text::. - - - Function: buffer-modified-p &optional buffer - This function returns `t' if the buffer BUFFER has been modified - since it was last read in from a file or saved, or `nil' - otherwise. If BUFFER is not supplied, the current buffer is - tested. - - - Function: set-buffer-modified-p flag - This function marks the current buffer as modified if FLAG is - non-`nil', or as unmodified if the flag is `nil'. - - Another effect of calling this function is to cause unconditional - redisplay of the modeline for the current buffer. In fact, the - function `redraw-modeline' works by doing this: - - (set-buffer-modified-p (buffer-modified-p)) - - - Command: not-modified &optional arg - This command marks the current buffer as unmodified, and not - needing to be saved. (If ARG is non-`nil', the buffer is instead - marked as modified.) Don't use this function in programs, since it - prints a message in the echo area; use `set-buffer-modified-p' - (above) instead. - - - Function: buffer-modified-tick &optional buffer - This function returns BUFFER`s modification-count. This is a - counter that increments every time the buffer is modified. If - BUFFER is `nil' (or omitted), the current buffer is used. - - -File: lispref.info, Node: Modification Time, Next: Read Only Buffers, Prev: Buffer Modification, Up: Buffers - -Comparison of Modification Time -=============================== - - Suppose that you visit a file and make changes in its buffer, and -meanwhile the file itself is changed on disk. At this point, saving the -buffer would overwrite the changes in the file. Occasionally this may -be what you want, but usually it would lose valuable information. -XEmacs therefore checks the file's modification time using the functions -described below before saving the file. - - - Function: verify-visited-file-modtime buffer - This function compares what BUFFER has recorded for the - modification time of its visited file against the actual - modification time of the file as recorded by the operating system. - The two should be the same unless some other process has written - the file since XEmacs visited or saved it. - - The function returns `t' if the last actual modification time and - XEmacs's recorded modification time are the same, `nil' otherwise. - - - Function: clear-visited-file-modtime - This function clears out the record of the last modification time - of the file being visited by the current buffer. As a result, the - next attempt to save this buffer will not complain of a - discrepancy in file modification times. - - This function is called in `set-visited-file-name' and other - exceptional places where the usual test to avoid overwriting a - changed file should not be done. - - - Function: visited-file-modtime - This function returns the buffer's recorded last file modification - time, as a list of the form `(HIGH . LOW)'. (This is the same - format that `file-attributes' uses to return time values; see - *Note File Attributes::.) - - - Function: set-visited-file-modtime &optional time - This function updates the buffer's record of the last modification - time of the visited file, to the value specified by TIME if TIME - is not `nil', and otherwise to the last modification time of the - visited file. - - If TIME is not `nil', it should have the form `(HIGH . LOW)' or - `(HIGH LOW)', in either case containing two integers, each of - which holds 16 bits of the time. - - This function is useful if the buffer was not read from the file - normally, or if the file itself has been changed for some known - benign reason. - - - Function: ask-user-about-supersession-threat filename - This function is used to ask a user how to proceed after an - attempt to modify an obsolete buffer visiting file FILENAME. An - "obsolete buffer" is an unmodified buffer for which the associated - file on disk is newer than the last save-time of the buffer. This - means some other program has probably altered the file. - - Depending on the user's answer, the function may return normally, - in which case the modification of the buffer proceeds, or it may - signal a `file-supersession' error with data `(FILENAME)', in which - case the proposed buffer modification is not allowed. - - This function is called automatically by XEmacs on the proper - occasions. It exists so you can customize XEmacs by redefining it. - See the file `userlock.el' for the standard definition. - - See also the file locking mechanism in *Note File Locks::. - - -File: lispref.info, Node: Read Only Buffers, Next: The Buffer List, Prev: Modification Time, Up: Buffers - -Read-Only Buffers -================= - - If a buffer is "read-only", then you cannot change its contents, -although you may change your view of the contents by scrolling and -narrowing. - - Read-only buffers are used in two kinds of situations: - - * A buffer visiting a write-protected file is normally read-only. - - Here, the purpose is to show the user that editing the buffer with - the aim of saving it in the file may be futile or undesirable. - The user who wants to change the buffer text despite this can do - so after clearing the read-only flag with `C-x C-q'. - - * Modes such as Dired and Rmail make buffers read-only when altering - the contents with the usual editing commands is probably a mistake. - - The special commands of these modes bind `buffer-read-only' to - `nil' (with `let') or bind `inhibit-read-only' to `t' around the - places where they change the text. - - - Variable: buffer-read-only - This buffer-local variable specifies whether the buffer is - read-only. The buffer is read-only if this variable is non-`nil'. - - - Variable: inhibit-read-only - If this variable is non-`nil', then read-only buffers and read-only - characters may be modified. Read-only characters in a buffer are - those that have non-`nil' `read-only' properties (either text - properties or extent properties). *Note Extent Properties::, for - more information about text properties and extent properties. - - If `inhibit-read-only' is `t', all `read-only' character - properties have no effect. If `inhibit-read-only' is a list, then - `read-only' character properties have no effect if they are members - of the list (comparison is done with `eq'). - - - Command: toggle-read-only - This command changes whether the current buffer is read-only. It - is intended for interactive use; don't use it in programs. At any - given point in a program, you should know whether you want the - read-only flag on or off; so you can set `buffer-read-only' - explicitly to the proper value, `t' or `nil'. - - - Function: barf-if-buffer-read-only - This function signals a `buffer-read-only' error if the current - buffer is read-only. *Note Interactive Call::, for another way to - signal an error if the current buffer is read-only. - diff --git a/info/lispref.info-25 b/info/lispref.info-25 index 7329de7..feffc1f 100644 --- a/info/lispref.info-25 +++ b/info/lispref.info-25 @@ -50,6 +50,457 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Current Buffer, Next: Buffer Names, Prev: Buffer Basics, Up: Buffers + +The Current Buffer +================== + + There are, in general, many buffers in an Emacs session. At any +time, one of them is designated as the "current buffer". This is the +buffer in which most editing takes place, because most of the primitives +for examining or changing text in a buffer operate implicitly on the +current buffer (*note Text::). Normally the buffer that is displayed on +the screen in the selected window is the current buffer, but this is not +always so: a Lisp program can designate any buffer as current +temporarily in order to operate on its contents, without changing what +is displayed on the screen. + + The way to designate a current buffer in a Lisp program is by calling +`set-buffer'. The specified buffer remains current until a new one is +designated. + + When an editing command returns to the editor command loop, the +command loop designates the buffer displayed in the selected window as +current, to prevent confusion: the buffer that the cursor is in when +Emacs reads a command is the buffer that the command will apply to. +(*Note Command Loop::.) Therefore, `set-buffer' is not the way to +switch visibly to a different buffer so that the user can edit it. For +this, you must use the functions described in *Note Displaying +Buffers::. + + However, Lisp functions that change to a different current buffer +should not depend on the command loop to set it back afterwards. +Editing commands written in XEmacs Lisp can be called from other +programs as well as from the command loop. It is convenient for the +caller if the subroutine does not change which buffer is current +(unless, of course, that is the subroutine's purpose). Therefore, you +should normally use `set-buffer' within a `save-excursion' that will +restore the current buffer when your function is done (*note +Excursions::). Here is an example, the code for the command +`append-to-buffer' (with the documentation string abridged): + + (defun append-to-buffer (buffer start end) + "Append to specified buffer the text of the region. + ..." + (interactive "BAppend to buffer: \nr") + (let ((oldbuf (current-buffer))) + (save-excursion + (set-buffer (get-buffer-create buffer)) + (insert-buffer-substring oldbuf start end)))) + +This function binds a local variable to the current buffer, and then +`save-excursion' records the values of point, the mark, and the +original buffer. Next, `set-buffer' makes another buffer current. +Finally, `insert-buffer-substring' copies the string from the original +current buffer to the new current buffer. + + If the buffer appended to happens to be displayed in some window, +the next redisplay will show how its text has changed. Otherwise, you +will not see the change immediately on the screen. The buffer becomes +current temporarily during the execution of the command, but this does +not cause it to be displayed. + + If you make local bindings (with `let' or function arguments) for a +variable that may also have buffer-local bindings, make sure that the +same buffer is current at the beginning and at the end of the local +binding's scope. Otherwise you might bind it in one buffer and unbind +it in another! There are two ways to do this. In simple cases, you may +see that nothing ever changes the current buffer within the scope of the +binding. Otherwise, use `save-excursion' to make sure that the buffer +current at the beginning is current again whenever the variable is +unbound. + + It is not reliable to change the current buffer back with +`set-buffer', because that won't do the job if a quit happens while the +wrong buffer is current. Here is what _not_ to do: + + (let (buffer-read-only + (obuf (current-buffer))) + (set-buffer ...) + ... + (set-buffer obuf)) + +Using `save-excursion', as shown below, handles quitting, errors, and +`throw', as well as ordinary evaluation. + + (let (buffer-read-only) + (save-excursion + (set-buffer ...) + ...)) + + - Function: current-buffer + This function returns the current buffer. + + (current-buffer) + => # + + - Function: set-buffer buffer-or-name + This function makes BUFFER-OR-NAME the current buffer. It does + not display the buffer in the currently selected window or in any + other window, so the user cannot necessarily see the buffer. But + Lisp programs can in any case work on it. + + This function returns the buffer identified by BUFFER-OR-NAME. An + error is signaled if BUFFER-OR-NAME does not identify an existing + buffer. + + +File: lispref.info, Node: Buffer Names, Next: Buffer File Name, Prev: Current Buffer, Up: Buffers + +Buffer Names +============ + + Each buffer has a unique name, which is a string. Many of the +functions that work on buffers accept either a buffer or a buffer name +as an argument. Any argument called BUFFER-OR-NAME is of this sort, +and an error is signaled if it is neither a string nor a buffer. Any +argument called BUFFER must be an actual buffer object, not a name. + + Buffers that are ephemeral and generally uninteresting to the user +have names starting with a space, so that the `list-buffers' and +`buffer-menu' commands don't mention them. A name starting with space +also initially disables recording undo information; see *Note Undo::. + + - Function: buffer-name &optional buffer + This function returns the name of BUFFER as a string. If BUFFER + is not supplied, it defaults to the current buffer. + + If `buffer-name' returns `nil', it means that BUFFER has been + killed. *Note Killing Buffers::. + + (buffer-name) + => "buffers.texi" + + (setq foo (get-buffer "temp")) + => # + (kill-buffer foo) + => nil + (buffer-name foo) + => nil + foo + => # + + - Command: rename-buffer newname &optional unique + This function renames the current buffer to NEWNAME. An error is + signaled if NEWNAME is not a string, or if there is already a + buffer with that name. The function returns `nil'. + + Ordinarily, `rename-buffer' signals an error if NEWNAME is already + in use. However, if UNIQUE is non-`nil', it modifies NEWNAME to + make a name that is not in use. Interactively, you can make + UNIQUE non-`nil' with a numeric prefix argument. + + One application of this command is to rename the `*shell*' buffer + to some other name, thus making it possible to create a second + shell buffer under the name `*shell*'. + + - Function: get-buffer buffer-or-name + This function returns the buffer specified by BUFFER-OR-NAME. If + BUFFER-OR-NAME is a string and there is no buffer with that name, + the value is `nil'. If BUFFER-OR-NAME is a buffer, it is returned + as given. (That is not very useful, so the argument is usually a + name.) For example: + + (setq b (get-buffer "lewis")) + => # + (get-buffer b) + => # + (get-buffer "Frazzle-nots") + => nil + + See also the function `get-buffer-create' in *Note Creating + Buffers::. + + - Function: generate-new-buffer-name starting-name &optional ignore + This function returns a name that would be unique for a new + buffer--but does not create the buffer. It starts with + STARTING-NAME, and produces a name not currently in use for any + buffer by appending a number inside of `<...>'. + + If IGNORE is given, it specifies a name that is okay to use (if it + is in the sequence to be tried), even if a buffer with that name + exists. + + See the related function `generate-new-buffer' in *Note Creating + Buffers::. + + +File: lispref.info, Node: Buffer File Name, Next: Buffer Modification, Prev: Buffer Names, Up: Buffers + +Buffer File Name +================ + + The "buffer file name" is the name of the file that is visited in +that buffer. When a buffer is not visiting a file, its buffer file name +is `nil'. Most of the time, the buffer name is the same as the +nondirectory part of the buffer file name, but the buffer file name and +the buffer name are distinct and can be set independently. *Note +Visiting Files::. + + - Function: buffer-file-name &optional buffer + This function returns the absolute file name of the file that + BUFFER is visiting. If BUFFER is not visiting any file, + `buffer-file-name' returns `nil'. If BUFFER is not supplied, it + defaults to the current buffer. + + (buffer-file-name (other-buffer)) + => "/usr/user/lewis/manual/files.texi" + + - Variable: buffer-file-name + This buffer-local variable contains the name of the file being + visited in the current buffer, or `nil' if it is not visiting a + file. It is a permanent local, unaffected by + `kill-local-variables'. + + buffer-file-name + => "/usr/user/lewis/manual/buffers.texi" + + It is risky to change this variable's value without doing various + other things. See the definition of `set-visited-file-name' in + `files.el'; some of the things done there, such as changing the + buffer name, are not strictly necessary, but others are essential + to avoid confusing XEmacs. + + - Variable: buffer-file-truename + This buffer-local variable holds the truename of the file visited + in the current buffer, or `nil' if no file is visited. It is a + permanent local, unaffected by `kill-local-variables'. *Note + Truenames::. + + - Variable: buffer-file-number + This buffer-local variable holds the file number and directory + device number of the file visited in the current buffer, or `nil' + if no file or a nonexistent file is visited. It is a permanent + local, unaffected by `kill-local-variables'. *Note Truenames::. + + The value is normally a list of the form `(FILENUM DEVNUM)'. This + pair of numbers uniquely identifies the file among all files + accessible on the system. See the function `file-attributes', in + *Note File Attributes::, for more information about them. + + - Function: get-file-buffer filename + This function returns the buffer visiting file FILENAME. If there + is no such buffer, it returns `nil'. The argument FILENAME, which + must be a string, is expanded (*note File Name Expansion::), then + compared against the visited file names of all live buffers. + + (get-file-buffer "buffers.texi") + => # + + In unusual circumstances, there can be more than one buffer + visiting the same file name. In such cases, this function returns + the first such buffer in the buffer list. + + - Command: set-visited-file-name filename + If FILENAME is a non-empty string, this function changes the name + of the file visited in current buffer to FILENAME. (If the buffer + had no visited file, this gives it one.) The _next time_ the + buffer is saved it will go in the newly-specified file. This + command marks the buffer as modified, since it does not (as far as + XEmacs knows) match the contents of FILENAME, even if it matched + the former visited file. + + If FILENAME is `nil' or the empty string, that stands for "no + visited file". In this case, `set-visited-file-name' marks the + buffer as having no visited file. + + When the function `set-visited-file-name' is called interactively, + it prompts for FILENAME in the minibuffer. + + See also `clear-visited-file-modtime' and + `verify-visited-file-modtime' in *Note Buffer Modification::. + + - Variable: list-buffers-directory + This buffer-local variable records a string to display in a buffer + listing in place of the visited file name, for buffers that don't + have a visited file name. Dired buffers use this variable. + + +File: lispref.info, Node: Buffer Modification, Next: Modification Time, Prev: Buffer File Name, Up: Buffers + +Buffer Modification +=================== + + XEmacs keeps a flag called the "modified flag" for each buffer, to +record whether you have changed the text of the buffer. This flag is +set to `t' whenever you alter the contents of the buffer, and cleared +to `nil' when you save it. Thus, the flag shows whether there are +unsaved changes. The flag value is normally shown in the modeline +(*note Modeline Variables::), and controls saving (*note Saving +Buffers::) and auto-saving (*note Auto-Saving::). + + Some Lisp programs set the flag explicitly. For example, the +function `set-visited-file-name' sets the flag to `t', because the text +does not match the newly-visited file, even if it is unchanged from the +file formerly visited. + + The functions that modify the contents of buffers are described in +*Note Text::. + + - Function: buffer-modified-p &optional buffer + This function returns `t' if the buffer BUFFER has been modified + since it was last read in from a file or saved, or `nil' + otherwise. If BUFFER is not supplied, the current buffer is + tested. + + - Function: set-buffer-modified-p flag + This function marks the current buffer as modified if FLAG is + non-`nil', or as unmodified if the flag is `nil'. + + Another effect of calling this function is to cause unconditional + redisplay of the modeline for the current buffer. In fact, the + function `redraw-modeline' works by doing this: + + (set-buffer-modified-p (buffer-modified-p)) + + - Command: not-modified &optional arg + This command marks the current buffer as unmodified, and not + needing to be saved. (If ARG is non-`nil', the buffer is instead + marked as modified.) Don't use this function in programs, since it + prints a message in the echo area; use `set-buffer-modified-p' + (above) instead. + + - Function: buffer-modified-tick &optional buffer + This function returns BUFFER`s modification-count. This is a + counter that increments every time the buffer is modified. If + BUFFER is `nil' (or omitted), the current buffer is used. + + +File: lispref.info, Node: Modification Time, Next: Read Only Buffers, Prev: Buffer Modification, Up: Buffers + +Comparison of Modification Time +=============================== + + Suppose that you visit a file and make changes in its buffer, and +meanwhile the file itself is changed on disk. At this point, saving the +buffer would overwrite the changes in the file. Occasionally this may +be what you want, but usually it would lose valuable information. +XEmacs therefore checks the file's modification time using the functions +described below before saving the file. + + - Function: verify-visited-file-modtime buffer + This function compares what BUFFER has recorded for the + modification time of its visited file against the actual + modification time of the file as recorded by the operating system. + The two should be the same unless some other process has written + the file since XEmacs visited or saved it. + + The function returns `t' if the last actual modification time and + XEmacs's recorded modification time are the same, `nil' otherwise. + + - Function: clear-visited-file-modtime + This function clears out the record of the last modification time + of the file being visited by the current buffer. As a result, the + next attempt to save this buffer will not complain of a + discrepancy in file modification times. + + This function is called in `set-visited-file-name' and other + exceptional places where the usual test to avoid overwriting a + changed file should not be done. + + - Function: visited-file-modtime + This function returns the buffer's recorded last file modification + time, as a list of the form `(HIGH . LOW)'. (This is the same + format that `file-attributes' uses to return time values; see + *Note File Attributes::.) + + - Function: set-visited-file-modtime &optional time + This function updates the buffer's record of the last modification + time of the visited file, to the value specified by TIME if TIME + is not `nil', and otherwise to the last modification time of the + visited file. + + If TIME is not `nil', it should have the form `(HIGH . LOW)' or + `(HIGH LOW)', in either case containing two integers, each of + which holds 16 bits of the time. + + This function is useful if the buffer was not read from the file + normally, or if the file itself has been changed for some known + benign reason. + + - Function: ask-user-about-supersession-threat filename + This function is used to ask a user how to proceed after an + attempt to modify an obsolete buffer visiting file FILENAME. An + "obsolete buffer" is an unmodified buffer for which the associated + file on disk is newer than the last save-time of the buffer. This + means some other program has probably altered the file. + + Depending on the user's answer, the function may return normally, + in which case the modification of the buffer proceeds, or it may + signal a `file-supersession' error with data `(FILENAME)', in which + case the proposed buffer modification is not allowed. + + This function is called automatically by XEmacs on the proper + occasions. It exists so you can customize XEmacs by redefining it. + See the file `userlock.el' for the standard definition. + + See also the file locking mechanism in *Note File Locks::. + + +File: lispref.info, Node: Read Only Buffers, Next: The Buffer List, Prev: Modification Time, Up: Buffers + +Read-Only Buffers +================= + + If a buffer is "read-only", then you cannot change its contents, +although you may change your view of the contents by scrolling and +narrowing. + + Read-only buffers are used in two kinds of situations: + + * A buffer visiting a write-protected file is normally read-only. + + Here, the purpose is to show the user that editing the buffer with + the aim of saving it in the file may be futile or undesirable. + The user who wants to change the buffer text despite this can do + so after clearing the read-only flag with `C-x C-q'. + + * Modes such as Dired and Rmail make buffers read-only when altering + the contents with the usual editing commands is probably a mistake. + + The special commands of these modes bind `buffer-read-only' to + `nil' (with `let') or bind `inhibit-read-only' to `t' around the + places where they change the text. + + - Variable: buffer-read-only + This buffer-local variable specifies whether the buffer is + read-only. The buffer is read-only if this variable is non-`nil'. + + - Variable: inhibit-read-only + If this variable is non-`nil', then read-only buffers and read-only + characters may be modified. Read-only characters in a buffer are + those that have non-`nil' `read-only' properties (either text + properties or extent properties). *Note Extent Properties::, for + more information about text properties and extent properties. + + If `inhibit-read-only' is `t', all `read-only' character + properties have no effect. If `inhibit-read-only' is a list, then + `read-only' character properties have no effect if they are members + of the list (comparison is done with `eq'). + + - Command: toggle-read-only + This command changes whether the current buffer is read-only. It + is intended for interactive use; don't use it in programs. At any + given point in a program, you should know whether you want the + read-only flag on or off; so you can set `buffer-read-only' + explicitly to the proper value, `t' or `nil'. + + - Function: barf-if-buffer-read-only + This function signals a `buffer-read-only' error if the current + buffer is read-only. *Note Interactive Call::, for another way to + signal an error if the current buffer is read-only. + + File: lispref.info, Node: The Buffer List, Next: Creating Buffers, Prev: Read Only Buffers, Up: Buffers The Buffer List @@ -695,520 +1146,3 @@ among all the siblings.) This function always returns `nil'. - -File: lispref.info, Node: Selecting Windows, Next: Cyclic Window Ordering, Prev: Deleting Windows, Up: Windows - -Selecting Windows -================= - - When a window is selected, the buffer in the window becomes the -current buffer, and the cursor will appear in it. - - - Function: selected-window &optional device - This function returns the selected window. This is the window in - which the cursor appears and to which many commands apply. Each - separate device can have its own selected window, which is - remembered as focus changes from device to device. Optional - argument DEVICE specifies which device to return the selected - window for, and defaults to the selected device. - - - Function: select-window window &optional norecord - This function makes WINDOW the selected window. The cursor then - appears in WINDOW (on redisplay). The buffer being displayed in - WINDOW is immediately designated the current buffer. - - If optional argument NORECORD is non-`nil' then the global and - per-frame buffer orderings are not modified, as by the function - `record-buffer'. - - The return value is WINDOW. - - (setq w (next-window)) - (select-window w) - => # - - - Macro: save-selected-window forms... - This macro records the selected window, executes FORMS in - sequence, then restores the earlier selected window. It does not - save or restore anything about the sizes, arrangement or contents - of windows; therefore, if the FORMS change them, the changes are - permanent. - - The following functions choose one of the windows on the screen, -offering various criteria for the choice. - - - Function: get-lru-window &optional frame - This function returns the window least recently "used" (that is, - selected). The selected window is always the most recently used - window. - - The selected window can be the least recently used window if it is - the only window. A newly created window becomes the least - recently used window until it is selected. A minibuffer window is - never a candidate. - - The argument FRAME controls which windows are considered. - - * If it is `nil', consider windows on the selected frame. - - * If it is `t', consider windows on all frames. - - * If it is `visible', consider windows on all visible frames. - - * If it is 0, consider windows on all visible or iconified - frames. - - * If it is a frame, consider windows on that frame. - - - Function: get-largest-window &optional frame - This function returns the window with the largest area (height - times width). If there are no side-by-side windows, then this is - the window with the most lines. A minibuffer window is never a - candidate. - - If there are two windows of the same size, then the function - returns the window that is first in the cyclic ordering of windows - (see following section), starting from the selected window. - - The argument FRAME controls which set of windows are considered. - See `get-lru-window', above. - - -File: lispref.info, Node: Cyclic Window Ordering, Next: Buffers and Windows, Prev: Selecting Windows, Up: Windows - -Cyclic Ordering of Windows -========================== - - When you use the command `C-x o' (`other-window') to select the next -window, it moves through all the windows on the screen in a specific -cyclic order. For any given configuration of windows, this order never -varies. It is called the "cyclic ordering of windows". - - This ordering generally goes from top to bottom, and from left to -right. But it may go down first or go right first, depending on the -order in which the windows were split. - - If the first split was vertical (into windows one above each other), -and then the subwindows were split horizontally, then the ordering is -left to right in the top of the frame, and then left to right in the -next lower part of the frame, and so on. If the first split was -horizontal, the ordering is top to bottom in the left part, and so on. -In general, within each set of siblings at any level in the window tree, -the order is left to right, or top to bottom. - - - Function: next-window &optional window minibuf all-frames - This function returns the window following WINDOW in the cyclic - ordering of windows. This is the window that `C-x o' would select - if typed when WINDOW is selected. If WINDOW is the only window - visible, then this function returns WINDOW. If omitted, WINDOW - defaults to the selected window. - - The value of the argument MINIBUF determines whether the - minibuffer is included in the window order. Normally, when - MINIBUF is `nil', the minibuffer is included if it is currently - active; this is the behavior of `C-x o'. (The minibuffer window - is active while the minibuffer is in use. *Note Minibuffers::.) - - If MINIBUF is `t', then the cyclic ordering includes the - minibuffer window even if it is not active. - - If MINIBUF is neither `t' nor `nil', then the minibuffer window is - not included even if it is active. - - The argument ALL-FRAMES specifies which frames to consider. Here - are the possible values and their meanings: - - `nil' - Consider all the windows in WINDOW's frame, plus the - minibuffer used by that frame even if it lies in some other - frame. - - `t' - Consider all windows in all existing frames. - - `visible' - Consider all windows in all visible frames. (To get useful - results, you must ensure WINDOW is in a visible frame.) - - 0 - Consider all windows in all visible or iconified frames. - - anything else - Consider precisely the windows in WINDOW's frame, and no - others. - - This example assumes there are two windows, both displaying the - buffer `windows.texi': - - (selected-window) - => # - (next-window (selected-window)) - => # - (next-window (next-window (selected-window))) - => # - - - Function: previous-window &optional window minibuf all-frames - This function returns the window preceding WINDOW in the cyclic - ordering of windows. The other arguments specify which windows to - include in the cycle, as in `next-window'. - - - Command: other-window count &optional frame - This function selects the COUNTth following window in the cyclic - order. If count is negative, then it selects the -COUNTth - preceding window. It returns `nil'. - - In an interactive call, COUNT is the numeric prefix argument. - - The argument FRAME controls which set of windows are considered. - * If it is `nil' or omitted, then windows on the selected frame - are considered. - - * If it is a frame, then windows on that frame are considered. - - * If it is `t', then windows on all frames that currently exist - (including invisible and iconified frames) are considered. - - * If it is the symbol `visible', then windows on all visible - frames are considered. - - * If it is the number 0, then windows on all visible and - iconified frames are considered. - - * If it is any other value, then the behavior is undefined. - - - Function: walk-windows proc &optional minibuf all-frames - This function cycles through all windows, calling `proc' once for - each window with the window as its sole argument. - - The optional arguments MINIBUF and ALL-FRAMES specify the set of - windows to include in the scan. See `next-window', above, for - details. - - -File: lispref.info, Node: Buffers and Windows, Next: Displaying Buffers, Prev: Cyclic Window Ordering, Up: Windows - -Buffers and Windows -=================== - - This section describes low-level functions to examine windows or to -display buffers in windows in a precisely controlled fashion. *Note -Displaying Buffers::, for related functions that find a window to use -and specify a buffer for it. The functions described there are easier -to use than these, but they employ heuristics in choosing or creating a -window; use these functions when you need complete control. - - - Function: set-window-buffer window buffer-or-name - This function makes WINDOW display BUFFER-OR-NAME as its contents. - It returns `nil'. - - (set-window-buffer (selected-window) "foo") - => nil - - - Function: window-buffer &optional window - This function returns the buffer that WINDOW is displaying. If - WINDOW is omitted, this function returns the buffer for the - selected window. - - (window-buffer) - => # - - - Function: get-buffer-window buffer-or-name &optional frame - This function returns a window currently displaying - BUFFER-OR-NAME, or `nil' if there is none. If there are several - such windows, then the function returns the first one in the - cyclic ordering of windows, starting from the selected window. - *Note Cyclic Window Ordering::. - - The argument ALL-FRAMES controls which windows to consider. - - * If it is `nil', consider windows on the selected frame. - - * If it is `t', consider windows on all frames. - - * If it is `visible', consider windows on all visible frames. - - * If it is 0, consider windows on all visible or iconified - frames. - - * If it is a frame, consider windows on that frame. - - -File: lispref.info, Node: Displaying Buffers, Next: Choosing Window, Prev: Buffers and Windows, Up: Windows - -Displaying Buffers in Windows -============================= - - In this section we describe convenient functions that choose a window -automatically and use it to display a specified buffer. These functions -can also split an existing window in certain circumstances. We also -describe variables that parameterize the heuristics used for choosing a -window. *Note Buffers and Windows::, for low-level functions that give -you more precise control. - - Do not use the functions in this section in order to make a buffer -current so that a Lisp program can access or modify it; they are too -drastic for that purpose, since they change the display of buffers in -windows, which is gratuitous and will surprise the user. Instead, use -`set-buffer' (*note Current Buffer::) and `save-excursion' (*note -Excursions::), which designate buffers as current for programmed access -without affecting the display of buffers in windows. - - - Command: switch-to-buffer buffer-or-name &optional norecord - This function makes BUFFER-OR-NAME the current buffer, and also - displays the buffer in the selected window. This means that a - human can see the buffer and subsequent keyboard commands will - apply to it. Contrast this with `set-buffer', which makes - BUFFER-OR-NAME the current buffer but does not display it in the - selected window. *Note Current Buffer::. - - If BUFFER-OR-NAME does not identify an existing buffer, then a new - buffer by that name is created. The major mode for the new buffer - is set according to the variable `default-major-mode'. *Note Auto - Major Mode::. - - Normally the specified buffer is put at the front of the buffer - list. This affects the operation of `other-buffer'. However, if - NORECORD is non-`nil', this is not done. *Note The Buffer List::. - - The `switch-to-buffer' function is often used interactively, as - the binding of `C-x b'. It is also used frequently in programs. - It always returns `nil'. - - - Command: switch-to-buffer-other-window buffer-or-name - This function makes BUFFER-OR-NAME the current buffer and displays - it in a window not currently selected. It then selects that - window. The handling of the buffer is the same as in - `switch-to-buffer'. - - The currently selected window is absolutely never used to do the - job. If it is the only window, then it is split to make a - distinct window for this purpose. If the selected window is - already displaying the buffer, then it continues to do so, but - another window is nonetheless found to display it in as well. - - - Function: pop-to-buffer buffer-or-name &optional other-window - on-frame - This function makes BUFFER-OR-NAME the current buffer and switches - to it in some window, preferably not the window previously - selected. The "popped-to" window becomes the selected window - within its frame. - - If the variable `pop-up-frames' is non-`nil', `pop-to-buffer' - looks for a window in any visible frame already displaying the - buffer; if there is one, it returns that window and makes it be - selected within its frame. If there is none, it creates a new - frame and displays the buffer in it. - - If `pop-up-frames' is `nil', then `pop-to-buffer' operates - entirely within the selected frame. (If the selected frame has - just a minibuffer, `pop-to-buffer' operates within the most - recently selected frame that was not just a minibuffer.) - - If the variable `pop-up-windows' is non-`nil', windows may be - split to create a new window that is different from the original - window. For details, see *Note Choosing Window::. - - If OTHER-WINDOW is non-`nil', `pop-to-buffer' finds or creates - another window even if BUFFER-OR-NAME is already visible in the - selected window. Thus BUFFER-OR-NAME could end up displayed in - two windows. On the other hand, if BUFFER-OR-NAME is already - displayed in the selected window and OTHER-WINDOW is `nil', then - the selected window is considered sufficient display for - BUFFER-OR-NAME, so that nothing needs to be done. - - All the variables that affect `display-buffer' affect - `pop-to-buffer' as well. *Note Choosing Window::. - - If BUFFER-OR-NAME is a string that does not name an existing - buffer, a buffer by that name is created. The major mode for the - new buffer is set according to the variable `default-major-mode'. - *Note Auto Major Mode::. - - If ON-FRAME is non-`nil', it is the frame to pop to this buffer on. - - An example use of this function is found at the end of *Note - Filter Functions::. - - - Command: replace-buffer-in-windows buffer - This function replaces BUFFER with some other buffer in all - windows displaying it. The other buffer used is chosen with - `other-buffer'. In the usual applications of this function, you - don't care which other buffer is used; you just want to make sure - that BUFFER is no longer displayed. - - This function returns `nil'. - - -File: lispref.info, Node: Choosing Window, Next: Window Point, Prev: Displaying Buffers, Up: Windows - -Choosing a Window for Display -============================= - - This section describes the basic facility that chooses a window to -display a buffer in--`display-buffer'. All the higher-level functions -and commands use this subroutine. Here we describe how to use -`display-buffer' and how to customize it. - - - Command: display-buffer buffer-or-name &optional not-this-window - This command makes BUFFER-OR-NAME appear in some window, like - `pop-to-buffer', but it does not select that window and does not - make the buffer current. The identity of the selected window is - unaltered by this function. - - If NOT-THIS-WINDOW is non-`nil', it means to display the specified - buffer in a window other than the selected one, even if it is - already on display in the selected window. This can cause the - buffer to appear in two windows at once. Otherwise, if - BUFFER-OR-NAME is already being displayed in any window, that is - good enough, so this function does nothing. - - `display-buffer' returns the window chosen to display - BUFFER-OR-NAME. - - Precisely how `display-buffer' finds or creates a window depends on - the variables described below. - - A window can be marked as "dedicated" to a particular buffer. Then -XEmacs will not automatically change which buffer appears in the -window, such as `display-buffer' might normally do. - - - Function: window-dedicated-p window - This function returns WINDOW's dedicated object, usually `t' or - `nil'. - - - Function: set-window-buffer-dedicated window buffer - This function makes WINDOW display BUFFER and be dedicated to that - buffer. Then XEmacs will not automatically change which buffer - appears in WINDOW. If BUFFER is `nil', this function makes WINDOW - not be dedicated (but doesn't change which buffer appears in it - currently). - - - User Option: pop-up-windows - This variable controls whether `display-buffer' makes new windows. - If it is non-`nil' and there is only one window, then that window - is split. If it is `nil', then `display-buffer' does not split - the single window, but uses it whole. - - - User Option: split-height-threshold - This variable determines when `display-buffer' may split a window, - if there are multiple windows. `display-buffer' always splits the - largest window if it has at least this many lines. If the largest - window is not this tall, it is split only if it is the sole window - and `pop-up-windows' is non-`nil'. - - - User Option: pop-up-frames - This variable controls whether `display-buffer' makes new frames. - If it is non-`nil', `display-buffer' looks for an existing window - already displaying the desired buffer, on any visible frame. If - it finds one, it returns that window. Otherwise it makes a new - frame. The variables `pop-up-windows' and - `split-height-threshold' do not matter if `pop-up-frames' is - non-`nil'. - - If `pop-up-frames' is `nil', then `display-buffer' either splits a - window or reuses one. - - *Note Frames::, for more information. - - - Variable: pop-up-frame-function - This variable specifies how to make a new frame if `pop-up-frames' - is non-`nil'. - - Its value should be a function of no arguments. When - `display-buffer' makes a new frame, it does so by calling that - function, which should return a frame. The default value of the - variable is a function that creates a frame using properties from - `pop-up-frame-plist'. - - - Variable: pop-up-frame-plist - This variable holds a plist specifying frame properties used when - `display-buffer' makes a new frame. *Note Frame Properties::, for - more information about frame properties. - - - Variable: special-display-buffer-names - A list of buffer names for buffers that should be displayed - specially. If the buffer's name is in this list, `display-buffer' - handles the buffer specially. - - By default, special display means to give the buffer a dedicated - frame. - - If an element is a list, instead of a string, then the CAR of the - list is the buffer name, and the rest of the list says how to - create the frame. There are two possibilities for the rest of the - list. It can be a plist, specifying frame properties, or it can - contain a function and arguments to give to it. (The function's - first argument is always the buffer to be displayed; the arguments - from the list come after that.) - - - Variable: special-display-regexps - A list of regular expressions that specify buffers that should be - displayed specially. If the buffer's name matches any of the - regular expressions in this list, `display-buffer' handles the - buffer specially. - - By default, special display means to give the buffer a dedicated - frame. - - If an element is a list, instead of a string, then the CAR of the - list is the regular expression, and the rest of the list says how - to create the frame. See above, under - `special-display-buffer-names'. - - - Variable: special-display-function - This variable holds the function to call to display a buffer - specially. It receives the buffer as an argument, and should - return the window in which it is displayed. - - The default value of this variable is - `special-display-popup-frame'. - - - Function: special-display-popup-frame buffer - This function makes BUFFER visible in a frame of its own. If - BUFFER is already displayed in a window in some frame, it makes - the frame visible and raises it, to use that window. Otherwise, it - creates a frame that will be dedicated to BUFFER. - - This function uses an existing window displaying BUFFER whether or - not it is in a frame of its own; but if you set up the above - variables in your init file, before BUFFER was created, then - presumably the window was previously made by this function. - - - User Option: special-display-frame-plist - This variable holds frame properties for - `special-display-popup-frame' to use when it creates a frame. - - - Variable: same-window-buffer-names - A list of buffer names for buffers that should be displayed in the - selected window. If the buffer's name is in this list, - `display-buffer' handles the buffer by switching to it in the - selected window. - - - Variable: same-window-regexps - A list of regular expressions that specify buffers that should be - displayed in the selected window. If the buffer's name matches - any of the regular expressions in this list, `display-buffer' - handles the buffer by switching to it in the selected window. - - - Variable: display-buffer-function - This variable is the most flexible way to customize the behavior of - `display-buffer'. If it is non-`nil', it should be a function - that `display-buffer' calls to do the work. The function should - accept two arguments, the same two arguments that `display-buffer' - received. It should choose or create a window, display the - specified buffer, and then return the window. - - This hook takes precedence over all the other options and hooks - described above. - - A window can be marked as "dedicated" to its buffer. Then -`display-buffer' does not try to use that window. - - - Function: window-dedicated-p window - This function returns `t' if WINDOW is marked as dedicated; - otherwise `nil'. - - - Function: set-window-dedicated-p window flag - This function marks WINDOW as dedicated if FLAG is non-`nil', and - nondedicated otherwise. - diff --git a/info/lispref.info-26 b/info/lispref.info-26 index 235bc4a..61c2e38 100644 --- a/info/lispref.info-26 +++ b/info/lispref.info-26 @@ -50,6 +50,523 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Selecting Windows, Next: Cyclic Window Ordering, Prev: Deleting Windows, Up: Windows + +Selecting Windows +================= + + When a window is selected, the buffer in the window becomes the +current buffer, and the cursor will appear in it. + + - Function: selected-window &optional device + This function returns the selected window. This is the window in + which the cursor appears and to which many commands apply. Each + separate device can have its own selected window, which is + remembered as focus changes from device to device. Optional + argument DEVICE specifies which device to return the selected + window for, and defaults to the selected device. + + - Function: select-window window &optional norecord + This function makes WINDOW the selected window. The cursor then + appears in WINDOW (on redisplay). The buffer being displayed in + WINDOW is immediately designated the current buffer. + + If optional argument NORECORD is non-`nil' then the global and + per-frame buffer orderings are not modified, as by the function + `record-buffer'. + + The return value is WINDOW. + + (setq w (next-window)) + (select-window w) + => # + + - Macro: save-selected-window forms... + This macro records the selected window, executes FORMS in + sequence, then restores the earlier selected window. It does not + save or restore anything about the sizes, arrangement or contents + of windows; therefore, if the FORMS change them, the changes are + permanent. + + The following functions choose one of the windows on the screen, +offering various criteria for the choice. + + - Function: get-lru-window &optional frame + This function returns the window least recently "used" (that is, + selected). The selected window is always the most recently used + window. + + The selected window can be the least recently used window if it is + the only window. A newly created window becomes the least + recently used window until it is selected. A minibuffer window is + never a candidate. + + The argument FRAME controls which windows are considered. + + * If it is `nil', consider windows on the selected frame. + + * If it is `t', consider windows on all frames. + + * If it is `visible', consider windows on all visible frames. + + * If it is 0, consider windows on all visible or iconified + frames. + + * If it is a frame, consider windows on that frame. + + - Function: get-largest-window &optional frame + This function returns the window with the largest area (height + times width). If there are no side-by-side windows, then this is + the window with the most lines. A minibuffer window is never a + candidate. + + If there are two windows of the same size, then the function + returns the window that is first in the cyclic ordering of windows + (see following section), starting from the selected window. + + The argument FRAME controls which set of windows are considered. + See `get-lru-window', above. + + +File: lispref.info, Node: Cyclic Window Ordering, Next: Buffers and Windows, Prev: Selecting Windows, Up: Windows + +Cyclic Ordering of Windows +========================== + + When you use the command `C-x o' (`other-window') to select the next +window, it moves through all the windows on the screen in a specific +cyclic order. For any given configuration of windows, this order never +varies. It is called the "cyclic ordering of windows". + + This ordering generally goes from top to bottom, and from left to +right. But it may go down first or go right first, depending on the +order in which the windows were split. + + If the first split was vertical (into windows one above each other), +and then the subwindows were split horizontally, then the ordering is +left to right in the top of the frame, and then left to right in the +next lower part of the frame, and so on. If the first split was +horizontal, the ordering is top to bottom in the left part, and so on. +In general, within each set of siblings at any level in the window tree, +the order is left to right, or top to bottom. + + - Function: next-window &optional window minibuf all-frames + This function returns the window following WINDOW in the cyclic + ordering of windows. This is the window that `C-x o' would select + if typed when WINDOW is selected. If WINDOW is the only window + visible, then this function returns WINDOW. If omitted, WINDOW + defaults to the selected window. + + The value of the argument MINIBUF determines whether the + minibuffer is included in the window order. Normally, when + MINIBUF is `nil', the minibuffer is included if it is currently + active; this is the behavior of `C-x o'. (The minibuffer window + is active while the minibuffer is in use. *Note Minibuffers::.) + + If MINIBUF is `t', then the cyclic ordering includes the + minibuffer window even if it is not active. + + If MINIBUF is neither `t' nor `nil', then the minibuffer window is + not included even if it is active. + + The argument ALL-FRAMES specifies which frames to consider. Here + are the possible values and their meanings: + + `nil' + Consider all the windows in WINDOW's frame, plus the + minibuffer used by that frame even if it lies in some other + frame. + + `t' + Consider all windows in all existing frames. + + `visible' + Consider all windows in all visible frames. (To get useful + results, you must ensure WINDOW is in a visible frame.) + + 0 + Consider all windows in all visible or iconified frames. + + anything else + Consider precisely the windows in WINDOW's frame, and no + others. + + This example assumes there are two windows, both displaying the + buffer `windows.texi': + + (selected-window) + => # + (next-window (selected-window)) + => # + (next-window (next-window (selected-window))) + => # + + - Function: previous-window &optional window minibuf all-frames + This function returns the window preceding WINDOW in the cyclic + ordering of windows. The other arguments specify which windows to + include in the cycle, as in `next-window'. + + - Command: other-window count &optional frame + This function selects the COUNTth following window in the cyclic + order. If count is negative, then it selects the -COUNTth + preceding window. It returns `nil'. + + In an interactive call, COUNT is the numeric prefix argument. + + The argument FRAME controls which set of windows are considered. + * If it is `nil' or omitted, then windows on the selected frame + are considered. + + * If it is a frame, then windows on that frame are considered. + + * If it is `t', then windows on all frames that currently exist + (including invisible and iconified frames) are considered. + + * If it is the symbol `visible', then windows on all visible + frames are considered. + + * If it is the number 0, then windows on all visible and + iconified frames are considered. + + * If it is any other value, then the behavior is undefined. + + - Function: walk-windows proc &optional minibuf all-frames + This function cycles through all windows, calling `proc' once for + each window with the window as its sole argument. + + The optional arguments MINIBUF and ALL-FRAMES specify the set of + windows to include in the scan. See `next-window', above, for + details. + + +File: lispref.info, Node: Buffers and Windows, Next: Displaying Buffers, Prev: Cyclic Window Ordering, Up: Windows + +Buffers and Windows +=================== + + This section describes low-level functions to examine windows or to +display buffers in windows in a precisely controlled fashion. *Note +Displaying Buffers::, for related functions that find a window to use +and specify a buffer for it. The functions described there are easier +to use than these, but they employ heuristics in choosing or creating a +window; use these functions when you need complete control. + + - Function: set-window-buffer window buffer-or-name + This function makes WINDOW display BUFFER-OR-NAME as its contents. + It returns `nil'. + + (set-window-buffer (selected-window) "foo") + => nil + + - Function: window-buffer &optional window + This function returns the buffer that WINDOW is displaying. If + WINDOW is omitted, this function returns the buffer for the + selected window. + + (window-buffer) + => # + + - Function: get-buffer-window buffer-or-name &optional frame + This function returns a window currently displaying + BUFFER-OR-NAME, or `nil' if there is none. If there are several + such windows, then the function returns the first one in the + cyclic ordering of windows, starting from the selected window. + *Note Cyclic Window Ordering::. + + The argument ALL-FRAMES controls which windows to consider. + + * If it is `nil', consider windows on the selected frame. + + * If it is `t', consider windows on all frames. + + * If it is `visible', consider windows on all visible frames. + + * If it is 0, consider windows on all visible or iconified + frames. + + * If it is a frame, consider windows on that frame. + + +File: lispref.info, Node: Displaying Buffers, Next: Choosing Window, Prev: Buffers and Windows, Up: Windows + +Displaying Buffers in Windows +============================= + + In this section we describe convenient functions that choose a window +automatically and use it to display a specified buffer. These functions +can also split an existing window in certain circumstances. We also +describe variables that parameterize the heuristics used for choosing a +window. *Note Buffers and Windows::, for low-level functions that give +you more precise control. + + Do not use the functions in this section in order to make a buffer +current so that a Lisp program can access or modify it; they are too +drastic for that purpose, since they change the display of buffers in +windows, which is gratuitous and will surprise the user. Instead, use +`set-buffer' (*note Current Buffer::) and `save-excursion' (*note +Excursions::), which designate buffers as current for programmed access +without affecting the display of buffers in windows. + + - Command: switch-to-buffer buffer-or-name &optional norecord + This function makes BUFFER-OR-NAME the current buffer, and also + displays the buffer in the selected window. This means that a + human can see the buffer and subsequent keyboard commands will + apply to it. Contrast this with `set-buffer', which makes + BUFFER-OR-NAME the current buffer but does not display it in the + selected window. *Note Current Buffer::. + + If BUFFER-OR-NAME does not identify an existing buffer, then a new + buffer by that name is created. The major mode for the new buffer + is set according to the variable `default-major-mode'. *Note Auto + Major Mode::. + + Normally the specified buffer is put at the front of the buffer + list. This affects the operation of `other-buffer'. However, if + NORECORD is non-`nil', this is not done. *Note The Buffer List::. + + The `switch-to-buffer' function is often used interactively, as + the binding of `C-x b'. It is also used frequently in programs. + It always returns `nil'. + + - Command: switch-to-buffer-other-window buffer-or-name + This function makes BUFFER-OR-NAME the current buffer and displays + it in a window not currently selected. It then selects that + window. The handling of the buffer is the same as in + `switch-to-buffer'. + + The currently selected window is absolutely never used to do the + job. If it is the only window, then it is split to make a + distinct window for this purpose. If the selected window is + already displaying the buffer, then it continues to do so, but + another window is nonetheless found to display it in as well. + + - Function: pop-to-buffer buffer-or-name &optional other-window + on-frame + This function makes BUFFER-OR-NAME the current buffer and switches + to it in some window, preferably not the window previously + selected. The "popped-to" window becomes the selected window + within its frame. + + If the variable `pop-up-frames' is non-`nil', `pop-to-buffer' + looks for a window in any visible frame already displaying the + buffer; if there is one, it returns that window and makes it be + selected within its frame. If there is none, it creates a new + frame and displays the buffer in it. + + If `pop-up-frames' is `nil', then `pop-to-buffer' operates + entirely within the selected frame. (If the selected frame has + just a minibuffer, `pop-to-buffer' operates within the most + recently selected frame that was not just a minibuffer.) + + If the variable `pop-up-windows' is non-`nil', windows may be + split to create a new window that is different from the original + window. For details, see *Note Choosing Window::. + + If OTHER-WINDOW is non-`nil', `pop-to-buffer' finds or creates + another window even if BUFFER-OR-NAME is already visible in the + selected window. Thus BUFFER-OR-NAME could end up displayed in + two windows. On the other hand, if BUFFER-OR-NAME is already + displayed in the selected window and OTHER-WINDOW is `nil', then + the selected window is considered sufficient display for + BUFFER-OR-NAME, so that nothing needs to be done. + + All the variables that affect `display-buffer' affect + `pop-to-buffer' as well. *Note Choosing Window::. + + If BUFFER-OR-NAME is a string that does not name an existing + buffer, a buffer by that name is created. The major mode for the + new buffer is set according to the variable `default-major-mode'. + *Note Auto Major Mode::. + + If ON-FRAME is non-`nil', it is the frame to pop to this buffer on. + + An example use of this function is found at the end of *Note + Filter Functions::. + + - Command: replace-buffer-in-windows buffer + This function replaces BUFFER with some other buffer in all + windows displaying it. The other buffer used is chosen with + `other-buffer'. In the usual applications of this function, you + don't care which other buffer is used; you just want to make sure + that BUFFER is no longer displayed. + + This function returns `nil'. + + +File: lispref.info, Node: Choosing Window, Next: Window Point, Prev: Displaying Buffers, Up: Windows + +Choosing a Window for Display +============================= + + This section describes the basic facility that chooses a window to +display a buffer in--`display-buffer'. All the higher-level functions +and commands use this subroutine. Here we describe how to use +`display-buffer' and how to customize it. + + - Command: display-buffer buffer-or-name &optional not-this-window + This command makes BUFFER-OR-NAME appear in some window, like + `pop-to-buffer', but it does not select that window and does not + make the buffer current. The identity of the selected window is + unaltered by this function. + + If NOT-THIS-WINDOW is non-`nil', it means to display the specified + buffer in a window other than the selected one, even if it is + already on display in the selected window. This can cause the + buffer to appear in two windows at once. Otherwise, if + BUFFER-OR-NAME is already being displayed in any window, that is + good enough, so this function does nothing. + + `display-buffer' returns the window chosen to display + BUFFER-OR-NAME. + + Precisely how `display-buffer' finds or creates a window depends on + the variables described below. + + A window can be marked as "dedicated" to a particular buffer. Then +XEmacs will not automatically change which buffer appears in the +window, such as `display-buffer' might normally do. + + - Function: window-dedicated-p window + This function returns WINDOW's dedicated object, usually `t' or + `nil'. + + - Function: set-window-buffer-dedicated window buffer + This function makes WINDOW display BUFFER and be dedicated to that + buffer. Then XEmacs will not automatically change which buffer + appears in WINDOW. If BUFFER is `nil', this function makes WINDOW + not be dedicated (but doesn't change which buffer appears in it + currently). + + - User Option: pop-up-windows + This variable controls whether `display-buffer' makes new windows. + If it is non-`nil' and there is only one window, then that window + is split. If it is `nil', then `display-buffer' does not split + the single window, but uses it whole. + + - User Option: split-height-threshold + This variable determines when `display-buffer' may split a window, + if there are multiple windows. `display-buffer' always splits the + largest window if it has at least this many lines. If the largest + window is not this tall, it is split only if it is the sole window + and `pop-up-windows' is non-`nil'. + + - User Option: pop-up-frames + This variable controls whether `display-buffer' makes new frames. + If it is non-`nil', `display-buffer' looks for an existing window + already displaying the desired buffer, on any visible frame. If + it finds one, it returns that window. Otherwise it makes a new + frame. The variables `pop-up-windows' and + `split-height-threshold' do not matter if `pop-up-frames' is + non-`nil'. + + If `pop-up-frames' is `nil', then `display-buffer' either splits a + window or reuses one. + + *Note Frames::, for more information. + + - Variable: pop-up-frame-function + This variable specifies how to make a new frame if `pop-up-frames' + is non-`nil'. + + Its value should be a function of no arguments. When + `display-buffer' makes a new frame, it does so by calling that + function, which should return a frame. The default value of the + variable is a function that creates a frame using properties from + `pop-up-frame-plist'. + + - Variable: pop-up-frame-plist + This variable holds a plist specifying frame properties used when + `display-buffer' makes a new frame. *Note Frame Properties::, for + more information about frame properties. + + - Variable: special-display-buffer-names + A list of buffer names for buffers that should be displayed + specially. If the buffer's name is in this list, `display-buffer' + handles the buffer specially. + + By default, special display means to give the buffer a dedicated + frame. + + If an element is a list, instead of a string, then the CAR of the + list is the buffer name, and the rest of the list says how to + create the frame. There are two possibilities for the rest of the + list. It can be a plist, specifying frame properties, or it can + contain a function and arguments to give to it. (The function's + first argument is always the buffer to be displayed; the arguments + from the list come after that.) + + - Variable: special-display-regexps + A list of regular expressions that specify buffers that should be + displayed specially. If the buffer's name matches any of the + regular expressions in this list, `display-buffer' handles the + buffer specially. + + By default, special display means to give the buffer a dedicated + frame. + + If an element is a list, instead of a string, then the CAR of the + list is the regular expression, and the rest of the list says how + to create the frame. See above, under + `special-display-buffer-names'. + + - Variable: special-display-function + This variable holds the function to call to display a buffer + specially. It receives the buffer as an argument, and should + return the window in which it is displayed. + + The default value of this variable is + `special-display-popup-frame'. + + - Function: special-display-popup-frame buffer + This function makes BUFFER visible in a frame of its own. If + BUFFER is already displayed in a window in some frame, it makes + the frame visible and raises it, to use that window. Otherwise, it + creates a frame that will be dedicated to BUFFER. + + This function uses an existing window displaying BUFFER whether or + not it is in a frame of its own; but if you set up the above + variables in your init file, before BUFFER was created, then + presumably the window was previously made by this function. + + - User Option: special-display-frame-plist + This variable holds frame properties for + `special-display-popup-frame' to use when it creates a frame. + + - Variable: same-window-buffer-names + A list of buffer names for buffers that should be displayed in the + selected window. If the buffer's name is in this list, + `display-buffer' handles the buffer by switching to it in the + selected window. + + - Variable: same-window-regexps + A list of regular expressions that specify buffers that should be + displayed in the selected window. If the buffer's name matches + any of the regular expressions in this list, `display-buffer' + handles the buffer by switching to it in the selected window. + + - Variable: display-buffer-function + This variable is the most flexible way to customize the behavior of + `display-buffer'. If it is non-`nil', it should be a function + that `display-buffer' calls to do the work. The function should + accept two arguments, the same two arguments that `display-buffer' + received. It should choose or create a window, display the + specified buffer, and then return the window. + + This hook takes precedence over all the other options and hooks + described above. + + A window can be marked as "dedicated" to its buffer. Then +`display-buffer' does not try to use that window. + + - Function: window-dedicated-p window + This function returns `t' if WINDOW is marked as dedicated; + otherwise `nil'. + + - Function: set-window-dedicated-p window flag + This function marks WINDOW as dedicated if FLAG is non-`nil', and + nondedicated otherwise. + + File: lispref.info, Node: Window Point, Next: Window Start, Prev: Choosing Window, Up: Windows Windows and Point @@ -577,622 +1094,3 @@ are allowed in XEmacs. bottom)', all relative to `(0,0)' at the top left corner of the window. - -File: lispref.info, Node: Resizing Windows, Next: Window Configurations, Prev: Position of Window, Up: Windows - -Changing the Size of a Window -============================= - - The window size functions fall into two classes: high-level commands -that change the size of windows and low-level functions that access -window size. XEmacs does not permit overlapping windows or gaps between -windows, so resizing one window affects other windows. - - - Command: enlarge-window size &optional horizontal window - This function makes the selected window SIZE lines taller, - stealing lines from neighboring windows. It takes the lines from - one window at a time until that window is used up, then takes from - another. If a window from which lines are stolen shrinks below - `window-min-height' lines, that window disappears. - - If HORIZONTAL is non-`nil', this function makes WINDOW wider by - SIZE columns, stealing columns instead of lines. If a window from - which columns are stolen shrinks below `window-min-width' columns, - that window disappears. - - If the requested size would exceed that of the window's frame, - then the function makes the window occupy the entire height (or - width) of the frame. - - If SIZE is negative, this function shrinks the window by -SIZE - lines or columns. If that makes the window smaller than the - minimum size (`window-min-height' and `window-min-width'), - `enlarge-window' deletes the window. - - If WINDOW is non-`nil', it specifies a window to change instead of - the selected window. - - `enlarge-window' returns `nil'. - - - Command: enlarge-window-horizontally columns - This function makes the selected window COLUMNS wider. It could - be defined as follows: - - (defun enlarge-window-horizontally (columns) - (enlarge-window columns t)) - - - Command: enlarge-window-pixels count &optional side window - This function makes the selected window COUNT pixels larger. When - called from Lisp, optional second argument SIDE non-`nil' means to - grow sideways COUNT pixels, and optional third argument WINDOW - specifies the window to change instead of the selected window. - - - Command: shrink-window size &optional horizontal window - This function is like `enlarge-window' but negates the argument - SIZE, making the selected window smaller by giving lines (or - columns) to the other windows. If the window shrinks below - `window-min-height' or `window-min-width', then it disappears. - - If SIZE is negative, the window is enlarged by -SIZE lines or - columns. - - If WINDOW is non-`nil', it specifies a window to change instead of - the selected window. - - - Command: shrink-window-horizontally columns - This function makes the selected window COLUMNS narrower. It - could be defined as follows: - - (defun shrink-window-horizontally (columns) - (shrink-window columns t)) - - - Command: shrink-window-pixels count &optional side window - This function makes the selected window COUNT pixels smaller. - When called from Lisp, optional second argument SIDE non-`nil' - means to shrink sideways COUNT pixels, and optional third argument - WINDOW specifies the window to change instead of the selected - window. - - The following two variables constrain the window-size-changing -functions to a minimum height and width. - - - User Option: window-min-height - The value of this variable determines how short a window may become - before it is automatically deleted. Making a window smaller than - `window-min-height' automatically deletes it, and no window may be - created shorter than this. The absolute minimum height is two - (allowing one line for the mode line, and one line for the buffer - display). Actions that change window sizes reset this variable to - two if it is less than two. The default value is 4. - - - User Option: window-min-width - The value of this variable determines how narrow a window may - become before it automatically deleted. Making a window smaller - than `window-min-width' automatically deletes it, and no window - may be created narrower than this. The absolute minimum width is - one; any value below that is ignored. The default value is 10. - - - Variable: window-size-change-functions - This variable holds a list of functions to be called if the size - of any window changes for any reason. The functions are called - just once per redisplay, and just once for each frame on which - size changes have occurred. - - Each function receives the frame as its sole argument. There is no - direct way to find out which windows changed size, or precisely - how; however, if your size-change function keeps track, after each - change, of the windows that interest you, you can figure out what - has changed by comparing the old size data with the new. - - Creating or deleting windows counts as a size change, and therefore - causes these functions to be called. Changing the frame size also - counts, because it changes the sizes of the existing windows. - - It is not a good idea to use `save-window-excursion' in these - functions, because that always counts as a size change, and it - would cause these functions to be called over and over. In most - cases, `save-selected-window' is what you need here. - - -File: lispref.info, Node: Window Configurations, Prev: Resizing Windows, Up: Windows - -Window Configurations -===================== - - A "window configuration" records the entire layout of a frame--all -windows, their sizes, which buffers they contain, what part of each -buffer is displayed, and the values of point and the mark. You can -bring back an entire previous layout by restoring a window -configuration previously saved. - - If you want to record all frames instead of just one, use a frame -configuration instead of a window configuration. *Note Frame -Configurations::. - - - Function: current-window-configuration - This function returns a new object representing XEmacs's current - window configuration, namely the number of windows, their sizes - and current buffers, which window is the selected window, and for - each window the displayed buffer, the display-start position, and - the positions of point and the mark. An exception is made for - point in the current buffer, whose value is not saved. - - - Function: set-window-configuration configuration - This function restores the configuration of XEmacs's windows and - buffers to the state specified by CONFIGURATION. The argument - CONFIGURATION must be a value that was previously returned by - `current-window-configuration'. - - This function always counts as a window size change and triggers - execution of the `window-size-change-functions'. (It doesn't know - how to tell whether the new configuration actually differs from - the old one.) - - Here is a way of using this function to get the same effect as - `save-window-excursion': - - (let ((config (current-window-configuration))) - (unwind-protect - (progn (split-window-vertically nil) - ...) - (set-window-configuration config))) - - - Special Form: save-window-excursion forms... - This special form records the window configuration, executes FORMS - in sequence, then restores the earlier window configuration. The - window configuration includes the value of point and the portion - of the buffer that is visible. It also includes the choice of - selected window. However, it does not include the value of point - in the current buffer; use `save-excursion' if you wish to - preserve that. - - Don't use this construct when `save-selected-window' is all you - need. - - Exit from `save-window-excursion' always triggers execution of the - `window-size-change-functions'. (It doesn't know how to tell - whether the restored configuration actually differs from the one in - effect at the end of the FORMS.) - - The return value is the value of the final form in FORMS. For - example: - - (split-window) - => # - (setq w (selected-window)) - => # - (save-window-excursion - (delete-other-windows w) - (switch-to-buffer "foo") - 'do-something) - => do-something - ;; The frame is now split again. - - - Function: window-configuration-p object - This function returns `t' if OBJECT is a window configuration. - - Primitives to look inside of window configurations would make sense, -but none are implemented. It is not clear they are useful enough to be -worth implementing. - - -File: lispref.info, Node: Frames, Next: Consoles and Devices, Prev: Windows, Up: Top - -Frames -****** - - A FRAME is a rectangle on the screen that contains one or more -XEmacs windows. A frame initially contains a single main window (plus -perhaps a minibuffer window), which you can subdivide vertically or -horizontally into smaller windows. - - When XEmacs runs on a text-only terminal, it starts with one "TTY -frame". If you create additional ones, XEmacs displays one and only -one at any given time--on the terminal screen, of course. - - When XEmacs communicates directly with an X server, it does not have -a TTY frame; instead, it starts with a single "X window frame". It can -display multiple X window frames at the same time, each in its own X -window. - - - Function: framep object - This predicate returns `t' if OBJECT is a frame, and `nil' - otherwise. - -* Menu: - -* Creating Frames:: Creating additional frames. -* Frame Properties:: Controlling frame size, position, font, etc. -* Frame Titles:: Automatic updating of frame titles. -* Deleting Frames:: Frames last until explicitly deleted. -* Finding All Frames:: How to examine all existing frames. -* Frames and Windows:: A frame contains windows; - display of text always works through windows. -* Minibuffers and Frames:: How a frame finds the minibuffer to use. -* Input Focus:: Specifying the selected frame. -* Visibility of Frames:: Frames may be visible or invisible, or icons. -* Raising and Lowering:: Raising a frame makes it hide other X windows; - lowering it makes the others hide them. -* Frame Configurations:: Saving the state of all frames. -* Frame Hooks:: Hooks for customizing frame behavior. - - *Note Display::, for related information. - - -File: lispref.info, Node: Creating Frames, Next: Frame Properties, Up: Frames - -Creating Frames -=============== - - To create a new frame, call the function `make-frame'. - - - Function: make-frame &optional props device - This function creates a new frame on DEVICE, if DEVICE permits - creation of frames. (An X server does; an ordinary terminal does - not (yet).) DEVICE defaults to the selected device if omitted. - *Note Consoles and Devices::. - - The argument PROPS is a property list (a list of alternating - keyword-value specifications) of properties for the new frame. (An - alist is accepted for backward compatibility but should not be - passed in.) Any properties not mentioned in PROPS default - according to the value of the variable `default-frame-plist'. For - X devices, properties not specified in `default-frame-plist' - default in turn from `default-x-frame-plist' and, if not specified - there, from the X resources. For TTY devices, - `default-tty-frame-plist' is consulted as well as - `default-frame-plist'. - - The set of possible properties depends in principle on what kind of - window system XEmacs uses to display its frames. *Note X Frame - Properties::, for documentation of individual properties you can - specify when creating an X window frame. - - -File: lispref.info, Node: Frame Properties, Next: Frame Titles, Prev: Creating Frames, Up: Frames - -Frame Properties -================ - - A frame has many properties that control its appearance and behavior. -Just what properties a frame has depends on which display mechanism it -uses. - - Frame properties exist for the sake of window systems. A terminal -frame has few properties, mostly for compatibility's sake; only the -height, width and `buffer-predicate' properties really do something. - -* Menu: - -* Property Access:: How to change a frame's properties. -* Initial Properties:: Specifying frame properties when you make a frame. -* X Frame Properties:: List of frame properties. -* Size and Position:: Changing the size and position of a frame. -* Frame Name:: The name of a frame (as opposed to its title). - - -File: lispref.info, Node: Property Access, Next: Initial Properties, Up: Frame Properties - -Access to Frame Properties --------------------------- - - These functions let you read and change the properties of a frame. - - - Function: frame-properties &optional frame - This function returns a plist listing all the properties of FRAME - and their values. - - - Function: frame-property frame property &optional default - This function returns FRAME's value for the property PROPERTY. - - - Function: set-frame-properties frame plist - This function alters the properties of frame FRAME based on the - elements of property list PLIST. If you don't mention a property - in PLIST, its value doesn't change. - - - Function: set-frame-property frame prop val - This function sets the property PROP of frame FRAME to the value - VAL. - - -File: lispref.info, Node: Initial Properties, Next: X Frame Properties, Prev: Property Access, Up: Frame Properties - -Initial Frame Properties ------------------------- - - You can specify the properties for the initial startup frame by -setting `initial-frame-plist' in your `.emacs' file. - - - Variable: initial-frame-plist - This variable's value is a plist of alternating property-value - pairs used when creating the initial X window frame. - - XEmacs creates the initial frame before it reads your `~/.emacs' - file. After reading that file, XEmacs checks - `initial-frame-plist', and applies the property settings in the - altered value to the already created initial frame. - - If these settings affect the frame geometry and appearance, you'll - see the frame appear with the wrong ones and then change to the - specified ones. If that bothers you, you can specify the same - geometry and appearance with X resources; those do take affect - before the frame is created. *Note X Resources: (xemacs)Resources - X. - - X resource settings typically apply to all frames. If you want to - specify some X resources solely for the sake of the initial frame, - and you don't want them to apply to subsequent frames, here's how - to achieve this: specify properties in `default-frame-plist' to - override the X resources for subsequent frames; then, to prevent - these from affecting the initial frame, specify the same - properties in `initial-frame-plist' with values that match the X - resources. - - If these properties specify a separate minibuffer-only frame via a -`minibuffer' property of `nil', and you have not yet created one, -XEmacs creates one for you. - - - Variable: minibuffer-frame-plist - This variable's value is a plist of properties used when creating - an initial minibuffer-only frame--if such a frame is needed, - according to the properties for the main initial frame. - - - Variable: default-frame-plist - This is a plist specifying default values of frame properties for - subsequent XEmacs frames (not the initial ones). - - See also `special-display-frame-plist', in *Note Choosing Window::. - - If you use options that specify window appearance when you invoke -XEmacs, they take effect by adding elements to `default-frame-plist'. -One exception is `-geometry', which adds the specified position to -`initial-frame-plist' instead. *Note Command Arguments: -(xemacs)Command Arguments. - - -File: lispref.info, Node: X Frame Properties, Next: Size and Position, Prev: Initial Properties, Up: Frame Properties - -X Window Frame Properties -------------------------- - - Just what properties a frame has depends on what display mechanism it -uses. Here is a table of the properties of an X window frame; of these, -`name', `height', `width', and `buffer-predicate' provide meaningful -information in non-X frames. - -`name' - The name of the frame. Most window managers display the frame's - name in the frame's border, at the top of the frame. If you don't - specify a name, and you have more than one frame, XEmacs sets the - frame name based on the buffer displayed in the frame's selected - window. - - If you specify the frame name explicitly when you create the - frame, the name is also used (instead of the name of the XEmacs - executable) when looking up X resources for the frame. - -`display' - The display on which to open this frame. It should be a string of - the form `"HOST:DPY.SCREEN"', just like the `DISPLAY' environment - variable. - -`left' - The screen position of the left edge, in pixels, with respect to - the left edge of the screen. The value may be a positive number - POS, or a list of the form `(+ POS)' which permits specifying a - negative POS value. - - A negative number -POS, or a list of the form `(- POS)', actually - specifies the position of the right edge of the window with - respect to the right edge of the screen. A positive value of POS - counts toward the left. If the property is a negative integer - -POS then POS is positive! - -`top' - The screen position of the top edge, in pixels, with respect to the - top edge of the screen. The value may be a positive number POS, - or a list of the form `(+ POS)' which permits specifying a - negative POS value. - - A negative number -POS, or a list of the form `(- POS)', actually - specifies the position of the bottom edge of the window with - respect to the bottom edge of the screen. A positive value of POS - counts toward the top. If the property is a negative integer -POS - then POS is positive! - -`icon-left' - The screen position of the left edge _of the frame's icon_, in - pixels, counting from the left edge of the screen. This takes - effect if and when the frame is iconified. - -`icon-top' - The screen position of the top edge _of the frame's icon_, in - pixels, counting from the top edge of the screen. This takes - effect if and when the frame is iconified. - -`user-position' - Non-`nil' if the screen position of the frame was explicitly - requested by the user (for example, with the `-geometry' option). - Nothing automatically makes this property non-`nil'; it is up to - Lisp programs that call `make-frame' to specify this property as - well as specifying the `left' and `top' properties. - -`height' - The height of the frame contents, in characters. (To get the - height in pixels, call `frame-pixel-height'; see *Note Size and - Position::.) - -`width' - The width of the frame contents, in characters. (To get the - height in pixels, call `frame-pixel-width'; see *Note Size and - Position::.) - -`window-id' - The number of the X window for the frame. - -`minibuffer' - Whether this frame has its own minibuffer. The value `t' means - yes, `nil' means no, `only' means this frame is just a minibuffer. - If the value is a minibuffer window (in some other frame), the - new frame uses that minibuffer. (Minibuffer-only and - minibuffer-less frames are not yet implemented in XEmacs.) - -`buffer-predicate' - The buffer-predicate function for this frame. The function - `other-buffer' uses this predicate (from the selected frame) to - decide which buffers it should consider, if the predicate is not - `nil'. It calls the predicate with one arg, a buffer, once for - each buffer; if the predicate returns a non-`nil' value, it - considers that buffer. - -`scroll-bar-width' - The width of the vertical scroll bar, in pixels. - -`cursor-color' - The color for the cursor that shows point. - -`border-color' - The color for the border of the frame. - -`border-width' - The width in pixels of the window border. - -`internal-border-width' - The distance in pixels between text and border. - -`unsplittable' - If non-`nil', this frame's window is never split automatically. - -`inter-line-space' - The space in pixels between adjacent lines of text. (Not currently - implemented.) - -`modeline' - Whether the frame has a modeline. - - -File: lispref.info, Node: Size and Position, Next: Frame Name, Prev: X Frame Properties, Up: Frame Properties - -Frame Size And Position ------------------------ - - You can read or change the size and position of a frame using the -frame properties `left', `top', `height', and `width'. Whatever -geometry properties you don't specify are chosen by the window manager -in its usual fashion. - - Here are some special features for working with sizes and positions: - - - Function: set-frame-position frame left top - This function sets the position of the top left corner of FRAME to - LEFT and TOP. These arguments are measured in pixels, and count - from the top left corner of the screen. Negative property values - count up or rightward from the top left corner of the screen. - - - Function: frame-height &optional frame - - Function: frame-width &optional frame - These functions return the height and width of FRAME, measured in - lines and columns. If you don't supply FRAME, they use the - selected frame. - - - Function: frame-pixel-height &optional frame - - Function: frame-pixel-width &optional frame - These functions return the height and width of FRAME, measured in - pixels. If you don't supply FRAME, they use the selected frame. - - - Function: set-frame-size frame cols rows &optional pretend - This function sets the size of FRAME, measured in characters; COLS - and ROWS specify the new width and height. (If PRETEND is - non-nil, it means that redisplay should act as if the frame's size - is COLS by ROWS, but the actual size of the frame should not be - changed. You should not normally use this option.) - - You can also use the functions `set-frame-height' and -`set-frame-width' to set the height and width individually. The frame -is the first argument and the size (in rows or columns) is the second. -(There is an optional third argument, PRETEND, which has the same -purpose as the corresponding argument in `set-frame-size'.) - - -File: lispref.info, Node: Frame Name, Prev: Size and Position, Up: Frame Properties - -The Name of a Frame (As Opposed to Its Title) ---------------------------------------------- - - Under X, every frame has a name, which is not the same as the title -of the frame. A frame's name is used to look up its resources and does -not normally change over the lifetime of a frame. It is perfectly -allowable, and quite common, for multiple frames to have the same name. - - - Function: frame-name &optional frame - This function returns the name of FRAME, which defaults to the - selected frame if not specified. The name of a frame can also be - obtained from the frame's properties. *Note Frame Properties::. - - - Variable: default-frame-name - This variable holds the default name to assign to newly-created - frames. This can be overridden by arguments to `make-frame'. This - must be a string. - - -File: lispref.info, Node: Frame Titles, Next: Deleting Frames, Prev: Frame Properties, Up: Frames - -Frame Titles -============ - - Every frame has a title; most window managers display the frame -title at the top of the frame. You can specify an explicit title with -the `name' frame property. But normally you don't specify this -explicitly, and XEmacs computes the title automatically. - - XEmacs computes the frame title based on a template stored in the -variable `frame-title-format'. - - - Variable: frame-title-format - This variable specifies how to compute a title for a frame when - you have not explicitly specified one. - - The variable's value is actually a modeline construct, just like - `modeline-format'. *Note Modeline Data::. - - - Variable: frame-icon-title-format - This variable specifies how to compute the title for an iconified - frame, when you have not explicitly specified the frame title. - This title appears in the icon itself. - - - Function: x-set-frame-icon-pixmap frame pixmap &optional mask - This function sets the icon of the given frame to the given image - instance, which should be an image instance object (as returned by - `make-image-instance'), a glyph object (as returned by - `make-glyph'), or `nil'. If a glyph object is given, the glyph - will be instantiated on the frame to produce an image instance - object. - - If the given image instance has a mask, that will be used as the - icon mask; however, not all window managers support this. - - The window manager is also not required to support color pixmaps, - only bitmaps (one plane deep). - - If the image instance does not have a mask, then the optional - third argument may be the image instance to use as the mask (it - must be one plane deep). *Note Glyphs::. - - -File: lispref.info, Node: Deleting Frames, Next: Finding All Frames, Prev: Frame Titles, Up: Frames - -Deleting Frames -=============== - - Frames remain potentially visible until you explicitly "delete" -them. A deleted frame cannot appear on the screen, but continues to -exist as a Lisp object until there are no references to it. - - - Command: delete-frame &optional frame - This function deletes the frame FRAME. By default, FRAME is the - selected frame. - - - Function: frame-live-p frame - The function `frame-live-p' returns non-`nil' if the frame FRAME - has not been deleted. - diff --git a/info/lispref.info-27 b/info/lispref.info-27 index 68b995e..bfdf263 100644 --- a/info/lispref.info-27 +++ b/info/lispref.info-27 @@ -50,6 +50,635 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Resizing Windows, Next: Window Configurations, Prev: Position of Window, Up: Windows + +Changing the Size of a Window +============================= + + The window size functions fall into two classes: high-level commands +that change the size of windows and low-level functions that access +window size. XEmacs does not permit overlapping windows or gaps between +windows, so resizing one window affects other windows. + + - Command: enlarge-window size &optional horizontal window + This function makes the selected window SIZE lines taller, + stealing lines from neighboring windows. It takes the lines from + one window at a time until that window is used up, then takes from + another. If a window from which lines are stolen shrinks below + `window-min-height' lines, that window disappears. + + If HORIZONTAL is non-`nil', this function makes WINDOW wider by + SIZE columns, stealing columns instead of lines. If a window from + which columns are stolen shrinks below `window-min-width' columns, + that window disappears. + + If the requested size would exceed that of the window's frame, + then the function makes the window occupy the entire height (or + width) of the frame. + + If SIZE is negative, this function shrinks the window by -SIZE + lines or columns. If that makes the window smaller than the + minimum size (`window-min-height' and `window-min-width'), + `enlarge-window' deletes the window. + + If WINDOW is non-`nil', it specifies a window to change instead of + the selected window. + + `enlarge-window' returns `nil'. + + - Command: enlarge-window-horizontally columns + This function makes the selected window COLUMNS wider. It could + be defined as follows: + + (defun enlarge-window-horizontally (columns) + (enlarge-window columns t)) + + - Command: enlarge-window-pixels count &optional side window + This function makes the selected window COUNT pixels larger. When + called from Lisp, optional second argument SIDE non-`nil' means to + grow sideways COUNT pixels, and optional third argument WINDOW + specifies the window to change instead of the selected window. + + - Command: shrink-window size &optional horizontal window + This function is like `enlarge-window' but negates the argument + SIZE, making the selected window smaller by giving lines (or + columns) to the other windows. If the window shrinks below + `window-min-height' or `window-min-width', then it disappears. + + If SIZE is negative, the window is enlarged by -SIZE lines or + columns. + + If WINDOW is non-`nil', it specifies a window to change instead of + the selected window. + + - Command: shrink-window-horizontally columns + This function makes the selected window COLUMNS narrower. It + could be defined as follows: + + (defun shrink-window-horizontally (columns) + (shrink-window columns t)) + + - Command: shrink-window-pixels count &optional side window + This function makes the selected window COUNT pixels smaller. + When called from Lisp, optional second argument SIDE non-`nil' + means to shrink sideways COUNT pixels, and optional third argument + WINDOW specifies the window to change instead of the selected + window. + + The following two variables constrain the window-size-changing +functions to a minimum height and width. + + - User Option: window-min-height + The value of this variable determines how short a window may become + before it is automatically deleted. Making a window smaller than + `window-min-height' automatically deletes it, and no window may be + created shorter than this. The absolute minimum height is two + (allowing one line for the mode line, and one line for the buffer + display). Actions that change window sizes reset this variable to + two if it is less than two. The default value is 4. + + - User Option: window-min-width + The value of this variable determines how narrow a window may + become before it automatically deleted. Making a window smaller + than `window-min-width' automatically deletes it, and no window + may be created narrower than this. The absolute minimum width is + one; any value below that is ignored. The default value is 10. + + - Variable: window-size-change-functions + This variable holds a list of functions to be called if the size + of any window changes for any reason. The functions are called + just once per redisplay, and just once for each frame on which + size changes have occurred. + + Each function receives the frame as its sole argument. There is no + direct way to find out which windows changed size, or precisely + how; however, if your size-change function keeps track, after each + change, of the windows that interest you, you can figure out what + has changed by comparing the old size data with the new. + + Creating or deleting windows counts as a size change, and therefore + causes these functions to be called. Changing the frame size also + counts, because it changes the sizes of the existing windows. + + It is not a good idea to use `save-window-excursion' in these + functions, because that always counts as a size change, and it + would cause these functions to be called over and over. In most + cases, `save-selected-window' is what you need here. + + +File: lispref.info, Node: Window Configurations, Prev: Resizing Windows, Up: Windows + +Window Configurations +===================== + + A "window configuration" records the entire layout of a frame--all +windows, their sizes, which buffers they contain, what part of each +buffer is displayed, and the values of point and the mark. You can +bring back an entire previous layout by restoring a window +configuration previously saved. + + If you want to record all frames instead of just one, use a frame +configuration instead of a window configuration. *Note Frame +Configurations::. + + - Function: current-window-configuration + This function returns a new object representing XEmacs's current + window configuration, namely the number of windows, their sizes + and current buffers, which window is the selected window, and for + each window the displayed buffer, the display-start position, and + the positions of point and the mark. An exception is made for + point in the current buffer, whose value is not saved. + + - Function: set-window-configuration configuration + This function restores the configuration of XEmacs's windows and + buffers to the state specified by CONFIGURATION. The argument + CONFIGURATION must be a value that was previously returned by + `current-window-configuration'. + + This function always counts as a window size change and triggers + execution of the `window-size-change-functions'. (It doesn't know + how to tell whether the new configuration actually differs from + the old one.) + + Here is a way of using this function to get the same effect as + `save-window-excursion': + + (let ((config (current-window-configuration))) + (unwind-protect + (progn (split-window-vertically nil) + ...) + (set-window-configuration config))) + + - Special Form: save-window-excursion forms... + This special form records the window configuration, executes FORMS + in sequence, then restores the earlier window configuration. The + window configuration includes the value of point and the portion + of the buffer that is visible. It also includes the choice of + selected window. However, it does not include the value of point + in the current buffer; use `save-excursion' if you wish to + preserve that. + + Don't use this construct when `save-selected-window' is all you + need. + + Exit from `save-window-excursion' always triggers execution of the + `window-size-change-functions'. (It doesn't know how to tell + whether the restored configuration actually differs from the one in + effect at the end of the FORMS.) + + The return value is the value of the final form in FORMS. For + example: + + (split-window) + => # + (setq w (selected-window)) + => # + (save-window-excursion + (delete-other-windows w) + (switch-to-buffer "foo") + 'do-something) + => do-something + ;; The frame is now split again. + + - Function: window-configuration-p object + This function returns `t' if OBJECT is a window configuration. + + Primitives to look inside of window configurations would make sense, +but none are implemented. It is not clear they are useful enough to be +worth implementing. + + +File: lispref.info, Node: Frames, Next: Consoles and Devices, Prev: Windows, Up: Top + +Frames +****** + + A FRAME is a rectangle on the screen that contains one or more +XEmacs windows (*note Windows::). A frame initially contains a single +main window (plus perhaps an echo area), which you can subdivide +vertically or horizontally into smaller windows. Each window is +associated with a modeline (*note Modeline Format::), and optionally two +scrollbars (*note Scrollbars::). By default the vertical scrollbar is +on, the horizontal scrollbar is off. + + The frame may also contain menubars (*note Menubar::), toolbars +(*note Toolbar Intro::), and gutters (*note Gutter Intro::). By default +there is one of each at the top of the frame, with menubar topmost, +toolbar next, and gutter lowest, immediately above the windows. +(Warning: the gutter is a new, experimental, and unstable feature of +XEmacs version 21.2.) + + When XEmacs runs on a text-only terminal, it starts with one "TTY +frame". If you create additional ones, XEmacs displays one and only +one at any given time--on the terminal screen, of course. + + When XEmacs communicates directly with an X server, it does not have +a TTY frame; instead, it starts with a single "X window frame". It can +display multiple X window frames at the same time, each in its own X +window. + + - Function: framep object + This predicate returns `t' if OBJECT is a frame, and `nil' + otherwise. + +* Menu: + +* Creating Frames:: Creating additional frames. +* Frame Properties:: Controlling frame size, position, font, etc. +* Frame Titles:: Automatic updating of frame titles. +* Deleting Frames:: Frames last until explicitly deleted. +* Finding All Frames:: How to examine all existing frames. +* Frames and Windows:: A frame contains windows; + display of text always works through windows. +* Minibuffers and Frames:: How a frame finds the minibuffer to use. +* Input Focus:: Specifying the selected frame. +* Visibility of Frames:: Frames may be visible or invisible, or icons. +* Raising and Lowering:: Raising a frame makes it hide other X windows; + lowering it makes the others hide them. +* Frame Configurations:: Saving the state of all frames. +* Frame Hooks:: Hooks for customizing frame behavior. + + *Note Display::, for related information. + + +File: lispref.info, Node: Creating Frames, Next: Frame Properties, Up: Frames + +Creating Frames +=============== + + To create a new frame, call the function `make-frame'. + + - Function: make-frame &optional props device + This function creates a new frame on DEVICE, if DEVICE permits + creation of frames. (An X server does; an ordinary terminal does + not (yet).) DEVICE defaults to the selected device if omitted. + *Note Consoles and Devices::. + + The argument PROPS is a property list (a list of alternating + keyword-value specifications) of properties for the new frame. (An + alist is accepted for backward compatibility but should not be + passed in.) Any properties not mentioned in PROPS default + according to the value of the variable `default-frame-plist'. For + X devices, properties not specified in `default-frame-plist' + default in turn from `default-x-frame-plist' and, if not specified + there, from the X resources. For TTY devices, + `default-tty-frame-plist' is consulted as well as + `default-frame-plist'. + + The set of possible properties depends in principle on what kind of + window system XEmacs uses to display its frames. *Note X Frame + Properties::, for documentation of individual properties you can + specify when creating an X window frame. + + +File: lispref.info, Node: Frame Properties, Next: Frame Titles, Prev: Creating Frames, Up: Frames + +Frame Properties +================ + + A frame has many properties that control its appearance and behavior. +Just what properties a frame has depends on which display mechanism it +uses. + + Frame properties exist for the sake of window systems. A terminal +frame has few properties, mostly for compatibility's sake; only the +height, width and `buffer-predicate' properties really do something. + +* Menu: + +* Property Access:: How to change a frame's properties. +* Initial Properties:: Specifying frame properties when you make a frame. +* X Frame Properties:: List of frame properties. +* Size and Position:: Changing the size and position of a frame. +* Frame Name:: The name of a frame (as opposed to its title). + + +File: lispref.info, Node: Property Access, Next: Initial Properties, Up: Frame Properties + +Access to Frame Properties +-------------------------- + + These functions let you read and change the properties of a frame. + + - Function: frame-properties &optional frame + This function returns a plist listing all the properties of FRAME + and their values. + + - Function: frame-property frame property &optional default + This function returns FRAME's value for the property PROPERTY. + + - Function: set-frame-properties frame plist + This function alters the properties of frame FRAME based on the + elements of property list PLIST. If you don't mention a property + in PLIST, its value doesn't change. + + - Function: set-frame-property frame prop val + This function sets the property PROP of frame FRAME to the value + VAL. + + +File: lispref.info, Node: Initial Properties, Next: X Frame Properties, Prev: Property Access, Up: Frame Properties + +Initial Frame Properties +------------------------ + + You can specify the properties for the initial startup frame by +setting `initial-frame-plist' in your `.emacs' file. + + - Variable: initial-frame-plist + This variable's value is a plist of alternating property-value + pairs used when creating the initial X window frame. + + XEmacs creates the initial frame before it reads your `~/.emacs' + file. After reading that file, XEmacs checks + `initial-frame-plist', and applies the property settings in the + altered value to the already created initial frame. + + If these settings affect the frame geometry and appearance, you'll + see the frame appear with the wrong ones and then change to the + specified ones. If that bothers you, you can specify the same + geometry and appearance with X resources; those do take affect + before the frame is created. *Note X Resources: (xemacs)Resources + X. + + X resource settings typically apply to all frames. If you want to + specify some X resources solely for the sake of the initial frame, + and you don't want them to apply to subsequent frames, here's how + to achieve this: specify properties in `default-frame-plist' to + override the X resources for subsequent frames; then, to prevent + these from affecting the initial frame, specify the same + properties in `initial-frame-plist' with values that match the X + resources. + + If these properties specify a separate minibuffer-only frame via a +`minibuffer' property of `nil', and you have not yet created one, +XEmacs creates one for you. + + - Variable: minibuffer-frame-plist + This variable's value is a plist of properties used when creating + an initial minibuffer-only frame--if such a frame is needed, + according to the properties for the main initial frame. + + - Variable: default-frame-plist + This is a plist specifying default values of frame properties for + subsequent XEmacs frames (not the initial ones). + + See also `special-display-frame-plist', in *Note Choosing Window::. + + If you use options that specify window appearance when you invoke +XEmacs, they take effect by adding elements to `default-frame-plist'. +One exception is `-geometry', which adds the specified position to +`initial-frame-plist' instead. *Note Command Arguments: +(xemacs)Command Arguments. + + +File: lispref.info, Node: X Frame Properties, Next: Size and Position, Prev: Initial Properties, Up: Frame Properties + +X Window Frame Properties +------------------------- + + Just what properties a frame has depends on what display mechanism it +uses. Here is a table of the properties of an X window frame; of these, +`name', `height', `width', and `buffer-predicate' provide meaningful +information in non-X frames. + +`name' + The name of the frame. Most window managers display the frame's + name in the frame's border, at the top of the frame. If you don't + specify a name, and you have more than one frame, XEmacs sets the + frame name based on the buffer displayed in the frame's selected + window. + + If you specify the frame name explicitly when you create the + frame, the name is also used (instead of the name of the XEmacs + executable) when looking up X resources for the frame. + +`display' + The display on which to open this frame. It should be a string of + the form `"HOST:DPY.SCREEN"', just like the `DISPLAY' environment + variable. + +`left' + The screen position of the left edge, in pixels, with respect to + the left edge of the screen. The value may be a positive number + POS, or a list of the form `(+ POS)' which permits specifying a + negative POS value. + + A negative number -POS, or a list of the form `(- POS)', actually + specifies the position of the right edge of the window with + respect to the right edge of the screen. A positive value of POS + counts toward the left. If the property is a negative integer + -POS then POS is positive! + +`top' + The screen position of the top edge, in pixels, with respect to the + top edge of the screen. The value may be a positive number POS, + or a list of the form `(+ POS)' which permits specifying a + negative POS value. + + A negative number -POS, or a list of the form `(- POS)', actually + specifies the position of the bottom edge of the window with + respect to the bottom edge of the screen. A positive value of POS + counts toward the top. If the property is a negative integer -POS + then POS is positive! + +`icon-left' + The screen position of the left edge _of the frame's icon_, in + pixels, counting from the left edge of the screen. This takes + effect if and when the frame is iconified. + +`icon-top' + The screen position of the top edge _of the frame's icon_, in + pixels, counting from the top edge of the screen. This takes + effect if and when the frame is iconified. + +`user-position' + Non-`nil' if the screen position of the frame was explicitly + requested by the user (for example, with the `-geometry' option). + Nothing automatically makes this property non-`nil'; it is up to + Lisp programs that call `make-frame' to specify this property as + well as specifying the `left' and `top' properties. + +`height' + The height of the frame contents, in characters. (To get the + height in pixels, call `frame-pixel-height'; see *Note Size and + Position::.) + +`width' + The width of the frame contents, in characters. (To get the + height in pixels, call `frame-pixel-width'; see *Note Size and + Position::.) + +`window-id' + The number of the X window for the frame. + +`minibuffer' + Whether this frame has its own minibuffer. The value `t' means + yes, `nil' means no, `only' means this frame is just a minibuffer. + If the value is a minibuffer window (in some other frame), the + new frame uses that minibuffer. (Minibuffer-only and + minibuffer-less frames are not yet implemented in XEmacs.) + +`buffer-predicate' + The buffer-predicate function for this frame. The function + `other-buffer' uses this predicate (from the selected frame) to + decide which buffers it should consider, if the predicate is not + `nil'. It calls the predicate with one arg, a buffer, once for + each buffer; if the predicate returns a non-`nil' value, it + considers that buffer. + +`scroll-bar-width' + The width of the vertical scroll bar, in pixels. + +`cursor-color' + The color for the cursor that shows point. + +`border-color' + The color for the border of the frame. + +`border-width' + The width in pixels of the window border. + +`internal-border-width' + The distance in pixels between text and border. + +`unsplittable' + If non-`nil', this frame's window is never split automatically. + +`inter-line-space' + The space in pixels between adjacent lines of text. (Not currently + implemented.) + +`modeline' + Whether the frame has a modeline. + + +File: lispref.info, Node: Size and Position, Next: Frame Name, Prev: X Frame Properties, Up: Frame Properties + +Frame Size And Position +----------------------- + + You can read or change the size and position of a frame using the +frame properties `left', `top', `height', and `width'. Whatever +geometry properties you don't specify are chosen by the window manager +in its usual fashion. + + Here are some special features for working with sizes and positions: + + - Function: set-frame-position frame left top + This function sets the position of the top left corner of FRAME to + LEFT and TOP. These arguments are measured in pixels, and count + from the top left corner of the screen. Negative property values + count up or rightward from the top left corner of the screen. + + - Function: frame-height &optional frame + - Function: frame-width &optional frame + These functions return the height and width of FRAME, measured in + lines and columns. If you don't supply FRAME, they use the + selected frame. + + - Function: frame-pixel-height &optional frame + - Function: frame-pixel-width &optional frame + These functions return the height and width of FRAME, measured in + pixels. If you don't supply FRAME, they use the selected frame. + + - Function: set-frame-size frame cols rows &optional pretend + This function sets the size of FRAME, measured in characters; COLS + and ROWS specify the new width and height. (If PRETEND is + non-nil, it means that redisplay should act as if the frame's size + is COLS by ROWS, but the actual size of the frame should not be + changed. You should not normally use this option.) + + You can also use the functions `set-frame-height' and +`set-frame-width' to set the height and width individually. The frame +is the first argument and the size (in rows or columns) is the second. +(There is an optional third argument, PRETEND, which has the same +purpose as the corresponding argument in `set-frame-size'.) + + +File: lispref.info, Node: Frame Name, Prev: Size and Position, Up: Frame Properties + +The Name of a Frame (As Opposed to Its Title) +--------------------------------------------- + + Under X, every frame has a name, which is not the same as the title +of the frame. A frame's name is used to look up its resources and does +not normally change over the lifetime of a frame. It is perfectly +allowable, and quite common, for multiple frames to have the same name. + + - Function: frame-name &optional frame + This function returns the name of FRAME, which defaults to the + selected frame if not specified. The name of a frame can also be + obtained from the frame's properties. *Note Frame Properties::. + + - Variable: default-frame-name + This variable holds the default name to assign to newly-created + frames. This can be overridden by arguments to `make-frame'. This + must be a string. + + +File: lispref.info, Node: Frame Titles, Next: Deleting Frames, Prev: Frame Properties, Up: Frames + +Frame Titles +============ + + Every frame has a title; most window managers display the frame +title at the top of the frame. You can specify an explicit title with +the `name' frame property. But normally you don't specify this +explicitly, and XEmacs computes the title automatically. + + XEmacs computes the frame title based on a template stored in the +variable `frame-title-format'. + + - Variable: frame-title-format + This variable specifies how to compute a title for a frame when + you have not explicitly specified one. + + The variable's value is actually a modeline construct, just like + `modeline-format'. *Note Modeline Data::. + + - Variable: frame-icon-title-format + This variable specifies how to compute the title for an iconified + frame, when you have not explicitly specified the frame title. + This title appears in the icon itself. + + - Function: x-set-frame-icon-pixmap frame pixmap &optional mask + This function sets the icon of the given frame to the given image + instance, which should be an image instance object (as returned by + `make-image-instance'), a glyph object (as returned by + `make-glyph'), or `nil'. If a glyph object is given, the glyph + will be instantiated on the frame to produce an image instance + object. + + If the given image instance has a mask, that will be used as the + icon mask; however, not all window managers support this. + + The window manager is also not required to support color pixmaps, + only bitmaps (one plane deep). + + If the image instance does not have a mask, then the optional + third argument may be the image instance to use as the mask (it + must be one plane deep). *Note Glyphs::. + + +File: lispref.info, Node: Deleting Frames, Next: Finding All Frames, Prev: Frame Titles, Up: Frames + +Deleting Frames +=============== + + Frames remain potentially visible until you explicitly "delete" +them. A deleted frame cannot appear on the screen, but continues to +exist as a Lisp object until there are no references to it. + + - Command: delete-frame &optional frame + This function deletes the frame FRAME. By default, FRAME is the + selected frame. + + - Function: frame-live-p frame + The function `frame-live-p' returns non-`nil' if the frame FRAME + has not been deleted. + + File: lispref.info, Node: Finding All Frames, Next: Frames and Windows, Prev: Deleting Frames, Up: Frames Finding All Frames @@ -612,602 +1241,3 @@ written in terms of `make-device'. This function returns the X display which DEVICE is connected to, if DEVICE is an X device. - -File: lispref.info, Node: The Selected Console and Device, Next: Console and Device I/O, Prev: Connecting to a Console or Device, Up: Consoles and Devices - -The Selected Console and Device -=============================== - - - Function: select-console console - This function selects the console CONSOLE. Subsequent editing - commands apply to its selected device, selected frame, and selected - window. The selection of CONSOLE lasts until the next time the - user does something to select a different console, or until the - next time this function is called. - - - Function: selected-console - This function returns the console which is currently active. - - - Function: select-device device - This function selects the device DEVICE. - - - Function: selected-device &optional console - This function returns the device which is currently active. If - optional CONSOLE is non-`nil', this function returns the device - that would be currently active if CONSOLE were the selected - console. - - -File: lispref.info, Node: Console and Device I/O, Prev: The Selected Console and Device, Up: Consoles and Devices - -Console and Device I/O -====================== - - - Function: console-disable-input console - This function disables input on console CONSOLE. - - - Function: console-enable-input console - This function enables input on console CONSOLE. - - Each device has a "baud rate" value associated with it. On most -systems, changing this value will affect the amount of padding and -other strategic decisions made during redisplay. - - - Function: device-baud-rate &optional device - This function returns the output baud rate of DEVICE. - - - Function: set-device-baud-rate device rate - This function sets the output baud rate of DEVICE to RATE. - - -File: lispref.info, Node: Positions, Next: Markers, Prev: Consoles and Devices, Up: Top - -Positions -********* - - A "position" is the index of a character in the text of a buffer. -More precisely, a position identifies the place between two characters -(or before the first character, or after the last character), so we can -speak of the character before or after a given position. However, we -often speak of the character "at" a position, meaning the character -after that position. - - Positions are usually represented as integers starting from 1, but -can also be represented as "markers"--special objects that relocate -automatically when text is inserted or deleted so they stay with the -surrounding characters. *Note Markers::. - -* Menu: - -* Point:: The special position where editing takes place. -* Motion:: Changing point. -* Excursions:: Temporary motion and buffer changes. -* Narrowing:: Restricting editing to a portion of the buffer. - - -File: lispref.info, Node: Point, Next: Motion, Up: Positions - -Point -===== - - "Point" is a special buffer position used by many editing commands, -including the self-inserting typed characters and text insertion -functions. Other commands move point through the text to allow editing -and insertion at different places. - - Like other positions, point designates a place between two characters -(or before the first character, or after the last character), rather -than a particular character. Usually terminals display the cursor over -the character that immediately follows point; point is actually before -the character on which the cursor sits. - - The value of point is a number between 1 and the buffer size plus 1. -If narrowing is in effect (*note Narrowing::), then point is constrained -to fall within the accessible portion of the buffer (possibly at one end -of it). - - Each buffer has its own value of point, which is independent of the -value of point in other buffers. Each window also has a value of point, -which is independent of the value of point in other windows on the same -buffer. This is why point can have different values in various windows -that display the same buffer. When a buffer appears in only one window, -the buffer's point and the window's point normally have the same value, -so the distinction is rarely important. *Note Window Point::, for more -details. - - - Function: point &optional buffer - This function returns the value of point in BUFFER, as an integer. - BUFFER defaults to the current buffer if omitted. - - (point) - => 175 - - - Function: point-min &optional buffer - This function returns the minimum accessible value of point in - BUFFER. This is normally 1, but if narrowing is in effect, it is - the position of the start of the region that you narrowed to. - (*Note Narrowing::.) BUFFER defaults to the current buffer if - omitted. - - - Function: point-max &optional buffer - This function returns the maximum accessible value of point in - BUFFER. This is `(1+ (buffer-size buffer))', unless narrowing is - in effect, in which case it is the position of the end of the - region that you narrowed to. (*note Narrowing::). BUFFER defaults - to the current buffer if omitted. - - - Function: buffer-end flag &optional buffer - This function returns `(point-min buffer)' if FLAG is less than 1, - `(point-max buffer)' otherwise. The argument FLAG must be a - number. BUFFER defaults to the current buffer if omitted. - - - Function: buffer-size &optional buffer - This function returns the total number of characters in BUFFER. - In the absence of any narrowing (*note Narrowing::), `point-max' - returns a value one larger than this. BUFFER defaults to the - current buffer if omitted. - - (buffer-size) - => 35 - (point-max) - => 36 - - - Variable: buffer-saved-size - The value of this buffer-local variable is the former length of the - current buffer, as of the last time it was read in, saved or - auto-saved. - - -File: lispref.info, Node: Motion, Next: Excursions, Prev: Point, Up: Positions - -Motion -====== - - Motion functions change the value of point, either relative to the -current value of point, relative to the beginning or end of the buffer, -or relative to the edges of the selected window. *Note Point::. - -* Menu: - -* Character Motion:: Moving in terms of characters. -* Word Motion:: Moving in terms of words. -* Buffer End Motion:: Moving to the beginning or end of the buffer. -* Text Lines:: Moving in terms of lines of text. -* Screen Lines:: Moving in terms of lines as displayed. -* List Motion:: Moving by parsing lists and sexps. -* Skipping Characters:: Skipping characters belonging to a certain set. - - -File: lispref.info, Node: Character Motion, Next: Word Motion, Up: Motion - -Motion by Characters --------------------- - - These functions move point based on a count of characters. -`goto-char' is the fundamental primitive; the other functions use that. - - - Command: goto-char position &optional buffer - This function sets point in `buffer' to the value POSITION. If - POSITION is less than 1, it moves point to the beginning of the - buffer. If POSITION is greater than the length of the buffer, it - moves point to the end. BUFFER defaults to the current buffer if - omitted. - - If narrowing is in effect, POSITION still counts from the - beginning of the buffer, but point cannot go outside the accessible - portion. If POSITION is out of range, `goto-char' moves point to - the beginning or the end of the accessible portion. - - When this function is called interactively, POSITION is the - numeric prefix argument, if provided; otherwise it is read from the - minibuffer. - - `goto-char' returns POSITION. - - - Command: forward-char &optional count buffer - This function moves point COUNT characters forward, towards the - end of the buffer (or backward, towards the beginning of the - buffer, if COUNT is negative). If the function attempts to move - point past the beginning or end of the buffer (or the limits of - the accessible portion, when narrowing is in effect), an error is - signaled with error code `beginning-of-buffer' or `end-of-buffer'. - BUFFER defaults to the current buffer if omitted. - - In an interactive call, COUNT is the numeric prefix argument. - - - Command: backward-char &optional count buffer - This function moves point COUNT characters backward, towards the - beginning of the buffer (or forward, towards the end of the - buffer, if COUNT is negative). If the function attempts to move - point past the beginning or end of the buffer (or the limits of - the accessible portion, when narrowing is in effect), an error is - signaled with error code `beginning-of-buffer' or `end-of-buffer'. - BUFFER defaults to the current buffer if omitted. - - In an interactive call, COUNT is the numeric prefix argument. - - -File: lispref.info, Node: Word Motion, Next: Buffer End Motion, Prev: Character Motion, Up: Motion - -Motion by Words ---------------- - - These functions for parsing words use the syntax table to decide -whether a given character is part of a word. *Note Syntax Tables::. - - - Command: forward-word count &optional buffer - This function moves point forward COUNT words (or backward if - COUNT is negative). Normally it returns `t'. If this motion - encounters the beginning or end of the buffer, or the limits of the - accessible portion when narrowing is in effect, point stops there - and the value is `nil'. BUFFER defaults to the current buffer if - omitted. - - In an interactive call, COUNT is set to the numeric prefix - argument. - - - Command: backward-word count &optional buffer - This function is just like `forward-word', except that it moves - backward until encountering the front of a word, rather than - forward. BUFFER defaults to the current buffer if omitted. - - In an interactive call, COUNT is set to the numeric prefix - argument. - - This function is rarely used in programs, as it is more efficient - to call `forward-word' with a negative argument. - - - Variable: words-include-escapes - This variable affects the behavior of `forward-word' and everything - that uses it. If it is non-`nil', then characters in the "escape" - and "character quote" syntax classes count as part of words. - Otherwise, they do not. - - -File: lispref.info, Node: Buffer End Motion, Next: Text Lines, Prev: Word Motion, Up: Motion - -Motion to an End of the Buffer ------------------------------- - - To move point to the beginning of the buffer, write: - - (goto-char (point-min)) - -Likewise, to move to the end of the buffer, use: - - (goto-char (point-max)) - - Here are two commands that users use to do these things. They are -documented here to warn you not to use them in Lisp programs, because -they set the mark and display messages in the echo area. - - - Command: beginning-of-buffer &optional n - This function moves point to the beginning of the buffer (or the - limits of the accessible portion, when narrowing is in effect), - setting the mark at the previous position. If N is non-`nil', - then it puts point N tenths of the way from the beginning of the - buffer. - - In an interactive call, N is the numeric prefix argument, if - provided; otherwise N defaults to `nil'. - - Don't use this function in Lisp programs! - - - Command: end-of-buffer &optional n - This function moves point to the end of the buffer (or the limits - of the accessible portion, when narrowing is in effect), setting - the mark at the previous position. If N is non-`nil', then it puts - point N tenths of the way from the end of the buffer. - - In an interactive call, N is the numeric prefix argument, if - provided; otherwise N defaults to `nil'. - - Don't use this function in Lisp programs! - - -File: lispref.info, Node: Text Lines, Next: Screen Lines, Prev: Buffer End Motion, Up: Motion - -Motion by Text Lines --------------------- - - Text lines are portions of the buffer delimited by newline -characters, which are regarded as part of the previous line. The first -text line begins at the beginning of the buffer, and the last text line -ends at the end of the buffer whether or not the last character is a -newline. The division of the buffer into text lines is not affected by -the width of the window, by line continuation in display, or by how -tabs and control characters are displayed. - - - Command: goto-line line - This function moves point to the front of the LINEth line, - counting from line 1 at beginning of the buffer. If LINE is less - than 1, it moves point to the beginning of the buffer. If LINE is - greater than the number of lines in the buffer, it moves point to - the end of the buffer--that is, the _end of the last line_ of the - buffer. This is the only case in which `goto-line' does not - necessarily move to the beginning of a line. - - If narrowing is in effect, then LINE still counts from the - beginning of the buffer, but point cannot go outside the accessible - portion. So `goto-line' moves point to the beginning or end of the - accessible portion, if the line number specifies an inaccessible - position. - - The return value of `goto-line' is the difference between LINE and - the line number of the line to which point actually was able to - move (in the full buffer, before taking account of narrowing). - Thus, the value is positive if the scan encounters the real end of - the buffer. The value is zero if scan encounters the end of the - accessible portion but not the real end of the buffer. - - In an interactive call, LINE is the numeric prefix argument if one - has been provided. Otherwise LINE is read in the minibuffer. - - - Command: beginning-of-line &optional count buffer - This function moves point to the beginning of the current line. - With an argument COUNT not `nil' or 1, it moves forward COUNT-1 - lines and then to the beginning of the line. BUFFER defaults to - the current buffer if omitted. - - If this function reaches the end of the buffer (or of the - accessible portion, if narrowing is in effect), it positions point - there. No error is signaled. - - - Command: end-of-line &optional count buffer - This function moves point to the end of the current line. With an - argument COUNT not `nil' or 1, it moves forward COUNT-1 lines and - then to the end of the line. BUFFER defaults to the current - buffer if omitted. - - If this function reaches the end of the buffer (or of the - accessible portion, if narrowing is in effect), it positions point - there. No error is signaled. - - - Command: forward-line &optional count buffer - This function moves point forward COUNT lines, to the beginning of - the line. If COUNT is negative, it moves point -COUNT lines - backward, to the beginning of a line. If COUNT is zero, it moves - point to the beginning of the current line. BUFFER defaults to - the current buffer if omitted. - - If `forward-line' encounters the beginning or end of the buffer (or - of the accessible portion) before finding that many lines, it sets - point there. No error is signaled. - - `forward-line' returns the difference between COUNT and the number - of lines actually moved. If you attempt to move down five lines - from the beginning of a buffer that has only three lines, point - stops at the end of the last line, and the value will be 2. - - In an interactive call, COUNT is the numeric prefix argument. - - - Function: count-lines start end - This function returns the number of lines between the positions - START and END in the current buffer. If START and END are equal, - then it returns 0. Otherwise it returns at least 1, even if START - and END are on the same line. This is because the text between - them, considered in isolation, must contain at least one line - unless it is empty. - - Here is an example of using `count-lines': - - (defun current-line () - "Return the vertical position of point..." - (+ (count-lines (window-start) (point)) - (if (= (current-column) 0) 1 0) - -1)) - - Also see the functions `bolp' and `eolp' in *Note Near Point::. -These functions do not move point, but test whether it is already at the -beginning or end of a line. - - -File: lispref.info, Node: Screen Lines, Next: List Motion, Prev: Text Lines, Up: Motion - -Motion by Screen Lines ----------------------- - - The line functions in the previous section count text lines, -delimited only by newline characters. By contrast, these functions -count screen lines, which are defined by the way the text appears on -the screen. A text line is a single screen line if it is short enough -to fit the width of the selected window, but otherwise it may occupy -several screen lines. - - In some cases, text lines are truncated on the screen rather than -continued onto additional screen lines. In these cases, -`vertical-motion' moves point much like `forward-line'. *Note -Truncation::. - - Because the width of a given string depends on the flags that control -the appearance of certain characters, `vertical-motion' behaves -differently, for a given piece of text, depending on the buffer it is -in, and even on the selected window (because the width, the truncation -flag, and display table may vary between windows). *Note Usual -Display::. - - These functions scan text to determine where screen lines break, and -thus take time proportional to the distance scanned. If you intend to -use them heavily, Emacs provides caches which may improve the -performance of your code. *Note cache-long-line-scans: Text Lines. - - - Function: vertical-motion count &optional window pixels - This function moves point to the start of the frame line COUNT - frame lines down from the frame line containing point. If COUNT - is negative, it moves up instead. The optional second argument - WINDOW may be used to specify a window other than the selected - window in which to perform the motion. - - Normally, `vertical-motion' returns the number of lines moved. The - value may be less in absolute value than COUNT if the beginning or - end of the buffer was reached. If the optional third argument, - PIXELS is non-`nil', the vertical pixel height of the motion which - took place is returned instead of the actual number of lines - moved. A motion of zero lines returns the height of the current - line. - - Note that `vertical-motion' sets WINDOW's buffer's point, not - WINDOW's point. (This differs from FSF Emacs, which buggily always - sets current buffer's point, regardless of WINDOW.) - - - Function: vertical-motion-pixels count &optional window how - This function moves point to the start of the frame line PIXELS - vertical pixels down from the frame line containing point, or up if - PIXELS is negative. The optional second argument WINDOW is the - window to move in, and defaults to the selected window. The - optional third argument HOW specifies the stopping condition. A - negative integer indicates that the motion should be no more than - PIXELS. A positive value indicates that the motion should be at - least PIXELS. Any other value indicates that the motion should be - as close as possible to PIXELS. - - - Command: move-to-window-line count &optional window - This function moves point with respect to the text currently - displayed in WINDOW, which defaults to the selected window. It - moves point to the beginning of the screen line COUNT screen lines - from the top of the window. If COUNT is negative, that specifies a - position -COUNT lines from the bottom (or the last line of the - buffer, if the buffer ends above the specified screen position). - - If COUNT is `nil', then point moves to the beginning of the line - in the middle of the window. If the absolute value of COUNT is - greater than the size of the window, then point moves to the place - that would appear on that screen line if the window were tall - enough. This will probably cause the next redisplay to scroll to - bring that location onto the screen. - - In an interactive call, COUNT is the numeric prefix argument. - - The value returned is the window line number point has moved to, - with the top line in the window numbered 0. - - -File: lispref.info, Node: List Motion, Next: Skipping Characters, Prev: Screen Lines, Up: Motion - -Moving over Balanced Expressions --------------------------------- - - Here are several functions concerned with balanced-parenthesis -expressions (also called "sexps" in connection with moving across them -in XEmacs). The syntax table controls how these functions interpret -various characters; see *Note Syntax Tables::. *Note Parsing -Expressions::, for lower-level primitives for scanning sexps or parts of -sexps. For user-level commands, see *Note Lists and Sexps: -(emacs)Lists and Sexps. - - - Command: forward-list &optional arg - This function moves forward across ARG balanced groups of - parentheses. (Other syntactic entities such as words or paired - string quotes are ignored.) ARG defaults to 1 if omitted. If ARG - is negative, move backward across that many groups of parentheses. - - - Command: backward-list &optional arg - This function moves backward across ARG balanced groups of - parentheses. (Other syntactic entities such as words or paired - string quotes are ignored.) ARG defaults to 1 if omitted. If ARG - is negative, move forward across that many groups of parentheses. - - - Command: up-list arg - This function moves forward out of ARG levels of parentheses. A - negative argument means move backward but still to a less deep - spot. - - - Command: down-list arg - This function moves forward into ARG levels of parentheses. A - negative argument means move backward but still go deeper in - parentheses (-ARG levels). - - - Command: forward-sexp &optional arg - This function moves forward across ARG balanced expressions. - Balanced expressions include both those delimited by parentheses - and other kinds, such as words and string constants. ARG defaults - to 1 if omitted. If ARG is negative, move backward across that - many balanced expressions. For example, - - ---------- Buffer: foo ---------- - (concat-!- "foo " (car x) y z) - ---------- Buffer: foo ---------- - - (forward-sexp 3) - => nil - - ---------- Buffer: foo ---------- - (concat "foo " (car x) y-!- z) - ---------- Buffer: foo ---------- - - - Command: backward-sexp &optional arg - This function moves backward across ARG balanced expressions. ARG - defaults to 1 if omitted. If ARG is negative, move forward across - that many balanced expressions. - - - Command: beginning-of-defun &optional arg - This function moves back to the ARGth beginning of a defun. If - ARG is negative, this actually moves forward, but it still moves - to the beginning of a defun, not to the end of one. ARG defaults - to 1 if omitted. - - - Command: end-of-defun &optional arg - This function moves forward to the ARGth end of a defun. If ARG - is negative, this actually moves backward, but it still moves to - the end of a defun, not to the beginning of one. ARG defaults to - 1 if omitted. - - - User Option: defun-prompt-regexp - If non-`nil', this variable holds a regular expression that - specifies what text can appear before the open-parenthesis that - starts a defun. That is to say, a defun begins on a line that - starts with a match for this regular expression, followed by a - character with open-parenthesis syntax. - - -File: lispref.info, Node: Skipping Characters, Prev: List Motion, Up: Motion - -Skipping Characters -------------------- - - The following two functions move point over a specified set of -characters. For example, they are often used to skip whitespace. For -related functions, see *Note Motion and Syntax::. - - - Function: skip-chars-forward character-set &optional limit buffer - This function moves point in BUFFER forward, skipping over a given - set of characters. It examines the character following point, - then advances point if the character matches CHARACTER-SET. This - continues until it reaches a character that does not match. The - function returns `nil'. BUFFER defaults to the current buffer if - omitted. - - The argument CHARACTER-SET is like the inside of a `[...]' in a - regular expression except that `]' is never special and `\' quotes - `^', `-' or `\'. Thus, `"a-zA-Z"' skips over all letters, - stopping before the first non-letter, and `"^a-zA-Z'" skips - non-letters stopping before the first letter. *Note Regular - Expressions::. - - If LIMIT is supplied (it must be a number or a marker), it - specifies the maximum position in the buffer that point can be - skipped to. Point will stop at or before LIMIT. - - In the following example, point is initially located directly - before the `T'. After the form is evaluated, point is located at - the end of that line (between the `t' of `hat' and the newline). - The function skips all letters and spaces, but not newlines. - - ---------- Buffer: foo ---------- - I read "-!-The cat in the hat - comes back" twice. - ---------- Buffer: foo ---------- - - (skip-chars-forward "a-zA-Z ") - => nil - - ---------- Buffer: foo ---------- - I read "The cat in the hat-!- - comes back" twice. - ---------- Buffer: foo ---------- - - - Function: skip-chars-backward character-set &optional limit buffer - This function moves point backward, skipping characters that match - CHARACTER-SET, until LIMIT. It just like `skip-chars-forward' - except for the direction of motion. - diff --git a/info/lispref.info-28 b/info/lispref.info-28 index dc9450b..51c114c 100644 --- a/info/lispref.info-28 +++ b/info/lispref.info-28 @@ -50,6 +50,605 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: The Selected Console and Device, Next: Console and Device I/O, Prev: Connecting to a Console or Device, Up: Consoles and Devices + +The Selected Console and Device +=============================== + + - Function: select-console console + This function selects the console CONSOLE. Subsequent editing + commands apply to its selected device, selected frame, and selected + window. The selection of CONSOLE lasts until the next time the + user does something to select a different console, or until the + next time this function is called. + + - Function: selected-console + This function returns the console which is currently active. + + - Function: select-device device + This function selects the device DEVICE. + + - Function: selected-device &optional console + This function returns the device which is currently active. If + optional CONSOLE is non-`nil', this function returns the device + that would be currently active if CONSOLE were the selected + console. + + +File: lispref.info, Node: Console and Device I/O, Prev: The Selected Console and Device, Up: Consoles and Devices + +Console and Device I/O +====================== + + - Function: console-disable-input console + This function disables input on console CONSOLE. + + - Function: console-enable-input console + This function enables input on console CONSOLE. + + Each device has a "baud rate" value associated with it. On most +systems, changing this value will affect the amount of padding and +other strategic decisions made during redisplay. + + - Function: device-baud-rate &optional device + This function returns the output baud rate of DEVICE. + + - Function: set-device-baud-rate device rate + This function sets the output baud rate of DEVICE to RATE. + + +File: lispref.info, Node: Positions, Next: Markers, Prev: Consoles and Devices, Up: Top + +Positions +********* + + A "position" is the index of a character in the text of a buffer. +More precisely, a position identifies the place between two characters +(or before the first character, or after the last character), so we can +speak of the character before or after a given position. However, we +often speak of the character "at" a position, meaning the character +after that position. + + Positions are usually represented as integers starting from 1, but +can also be represented as "markers"--special objects that relocate +automatically when text is inserted or deleted so they stay with the +surrounding characters. *Note Markers::. + +* Menu: + +* Point:: The special position where editing takes place. +* Motion:: Changing point. +* Excursions:: Temporary motion and buffer changes. +* Narrowing:: Restricting editing to a portion of the buffer. + + +File: lispref.info, Node: Point, Next: Motion, Up: Positions + +Point +===== + + "Point" is a special buffer position used by many editing commands, +including the self-inserting typed characters and text insertion +functions. Other commands move point through the text to allow editing +and insertion at different places. + + Like other positions, point designates a place between two characters +(or before the first character, or after the last character), rather +than a particular character. Usually terminals display the cursor over +the character that immediately follows point; point is actually before +the character on which the cursor sits. + + The value of point is a number between 1 and the buffer size plus 1. +If narrowing is in effect (*note Narrowing::), then point is constrained +to fall within the accessible portion of the buffer (possibly at one end +of it). + + Each buffer has its own value of point, which is independent of the +value of point in other buffers. Each window also has a value of point, +which is independent of the value of point in other windows on the same +buffer. This is why point can have different values in various windows +that display the same buffer. When a buffer appears in only one window, +the buffer's point and the window's point normally have the same value, +so the distinction is rarely important. *Note Window Point::, for more +details. + + - Function: point &optional buffer + This function returns the value of point in BUFFER, as an integer. + BUFFER defaults to the current buffer if omitted. + + (point) + => 175 + + - Function: point-min &optional buffer + This function returns the minimum accessible value of point in + BUFFER. This is normally 1, but if narrowing is in effect, it is + the position of the start of the region that you narrowed to. + (*Note Narrowing::.) BUFFER defaults to the current buffer if + omitted. + + - Function: point-max &optional buffer + This function returns the maximum accessible value of point in + BUFFER. This is `(1+ (buffer-size buffer))', unless narrowing is + in effect, in which case it is the position of the end of the + region that you narrowed to. (*note Narrowing::). BUFFER defaults + to the current buffer if omitted. + + - Function: buffer-end flag &optional buffer + This function returns `(point-min buffer)' if FLAG is less than 1, + `(point-max buffer)' otherwise. The argument FLAG must be a + number. BUFFER defaults to the current buffer if omitted. + + - Function: buffer-size &optional buffer + This function returns the total number of characters in BUFFER. + In the absence of any narrowing (*note Narrowing::), `point-max' + returns a value one larger than this. BUFFER defaults to the + current buffer if omitted. + + (buffer-size) + => 35 + (point-max) + => 36 + + - Variable: buffer-saved-size + The value of this buffer-local variable is the former length of the + current buffer, as of the last time it was read in, saved or + auto-saved. + + +File: lispref.info, Node: Motion, Next: Excursions, Prev: Point, Up: Positions + +Motion +====== + + Motion functions change the value of point, either relative to the +current value of point, relative to the beginning or end of the buffer, +or relative to the edges of the selected window. *Note Point::. + +* Menu: + +* Character Motion:: Moving in terms of characters. +* Word Motion:: Moving in terms of words. +* Buffer End Motion:: Moving to the beginning or end of the buffer. +* Text Lines:: Moving in terms of lines of text. +* Screen Lines:: Moving in terms of lines as displayed. +* List Motion:: Moving by parsing lists and sexps. +* Skipping Characters:: Skipping characters belonging to a certain set. + + +File: lispref.info, Node: Character Motion, Next: Word Motion, Up: Motion + +Motion by Characters +-------------------- + + These functions move point based on a count of characters. +`goto-char' is the fundamental primitive; the other functions use that. + + - Command: goto-char position &optional buffer + This function sets point in `buffer' to the value POSITION. If + POSITION is less than 1, it moves point to the beginning of the + buffer. If POSITION is greater than the length of the buffer, it + moves point to the end. BUFFER defaults to the current buffer if + omitted. + + If narrowing is in effect, POSITION still counts from the + beginning of the buffer, but point cannot go outside the accessible + portion. If POSITION is out of range, `goto-char' moves point to + the beginning or the end of the accessible portion. + + When this function is called interactively, POSITION is the + numeric prefix argument, if provided; otherwise it is read from the + minibuffer. + + `goto-char' returns POSITION. + + - Command: forward-char &optional count buffer + This function moves point COUNT characters forward, towards the + end of the buffer (or backward, towards the beginning of the + buffer, if COUNT is negative). If the function attempts to move + point past the beginning or end of the buffer (or the limits of + the accessible portion, when narrowing is in effect), an error is + signaled with error code `beginning-of-buffer' or `end-of-buffer'. + BUFFER defaults to the current buffer if omitted. + + In an interactive call, COUNT is the numeric prefix argument. + + - Command: backward-char &optional count buffer + This function moves point COUNT characters backward, towards the + beginning of the buffer (or forward, towards the end of the + buffer, if COUNT is negative). If the function attempts to move + point past the beginning or end of the buffer (or the limits of + the accessible portion, when narrowing is in effect), an error is + signaled with error code `beginning-of-buffer' or `end-of-buffer'. + BUFFER defaults to the current buffer if omitted. + + In an interactive call, COUNT is the numeric prefix argument. + + +File: lispref.info, Node: Word Motion, Next: Buffer End Motion, Prev: Character Motion, Up: Motion + +Motion by Words +--------------- + + These functions for parsing words use the syntax table to decide +whether a given character is part of a word. *Note Syntax Tables::. + + - Command: forward-word count &optional buffer + This function moves point forward COUNT words (or backward if + COUNT is negative). Normally it returns `t'. If this motion + encounters the beginning or end of the buffer, or the limits of the + accessible portion when narrowing is in effect, point stops there + and the value is `nil'. BUFFER defaults to the current buffer if + omitted. + + In an interactive call, COUNT is set to the numeric prefix + argument. + + - Command: backward-word count &optional buffer + This function is just like `forward-word', except that it moves + backward until encountering the front of a word, rather than + forward. BUFFER defaults to the current buffer if omitted. + + In an interactive call, COUNT is set to the numeric prefix + argument. + + This function is rarely used in programs, as it is more efficient + to call `forward-word' with a negative argument. + + - Variable: words-include-escapes + This variable affects the behavior of `forward-word' and everything + that uses it. If it is non-`nil', then characters in the "escape" + and "character quote" syntax classes count as part of words. + Otherwise, they do not. + + +File: lispref.info, Node: Buffer End Motion, Next: Text Lines, Prev: Word Motion, Up: Motion + +Motion to an End of the Buffer +------------------------------ + + To move point to the beginning of the buffer, write: + + (goto-char (point-min)) + +Likewise, to move to the end of the buffer, use: + + (goto-char (point-max)) + + Here are two commands that users use to do these things. They are +documented here to warn you not to use them in Lisp programs, because +they set the mark and display messages in the echo area. + + - Command: beginning-of-buffer &optional n + This function moves point to the beginning of the buffer (or the + limits of the accessible portion, when narrowing is in effect), + setting the mark at the previous position. If N is non-`nil', + then it puts point N tenths of the way from the beginning of the + buffer. + + In an interactive call, N is the numeric prefix argument, if + provided; otherwise N defaults to `nil'. + + Don't use this function in Lisp programs! + + - Command: end-of-buffer &optional n + This function moves point to the end of the buffer (or the limits + of the accessible portion, when narrowing is in effect), setting + the mark at the previous position. If N is non-`nil', then it puts + point N tenths of the way from the end of the buffer. + + In an interactive call, N is the numeric prefix argument, if + provided; otherwise N defaults to `nil'. + + Don't use this function in Lisp programs! + + +File: lispref.info, Node: Text Lines, Next: Screen Lines, Prev: Buffer End Motion, Up: Motion + +Motion by Text Lines +-------------------- + + Text lines are portions of the buffer delimited by newline +characters, which are regarded as part of the previous line. The first +text line begins at the beginning of the buffer, and the last text line +ends at the end of the buffer whether or not the last character is a +newline. The division of the buffer into text lines is not affected by +the width of the window, by line continuation in display, or by how +tabs and control characters are displayed. + + - Command: goto-line line + This function moves point to the front of the LINEth line, + counting from line 1 at beginning of the buffer. If LINE is less + than 1, it moves point to the beginning of the buffer. If LINE is + greater than the number of lines in the buffer, it moves point to + the end of the buffer--that is, the _end of the last line_ of the + buffer. This is the only case in which `goto-line' does not + necessarily move to the beginning of a line. + + If narrowing is in effect, then LINE still counts from the + beginning of the buffer, but point cannot go outside the accessible + portion. So `goto-line' moves point to the beginning or end of the + accessible portion, if the line number specifies an inaccessible + position. + + The return value of `goto-line' is the difference between LINE and + the line number of the line to which point actually was able to + move (in the full buffer, before taking account of narrowing). + Thus, the value is positive if the scan encounters the real end of + the buffer. The value is zero if scan encounters the end of the + accessible portion but not the real end of the buffer. + + In an interactive call, LINE is the numeric prefix argument if one + has been provided. Otherwise LINE is read in the minibuffer. + + - Command: beginning-of-line &optional count buffer + This function moves point to the beginning of the current line. + With an argument COUNT not `nil' or 1, it moves forward COUNT-1 + lines and then to the beginning of the line. BUFFER defaults to + the current buffer if omitted. + + If this function reaches the end of the buffer (or of the + accessible portion, if narrowing is in effect), it positions point + there. No error is signaled. + + - Command: end-of-line &optional count buffer + This function moves point to the end of the current line. With an + argument COUNT not `nil' or 1, it moves forward COUNT-1 lines and + then to the end of the line. BUFFER defaults to the current + buffer if omitted. + + If this function reaches the end of the buffer (or of the + accessible portion, if narrowing is in effect), it positions point + there. No error is signaled. + + - Command: forward-line &optional count buffer + This function moves point forward COUNT lines, to the beginning of + the line. If COUNT is negative, it moves point -COUNT lines + backward, to the beginning of a line. If COUNT is zero, it moves + point to the beginning of the current line. BUFFER defaults to + the current buffer if omitted. + + If `forward-line' encounters the beginning or end of the buffer (or + of the accessible portion) before finding that many lines, it sets + point there. No error is signaled. + + `forward-line' returns the difference between COUNT and the number + of lines actually moved. If you attempt to move down five lines + from the beginning of a buffer that has only three lines, point + stops at the end of the last line, and the value will be 2. + + In an interactive call, COUNT is the numeric prefix argument. + + - Function: count-lines start end + This function returns the number of lines between the positions + START and END in the current buffer. If START and END are equal, + then it returns 0. Otherwise it returns at least 1, even if START + and END are on the same line. This is because the text between + them, considered in isolation, must contain at least one line + unless it is empty. + + Here is an example of using `count-lines': + + (defun current-line () + "Return the vertical position of point..." + (+ (count-lines (window-start) (point)) + (if (= (current-column) 0) 1 0) + -1)) + + Also see the functions `bolp' and `eolp' in *Note Near Point::. +These functions do not move point, but test whether it is already at the +beginning or end of a line. + + +File: lispref.info, Node: Screen Lines, Next: List Motion, Prev: Text Lines, Up: Motion + +Motion by Screen Lines +---------------------- + + The line functions in the previous section count text lines, +delimited only by newline characters. By contrast, these functions +count screen lines, which are defined by the way the text appears on +the screen. A text line is a single screen line if it is short enough +to fit the width of the selected window, but otherwise it may occupy +several screen lines. + + In some cases, text lines are truncated on the screen rather than +continued onto additional screen lines. In these cases, +`vertical-motion' moves point much like `forward-line'. *Note +Truncation::. + + Because the width of a given string depends on the flags that control +the appearance of certain characters, `vertical-motion' behaves +differently, for a given piece of text, depending on the buffer it is +in, and even on the selected window (because the width, the truncation +flag, and display table may vary between windows). *Note Usual +Display::. + + These functions scan text to determine where screen lines break, and +thus take time proportional to the distance scanned. If you intend to +use them heavily, Emacs provides caches which may improve the +performance of your code. *Note cache-long-line-scans: Text Lines. + + - Function: vertical-motion count &optional window pixels + This function moves point to the start of the frame line COUNT + frame lines down from the frame line containing point. If COUNT + is negative, it moves up instead. The optional second argument + WINDOW may be used to specify a window other than the selected + window in which to perform the motion. + + Normally, `vertical-motion' returns the number of lines moved. The + value may be less in absolute value than COUNT if the beginning or + end of the buffer was reached. If the optional third argument, + PIXELS is non-`nil', the vertical pixel height of the motion which + took place is returned instead of the actual number of lines + moved. A motion of zero lines returns the height of the current + line. + + Note that `vertical-motion' sets WINDOW's buffer's point, not + WINDOW's point. (This differs from FSF Emacs, which buggily always + sets current buffer's point, regardless of WINDOW.) + + - Function: vertical-motion-pixels count &optional window how + This function moves point to the start of the frame line PIXELS + vertical pixels down from the frame line containing point, or up if + PIXELS is negative. The optional second argument WINDOW is the + window to move in, and defaults to the selected window. The + optional third argument HOW specifies the stopping condition. A + negative integer indicates that the motion should be no more than + PIXELS. A positive value indicates that the motion should be at + least PIXELS. Any other value indicates that the motion should be + as close as possible to PIXELS. + + - Command: move-to-window-line count &optional window + This function moves point with respect to the text currently + displayed in WINDOW, which defaults to the selected window. It + moves point to the beginning of the screen line COUNT screen lines + from the top of the window. If COUNT is negative, that specifies a + position -COUNT lines from the bottom (or the last line of the + buffer, if the buffer ends above the specified screen position). + + If COUNT is `nil', then point moves to the beginning of the line + in the middle of the window. If the absolute value of COUNT is + greater than the size of the window, then point moves to the place + that would appear on that screen line if the window were tall + enough. This will probably cause the next redisplay to scroll to + bring that location onto the screen. + + In an interactive call, COUNT is the numeric prefix argument. + + The value returned is the window line number point has moved to, + with the top line in the window numbered 0. + + +File: lispref.info, Node: List Motion, Next: Skipping Characters, Prev: Screen Lines, Up: Motion + +Moving over Balanced Expressions +-------------------------------- + + Here are several functions concerned with balanced-parenthesis +expressions (also called "sexps" in connection with moving across them +in XEmacs). The syntax table controls how these functions interpret +various characters; see *Note Syntax Tables::. *Note Parsing +Expressions::, for lower-level primitives for scanning sexps or parts of +sexps. For user-level commands, see *Note Lists and Sexps: +(emacs)Lists and Sexps. + + - Command: forward-list &optional arg + This function moves forward across ARG balanced groups of + parentheses. (Other syntactic entities such as words or paired + string quotes are ignored.) ARG defaults to 1 if omitted. If ARG + is negative, move backward across that many groups of parentheses. + + - Command: backward-list &optional arg + This function moves backward across ARG balanced groups of + parentheses. (Other syntactic entities such as words or paired + string quotes are ignored.) ARG defaults to 1 if omitted. If ARG + is negative, move forward across that many groups of parentheses. + + - Command: up-list arg + This function moves forward out of ARG levels of parentheses. A + negative argument means move backward but still to a less deep + spot. + + - Command: down-list arg + This function moves forward into ARG levels of parentheses. A + negative argument means move backward but still go deeper in + parentheses (-ARG levels). + + - Command: forward-sexp &optional arg + This function moves forward across ARG balanced expressions. + Balanced expressions include both those delimited by parentheses + and other kinds, such as words and string constants. ARG defaults + to 1 if omitted. If ARG is negative, move backward across that + many balanced expressions. For example, + + ---------- Buffer: foo ---------- + (concat-!- "foo " (car x) y z) + ---------- Buffer: foo ---------- + + (forward-sexp 3) + => nil + + ---------- Buffer: foo ---------- + (concat "foo " (car x) y-!- z) + ---------- Buffer: foo ---------- + + - Command: backward-sexp &optional arg + This function moves backward across ARG balanced expressions. ARG + defaults to 1 if omitted. If ARG is negative, move forward across + that many balanced expressions. + + - Command: beginning-of-defun &optional arg + This function moves back to the ARGth beginning of a defun. If + ARG is negative, this actually moves forward, but it still moves + to the beginning of a defun, not to the end of one. ARG defaults + to 1 if omitted. + + - Command: end-of-defun &optional arg + This function moves forward to the ARGth end of a defun. If ARG + is negative, this actually moves backward, but it still moves to + the end of a defun, not to the beginning of one. ARG defaults to + 1 if omitted. + + - User Option: defun-prompt-regexp + If non-`nil', this variable holds a regular expression that + specifies what text can appear before the open-parenthesis that + starts a defun. That is to say, a defun begins on a line that + starts with a match for this regular expression, followed by a + character with open-parenthesis syntax. + + +File: lispref.info, Node: Skipping Characters, Prev: List Motion, Up: Motion + +Skipping Characters +------------------- + + The following two functions move point over a specified set of +characters. For example, they are often used to skip whitespace. For +related functions, see *Note Motion and Syntax::. + + - Function: skip-chars-forward character-set &optional limit buffer + This function moves point in BUFFER forward, skipping over a given + set of characters. It examines the character following point, + then advances point if the character matches CHARACTER-SET. This + continues until it reaches a character that does not match. The + function returns `nil'. BUFFER defaults to the current buffer if + omitted. + + The argument CHARACTER-SET is like the inside of a `[...]' in a + regular expression except that `]' is never special and `\' quotes + `^', `-' or `\'. Thus, `"a-zA-Z"' skips over all letters, + stopping before the first non-letter, and `"^a-zA-Z'" skips + non-letters stopping before the first letter. *Note Regular + Expressions::. + + If LIMIT is supplied (it must be a number or a marker), it + specifies the maximum position in the buffer that point can be + skipped to. Point will stop at or before LIMIT. + + In the following example, point is initially located directly + before the `T'. After the form is evaluated, point is located at + the end of that line (between the `t' of `hat' and the newline). + The function skips all letters and spaces, but not newlines. + + ---------- Buffer: foo ---------- + I read "-!-The cat in the hat + comes back" twice. + ---------- Buffer: foo ---------- + + (skip-chars-forward "a-zA-Z ") + => nil + + ---------- Buffer: foo ---------- + I read "The cat in the hat-!- + comes back" twice. + ---------- Buffer: foo ---------- + + - Function: skip-chars-backward character-set &optional limit buffer + This function moves point backward, skipping characters that match + CHARACTER-SET, until LIMIT. It just like `skip-chars-forward' + except for the direction of motion. + + File: lispref.info, Node: Excursions, Next: Narrowing, Prev: Motion, Up: Positions Excursions @@ -587,602 +1186,3 @@ Emacs. - Function: move-marker marker position &optional buffer This is another name for `set-marker'. - -File: lispref.info, Node: The Mark, Next: The Region, Prev: Changing Markers, Up: Markers - -The Mark -======== - - One special marker in each buffer is designated "the mark". It -records a position for the user for the sake of commands such as `C-w' -and `C-x '. Lisp programs should set the mark only to values that -have a potential use to the user, and never for their own internal -purposes. For example, the `replace-regexp' command sets the mark to -the value of point before doing any replacements, because this enables -the user to move back there conveniently after the replace is finished. - - Once the mark "exists" in a buffer, it normally never ceases to -exist. However, it may become "inactive", and usually does so after -each command (other than simple motion commands and some commands that -explicitly activate the mark). When the mark is active, the region -between point and the mark is called the "active region" and is -highlighted specially. - - Many commands are designed so that when called interactively they -operate on the text between point and the mark. Such commands work -only when an active region exists, i.e. when the mark is active. (The -reason for this is to prevent you from accidentally deleting or -changing large chunks of your text.) If you are writing such a command, -don't examine the mark directly; instead, use `interactive' with the -`r' specification. This provides the values of point and the mark as -arguments to the command in an interactive call, but permits other Lisp -programs to specify arguments explicitly, and automatically signals an -error if the command is called interactively when no active region -exists. *Note Interactive Codes::. - - Each buffer has its own value of the mark that is independent of the -value of the mark in other buffers. (When a buffer is created, the mark -exists but does not point anywhere. We consider this state as "the -absence of a mark in that buffer.") However, only one active region can -exist at a time. Activating the mark in one buffer automatically -deactivates an active mark in any other buffer. Note that the user can -explicitly activate a mark at any time by using the command -`activate-region' (normally bound to `M-C-z') or by using the command -`exchange-point-and-mark' (normally bound to `C-x C-x'), which has the -side effect of activating the mark. - - Some people do not like active regions, so they disable this behavior -by setting the variable `zmacs-regions' to `nil'. This makes the mark -always active (except when a buffer is just created and the mark points -nowhere), and turns off the highlighting of the region between point -and the mark. Commands that explicitly retrieve the value of the mark -should make sure that they behave correctly and consistently -irrespective of the setting of `zmacs-regions'; some primitives are -provided to ensure this behavior. - - In addition to the mark, each buffer has a "mark ring" which is a -list of markers containing previous values of the mark. When editing -commands change the mark, they should normally save the old value of the -mark on the mark ring. The variable `mark-ring-max' specifies the -maximum number of entries in the mark ring; once the list becomes this -long, adding a new element deletes the last element. - - - Function: mark &optional force buffer - This function returns BUFFER's mark position as an integer. - BUFFER defaults to the current buffer if omitted. - - If the mark is inactive, `mark' normally returns `nil'. However, - if FORCE is non-`nil', then `mark' returns the mark position - anyway--or `nil', if the mark is not yet set for the buffer. - - (Remember that if ZMACS-REGIONS is `nil', the mark is always - active as long as it exists, and the FORCE argument will have no - effect.) - - If you are using this in an editing command, you are most likely - making a mistake; see the documentation of `set-mark' below. - - - Function: mark-marker inactive-p buffer - This function returns BUFFER's mark. BUFFER defaults to the - current buffer if omitted. This is the very marker that records - the mark location inside XEmacs, not a copy. Therefore, changing - this marker's position will directly affect the position of the - mark. Don't do it unless that is the effect you want. - - If the mark is inactive, `mark-marker' normally returns `nil'. - However, if FORCE is non-`nil', then `mark-marker' returns the - mark anyway. - (setq m (mark-marker)) - => # - (set-marker m 100) - => # - (mark-marker) - => # - - Like any marker, this marker can be set to point at any buffer you - like. We don't recommend that you make it point at any buffer - other than the one of which it is the mark. If you do, it will - yield perfectly consistent, but rather odd, results. - - - Function: set-mark position &optional buffer - This function sets `buffer''s mark to POSITION, and activates the - mark. BUFFER defaults to the current buffer if omitted. The old - value of the mark is _not_ pushed onto the mark ring. - - *Please note:* Use this function only if you want the user to see - that the mark has moved, and you want the previous mark position to - be lost. Normally, when a new mark is set, the old one should go - on the `mark-ring'. For this reason, most applications should use - `push-mark' and `pop-mark', not `set-mark'. - - Novice XEmacs Lisp programmers often try to use the mark for the - wrong purposes. The mark saves a location for the user's - convenience. An editing command should not alter the mark unless - altering the mark is part of the user-level functionality of the - command. (And, in that case, this effect should be documented.) - To remember a location for internal use in the Lisp program, store - it in a Lisp variable. For example: - - (let ((beg (point))) - (forward-line 1) - (delete-region beg (point))). - - - Command: exchange-point-and-mark &optional dont-activate-region - This function exchanges the positions of point and the mark. It - is intended for interactive use. The mark is also activated - unless DONT-ACTIVATE-REGION is non-`nil'. - - - Function: push-mark &optional position nomsg activate buffer - This function sets BUFFER's mark to POSITION, and pushes a copy of - the previous mark onto `mark-ring'. BUFFER defaults to the - current buffer if omitted. If POSITION is `nil', then the value - of point is used. `push-mark' returns `nil'. - - If the last global mark pushed was not in BUFFER, also push - POSITION on the global mark ring (see below). - - The function `push-mark' normally _does not_ activate the mark. - To do that, specify `t' for the argument ACTIVATE. - - A `Mark set' message is displayed unless NOMSG is non-`nil'. - - - Function: pop-mark - This function pops off the top element of `mark-ring' and makes - that mark become the buffer's actual mark. This does not move - point in the buffer, and it does nothing if `mark-ring' is empty. - It deactivates the mark. - - The return value is not meaningful. - - - Variable: mark-ring - The value of this buffer-local variable is the list of saved former - marks of the current buffer, most recent first. - - mark-ring - => (# - # - ...) - - - User Option: mark-ring-max - The value of this variable is the maximum size of `mark-ring'. If - more marks than this are pushed onto the `mark-ring', `push-mark' - discards an old mark when it adds a new one. - - In additional to a per-buffer mark ring, there is a "global mark -ring". Marks are pushed onto the global mark ring the first time you -set a mark after switching buffers. - - - Variable: global-mark-ring - The value of this variable is the list of saved former global - marks, most recent first. - - - User Option: mark-ring-max - The value of this variable is the maximum size of - `global-mark-ring'. If more marks than this are pushed onto the - `global-mark-ring', `push-mark' discards an old mark when it adds - a new one. - - - Command: pop-global-mark - This function pops a mark off the global mark ring and jumps to - that location. - - -File: lispref.info, Node: The Region, Prev: The Mark, Up: Markers - -The Region -========== - - The text between point and the mark is known as "the region". -Various functions operate on text delimited by point and the mark, but -only those functions specifically related to the region itself are -described here. - - When `zmacs-regions' is non-`nil' (this is the default), the concept -of an "active region" exists. The region is active when the -corresponding mark is active. Note that only one active region at a -time can exist--i.e. only one buffer's region is active at a time. -*Note The Mark::, for more information about active regions. - - - User Option: zmacs-regions - If non-`nil' (the default), active regions are used. *Note The - Mark::, for a detailed explanation of what this means. - - A number of functions are provided for explicitly determining the -bounds of the region and whether it is active. Few programs need to use -these functions, however. A command designed to operate on a region -should normally use `interactive' with the `r' specification to find -the beginning and end of the region. This lets other Lisp programs -specify the bounds explicitly as arguments and automatically respects -the user's setting for ZMACS-REGIONS. (*Note Interactive Codes::.) - - - Function: region-beginning &optional buffer - This function returns the position of the beginning of BUFFER's - region (as an integer). This is the position of either point or - the mark, whichever is smaller. BUFFER defaults to the current - buffer if omitted. - - If the mark does not point anywhere, an error is signaled. Note - that this function ignores whether the region is active. - - - Function: region-end &optional buffer - This function returns the position of the end of BUFFER's region - (as an integer). This is the position of either point or the mark, - whichever is larger. BUFFER defaults to the current buffer if - omitted. - - If the mark does not point anywhere, an error is signaled. Note - that this function ignores whether the region is active. - - - Function: region-exists-p - This function is non-`nil' if the region exists. If active regions - are in use (i.e. `zmacs-regions' is true), this means that the - region is active. Otherwise, this means that the user has pushed - a mark in this buffer at some point in the past. If this function - returns `nil', a function that uses the `r' interactive - specification will cause an error when called interactively. - - - Function: region-active-p - If `zmacs-regions' is true, this is equivalent to - `region-exists-p'. Otherwise, this function always returns false. - This function is used by commands such as - `fill-paragraph-or-region' and `capitalize-region-or-word', which - operate either on the active region or on something else (e.g. the - word or paragraph at point). - - - Variable: zmacs-region-stays - If a command sets this variable to true, the currently active - region will remain activated when the command finishes. (Normally - the region is deactivated when each command terminates.) If - ZMACS-REGIONS is false, however, this has no effect. Under normal - circumstances, you do not need to set this; use the interactive - specification `_' instead, if you want the region to remain active. - - - Function: zmacs-activate-region - This function activates the region in the current buffer (this is - equivalent to activating the current buffer's mark). This will - normally also highlight the text in the active region and set - ZMACS-REGION-STAYS to `t'. (If ZMACS-REGIONS is false, however, - this function has no effect.) - - - Function: zmacs-deactivate-region - This function deactivates the region in the current buffer (this is - equivalent to deactivating the current buffer's mark). This will - normally also unhighlight the text in the active region and set - ZMACS-REGION-STAYS to `nil'. (If ZMACS-REGIONS is false, however, - this function has no effect.) - - - Function: zmacs-update-region - This function updates the active region, if it's currently active. - (If there is no active region, this function does nothing.) This - has the effect of updating the highlighting on the text in the - region; but you should never need to call this except under rather - strange circumstances. The command loop automatically calls it - when appropriate. Calling this function will call the hook - `zmacs-update-region-hook', if the region is active. - - - Variable: zmacs-activate-region-hook - This normal hook is called when a region becomes active. (Usually - this happens as a result of a command that activates the region, - such as `set-mark-command', `activate-region', or - `exchange-point-and-mark'.) Note that calling - `zmacs-activate-region' will call this hook, even if the region is - already active. If ZMACS-REGIONS is false, however, this hook - will never get called under any circumstances. - - - Variable: zmacs-deactivate-region-hook - This normal hook is called when an active region becomes inactive. - (Calling `zmacs-deactivate-region' when the region is inactive will - _not_ cause this hook to be called.) If ZMACS-REGIONS is false, - this hook will never get called. - - - Variable: zmacs-update-region-hook - This normal hook is called when an active region is "updated" by - `zmacs-update-region'. This normally gets called at the end of - each command that sets ZMACS-REGION-STAYS to `t', indicating that - the region should remain activated. The motion commands do this. - - -File: lispref.info, Node: Text, Next: Searching and Matching, Prev: Markers, Up: Top - -Text -**** - - This chapter describes the functions that deal with the text in a -buffer. Most examine, insert, or delete text in the current buffer, -often in the vicinity of point. Many are interactive. All the -functions that change the text provide for undoing the changes (*note -Undo::). - - Many text-related functions operate on a region of text defined by -two buffer positions passed in arguments named START and END. These -arguments should be either markers (*note Markers::) or numeric -character positions (*note Positions::). The order of these arguments -does not matter; it is all right for START to be the end of the region -and END the beginning. For example, `(delete-region 1 10)' and -`(delete-region 10 1)' are equivalent. An `args-out-of-range' error is -signaled if either START or END is outside the accessible portion of -the buffer. In an interactive call, point and the mark are used for -these arguments. - - Throughout this chapter, "text" refers to the characters in the -buffer, together with their properties (when relevant). - -* Menu: - -* Near Point:: Examining text in the vicinity of point. -* Buffer Contents:: Examining text in a general fashion. -* Comparing Text:: Comparing substrings of buffers. -* Insertion:: Adding new text to a buffer. -* Commands for Insertion:: User-level commands to insert text. -* Deletion:: Removing text from a buffer. -* User-Level Deletion:: User-level commands to delete text. -* The Kill Ring:: Where removed text sometimes is saved for later use. -* Undo:: Undoing changes to the text of a buffer. -* Maintaining Undo:: How to enable and disable undo information. - How to control how much information is kept. -* Filling:: Functions for explicit filling. -* Margins:: How to specify margins for filling commands. -* Auto Filling:: How auto-fill mode is implemented to break lines. -* Sorting:: Functions for sorting parts of the buffer. -* Columns:: Computing horizontal positions, and using them. -* Indentation:: Functions to insert or adjust indentation. -* Case Changes:: Case conversion of parts of the buffer. -* Text Properties:: Assigning Lisp property lists to text characters. -* Substitution:: Replacing a given character wherever it appears. -* Registers:: How registers are implemented. Accessing the text or - position stored in a register. -* Transposition:: Swapping two portions of a buffer. -* Change Hooks:: Supplying functions to be run when text is changed. -* Transformations:: MD5 and base64 support. - - -File: lispref.info, Node: Near Point, Next: Buffer Contents, Up: Text - -Examining Text Near Point -========================= - - Many functions are provided to look at the characters around point. -Several simple functions are described here. See also `looking-at' in -*Note Regexp Search::. - - Many of these functions take an optional BUFFER argument. In all -such cases, the current buffer will be used if this argument is -omitted. (In FSF Emacs, and earlier versions of XEmacs, these functions -usually did not have these optional BUFFER arguments and always -operated on the current buffer.) - - - Function: char-after &optional position buffer - This function returns the character in the buffer at (i.e., - immediately after) position POSITION. If POSITION is out of range - for this purpose, either before the beginning of the buffer, or at - or beyond the end, then the value is `nil'. The default for - POSITION is point. If optional argument BUFFER is `nil', the - current buffer is assumed. - - In the following example, assume that the first character in the - buffer is `@': - - (char-to-string (char-after 1)) - => "@" - - - Function: char-before &optional position buffer - This function returns the character in the current buffer - immediately before position POSITION. If POSITION is out of range - for this purpose, either at or before the beginning of the buffer, - or beyond the end, then the value is `nil'. The default for - POSITION is point. If optional argument BUFFER is `nil', the - current buffer is assumed. - - - Function: following-char &optional buffer - This function returns the character following point in the buffer. - This is similar to `(char-after (point))'. However, if point is at - the end of the buffer, then the result of `following-char' is 0. - If optional argument BUFFER is `nil', the current buffer is - assumed. - - Remember that point is always between characters, and the terminal - cursor normally appears over the character following point. - Therefore, the character returned by `following-char' is the - character the cursor is over. - - In this example, point is between the `a' and the `c'. - - ---------- Buffer: foo ---------- - Gentlemen may cry ``Pea-!-ce! Peace!,'' - but there is no peace. - ---------- Buffer: foo ---------- - - (char-to-string (preceding-char)) - => "a" - (char-to-string (following-char)) - => "c" - - - Function: preceding-char &optional buffer - This function returns the character preceding point in the buffer. - See above, under `following-char', for an example. If point is at - the beginning of the buffer, `preceding-char' returns 0. If - optional argument BUFFER is `nil', the current buffer is assumed. - - - Function: bobp &optional buffer - This function returns `t' if point is at the beginning of the - buffer. If narrowing is in effect, this means the beginning of the - accessible portion of the text. If optional argument BUFFER is - `nil', the current buffer is assumed. See also `point-min' in - *Note Point::. - - - Function: eobp &optional buffer - This function returns `t' if point is at the end of the buffer. - If narrowing is in effect, this means the end of accessible - portion of the text. If optional argument BUFFER is `nil', the - current buffer is assumed. See also `point-max' in *Note Point::. - - - Function: bolp &optional buffer - This function returns `t' if point is at the beginning of a line. - If optional argument BUFFER is `nil', the current buffer is - assumed. *Note Text Lines::. The beginning of the buffer (or its - accessible portion) always counts as the beginning of a line. - - - Function: eolp &optional buffer - This function returns `t' if point is at the end of a line. The - end of the buffer is always considered the end of a line. If - optional argument BUFFER is `nil', the current buffer is assumed. - The end of the buffer (or of its accessible portion) is always - considered the end of a line. - - -File: lispref.info, Node: Buffer Contents, Next: Comparing Text, Prev: Near Point, Up: Text - -Examining Buffer Contents -========================= - - This section describes two functions that allow a Lisp program to -convert any portion of the text in the buffer into a string. - - - Function: buffer-substring start end &optional buffer - - Function: buffer-string start end &optional buffer - These functions are equivalent and return a string containing a - copy of the text of the region defined by positions START and END - in the buffer. If the arguments are not positions in the - accessible portion of the buffer, `buffer-substring' signals an - `args-out-of-range' error. If optional argument BUFFER is `nil', - the current buffer is assumed. - - If the region delineated by START and END contains duplicable - extents, they will be remembered in the string. *Note Duplicable - Extents::. - - It is not necessary for START to be less than END; the arguments - can be given in either order. But most often the smaller argument - is written first. - - ---------- Buffer: foo ---------- - This is the contents of buffer foo - - ---------- Buffer: foo ---------- - - (buffer-substring 1 10) - => "This is t" - (buffer-substring (point-max) 10) - => "he contents of buffer foo - " - - -File: lispref.info, Node: Comparing Text, Next: Insertion, Prev: Buffer Contents, Up: Text - -Comparing Text -============== - - This function lets you compare portions of the text in a buffer, -without copying them into strings first. - - - Function: compare-buffer-substrings buffer1 start1 end1 buffer2 - start2 end2 - This function lets you compare two substrings of the same buffer - or two different buffers. The first three arguments specify one - substring, giving a buffer and two positions within the buffer. - The last three arguments specify the other substring in the same - way. You can use `nil' for BUFFER1, BUFFER2, or both to stand for - the current buffer. - - The value is negative if the first substring is less, positive if - the first is greater, and zero if they are equal. The absolute - value of the result is one plus the index of the first differing - characters within the substrings. - - This function ignores case when comparing characters if - `case-fold-search' is non-`nil'. It always ignores text - properties. - - Suppose the current buffer contains the text `foobarbar - haha!rara!'; then in this example the two substrings are `rbar ' - and `rara!'. The value is 2 because the first substring is greater - at the second character. - - (compare-buffer-substring nil 6 11 nil 16 21) - => 2 - - -File: lispref.info, Node: Insertion, Next: Commands for Insertion, Prev: Comparing Text, Up: Text - -Inserting Text -============== - - "Insertion" means adding new text to a buffer. The inserted text -goes at point--between the character before point and the character -after point. - - Insertion relocates markers that point at positions after the -insertion point, so that they stay with the surrounding text (*note -Markers::). When a marker points at the place of insertion, insertion -normally doesn't relocate the marker, so that it points to the -beginning of the inserted text; however, certain special functions such -as `insert-before-markers' relocate such markers to point after the -inserted text. - - Some insertion functions leave point before the inserted text, while -other functions leave it after. We call the former insertion "after -point" and the latter insertion "before point". - - If a string with non-`nil' extent data is inserted, the remembered -extents will also be inserted. *Note Duplicable Extents::. - - Insertion functions signal an error if the current buffer is -read-only. - - These functions copy text characters from strings and buffers along -with their properties. The inserted characters have exactly the same -properties as the characters they were copied from. By contrast, -characters specified as separate arguments, not part of a string or -buffer, inherit their text properties from the neighboring text. - - - Function: insert &rest args - This function inserts the strings and/or characters ARGS into the - current buffer, at point, moving point forward. In other words, it - inserts the text before point. An error is signaled unless all - ARGS are either strings or characters. The value is `nil'. - - - Function: insert-before-markers &rest args - This function inserts the strings and/or characters ARGS into the - current buffer, at point, moving point forward. An error is - signaled unless all ARGS are either strings or characters. The - value is `nil'. - - This function is unlike the other insertion functions in that it - relocates markers initially pointing at the insertion point, to - point after the inserted text. - - - Function: insert-string string &optional buffer - This function inserts STRING into BUFFER before point. BUFFER - defaults to the current buffer if omitted. This function is - chiefly useful if you want to insert a string in a buffer other - than the current one (otherwise you could just use `insert'). - - - Function: insert-char character count &optional buffer - This function inserts COUNT instances of CHARACTER into BUFFER - before point. COUNT must be a number, and CHARACTER must be a - character. The value is `nil'. If optional argument BUFFER is - `nil', the current buffer is assumed. (In FSF Emacs, the third - argument is called INHERIT and refers to text properties.) - - - Function: insert-buffer-substring from-buffer-or-name &optional - start end - This function inserts a portion of buffer FROM-BUFFER-OR-NAME - (which must already exist) into the current buffer before point. - The text inserted is the region from START and END. (These - arguments default to the beginning and end of the accessible - portion of that buffer.) This function returns `nil'. - - In this example, the form is executed with buffer `bar' as the - current buffer. We assume that buffer `bar' is initially empty. - - ---------- Buffer: foo ---------- - We hold these truths to be self-evident, that all - ---------- Buffer: foo ---------- - - (insert-buffer-substring "foo" 1 20) - => nil - - ---------- Buffer: bar ---------- - We hold these truth-!- - ---------- Buffer: bar ---------- - diff --git a/info/lispref.info-29 b/info/lispref.info-29 index 7d0ee18..07d9698 100644 --- a/info/lispref.info-29 +++ b/info/lispref.info-29 @@ -50,6 +50,605 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: The Mark, Next: The Region, Prev: Changing Markers, Up: Markers + +The Mark +======== + + One special marker in each buffer is designated "the mark". It +records a position for the user for the sake of commands such as `C-w' +and `C-x '. Lisp programs should set the mark only to values that +have a potential use to the user, and never for their own internal +purposes. For example, the `replace-regexp' command sets the mark to +the value of point before doing any replacements, because this enables +the user to move back there conveniently after the replace is finished. + + Once the mark "exists" in a buffer, it normally never ceases to +exist. However, it may become "inactive", and usually does so after +each command (other than simple motion commands and some commands that +explicitly activate the mark). When the mark is active, the region +between point and the mark is called the "active region" and is +highlighted specially. + + Many commands are designed so that when called interactively they +operate on the text between point and the mark. Such commands work +only when an active region exists, i.e. when the mark is active. (The +reason for this is to prevent you from accidentally deleting or +changing large chunks of your text.) If you are writing such a command, +don't examine the mark directly; instead, use `interactive' with the +`r' specification. This provides the values of point and the mark as +arguments to the command in an interactive call, but permits other Lisp +programs to specify arguments explicitly, and automatically signals an +error if the command is called interactively when no active region +exists. *Note Interactive Codes::. + + Each buffer has its own value of the mark that is independent of the +value of the mark in other buffers. (When a buffer is created, the mark +exists but does not point anywhere. We consider this state as "the +absence of a mark in that buffer.") However, only one active region can +exist at a time. Activating the mark in one buffer automatically +deactivates an active mark in any other buffer. Note that the user can +explicitly activate a mark at any time by using the command +`activate-region' (normally bound to `M-C-z') or by using the command +`exchange-point-and-mark' (normally bound to `C-x C-x'), which has the +side effect of activating the mark. + + Some people do not like active regions, so they disable this behavior +by setting the variable `zmacs-regions' to `nil'. This makes the mark +always active (except when a buffer is just created and the mark points +nowhere), and turns off the highlighting of the region between point +and the mark. Commands that explicitly retrieve the value of the mark +should make sure that they behave correctly and consistently +irrespective of the setting of `zmacs-regions'; some primitives are +provided to ensure this behavior. + + In addition to the mark, each buffer has a "mark ring" which is a +list of markers containing previous values of the mark. When editing +commands change the mark, they should normally save the old value of the +mark on the mark ring. The variable `mark-ring-max' specifies the +maximum number of entries in the mark ring; once the list becomes this +long, adding a new element deletes the last element. + + - Function: mark &optional force buffer + This function returns BUFFER's mark position as an integer. + BUFFER defaults to the current buffer if omitted. + + If the mark is inactive, `mark' normally returns `nil'. However, + if FORCE is non-`nil', then `mark' returns the mark position + anyway--or `nil', if the mark is not yet set for the buffer. + + (Remember that if ZMACS-REGIONS is `nil', the mark is always + active as long as it exists, and the FORCE argument will have no + effect.) + + If you are using this in an editing command, you are most likely + making a mistake; see the documentation of `set-mark' below. + + - Function: mark-marker inactive-p buffer + This function returns BUFFER's mark. BUFFER defaults to the + current buffer if omitted. This is the very marker that records + the mark location inside XEmacs, not a copy. Therefore, changing + this marker's position will directly affect the position of the + mark. Don't do it unless that is the effect you want. + + If the mark is inactive, `mark-marker' normally returns `nil'. + However, if FORCE is non-`nil', then `mark-marker' returns the + mark anyway. + (setq m (mark-marker)) + => # + (set-marker m 100) + => # + (mark-marker) + => # + + Like any marker, this marker can be set to point at any buffer you + like. We don't recommend that you make it point at any buffer + other than the one of which it is the mark. If you do, it will + yield perfectly consistent, but rather odd, results. + + - Function: set-mark position &optional buffer + This function sets `buffer''s mark to POSITION, and activates the + mark. BUFFER defaults to the current buffer if omitted. The old + value of the mark is _not_ pushed onto the mark ring. + + *Please note:* Use this function only if you want the user to see + that the mark has moved, and you want the previous mark position to + be lost. Normally, when a new mark is set, the old one should go + on the `mark-ring'. For this reason, most applications should use + `push-mark' and `pop-mark', not `set-mark'. + + Novice XEmacs Lisp programmers often try to use the mark for the + wrong purposes. The mark saves a location for the user's + convenience. An editing command should not alter the mark unless + altering the mark is part of the user-level functionality of the + command. (And, in that case, this effect should be documented.) + To remember a location for internal use in the Lisp program, store + it in a Lisp variable. For example: + + (let ((beg (point))) + (forward-line 1) + (delete-region beg (point))). + + - Command: exchange-point-and-mark &optional dont-activate-region + This function exchanges the positions of point and the mark. It + is intended for interactive use. The mark is also activated + unless DONT-ACTIVATE-REGION is non-`nil'. + + - Function: push-mark &optional position nomsg activate buffer + This function sets BUFFER's mark to POSITION, and pushes a copy of + the previous mark onto `mark-ring'. BUFFER defaults to the + current buffer if omitted. If POSITION is `nil', then the value + of point is used. `push-mark' returns `nil'. + + If the last global mark pushed was not in BUFFER, also push + POSITION on the global mark ring (see below). + + The function `push-mark' normally _does not_ activate the mark. + To do that, specify `t' for the argument ACTIVATE. + + A `Mark set' message is displayed unless NOMSG is non-`nil'. + + - Function: pop-mark + This function pops off the top element of `mark-ring' and makes + that mark become the buffer's actual mark. This does not move + point in the buffer, and it does nothing if `mark-ring' is empty. + It deactivates the mark. + + The return value is not meaningful. + + - Variable: mark-ring + The value of this buffer-local variable is the list of saved former + marks of the current buffer, most recent first. + + mark-ring + => (# + # + ...) + + - User Option: mark-ring-max + The value of this variable is the maximum size of `mark-ring'. If + more marks than this are pushed onto the `mark-ring', `push-mark' + discards an old mark when it adds a new one. + + In additional to a per-buffer mark ring, there is a "global mark +ring". Marks are pushed onto the global mark ring the first time you +set a mark after switching buffers. + + - Variable: global-mark-ring + The value of this variable is the list of saved former global + marks, most recent first. + + - User Option: mark-ring-max + The value of this variable is the maximum size of + `global-mark-ring'. If more marks than this are pushed onto the + `global-mark-ring', `push-mark' discards an old mark when it adds + a new one. + + - Command: pop-global-mark + This function pops a mark off the global mark ring and jumps to + that location. + + +File: lispref.info, Node: The Region, Prev: The Mark, Up: Markers + +The Region +========== + + The text between point and the mark is known as "the region". +Various functions operate on text delimited by point and the mark, but +only those functions specifically related to the region itself are +described here. + + When `zmacs-regions' is non-`nil' (this is the default), the concept +of an "active region" exists. The region is active when the +corresponding mark is active. Note that only one active region at a +time can exist--i.e. only one buffer's region is active at a time. +*Note The Mark::, for more information about active regions. + + - User Option: zmacs-regions + If non-`nil' (the default), active regions are used. *Note The + Mark::, for a detailed explanation of what this means. + + A number of functions are provided for explicitly determining the +bounds of the region and whether it is active. Few programs need to use +these functions, however. A command designed to operate on a region +should normally use `interactive' with the `r' specification to find +the beginning and end of the region. This lets other Lisp programs +specify the bounds explicitly as arguments and automatically respects +the user's setting for ZMACS-REGIONS. (*Note Interactive Codes::.) + + - Function: region-beginning &optional buffer + This function returns the position of the beginning of BUFFER's + region (as an integer). This is the position of either point or + the mark, whichever is smaller. BUFFER defaults to the current + buffer if omitted. + + If the mark does not point anywhere, an error is signaled. Note + that this function ignores whether the region is active. + + - Function: region-end &optional buffer + This function returns the position of the end of BUFFER's region + (as an integer). This is the position of either point or the mark, + whichever is larger. BUFFER defaults to the current buffer if + omitted. + + If the mark does not point anywhere, an error is signaled. Note + that this function ignores whether the region is active. + + - Function: region-exists-p + This function is non-`nil' if the region exists. If active regions + are in use (i.e. `zmacs-regions' is true), this means that the + region is active. Otherwise, this means that the user has pushed + a mark in this buffer at some point in the past. If this function + returns `nil', a function that uses the `r' interactive + specification will cause an error when called interactively. + + - Function: region-active-p + If `zmacs-regions' is true, this is equivalent to + `region-exists-p'. Otherwise, this function always returns false. + This function is used by commands such as + `fill-paragraph-or-region' and `capitalize-region-or-word', which + operate either on the active region or on something else (e.g. the + word or paragraph at point). + + - Variable: zmacs-region-stays + If a command sets this variable to true, the currently active + region will remain activated when the command finishes. (Normally + the region is deactivated when each command terminates.) If + ZMACS-REGIONS is false, however, this has no effect. Under normal + circumstances, you do not need to set this; use the interactive + specification `_' instead, if you want the region to remain active. + + - Function: zmacs-activate-region + This function activates the region in the current buffer (this is + equivalent to activating the current buffer's mark). This will + normally also highlight the text in the active region and set + ZMACS-REGION-STAYS to `t'. (If ZMACS-REGIONS is false, however, + this function has no effect.) + + - Function: zmacs-deactivate-region + This function deactivates the region in the current buffer (this is + equivalent to deactivating the current buffer's mark). This will + normally also unhighlight the text in the active region and set + ZMACS-REGION-STAYS to `nil'. (If ZMACS-REGIONS is false, however, + this function has no effect.) + + - Function: zmacs-update-region + This function updates the active region, if it's currently active. + (If there is no active region, this function does nothing.) This + has the effect of updating the highlighting on the text in the + region; but you should never need to call this except under rather + strange circumstances. The command loop automatically calls it + when appropriate. Calling this function will call the hook + `zmacs-update-region-hook', if the region is active. + + - Variable: zmacs-activate-region-hook + This normal hook is called when a region becomes active. (Usually + this happens as a result of a command that activates the region, + such as `set-mark-command', `activate-region', or + `exchange-point-and-mark'.) Note that calling + `zmacs-activate-region' will call this hook, even if the region is + already active. If ZMACS-REGIONS is false, however, this hook + will never get called under any circumstances. + + - Variable: zmacs-deactivate-region-hook + This normal hook is called when an active region becomes inactive. + (Calling `zmacs-deactivate-region' when the region is inactive will + _not_ cause this hook to be called.) If ZMACS-REGIONS is false, + this hook will never get called. + + - Variable: zmacs-update-region-hook + This normal hook is called when an active region is "updated" by + `zmacs-update-region'. This normally gets called at the end of + each command that sets ZMACS-REGION-STAYS to `t', indicating that + the region should remain activated. The motion commands do this. + + +File: lispref.info, Node: Text, Next: Searching and Matching, Prev: Markers, Up: Top + +Text +**** + + This chapter describes the functions that deal with the text in a +buffer. Most examine, insert, or delete text in the current buffer, +often in the vicinity of point. Many are interactive. All the +functions that change the text provide for undoing the changes (*note +Undo::). + + Many text-related functions operate on a region of text defined by +two buffer positions passed in arguments named START and END. These +arguments should be either markers (*note Markers::) or numeric +character positions (*note Positions::). The order of these arguments +does not matter; it is all right for START to be the end of the region +and END the beginning. For example, `(delete-region 1 10)' and +`(delete-region 10 1)' are equivalent. An `args-out-of-range' error is +signaled if either START or END is outside the accessible portion of +the buffer. In an interactive call, point and the mark are used for +these arguments. + + Throughout this chapter, "text" refers to the characters in the +buffer, together with their properties (when relevant). + +* Menu: + +* Near Point:: Examining text in the vicinity of point. +* Buffer Contents:: Examining text in a general fashion. +* Comparing Text:: Comparing substrings of buffers. +* Insertion:: Adding new text to a buffer. +* Commands for Insertion:: User-level commands to insert text. +* Deletion:: Removing text from a buffer. +* User-Level Deletion:: User-level commands to delete text. +* The Kill Ring:: Where removed text sometimes is saved for later use. +* Undo:: Undoing changes to the text of a buffer. +* Maintaining Undo:: How to enable and disable undo information. + How to control how much information is kept. +* Filling:: Functions for explicit filling. +* Margins:: How to specify margins for filling commands. +* Auto Filling:: How auto-fill mode is implemented to break lines. +* Sorting:: Functions for sorting parts of the buffer. +* Columns:: Computing horizontal positions, and using them. +* Indentation:: Functions to insert or adjust indentation. +* Case Changes:: Case conversion of parts of the buffer. +* Text Properties:: Assigning Lisp property lists to text characters. +* Substitution:: Replacing a given character wherever it appears. +* Registers:: How registers are implemented. Accessing the text or + position stored in a register. +* Transposition:: Swapping two portions of a buffer. +* Change Hooks:: Supplying functions to be run when text is changed. +* Transformations:: MD5 and base64 support. + + +File: lispref.info, Node: Near Point, Next: Buffer Contents, Up: Text + +Examining Text Near Point +========================= + + Many functions are provided to look at the characters around point. +Several simple functions are described here. See also `looking-at' in +*Note Regexp Search::. + + Many of these functions take an optional BUFFER argument. In all +such cases, the current buffer will be used if this argument is +omitted. (In FSF Emacs, and earlier versions of XEmacs, these functions +usually did not have these optional BUFFER arguments and always +operated on the current buffer.) + + - Function: char-after &optional position buffer + This function returns the character in the buffer at (i.e., + immediately after) position POSITION. If POSITION is out of range + for this purpose, either before the beginning of the buffer, or at + or beyond the end, then the value is `nil'. The default for + POSITION is point. If optional argument BUFFER is `nil', the + current buffer is assumed. + + In the following example, assume that the first character in the + buffer is `@': + + (char-to-string (char-after 1)) + => "@" + + - Function: char-before &optional position buffer + This function returns the character in the current buffer + immediately before position POSITION. If POSITION is out of range + for this purpose, either at or before the beginning of the buffer, + or beyond the end, then the value is `nil'. The default for + POSITION is point. If optional argument BUFFER is `nil', the + current buffer is assumed. + + - Function: following-char &optional buffer + This function returns the character following point in the buffer. + This is similar to `(char-after (point))'. However, if point is at + the end of the buffer, then the result of `following-char' is 0. + If optional argument BUFFER is `nil', the current buffer is + assumed. + + Remember that point is always between characters, and the terminal + cursor normally appears over the character following point. + Therefore, the character returned by `following-char' is the + character the cursor is over. + + In this example, point is between the `a' and the `c'. + + ---------- Buffer: foo ---------- + Gentlemen may cry ``Pea-!-ce! Peace!,'' + but there is no peace. + ---------- Buffer: foo ---------- + + (char-to-string (preceding-char)) + => "a" + (char-to-string (following-char)) + => "c" + + - Function: preceding-char &optional buffer + This function returns the character preceding point in the buffer. + See above, under `following-char', for an example. If point is at + the beginning of the buffer, `preceding-char' returns 0. If + optional argument BUFFER is `nil', the current buffer is assumed. + + - Function: bobp &optional buffer + This function returns `t' if point is at the beginning of the + buffer. If narrowing is in effect, this means the beginning of the + accessible portion of the text. If optional argument BUFFER is + `nil', the current buffer is assumed. See also `point-min' in + *Note Point::. + + - Function: eobp &optional buffer + This function returns `t' if point is at the end of the buffer. + If narrowing is in effect, this means the end of accessible + portion of the text. If optional argument BUFFER is `nil', the + current buffer is assumed. See also `point-max' in *Note Point::. + + - Function: bolp &optional buffer + This function returns `t' if point is at the beginning of a line. + If optional argument BUFFER is `nil', the current buffer is + assumed. *Note Text Lines::. The beginning of the buffer (or its + accessible portion) always counts as the beginning of a line. + + - Function: eolp &optional buffer + This function returns `t' if point is at the end of a line. The + end of the buffer is always considered the end of a line. If + optional argument BUFFER is `nil', the current buffer is assumed. + The end of the buffer (or of its accessible portion) is always + considered the end of a line. + + +File: lispref.info, Node: Buffer Contents, Next: Comparing Text, Prev: Near Point, Up: Text + +Examining Buffer Contents +========================= + + This section describes two functions that allow a Lisp program to +convert any portion of the text in the buffer into a string. + + - Function: buffer-substring start end &optional buffer + - Function: buffer-string start end &optional buffer + These functions are equivalent and return a string containing a + copy of the text of the region defined by positions START and END + in the buffer. If the arguments are not positions in the + accessible portion of the buffer, `buffer-substring' signals an + `args-out-of-range' error. If optional argument BUFFER is `nil', + the current buffer is assumed. + + If the region delineated by START and END contains duplicable + extents, they will be remembered in the string. *Note Duplicable + Extents::. + + It is not necessary for START to be less than END; the arguments + can be given in either order. But most often the smaller argument + is written first. + + ---------- Buffer: foo ---------- + This is the contents of buffer foo + + ---------- Buffer: foo ---------- + + (buffer-substring 1 10) + => "This is t" + (buffer-substring (point-max) 10) + => "he contents of buffer foo + " + + +File: lispref.info, Node: Comparing Text, Next: Insertion, Prev: Buffer Contents, Up: Text + +Comparing Text +============== + + This function lets you compare portions of the text in a buffer, +without copying them into strings first. + + - Function: compare-buffer-substrings buffer1 start1 end1 buffer2 + start2 end2 + This function lets you compare two substrings of the same buffer + or two different buffers. The first three arguments specify one + substring, giving a buffer and two positions within the buffer. + The last three arguments specify the other substring in the same + way. You can use `nil' for BUFFER1, BUFFER2, or both to stand for + the current buffer. + + The value is negative if the first substring is less, positive if + the first is greater, and zero if they are equal. The absolute + value of the result is one plus the index of the first differing + characters within the substrings. + + This function ignores case when comparing characters if + `case-fold-search' is non-`nil'. It always ignores text + properties. + + Suppose the current buffer contains the text `foobarbar + haha!rara!'; then in this example the two substrings are `rbar ' + and `rara!'. The value is 2 because the first substring is greater + at the second character. + + (compare-buffer-substring nil 6 11 nil 16 21) + => 2 + + +File: lispref.info, Node: Insertion, Next: Commands for Insertion, Prev: Comparing Text, Up: Text + +Inserting Text +============== + + "Insertion" means adding new text to a buffer. The inserted text +goes at point--between the character before point and the character +after point. + + Insertion relocates markers that point at positions after the +insertion point, so that they stay with the surrounding text (*note +Markers::). When a marker points at the place of insertion, insertion +normally doesn't relocate the marker, so that it points to the +beginning of the inserted text; however, certain special functions such +as `insert-before-markers' relocate such markers to point after the +inserted text. + + Some insertion functions leave point before the inserted text, while +other functions leave it after. We call the former insertion "after +point" and the latter insertion "before point". + + If a string with non-`nil' extent data is inserted, the remembered +extents will also be inserted. *Note Duplicable Extents::. + + Insertion functions signal an error if the current buffer is +read-only. + + These functions copy text characters from strings and buffers along +with their properties. The inserted characters have exactly the same +properties as the characters they were copied from. By contrast, +characters specified as separate arguments, not part of a string or +buffer, inherit their text properties from the neighboring text. + + - Function: insert &rest args + This function inserts the strings and/or characters ARGS into the + current buffer, at point, moving point forward. In other words, it + inserts the text before point. An error is signaled unless all + ARGS are either strings or characters. The value is `nil'. + + - Function: insert-before-markers &rest args + This function inserts the strings and/or characters ARGS into the + current buffer, at point, moving point forward. An error is + signaled unless all ARGS are either strings or characters. The + value is `nil'. + + This function is unlike the other insertion functions in that it + relocates markers initially pointing at the insertion point, to + point after the inserted text. + + - Function: insert-string string &optional buffer + This function inserts STRING into BUFFER before point. BUFFER + defaults to the current buffer if omitted. This function is + chiefly useful if you want to insert a string in a buffer other + than the current one (otherwise you could just use `insert'). + + - Function: insert-char character count &optional buffer + This function inserts COUNT instances of CHARACTER into BUFFER + before point. COUNT must be a number, and CHARACTER must be a + character. The value is `nil'. If optional argument BUFFER is + `nil', the current buffer is assumed. (In FSF Emacs, the third + argument is called INHERIT and refers to text properties.) + + - Function: insert-buffer-substring from-buffer-or-name &optional + start end + This function inserts a portion of buffer FROM-BUFFER-OR-NAME + (which must already exist) into the current buffer before point. + The text inserted is the region from START and END. (These + arguments default to the beginning and end of the accessible + portion of that buffer.) This function returns `nil'. + + In this example, the form is executed with buffer `bar' as the + current buffer. We assume that buffer `bar' is initially empty. + + ---------- Buffer: foo ---------- + We hold these truths to be self-evident, that all + ---------- Buffer: foo ---------- + + (insert-buffer-substring "foo" 1 20) + => nil + + ---------- Buffer: bar ---------- + We hold these truth-!- + ---------- Buffer: bar ---------- + + File: lispref.info, Node: Commands for Insertion, Next: Deletion, Prev: Insertion, Up: Text User-Level Insertion Commands @@ -528,469 +1127,3 @@ Emacs version 18. The normal use of this hook is to set the X server's primary selection to the newly killed text. - -File: lispref.info, Node: Internals of Kill Ring, Prev: Low-Level Kill Ring, Up: The Kill Ring - -Internals of the Kill Ring --------------------------- - - The variable `kill-ring' holds the kill ring contents, in the form -of a list of strings. The most recent kill is always at the front of -the list. - - The `kill-ring-yank-pointer' variable points to a link in the kill -ring list, whose CAR is the text to yank next. We say it identifies -the "front" of the ring. Moving `kill-ring-yank-pointer' to a -different link is called "rotating the kill ring". We call the kill -ring a "ring" because the functions that move the yank pointer wrap -around from the end of the list to the beginning, or vice-versa. -Rotation of the kill ring is virtual; it does not change the value of -`kill-ring'. - - Both `kill-ring' and `kill-ring-yank-pointer' are Lisp variables -whose values are normally lists. The word "pointer" in the name of the -`kill-ring-yank-pointer' indicates that the variable's purpose is to -identify one element of the list for use by the next yank command. - - The value of `kill-ring-yank-pointer' is always `eq' to one of the -links in the kill ring list. The element it identifies is the CAR of -that link. Kill commands, which change the kill ring, also set this -variable to the value of `kill-ring'. The effect is to rotate the ring -so that the newly killed text is at the front. - - Here is a diagram that shows the variable `kill-ring-yank-pointer' -pointing to the second entry in the kill ring `("some text" "a -different piece of text" "yet older text")'. - - kill-ring kill-ring-yank-pointer - | | - | ___ ___ ---> ___ ___ ___ ___ - --> |___|___|------> |___|___|--> |___|___|--> nil - | | | - | | | - | | -->"yet older text" - | | - | --> "a different piece of text" - | - --> "some text" - -This state of affairs might occur after `C-y' (`yank') immediately -followed by `M-y' (`yank-pop'). - - - Variable: kill-ring - This variable holds the list of killed text sequences, most - recently killed first. - - - Variable: kill-ring-yank-pointer - This variable's value indicates which element of the kill ring is - at the "front" of the ring for yanking. More precisely, the value - is a tail of the value of `kill-ring', and its CAR is the kill - string that `C-y' should yank. - - - User Option: kill-ring-max - The value of this variable is the maximum length to which the kill - ring can grow, before elements are thrown away at the end. The - default value for `kill-ring-max' is 30. - - -File: lispref.info, Node: Undo, Next: Maintaining Undo, Prev: The Kill Ring, Up: Text - -Undo -==== - - Most buffers have an "undo list", which records all changes made to -the buffer's text so that they can be undone. (The buffers that don't -have one are usually special-purpose buffers for which XEmacs assumes -that undoing is not useful.) All the primitives that modify the text -in the buffer automatically add elements to the front of the undo list, -which is in the variable `buffer-undo-list'. - - - Variable: buffer-undo-list - This variable's value is the undo list of the current buffer. A - value of `t' disables the recording of undo information. - - Here are the kinds of elements an undo list can have: - -`INTEGER' - This kind of element records a previous value of point. Ordinary - cursor motion does not get any sort of undo record, but deletion - commands use these entries to record where point was before the - command. - -`(BEG . END)' - This kind of element indicates how to delete text that was - inserted. Upon insertion, the text occupied the range BEG-END in - the buffer. - -`(TEXT . POSITION)' - This kind of element indicates how to reinsert text that was - deleted. The deleted text itself is the string TEXT. The place to - reinsert it is `(abs POSITION)'. - -`(t HIGH . LOW)' - This kind of element indicates that an unmodified buffer became - modified. The elements HIGH and LOW are two integers, each - recording 16 bits of the visited file's modification time as of - when it was previously visited or saved. `primitive-undo' uses - those values to determine whether to mark the buffer as unmodified - once again; it does so only if the file's modification time - matches those numbers. - -`(nil PROPERTY VALUE BEG . END)' - This kind of element records a change in a text property. Here's - how you might undo the change: - - (put-text-property BEG END PROPERTY VALUE) - -`POSITION' - This element indicates where point was at an earlier time. - Undoing this element sets point to POSITION. Deletion normally - creates an element of this kind as well as a reinsertion element. - -`nil' - This element is a boundary. The elements between two boundaries - are called a "change group"; normally, each change group - corresponds to one keyboard command, and undo commands normally - undo an entire group as a unit. - - - Function: undo-boundary - This function places a boundary element in the undo list. The undo - command stops at such a boundary, and successive undo commands undo - to earlier and earlier boundaries. This function returns `nil'. - - The editor command loop automatically creates an undo boundary - before each key sequence is executed. Thus, each undo normally - undoes the effects of one command. Self-inserting input - characters are an exception. The command loop makes a boundary - for the first such character; the next 19 consecutive - self-inserting input characters do not make boundaries, and then - the 20th does, and so on as long as self-inserting characters - continue. - - All buffer modifications add a boundary whenever the previous - undoable change was made in some other buffer. This way, a - command that modifies several buffers makes a boundary in each - buffer it changes. - - Calling this function explicitly is useful for splitting the - effects of a command into more than one unit. For example, - `query-replace' calls `undo-boundary' after each replacement, so - that the user can undo individual replacements one by one. - - - Function: primitive-undo count list - This is the basic function for undoing elements of an undo list. - It undoes the first COUNT elements of LIST, returning the rest of - LIST. You could write this function in Lisp, but it is convenient - to have it in C. - - `primitive-undo' adds elements to the buffer's undo list when it - changes the buffer. Undo commands avoid confusion by saving the - undo list value at the beginning of a sequence of undo operations. - Then the undo operations use and update the saved value. The new - elements added by undoing are not part of this saved value, so - they don't interfere with continuing to undo. - - -File: lispref.info, Node: Maintaining Undo, Next: Filling, Prev: Undo, Up: Text - -Maintaining Undo Lists -====================== - - This section describes how to enable and disable undo information for -a given buffer. It also explains how the undo list is truncated -automatically so it doesn't get too big. - - Recording of undo information in a newly created buffer is normally -enabled to start with; but if the buffer name starts with a space, the -undo recording is initially disabled. You can explicitly enable or -disable undo recording with the following two functions, or by setting -`buffer-undo-list' yourself. - - - Command: buffer-enable-undo &optional buffer-or-name - This command enables recording undo information for buffer - BUFFER-OR-NAME, so that subsequent changes can be undone. If no - argument is supplied, then the current buffer is used. This - function does nothing if undo recording is already enabled in the - buffer. It returns `nil'. - - In an interactive call, BUFFER-OR-NAME is the current buffer. You - cannot specify any other buffer. - - - Function: buffer-disable-undo &optional buffer - - Function: buffer-flush-undo &optional buffer - This function discards the undo list of BUFFER, and disables - further recording of undo information. As a result, it is no - longer possible to undo either previous changes or any subsequent - changes. If the undo list of BUFFER is already disabled, this - function has no effect. - - This function returns `nil'. It cannot be called interactively. - - The name `buffer-flush-undo' is not considered obsolete, but the - preferred name `buffer-disable-undo' is new as of Emacs versions - 19. - - As editing continues, undo lists get longer and longer. To prevent -them from using up all available memory space, garbage collection trims -them back to size limits you can set. (For this purpose, the "size" of -an undo list measures the cons cells that make up the list, plus the -strings of deleted text.) Two variables control the range of acceptable -sizes: `undo-limit' and `undo-strong-limit'. - - - Variable: undo-limit - This is the soft limit for the acceptable size of an undo list. - The change group at which this size is exceeded is the last one - kept. - - - Variable: undo-strong-limit - This is the upper limit for the acceptable size of an undo list. - The change group at which this size is exceeded is discarded - itself (along with all older change groups). There is one - exception: the very latest change group is never discarded no - matter how big it is. - - -File: lispref.info, Node: Filling, Next: Margins, Prev: Maintaining Undo, Up: Text - -Filling -======= - - "Filling" means adjusting the lengths of lines (by moving the line -breaks) so that they are nearly (but no greater than) a specified -maximum width. Additionally, lines can be "justified", which means -inserting spaces to make the left and/or right margins line up -precisely. The width is controlled by the variable `fill-column'. For -ease of reading, lines should be no longer than 70 or so columns. - - You can use Auto Fill mode (*note Auto Filling::) to fill text -automatically as you insert it, but changes to existing text may leave -it improperly filled. Then you must fill the text explicitly. - - Most of the commands in this section return values that are not -meaningful. All the functions that do filling take note of the current -left margin, current right margin, and current justification style -(*note Margins::). If the current justification style is `none', the -filling functions don't actually do anything. - - Several of the filling functions have an argument JUSTIFY. If it is -non-`nil', that requests some kind of justification. It can be `left', -`right', `full', or `center', to request a specific style of -justification. If it is `t', that means to use the current -justification style for this part of the text (see -`current-justification', below). - - When you call the filling functions interactively, using a prefix -argument implies the value `full' for JUSTIFY. - - - Command: fill-paragraph justify - This command fills the paragraph at or after point. If JUSTIFY is - non-`nil', each line is justified as well. It uses the ordinary - paragraph motion commands to find paragraph boundaries. *Note - Paragraphs: (xemacs)Paragraphs. - - - Command: fill-region start end &optional justify - This command fills each of the paragraphs in the region from START - to END. It justifies as well if JUSTIFY is non-`nil'. - - The variable `paragraph-separate' controls how to distinguish - paragraphs. *Note Standard Regexps::. - - - Command: fill-individual-paragraphs start end &optional justify - mail-flag - This command fills each paragraph in the region according to its - individual fill prefix. Thus, if the lines of a paragraph were - indented with spaces, the filled paragraph will remain indented in - the same fashion. - - The first two arguments, START and END, are the beginning and end - of the region to be filled. The third and fourth arguments, - JUSTIFY and MAIL-FLAG, are optional. If JUSTIFY is non-`nil', the - paragraphs are justified as well as filled. If MAIL-FLAG is - non-`nil', it means the function is operating on a mail message - and therefore should not fill the header lines. - - Ordinarily, `fill-individual-paragraphs' regards each change in - indentation as starting a new paragraph. If - `fill-individual-varying-indent' is non-`nil', then only separator - lines separate paragraphs. That mode can handle indented - paragraphs with additional indentation on the first line. - - - User Option: fill-individual-varying-indent - This variable alters the action of `fill-individual-paragraphs' as - described above. - - - Command: fill-region-as-paragraph start end &optional justify - This command considers a region of text as a paragraph and fills - it. If the region was made up of many paragraphs, the blank lines - between paragraphs are removed. This function justifies as well - as filling when JUSTIFY is non-`nil'. - - In an interactive call, any prefix argument requests justification. - - In Adaptive Fill mode, which is enabled by default, - `fill-region-as-paragraph' on an indented paragraph when there is - no fill prefix uses the indentation of the second line of the - paragraph as the fill prefix. - - - Command: justify-current-line how eop nosqueeze - This command inserts spaces between the words of the current line - so that the line ends exactly at `fill-column'. It returns `nil'. - - The argument HOW, if non-`nil' specifies explicitly the style of - justification. It can be `left', `right', `full', `center', or - `none'. If it is `t', that means to do follow specified - justification style (see `current-justification', below). `nil' - means to do full justification. - - If EOP is non-`nil', that means do left-justification when - `current-justification' specifies full justification. This is used - for the last line of a paragraph; even if the paragraph as a whole - is fully justified, the last line should not be. - - If NOSQUEEZE is non-`nil', that means do not change interior - whitespace. - - - User Option: default-justification - This variable's value specifies the style of justification to use - for text that doesn't specify a style with a text property. The - possible values are `left', `right', `full', `center', or `none'. - The default value is `left'. - - - Function: current-justification - This function returns the proper justification style to use for - filling the text around point. - - - Variable: fill-paragraph-function - This variable provides a way for major modes to override the - filling of paragraphs. If the value is non-`nil', - `fill-paragraph' calls this function to do the work. If the - function returns a non-`nil' value, `fill-paragraph' assumes the - job is done, and immediately returns that value. - - The usual use of this feature is to fill comments in programming - language modes. If the function needs to fill a paragraph in the - usual way, it can do so as follows: - - (let ((fill-paragraph-function nil)) - (fill-paragraph arg)) - - - Variable: use-hard-newlines - If this variable is non-`nil', the filling functions do not delete - newlines that have the `hard' text property. These "hard - newlines" act as paragraph separators. - - -File: lispref.info, Node: Margins, Next: Auto Filling, Prev: Filling, Up: Text - -Margins for Filling -=================== - - - User Option: fill-prefix - This variable specifies a string of text that appears at the - beginning of normal text lines and should be disregarded when - filling them. Any line that fails to start with the fill prefix - is considered the start of a paragraph; so is any line that starts - with the fill prefix followed by additional whitespace. Lines - that start with the fill prefix but no additional whitespace are - ordinary text lines that can be filled together. The resulting - filled lines also start with the fill prefix. - - The fill prefix follows the left margin whitespace, if any. - - - User Option: fill-column - This buffer-local variable specifies the maximum width of filled - lines. Its value should be an integer, which is a number of - columns. All the filling, justification and centering commands - are affected by this variable, including Auto Fill mode (*note - Auto Filling::). - - As a practical matter, if you are writing text for other people to - read, you should set `fill-column' to no more than 70. Otherwise - the line will be too long for people to read comfortably, and this - can make the text seem clumsy. - - - Variable: default-fill-column - The value of this variable is the default value for `fill-column' - in buffers that do not override it. This is the same as - `(default-value 'fill-column)'. - - The default value for `default-fill-column' is 70. - - - Command: set-left-margin from to margin - This sets the `left-margin' property on the text from FROM to TO - to the value MARGIN. If Auto Fill mode is enabled, this command - also refills the region to fit the new margin. - - - Command: set-right-margin from to margin - This sets the `right-margin' property on the text from FROM to TO - to the value MARGIN. If Auto Fill mode is enabled, this command - also refills the region to fit the new margin. - - - Function: current-left-margin - This function returns the proper left margin value to use for - filling the text around point. The value is the sum of the - `left-margin' property of the character at the start of the - current line (or zero if none), and the value of the variable - `left-margin'. - - - Function: current-fill-column - This function returns the proper fill column value to use for - filling the text around point. The value is the value of the - `fill-column' variable, minus the value of the `right-margin' - property of the character after point. - - - Command: move-to-left-margin &optional n force - This function moves point to the left margin of the current line. - The column moved to is determined by calling the function - `current-left-margin'. If the argument N is non-`nil', - `move-to-left-margin' moves forward N-1 lines first. - - If FORCE is non-`nil', that says to fix the line's indentation if - that doesn't match the left margin value. - - - Function: delete-to-left-margin from to - This function removes left margin indentation from the text - between FROM and TO. The amount of indentation to delete is - determined by calling `current-left-margin'. In no case does this - function delete non-whitespace. - - - Function: indent-to-left-margin - This is the default `indent-line-function', used in Fundamental - mode, Text mode, etc. Its effect is to adjust the indentation at - the beginning of the current line to the value specified by the - variable `left-margin'. This may involve either inserting or - deleting whitespace. - - - Variable: left-margin - This variable specifies the base left margin column. In - Fundamental mode, indents to this column. This variable - automatically becomes buffer-local when set in any fashion. - - -File: lispref.info, Node: Auto Filling, Next: Sorting, Prev: Margins, Up: Text - -Auto Filling -============ - - Auto Fill mode is a minor mode that fills lines automatically as text -is inserted. This section describes the hook used by Auto Fill mode. -For a description of functions that you can call explicitly to fill and -justify existing text, see *Note Filling::. - - Auto Fill mode also enables the functions that change the margins and -justification style to refill portions of the text. *Note Margins::. - - - Variable: auto-fill-function - The value of this variable should be a function (of no arguments) - to be called after self-inserting a space or a newline. It may be - `nil', in which case nothing special is done in that case. - - The value of `auto-fill-function' is `do-auto-fill' when Auto-Fill - mode is enabled. That is a function whose sole purpose is to - implement the usual strategy for breaking a line. - - In older Emacs versions, this variable was named - `auto-fill-hook', but since it is not called with the - standard convention for hooks, it was renamed to - `auto-fill-function' in version 19. - diff --git a/info/lispref.info-30 b/info/lispref.info-30 index bfb3ed5..5ca45e7 100644 --- a/info/lispref.info-30 +++ b/info/lispref.info-30 @@ -50,6 +50,472 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Internals of Kill Ring, Prev: Low-Level Kill Ring, Up: The Kill Ring + +Internals of the Kill Ring +-------------------------- + + The variable `kill-ring' holds the kill ring contents, in the form +of a list of strings. The most recent kill is always at the front of +the list. + + The `kill-ring-yank-pointer' variable points to a link in the kill +ring list, whose CAR is the text to yank next. We say it identifies +the "front" of the ring. Moving `kill-ring-yank-pointer' to a +different link is called "rotating the kill ring". We call the kill +ring a "ring" because the functions that move the yank pointer wrap +around from the end of the list to the beginning, or vice-versa. +Rotation of the kill ring is virtual; it does not change the value of +`kill-ring'. + + Both `kill-ring' and `kill-ring-yank-pointer' are Lisp variables +whose values are normally lists. The word "pointer" in the name of the +`kill-ring-yank-pointer' indicates that the variable's purpose is to +identify one element of the list for use by the next yank command. + + The value of `kill-ring-yank-pointer' is always `eq' to one of the +links in the kill ring list. The element it identifies is the CAR of +that link. Kill commands, which change the kill ring, also set this +variable to the value of `kill-ring'. The effect is to rotate the ring +so that the newly killed text is at the front. + + Here is a diagram that shows the variable `kill-ring-yank-pointer' +pointing to the second entry in the kill ring `("some text" "a +different piece of text" "yet older text")'. + + kill-ring kill-ring-yank-pointer + | | + | ___ ___ ---> ___ ___ ___ ___ + --> |___|___|------> |___|___|--> |___|___|--> nil + | | | + | | | + | | -->"yet older text" + | | + | --> "a different piece of text" + | + --> "some text" + +This state of affairs might occur after `C-y' (`yank') immediately +followed by `M-y' (`yank-pop'). + + - Variable: kill-ring + This variable holds the list of killed text sequences, most + recently killed first. + + - Variable: kill-ring-yank-pointer + This variable's value indicates which element of the kill ring is + at the "front" of the ring for yanking. More precisely, the value + is a tail of the value of `kill-ring', and its CAR is the kill + string that `C-y' should yank. + + - User Option: kill-ring-max + The value of this variable is the maximum length to which the kill + ring can grow, before elements are thrown away at the end. The + default value for `kill-ring-max' is 30. + + +File: lispref.info, Node: Undo, Next: Maintaining Undo, Prev: The Kill Ring, Up: Text + +Undo +==== + + Most buffers have an "undo list", which records all changes made to +the buffer's text so that they can be undone. (The buffers that don't +have one are usually special-purpose buffers for which XEmacs assumes +that undoing is not useful.) All the primitives that modify the text +in the buffer automatically add elements to the front of the undo list, +which is in the variable `buffer-undo-list'. + + - Variable: buffer-undo-list + This variable's value is the undo list of the current buffer. A + value of `t' disables the recording of undo information. + + Here are the kinds of elements an undo list can have: + +`INTEGER' + This kind of element records a previous value of point. Ordinary + cursor motion does not get any sort of undo record, but deletion + commands use these entries to record where point was before the + command. + +`(BEG . END)' + This kind of element indicates how to delete text that was + inserted. Upon insertion, the text occupied the range BEG-END in + the buffer. + +`(TEXT . POSITION)' + This kind of element indicates how to reinsert text that was + deleted. The deleted text itself is the string TEXT. The place to + reinsert it is `(abs POSITION)'. + +`(t HIGH . LOW)' + This kind of element indicates that an unmodified buffer became + modified. The elements HIGH and LOW are two integers, each + recording 16 bits of the visited file's modification time as of + when it was previously visited or saved. `primitive-undo' uses + those values to determine whether to mark the buffer as unmodified + once again; it does so only if the file's modification time + matches those numbers. + +`(nil PROPERTY VALUE BEG . END)' + This kind of element records a change in a text property. Here's + how you might undo the change: + + (put-text-property BEG END PROPERTY VALUE) + +`POSITION' + This element indicates where point was at an earlier time. + Undoing this element sets point to POSITION. Deletion normally + creates an element of this kind as well as a reinsertion element. + +`nil' + This element is a boundary. The elements between two boundaries + are called a "change group"; normally, each change group + corresponds to one keyboard command, and undo commands normally + undo an entire group as a unit. + + - Function: undo-boundary + This function places a boundary element in the undo list. The undo + command stops at such a boundary, and successive undo commands undo + to earlier and earlier boundaries. This function returns `nil'. + + The editor command loop automatically creates an undo boundary + before each key sequence is executed. Thus, each undo normally + undoes the effects of one command. Self-inserting input + characters are an exception. The command loop makes a boundary + for the first such character; the next 19 consecutive + self-inserting input characters do not make boundaries, and then + the 20th does, and so on as long as self-inserting characters + continue. + + All buffer modifications add a boundary whenever the previous + undoable change was made in some other buffer. This way, a + command that modifies several buffers makes a boundary in each + buffer it changes. + + Calling this function explicitly is useful for splitting the + effects of a command into more than one unit. For example, + `query-replace' calls `undo-boundary' after each replacement, so + that the user can undo individual replacements one by one. + + - Function: primitive-undo count list + This is the basic function for undoing elements of an undo list. + It undoes the first COUNT elements of LIST, returning the rest of + LIST. You could write this function in Lisp, but it is convenient + to have it in C. + + `primitive-undo' adds elements to the buffer's undo list when it + changes the buffer. Undo commands avoid confusion by saving the + undo list value at the beginning of a sequence of undo operations. + Then the undo operations use and update the saved value. The new + elements added by undoing are not part of this saved value, so + they don't interfere with continuing to undo. + + +File: lispref.info, Node: Maintaining Undo, Next: Filling, Prev: Undo, Up: Text + +Maintaining Undo Lists +====================== + + This section describes how to enable and disable undo information for +a given buffer. It also explains how the undo list is truncated +automatically so it doesn't get too big. + + Recording of undo information in a newly created buffer is normally +enabled to start with; but if the buffer name starts with a space, the +undo recording is initially disabled. You can explicitly enable or +disable undo recording with the following two functions, or by setting +`buffer-undo-list' yourself. + + - Command: buffer-enable-undo &optional buffer-or-name + This command enables recording undo information for buffer + BUFFER-OR-NAME, so that subsequent changes can be undone. If no + argument is supplied, then the current buffer is used. This + function does nothing if undo recording is already enabled in the + buffer. It returns `nil'. + + In an interactive call, BUFFER-OR-NAME is the current buffer. You + cannot specify any other buffer. + + - Function: buffer-disable-undo &optional buffer + - Function: buffer-flush-undo &optional buffer + This function discards the undo list of BUFFER, and disables + further recording of undo information. As a result, it is no + longer possible to undo either previous changes or any subsequent + changes. If the undo list of BUFFER is already disabled, this + function has no effect. + + This function returns `nil'. It cannot be called interactively. + + The name `buffer-flush-undo' is not considered obsolete, but the + preferred name `buffer-disable-undo' is new as of Emacs versions + 19. + + As editing continues, undo lists get longer and longer. To prevent +them from using up all available memory space, garbage collection trims +them back to size limits you can set. (For this purpose, the "size" of +an undo list measures the cons cells that make up the list, plus the +strings of deleted text.) Two variables control the range of acceptable +sizes: `undo-limit' and `undo-strong-limit'. + + - Variable: undo-limit + This is the soft limit for the acceptable size of an undo list. + The change group at which this size is exceeded is the last one + kept. + + - Variable: undo-strong-limit + This is the upper limit for the acceptable size of an undo list. + The change group at which this size is exceeded is discarded + itself (along with all older change groups). There is one + exception: the very latest change group is never discarded no + matter how big it is. + + +File: lispref.info, Node: Filling, Next: Margins, Prev: Maintaining Undo, Up: Text + +Filling +======= + + "Filling" means adjusting the lengths of lines (by moving the line +breaks) so that they are nearly (but no greater than) a specified +maximum width. Additionally, lines can be "justified", which means +inserting spaces to make the left and/or right margins line up +precisely. The width is controlled by the variable `fill-column'. For +ease of reading, lines should be no longer than 70 or so columns. + + You can use Auto Fill mode (*note Auto Filling::) to fill text +automatically as you insert it, but changes to existing text may leave +it improperly filled. Then you must fill the text explicitly. + + Most of the commands in this section return values that are not +meaningful. All the functions that do filling take note of the current +left margin, current right margin, and current justification style +(*note Margins::). If the current justification style is `none', the +filling functions don't actually do anything. + + Several of the filling functions have an argument JUSTIFY. If it is +non-`nil', that requests some kind of justification. It can be `left', +`right', `full', or `center', to request a specific style of +justification. If it is `t', that means to use the current +justification style for this part of the text (see +`current-justification', below). + + When you call the filling functions interactively, using a prefix +argument implies the value `full' for JUSTIFY. + + - Command: fill-paragraph justify + This command fills the paragraph at or after point. If JUSTIFY is + non-`nil', each line is justified as well. It uses the ordinary + paragraph motion commands to find paragraph boundaries. *Note + Paragraphs: (xemacs)Paragraphs. + + - Command: fill-region start end &optional justify + This command fills each of the paragraphs in the region from START + to END. It justifies as well if JUSTIFY is non-`nil'. + + The variable `paragraph-separate' controls how to distinguish + paragraphs. *Note Standard Regexps::. + + - Command: fill-individual-paragraphs start end &optional justify + mail-flag + This command fills each paragraph in the region according to its + individual fill prefix. Thus, if the lines of a paragraph were + indented with spaces, the filled paragraph will remain indented in + the same fashion. + + The first two arguments, START and END, are the beginning and end + of the region to be filled. The third and fourth arguments, + JUSTIFY and MAIL-FLAG, are optional. If JUSTIFY is non-`nil', the + paragraphs are justified as well as filled. If MAIL-FLAG is + non-`nil', it means the function is operating on a mail message + and therefore should not fill the header lines. + + Ordinarily, `fill-individual-paragraphs' regards each change in + indentation as starting a new paragraph. If + `fill-individual-varying-indent' is non-`nil', then only separator + lines separate paragraphs. That mode can handle indented + paragraphs with additional indentation on the first line. + + - User Option: fill-individual-varying-indent + This variable alters the action of `fill-individual-paragraphs' as + described above. + + - Command: fill-region-as-paragraph start end &optional justify + This command considers a region of text as a paragraph and fills + it. If the region was made up of many paragraphs, the blank lines + between paragraphs are removed. This function justifies as well + as filling when JUSTIFY is non-`nil'. + + In an interactive call, any prefix argument requests justification. + + In Adaptive Fill mode, which is enabled by default, + `fill-region-as-paragraph' on an indented paragraph when there is + no fill prefix uses the indentation of the second line of the + paragraph as the fill prefix. + + - Command: justify-current-line how eop nosqueeze + This command inserts spaces between the words of the current line + so that the line ends exactly at `fill-column'. It returns `nil'. + + The argument HOW, if non-`nil' specifies explicitly the style of + justification. It can be `left', `right', `full', `center', or + `none'. If it is `t', that means to do follow specified + justification style (see `current-justification', below). `nil' + means to do full justification. + + If EOP is non-`nil', that means do left-justification when + `current-justification' specifies full justification. This is used + for the last line of a paragraph; even if the paragraph as a whole + is fully justified, the last line should not be. + + If NOSQUEEZE is non-`nil', that means do not change interior + whitespace. + + - User Option: default-justification + This variable's value specifies the style of justification to use + for text that doesn't specify a style with a text property. The + possible values are `left', `right', `full', `center', or `none'. + The default value is `left'. + + - Function: current-justification + This function returns the proper justification style to use for + filling the text around point. + + - Variable: fill-paragraph-function + This variable provides a way for major modes to override the + filling of paragraphs. If the value is non-`nil', + `fill-paragraph' calls this function to do the work. If the + function returns a non-`nil' value, `fill-paragraph' assumes the + job is done, and immediately returns that value. + + The usual use of this feature is to fill comments in programming + language modes. If the function needs to fill a paragraph in the + usual way, it can do so as follows: + + (let ((fill-paragraph-function nil)) + (fill-paragraph arg)) + + - Variable: use-hard-newlines + If this variable is non-`nil', the filling functions do not delete + newlines that have the `hard' text property. These "hard + newlines" act as paragraph separators. + + +File: lispref.info, Node: Margins, Next: Auto Filling, Prev: Filling, Up: Text + +Margins for Filling +=================== + + - User Option: fill-prefix + This variable specifies a string of text that appears at the + beginning of normal text lines and should be disregarded when + filling them. Any line that fails to start with the fill prefix + is considered the start of a paragraph; so is any line that starts + with the fill prefix followed by additional whitespace. Lines + that start with the fill prefix but no additional whitespace are + ordinary text lines that can be filled together. The resulting + filled lines also start with the fill prefix. + + The fill prefix follows the left margin whitespace, if any. + + - User Option: fill-column + This buffer-local variable specifies the maximum width of filled + lines. Its value should be an integer, which is a number of + columns. All the filling, justification and centering commands + are affected by this variable, including Auto Fill mode (*note + Auto Filling::). + + As a practical matter, if you are writing text for other people to + read, you should set `fill-column' to no more than 70. Otherwise + the line will be too long for people to read comfortably, and this + can make the text seem clumsy. + + - Variable: default-fill-column + The value of this variable is the default value for `fill-column' + in buffers that do not override it. This is the same as + `(default-value 'fill-column)'. + + The default value for `default-fill-column' is 70. + + - Command: set-left-margin from to margin + This sets the `left-margin' property on the text from FROM to TO + to the value MARGIN. If Auto Fill mode is enabled, this command + also refills the region to fit the new margin. + + - Command: set-right-margin from to margin + This sets the `right-margin' property on the text from FROM to TO + to the value MARGIN. If Auto Fill mode is enabled, this command + also refills the region to fit the new margin. + + - Function: current-left-margin + This function returns the proper left margin value to use for + filling the text around point. The value is the sum of the + `left-margin' property of the character at the start of the + current line (or zero if none), and the value of the variable + `left-margin'. + + - Function: current-fill-column + This function returns the proper fill column value to use for + filling the text around point. The value is the value of the + `fill-column' variable, minus the value of the `right-margin' + property of the character after point. + + - Command: move-to-left-margin &optional n force + This function moves point to the left margin of the current line. + The column moved to is determined by calling the function + `current-left-margin'. If the argument N is non-`nil', + `move-to-left-margin' moves forward N-1 lines first. + + If FORCE is non-`nil', that says to fix the line's indentation if + that doesn't match the left margin value. + + - Function: delete-to-left-margin from to + This function removes left margin indentation from the text + between FROM and TO. The amount of indentation to delete is + determined by calling `current-left-margin'. In no case does this + function delete non-whitespace. + + - Function: indent-to-left-margin + This is the default `indent-line-function', used in Fundamental + mode, Text mode, etc. Its effect is to adjust the indentation at + the beginning of the current line to the value specified by the + variable `left-margin'. This may involve either inserting or + deleting whitespace. + + - Variable: left-margin + This variable specifies the base left margin column. In + Fundamental mode, indents to this column. This variable + automatically becomes buffer-local when set in any fashion. + + +File: lispref.info, Node: Auto Filling, Next: Sorting, Prev: Margins, Up: Text + +Auto Filling +============ + + Auto Fill mode is a minor mode that fills lines automatically as text +is inserted. This section describes the hook used by Auto Fill mode. +For a description of functions that you can call explicitly to fill and +justify existing text, see *Note Filling::. + + Auto Fill mode also enables the functions that change the margins and +justification style to refill portions of the text. *Note Margins::. + + - Variable: auto-fill-function + The value of this variable should be a function (of no arguments) + to be called after self-inserting a space or a newline. It may be + `nil', in which case nothing special is done in that case. + + The value of `auto-fill-function' is `do-auto-fill' when Auto-Fill + mode is enabled. That is a function whose sole purpose is to + implement the usual strategy for breaking a line. + + In older Emacs versions, this variable was named + `auto-fill-hook', but since it is not called with the + standard convention for hooks, it was renamed to + `auto-fill-function' in version 19. + + File: lispref.info, Node: Sorting, Next: Columns, Prev: Auto Filling, Up: Text Sorting Text @@ -708,468 +1174,3 @@ along with the characters; this includes such diverse functions as * Saving Properties:: Saving text properties in files, and reading them back. - -File: lispref.info, Node: Examining Properties, Next: Changing Properties, Up: Text Properties - -Examining Text Properties -------------------------- - - The simplest way to examine text properties is to ask for the value -of a particular property of a particular character. For that, use -`get-text-property'. Use `text-properties-at' to get the entire -property list of a character. *Note Property Search::, for functions -to examine the properties of a number of characters at once. - - These functions handle both strings and buffers. (Keep in mind that -positions in a string start from 0, whereas positions in a buffer start -from 1.) - - - Function: get-text-property pos prop &optional object - This function returns the value of the PROP property of the - character after position POS in OBJECT (a buffer or string). The - argument OBJECT is optional and defaults to the current buffer. - - - Function: get-char-property pos prop &optional object - This function is like `get-text-property', except that it checks - all extents, not just text-property extents. - - - - Function: text-properties-at position &optional object - This function returns the entire property list of the character at - POSITION in the string or buffer OBJECT. If OBJECT is `nil', it - defaults to the current buffer. - - - Variable: default-text-properties - This variable holds a property list giving default values for text - properties. Whenever a character does not specify a value for a - property, the value stored in this list is used instead. Here is - an example: - - (setq default-text-properties '(foo 69)) - ;; Make sure character 1 has no properties of its own. - (set-text-properties 1 2 nil) - ;; What we get, when we ask, is the default value. - (get-text-property 1 'foo) - => 69 - - -File: lispref.info, Node: Changing Properties, Next: Property Search, Prev: Examining Properties, Up: Text Properties - -Changing Text Properties ------------------------- - - The primitives for changing properties apply to a specified range of -text. The function `set-text-properties' (see end of section) sets the -entire property list of the text in that range; more often, it is -useful to add, change, or delete just certain properties specified by -name. - - Since text properties are considered part of the buffer's contents, -and can affect how the buffer looks on the screen, any change in the -text properties is considered a buffer modification. Buffer text -property changes are undoable (*note Undo::). - - - Function: put-text-property start end prop value &optional object - This function sets the PROP property to VALUE for the text between - START and END in the string or buffer OBJECT. If OBJECT is `nil', - it defaults to the current buffer. - - - Function: add-text-properties start end props &optional object - This function modifies the text properties for the text between - START and END in the string or buffer OBJECT. If OBJECT is `nil', - it defaults to the current buffer. - - The argument PROPS specifies which properties to change. It - should have the form of a property list (*note Property Lists::): - a list whose elements include the property names followed - alternately by the corresponding values. - - The return value is `t' if the function actually changed some - property's value; `nil' otherwise (if PROPS is `nil' or its values - agree with those in the text). - - For example, here is how to set the `comment' and `face' - properties of a range of text: - - (add-text-properties START END - '(comment t face highlight)) - - - Function: remove-text-properties start end props &optional object - This function deletes specified text properties from the text - between START and END in the string or buffer OBJECT. If OBJECT - is `nil', it defaults to the current buffer. - - The argument PROPS specifies which properties to delete. It - should have the form of a property list (*note Property Lists::): - a list whose elements are property names alternating with - corresponding values. But only the names matter--the values that - accompany them are ignored. For example, here's how to remove the - `face' property. - - (remove-text-properties START END '(face nil)) - - The return value is `t' if the function actually changed some - property's value; `nil' otherwise (if PROPS is `nil' or if no - character in the specified text had any of those properties). - - - Function: set-text-properties start end props &optional object - This function completely replaces the text property list for the - text between START and END in the string or buffer OBJECT. If - OBJECT is `nil', it defaults to the current buffer. - - The argument PROPS is the new property list. It should be a list - whose elements are property names alternating with corresponding - values. - - After `set-text-properties' returns, all the characters in the - specified range have identical properties. - - If PROPS is `nil', the effect is to get rid of all properties from - the specified range of text. Here's an example: - - (set-text-properties START END nil) - - See also the function `buffer-substring-without-properties' (*note -Buffer Contents::) which copies text from the buffer but does not copy -its properties. - - -File: lispref.info, Node: Property Search, Next: Special Properties, Prev: Changing Properties, Up: Text Properties - -Property Search Functions -------------------------- - - In typical use of text properties, most of the time several or many -consecutive characters have the same value for a property. Rather than -writing your programs to examine characters one by one, it is much -faster to process chunks of text that have the same property value. - - Here are functions you can use to do this. They use `eq' for -comparing property values. In all cases, OBJECT defaults to the -current buffer. - - For high performance, it's very important to use the LIMIT argument -to these functions, especially the ones that search for a single -property--otherwise, they may spend a long time scanning to the end of -the buffer, if the property you are interested in does not change. - - Remember that a position is always between two characters; the -position returned by these functions is between two characters with -different properties. - - - Function: next-property-change pos &optional object limit - The function scans the text forward from position POS in the - string or buffer OBJECT till it finds a change in some text - property, then returns the position of the change. In other - words, it returns the position of the first character beyond POS - whose properties are not identical to those of the character just - after POS. - - If LIMIT is non-`nil', then the scan ends at position LIMIT. If - there is no property change before that point, - `next-property-change' returns LIMIT. - - The value is `nil' if the properties remain unchanged all the way - to the end of OBJECT and LIMIT is `nil'. If the value is - non-`nil', it is a position greater than or equal to POS. The - value equals POS only when LIMIT equals POS. - - Here is an example of how to scan the buffer by chunks of text - within which all properties are constant: - - (while (not (eobp)) - (let ((plist (text-properties-at (point))) - (next-change - (or (next-property-change (point) (current-buffer)) - (point-max)))) - Process text from point to NEXT-CHANGE... - (goto-char next-change))) - - - Function: next-single-property-change pos prop &optional object limit - The function scans the text forward from position POS in the - string or buffer OBJECT till it finds a change in the PROP - property, then returns the position of the change. In other - words, it returns the position of the first character beyond POS - whose PROP property differs from that of the character just after - POS. - - If LIMIT is non-`nil', then the scan ends at position LIMIT. If - there is no property change before that point, - `next-single-property-change' returns LIMIT. - - The value is `nil' if the property remains unchanged all the way to - the end of OBJECT and LIMIT is `nil'. If the value is non-`nil', - it is a position greater than or equal to POS; it equals POS only - if LIMIT equals POS. - - - Function: previous-property-change pos &optional object limit - This is like `next-property-change', but scans back from POS - instead of forward. If the value is non-`nil', it is a position - less than or equal to POS; it equals POS only if LIMIT equals POS. - - - Function: previous-single-property-change pos prop &optional object - limit - This is like `next-single-property-change', but scans back from - POS instead of forward. If the value is non-`nil', it is a - position less than or equal to POS; it equals POS only if LIMIT - equals POS. - - - Function: text-property-any start end prop value &optional object - This function returns non-`nil' if at least one character between - START and END has a property PROP whose value is VALUE. More - precisely, it returns the position of the first such character. - Otherwise, it returns `nil'. - - The optional fifth argument, OBJECT, specifies the string or - buffer to scan. Positions are relative to OBJECT. The default - for OBJECT is the current buffer. - - - Function: text-property-not-all start end prop value &optional object - This function returns non-`nil' if at least one character between - START and END has a property PROP whose value differs from VALUE. - More precisely, it returns the position of the first such - character. Otherwise, it returns `nil'. - - The optional fifth argument, OBJECT, specifies the string or - buffer to scan. Positions are relative to OBJECT. The default - for OBJECT is the current buffer. - - -File: lispref.info, Node: Special Properties, Next: Saving Properties, Prev: Property Search, Up: Text Properties - -Properties with Special Meanings --------------------------------- - - The predefined properties are the same as those for extents. *Note -Extent Properties::. - - -File: lispref.info, Node: Saving Properties, Prev: Special Properties, Up: Text Properties - -Saving Text Properties in Files -------------------------------- - - You can save text properties in files, and restore text properties -when inserting the files, using these two hooks: - - - Variable: write-region-annotate-functions - This variable's value is a list of functions for `write-region' to - run to encode text properties in some fashion as annotations to - the text being written in the file. *Note Writing to Files::. - - Each function in the list is called with two arguments: the start - and end of the region to be written. These functions should not - alter the contents of the buffer. Instead, they should return - lists indicating annotations to write in the file in addition to - the text in the buffer. - - Each function should return a list of elements of the form - `(POSITION . STRING)', where POSITION is an integer specifying the - relative position in the text to be written, and STRING is the - annotation to add there. - - Each list returned by one of these functions must be already - sorted in increasing order by POSITION. If there is more than one - function, `write-region' merges the lists destructively into one - sorted list. - - When `write-region' actually writes the text from the buffer to the - file, it intermixes the specified annotations at the corresponding - positions. All this takes place without modifying the buffer. - - - Variable: after-insert-file-functions - This variable holds a list of functions for `insert-file-contents' - to call after inserting a file's contents. These functions should - scan the inserted text for annotations, and convert them to the - text properties they stand for. - - Each function receives one argument, the length of the inserted - text; point indicates the start of that text. The function should - scan that text for annotations, delete them, and create the text - properties that the annotations specify. The function should - return the updated length of the inserted text, as it stands after - those changes. The value returned by one function becomes the - argument to the next function. - - These functions should always return with point at the beginning of - the inserted text. - - The intended use of `after-insert-file-functions' is for converting - some sort of textual annotations into actual text properties. But - other uses may be possible. - - We invite users to write Lisp programs to store and retrieve text -properties in files, using these hooks, and thus to experiment with -various data formats and find good ones. Eventually we hope users will -produce good, general extensions we can install in Emacs. - - We suggest not trying to handle arbitrary Lisp objects as property -names or property values--because a program that general is probably -difficult to write, and slow. Instead, choose a set of possible data -types that are reasonably flexible, and not too hard to encode. - - *Note Format Conversion::, for a related feature. - - -File: lispref.info, Node: Substitution, Next: Registers, Prev: Text Properties, Up: Text - -Substituting for a Character Code -================================= - - The following functions replace characters within a specified region -based on their character codes. - - - Function: subst-char-in-region start end old-char new-char &optional - noundo - This function replaces all occurrences of the character OLD-CHAR - with the character NEW-CHAR in the region of the current buffer - defined by START and END. - - If NOUNDO is non-`nil', then `subst-char-in-region' does not - record the change for undo and does not mark the buffer as - modified. This feature is used for controlling selective display - (*note Selective Display::). - - `subst-char-in-region' does not move point and returns `nil'. - - ---------- Buffer: foo ---------- - This is the contents of the buffer before. - ---------- Buffer: foo ---------- - - (subst-char-in-region 1 20 ?i ?X) - => nil - - ---------- Buffer: foo ---------- - ThXs Xs the contents of the buffer before. - ---------- Buffer: foo ---------- - - - Function: translate-region start end table - This function applies a translation table to the characters in the - buffer between positions START and END. The translation table - TABLE can be either a string, a vector, or a char-table. - - If TABLE is a string, its Nth element is the mapping for the - character with code N. - - If TABLE is a vector, its Nth element is the mapping for character - with code N. Legal mappings are characters, strings, or `nil' - (meaning don't replace.) - - If TABLE is a char-table, its elements describe the mapping - between characters and their replacements. The char-table should - be of type `char' or `generic'. - - When the TABLE is a string or vector and its length is less than - the total number of characters (256 without Mule), any characters - with codes larger than the length of TABLE are not altered by the - translation. - - The return value of `translate-region' is the number of characters - that were actually changed by the translation. This does not - count characters that were mapped into themselves in the - translation table. - - *NOTE*: Prior to XEmacs 21.2, the TABLE argument was allowed only - to be a string. This is still the case in FSF Emacs. - - The following example creates a char-table that is passed to - `translate-region', which translates character `a' to `the letter - a', removes character `b', and translates character `c' to newline. - - ---------- Buffer: foo ---------- - Here is a sentence in the buffer. - ---------- Buffer: foo ---------- - - (let ((table (make-char-table 'generic))) - (put-char-table ?a "the letter a" table) - (put-char-table ?b "" table) - (put-char-table ?c ?\n table) - (translate-region (point-min) (point-max) table)) - => 3 - - ---------- Buffer: foo ---------- - Here is the letter a senten - e in the uffer. - ---------- Buffer: foo ---------- - - -File: lispref.info, Node: Registers, Next: Transposition, Prev: Substitution, Up: Text - -Registers -========= - - A register is a sort of variable used in XEmacs editing that can -hold a marker, a string, a rectangle, a window configuration (of one -frame), or a frame configuration (of all frames). Each register is -named by a single character. All characters, including control and -meta characters (but with the exception of `C-g'), can be used to name -registers. Thus, there are 255 possible registers. A register is -designated in Emacs Lisp by a character that is its name. - - The functions in this section return unpredictable values unless -otherwise stated. - - - Variable: register-alist - This variable is an alist of elements of the form `(NAME . - CONTENTS)'. Normally, there is one element for each XEmacs - register that has been used. - - The object NAME is a character (an integer) identifying the - register. The object CONTENTS is a string, marker, or list - representing the register contents. A string represents text - stored in the register. A marker represents a position. A list - represents a rectangle; its elements are strings, one per line of - the rectangle. - - - Function: get-register reg - This function returns the contents of the register REG, or `nil' - if it has no contents. - - - Function: set-register reg value - This function sets the contents of register REG to VALUE. A - register can be set to any value, but the other register functions - expect only certain data types. The return value is VALUE. - - - Command: view-register reg - This command displays what is contained in register REG. - - - Command: insert-register reg &optional beforep - This command inserts contents of register REG into the current - buffer. - - Normally, this command puts point before the inserted text, and the - mark after it. However, if the optional second argument BEFOREP - is non-`nil', it puts the mark before and point after. You can - pass a non-`nil' second argument BEFOREP to this function - interactively by supplying any prefix argument. - - If the register contains a rectangle, then the rectangle is - inserted with its upper left corner at point. This means that - text is inserted in the current line and underneath it on - successive lines. - - If the register contains something other than saved text (a - string) or a rectangle (a list), currently useless things happen. - This may be changed in the future. - - -File: lispref.info, Node: Transposition, Next: Change Hooks, Prev: Registers, Up: Text - -Transposition of Text -===================== - - This subroutine is used by the transposition commands. - - - Function: transpose-regions start1 end1 start2 end2 &optional - leave-markers - This function exchanges two nonoverlapping portions of the buffer. - Arguments START1 and END1 specify the bounds of one portion and - arguments START2 and END2 specify the bounds of the other portion. - - Normally, `transpose-regions' relocates markers with the transposed - text; a marker previously positioned within one of the two - transposed portions moves along with that portion, thus remaining - between the same two characters in their new position. However, - if LEAVE-MARKERS is non-`nil', `transpose-regions' does not do - this--it leaves all markers unrelocated. - diff --git a/info/lispref.info-31 b/info/lispref.info-31 index 138661a..ad8a2e8 100644 --- a/info/lispref.info-31 +++ b/info/lispref.info-31 @@ -50,6 +50,471 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Examining Properties, Next: Changing Properties, Up: Text Properties + +Examining Text Properties +------------------------- + + The simplest way to examine text properties is to ask for the value +of a particular property of a particular character. For that, use +`get-text-property'. Use `text-properties-at' to get the entire +property list of a character. *Note Property Search::, for functions +to examine the properties of a number of characters at once. + + These functions handle both strings and buffers. (Keep in mind that +positions in a string start from 0, whereas positions in a buffer start +from 1.) + + - Function: get-text-property pos prop &optional object + This function returns the value of the PROP property of the + character after position POS in OBJECT (a buffer or string). The + argument OBJECT is optional and defaults to the current buffer. + + - Function: get-char-property pos prop &optional object + This function is like `get-text-property', except that it checks + all extents, not just text-property extents. + + + - Function: text-properties-at position &optional object + This function returns the entire property list of the character at + POSITION in the string or buffer OBJECT. If OBJECT is `nil', it + defaults to the current buffer. + + - Variable: default-text-properties + This variable holds a property list giving default values for text + properties. Whenever a character does not specify a value for a + property, the value stored in this list is used instead. Here is + an example: + + (setq default-text-properties '(foo 69)) + ;; Make sure character 1 has no properties of its own. + (set-text-properties 1 2 nil) + ;; What we get, when we ask, is the default value. + (get-text-property 1 'foo) + => 69 + + +File: lispref.info, Node: Changing Properties, Next: Property Search, Prev: Examining Properties, Up: Text Properties + +Changing Text Properties +------------------------ + + The primitives for changing properties apply to a specified range of +text. The function `set-text-properties' (see end of section) sets the +entire property list of the text in that range; more often, it is +useful to add, change, or delete just certain properties specified by +name. + + Since text properties are considered part of the buffer's contents, +and can affect how the buffer looks on the screen, any change in the +text properties is considered a buffer modification. Buffer text +property changes are undoable (*note Undo::). + + - Function: put-text-property start end prop value &optional object + This function sets the PROP property to VALUE for the text between + START and END in the string or buffer OBJECT. If OBJECT is `nil', + it defaults to the current buffer. + + - Function: add-text-properties start end props &optional object + This function modifies the text properties for the text between + START and END in the string or buffer OBJECT. If OBJECT is `nil', + it defaults to the current buffer. + + The argument PROPS specifies which properties to change. It + should have the form of a property list (*note Property Lists::): + a list whose elements include the property names followed + alternately by the corresponding values. + + The return value is `t' if the function actually changed some + property's value; `nil' otherwise (if PROPS is `nil' or its values + agree with those in the text). + + For example, here is how to set the `comment' and `face' + properties of a range of text: + + (add-text-properties START END + '(comment t face highlight)) + + - Function: remove-text-properties start end props &optional object + This function deletes specified text properties from the text + between START and END in the string or buffer OBJECT. If OBJECT + is `nil', it defaults to the current buffer. + + The argument PROPS specifies which properties to delete. It + should have the form of a property list (*note Property Lists::): + a list whose elements are property names alternating with + corresponding values. But only the names matter--the values that + accompany them are ignored. For example, here's how to remove the + `face' property. + + (remove-text-properties START END '(face nil)) + + The return value is `t' if the function actually changed some + property's value; `nil' otherwise (if PROPS is `nil' or if no + character in the specified text had any of those properties). + + - Function: set-text-properties start end props &optional object + This function completely replaces the text property list for the + text between START and END in the string or buffer OBJECT. If + OBJECT is `nil', it defaults to the current buffer. + + The argument PROPS is the new property list. It should be a list + whose elements are property names alternating with corresponding + values. + + After `set-text-properties' returns, all the characters in the + specified range have identical properties. + + If PROPS is `nil', the effect is to get rid of all properties from + the specified range of text. Here's an example: + + (set-text-properties START END nil) + + See also the function `buffer-substring-without-properties' (*note +Buffer Contents::) which copies text from the buffer but does not copy +its properties. + + +File: lispref.info, Node: Property Search, Next: Special Properties, Prev: Changing Properties, Up: Text Properties + +Property Search Functions +------------------------- + + In typical use of text properties, most of the time several or many +consecutive characters have the same value for a property. Rather than +writing your programs to examine characters one by one, it is much +faster to process chunks of text that have the same property value. + + Here are functions you can use to do this. They use `eq' for +comparing property values. In all cases, OBJECT defaults to the +current buffer. + + For high performance, it's very important to use the LIMIT argument +to these functions, especially the ones that search for a single +property--otherwise, they may spend a long time scanning to the end of +the buffer, if the property you are interested in does not change. + + Remember that a position is always between two characters; the +position returned by these functions is between two characters with +different properties. + + - Function: next-property-change pos &optional object limit + The function scans the text forward from position POS in the + string or buffer OBJECT till it finds a change in some text + property, then returns the position of the change. In other + words, it returns the position of the first character beyond POS + whose properties are not identical to those of the character just + after POS. + + If LIMIT is non-`nil', then the scan ends at position LIMIT. If + there is no property change before that point, + `next-property-change' returns LIMIT. + + The value is `nil' if the properties remain unchanged all the way + to the end of OBJECT and LIMIT is `nil'. If the value is + non-`nil', it is a position greater than or equal to POS. The + value equals POS only when LIMIT equals POS. + + Here is an example of how to scan the buffer by chunks of text + within which all properties are constant: + + (while (not (eobp)) + (let ((plist (text-properties-at (point))) + (next-change + (or (next-property-change (point) (current-buffer)) + (point-max)))) + Process text from point to NEXT-CHANGE... + (goto-char next-change))) + + - Function: next-single-property-change pos prop &optional object limit + The function scans the text forward from position POS in the + string or buffer OBJECT till it finds a change in the PROP + property, then returns the position of the change. In other + words, it returns the position of the first character beyond POS + whose PROP property differs from that of the character just after + POS. + + If LIMIT is non-`nil', then the scan ends at position LIMIT. If + there is no property change before that point, + `next-single-property-change' returns LIMIT. + + The value is `nil' if the property remains unchanged all the way to + the end of OBJECT and LIMIT is `nil'. If the value is non-`nil', + it is a position greater than or equal to POS; it equals POS only + if LIMIT equals POS. + + - Function: previous-property-change pos &optional object limit + This is like `next-property-change', but scans back from POS + instead of forward. If the value is non-`nil', it is a position + less than or equal to POS; it equals POS only if LIMIT equals POS. + + - Function: previous-single-property-change pos prop &optional object + limit + This is like `next-single-property-change', but scans back from + POS instead of forward. If the value is non-`nil', it is a + position less than or equal to POS; it equals POS only if LIMIT + equals POS. + + - Function: text-property-any start end prop value &optional object + This function returns non-`nil' if at least one character between + START and END has a property PROP whose value is VALUE. More + precisely, it returns the position of the first such character. + Otherwise, it returns `nil'. + + The optional fifth argument, OBJECT, specifies the string or + buffer to scan. Positions are relative to OBJECT. The default + for OBJECT is the current buffer. + + - Function: text-property-not-all start end prop value &optional object + This function returns non-`nil' if at least one character between + START and END has a property PROP whose value differs from VALUE. + More precisely, it returns the position of the first such + character. Otherwise, it returns `nil'. + + The optional fifth argument, OBJECT, specifies the string or + buffer to scan. Positions are relative to OBJECT. The default + for OBJECT is the current buffer. + + +File: lispref.info, Node: Special Properties, Next: Saving Properties, Prev: Property Search, Up: Text Properties + +Properties with Special Meanings +-------------------------------- + + The predefined properties are the same as those for extents. *Note +Extent Properties::. + + +File: lispref.info, Node: Saving Properties, Prev: Special Properties, Up: Text Properties + +Saving Text Properties in Files +------------------------------- + + You can save text properties in files, and restore text properties +when inserting the files, using these two hooks: + + - Variable: write-region-annotate-functions + This variable's value is a list of functions for `write-region' to + run to encode text properties in some fashion as annotations to + the text being written in the file. *Note Writing to Files::. + + Each function in the list is called with two arguments: the start + and end of the region to be written. These functions should not + alter the contents of the buffer. Instead, they should return + lists indicating annotations to write in the file in addition to + the text in the buffer. + + Each function should return a list of elements of the form + `(POSITION . STRING)', where POSITION is an integer specifying the + relative position in the text to be written, and STRING is the + annotation to add there. + + Each list returned by one of these functions must be already + sorted in increasing order by POSITION. If there is more than one + function, `write-region' merges the lists destructively into one + sorted list. + + When `write-region' actually writes the text from the buffer to the + file, it intermixes the specified annotations at the corresponding + positions. All this takes place without modifying the buffer. + + - Variable: after-insert-file-functions + This variable holds a list of functions for `insert-file-contents' + to call after inserting a file's contents. These functions should + scan the inserted text for annotations, and convert them to the + text properties they stand for. + + Each function receives one argument, the length of the inserted + text; point indicates the start of that text. The function should + scan that text for annotations, delete them, and create the text + properties that the annotations specify. The function should + return the updated length of the inserted text, as it stands after + those changes. The value returned by one function becomes the + argument to the next function. + + These functions should always return with point at the beginning of + the inserted text. + + The intended use of `after-insert-file-functions' is for converting + some sort of textual annotations into actual text properties. But + other uses may be possible. + + We invite users to write Lisp programs to store and retrieve text +properties in files, using these hooks, and thus to experiment with +various data formats and find good ones. Eventually we hope users will +produce good, general extensions we can install in Emacs. + + We suggest not trying to handle arbitrary Lisp objects as property +names or property values--because a program that general is probably +difficult to write, and slow. Instead, choose a set of possible data +types that are reasonably flexible, and not too hard to encode. + + *Note Format Conversion::, for a related feature. + + +File: lispref.info, Node: Substitution, Next: Registers, Prev: Text Properties, Up: Text + +Substituting for a Character Code +================================= + + The following functions replace characters within a specified region +based on their character codes. + + - Function: subst-char-in-region start end old-char new-char &optional + noundo + This function replaces all occurrences of the character OLD-CHAR + with the character NEW-CHAR in the region of the current buffer + defined by START and END. + + If NOUNDO is non-`nil', then `subst-char-in-region' does not + record the change for undo and does not mark the buffer as + modified. This feature is used for controlling selective display + (*note Selective Display::). + + `subst-char-in-region' does not move point and returns `nil'. + + ---------- Buffer: foo ---------- + This is the contents of the buffer before. + ---------- Buffer: foo ---------- + + (subst-char-in-region 1 20 ?i ?X) + => nil + + ---------- Buffer: foo ---------- + ThXs Xs the contents of the buffer before. + ---------- Buffer: foo ---------- + + - Function: translate-region start end table + This function applies a translation table to the characters in the + buffer between positions START and END. The translation table + TABLE can be either a string, a vector, or a char-table. + + If TABLE is a string, its Nth element is the mapping for the + character with code N. + + If TABLE is a vector, its Nth element is the mapping for character + with code N. Legal mappings are characters, strings, or `nil' + (meaning don't replace.) + + If TABLE is a char-table, its elements describe the mapping + between characters and their replacements. The char-table should + be of type `char' or `generic'. + + When the TABLE is a string or vector and its length is less than + the total number of characters (256 without Mule), any characters + with codes larger than the length of TABLE are not altered by the + translation. + + The return value of `translate-region' is the number of characters + that were actually changed by the translation. This does not + count characters that were mapped into themselves in the + translation table. + + *NOTE*: Prior to XEmacs 21.2, the TABLE argument was allowed only + to be a string. This is still the case in FSF Emacs. + + The following example creates a char-table that is passed to + `translate-region', which translates character `a' to `the letter + a', removes character `b', and translates character `c' to newline. + + ---------- Buffer: foo ---------- + Here is a sentence in the buffer. + ---------- Buffer: foo ---------- + + (let ((table (make-char-table 'generic))) + (put-char-table ?a "the letter a" table) + (put-char-table ?b "" table) + (put-char-table ?c ?\n table) + (translate-region (point-min) (point-max) table)) + => 3 + + ---------- Buffer: foo ---------- + Here is the letter a senten + e in the uffer. + ---------- Buffer: foo ---------- + + +File: lispref.info, Node: Registers, Next: Transposition, Prev: Substitution, Up: Text + +Registers +========= + + A register is a sort of variable used in XEmacs editing that can +hold a marker, a string, a rectangle, a window configuration (of one +frame), or a frame configuration (of all frames). Each register is +named by a single character. All characters, including control and +meta characters (but with the exception of `C-g'), can be used to name +registers. Thus, there are 255 possible registers. A register is +designated in Emacs Lisp by a character that is its name. + + The functions in this section return unpredictable values unless +otherwise stated. + + - Variable: register-alist + This variable is an alist of elements of the form `(NAME . + CONTENTS)'. Normally, there is one element for each XEmacs + register that has been used. + + The object NAME is a character (an integer) identifying the + register. The object CONTENTS is a string, marker, or list + representing the register contents. A string represents text + stored in the register. A marker represents a position. A list + represents a rectangle; its elements are strings, one per line of + the rectangle. + + - Function: get-register reg + This function returns the contents of the register REG, or `nil' + if it has no contents. + + - Function: set-register reg value + This function sets the contents of register REG to VALUE. A + register can be set to any value, but the other register functions + expect only certain data types. The return value is VALUE. + + - Command: view-register reg + This command displays what is contained in register REG. + + - Command: insert-register reg &optional beforep + This command inserts contents of register REG into the current + buffer. + + Normally, this command puts point before the inserted text, and the + mark after it. However, if the optional second argument BEFOREP + is non-`nil', it puts the mark before and point after. You can + pass a non-`nil' second argument BEFOREP to this function + interactively by supplying any prefix argument. + + If the register contains a rectangle, then the rectangle is + inserted with its upper left corner at point. This means that + text is inserted in the current line and underneath it on + successive lines. + + If the register contains something other than saved text (a + string) or a rectangle (a list), currently useless things happen. + This may be changed in the future. + + +File: lispref.info, Node: Transposition, Next: Change Hooks, Prev: Registers, Up: Text + +Transposition of Text +===================== + + This subroutine is used by the transposition commands. + + - Function: transpose-regions start1 end1 start2 end2 &optional + leave-markers + This function exchanges two nonoverlapping portions of the buffer. + Arguments START1 and END1 specify the bounds of one portion and + arguments START2 and END2 specify the bounds of the other portion. + + Normally, `transpose-regions' relocates markers with the transposed + text; a marker previously positioned within one of the two + transposed portions moves along with that portion, thus remaining + between the same two characters in their new position. However, + if LEAVE-MARKERS is non-`nil', `transpose-regions' does not do + this--it leaves all markers unrelocated. + + File: lispref.info, Node: Change Hooks, Next: Transformations, Prev: Transposition, Up: Text Change Hooks @@ -692,520 +1157,3 @@ functions, an `invalid-regexp' error is signaled. (re-search-forward (concat "\\s-" (regexp-quote string) "\\s-")) - -File: lispref.info, Node: Regexp Example, Prev: Syntax of Regexps, Up: Regular Expressions - -Complex Regexp Example ----------------------- - - Here is a complicated regexp, used by XEmacs to recognize the end of -a sentence together with any whitespace that follows. It is the value -of the variable `sentence-end'. - - First, we show the regexp as a string in Lisp syntax to distinguish -spaces from tab characters. The string constant begins and ends with a -double-quote. `\"' stands for a double-quote as part of the string, -`\\' for a backslash as part of the string, `\t' for a tab and `\n' for -a newline. - - "[.?!][]\"')}]*\\($\\| $\\|\t\\| \\)[ \t\n]*" - - In contrast, if you evaluate the variable `sentence-end', you will -see the following: - - sentence-end - => - "[.?!][]\"')}]*\\($\\| $\\| \\| \\)[ - ]*" - -In this output, tab and newline appear as themselves. - - This regular expression contains four parts in succession and can be -deciphered as follows: - -`[.?!]' - The first part of the pattern is a character set that matches any - one of three characters: period, question mark, and exclamation - mark. The match must begin with one of these three characters. - -`[]\"')}]*' - The second part of the pattern matches any closing braces and - quotation marks, zero or more of them, that may follow the period, - question mark or exclamation mark. The `\"' is Lisp syntax for a - double-quote in a string. The `*' at the end indicates that the - immediately preceding regular expression (a character set, in this - case) may be repeated zero or more times. - -`\\($\\| $\\|\t\\| \\)' - The third part of the pattern matches the whitespace that follows - the end of a sentence: the end of a line, or a tab, or two spaces. - The double backslashes mark the parentheses and vertical bars as - regular expression syntax; the parentheses delimit a group and the - vertical bars separate alternatives. The dollar sign is used to - match the end of a line. - -`[ \t\n]*' - Finally, the last part of the pattern matches any additional - whitespace beyond the minimum needed to end a sentence. - - -File: lispref.info, Node: Regexp Search, Next: POSIX Regexps, Prev: Regular Expressions, Up: Searching and Matching - -Regular Expression Searching -============================ - - In XEmacs, you can search for the next match for a regexp either -incrementally or not. Incremental search commands are described in the -`The XEmacs Reference Manual'. *Note Regular Expression Search: -(emacs)Regexp Search. Here we describe only the search functions -useful in programs. The principal one is `re-search-forward'. - - - Command: re-search-forward regexp &optional limit noerror repeat - This function searches forward in the current buffer for a string - of text that is matched by the regular expression REGEXP. The - function skips over any amount of text that is not matched by - REGEXP, and leaves point at the end of the first match found. It - returns the new value of point. - - If LIMIT is non-`nil' (it must be a position in the current - buffer), then it is the upper bound to the search. No match - extending after that position is accepted. - - What happens when the search fails depends on the value of - NOERROR. If NOERROR is `nil', a `search-failed' error is - signaled. If NOERROR is `t', `re-search-forward' does nothing and - returns `nil'. If NOERROR is neither `nil' nor `t', then - `re-search-forward' moves point to LIMIT (or the end of the - buffer) and returns `nil'. - - If REPEAT is supplied (it must be a positive number), then the - search is repeated that many times (each time starting at the end - of the previous time's match). If these successive searches - succeed, the function succeeds, moving point and returning its new - value. Otherwise the search fails. - - In the following example, point is initially before the `T'. - Evaluating the search call moves point to the end of that line - (between the `t' of `hat' and the newline). - - ---------- Buffer: foo ---------- - I read "-!-The cat in the hat - comes back" twice. - ---------- Buffer: foo ---------- - - (re-search-forward "[a-z]+" nil t 5) - => 27 - - ---------- Buffer: foo ---------- - I read "The cat in the hat-!- - comes back" twice. - ---------- Buffer: foo ---------- - - - Command: re-search-backward regexp &optional limit noerror repeat - This function searches backward in the current buffer for a string - of text that is matched by the regular expression REGEXP, leaving - point at the beginning of the first text found. - - This function is analogous to `re-search-forward', but they are not - simple mirror images. `re-search-forward' finds the match whose - beginning is as close as possible to the starting point. If - `re-search-backward' were a perfect mirror image, it would find the - match whose end is as close as possible. However, in fact it - finds the match whose beginning is as close as possible. The - reason is that matching a regular expression at a given spot - always works from beginning to end, and starts at a specified - beginning position. - - A true mirror-image of `re-search-forward' would require a special - feature for matching regexps from end to beginning. It's not - worth the trouble of implementing that. - - - Function: string-match regexp string &optional start - This function returns the index of the start of the first match for - the regular expression REGEXP in STRING, or `nil' if there is no - match. If START is non-`nil', the search starts at that index in - STRING. - - For example, - - (string-match - "quick" "The quick brown fox jumped quickly.") - => 4 - (string-match - "quick" "The quick brown fox jumped quickly." 8) - => 27 - - The index of the first character of the string is 0, the index of - the second character is 1, and so on. - - After this function returns, the index of the first character - beyond the match is available as `(match-end 0)'. *Note Match - Data::. - - (string-match - "quick" "The quick brown fox jumped quickly." 8) - => 27 - - (match-end 0) - => 32 - - - Function: split-string string &optional pattern - This function splits STRING to substrings delimited by PATTERN, - and returns a list of substrings. If PATTERN is omitted, it - defaults to `[ \f\t\n\r\v]+', which means that it splits STRING by - white-space. - - (split-string "foo bar") - => ("foo" "bar") - - (split-string "something") - => ("something") - - (split-string "a:b:c" ":") - => ("a" "b" "c") - - (split-string ":a::b:c" ":") - => ("" "a" "" "b" "c") - - - Function: split-path path - This function splits a search path into a list of strings. The - path components are separated with the characters specified with - `path-separator'. Under Unix, `path-separator' will normally be - `:', while under Windows, it will be `;'. - - - Function: looking-at regexp - This function determines whether the text in the current buffer - directly following point matches the regular expression REGEXP. - "Directly following" means precisely that: the search is - "anchored" and it can succeed only starting with the first - character following point. The result is `t' if so, `nil' - otherwise. - - This function does not move point, but it updates the match data, - which you can access using `match-beginning' and `match-end'. - *Note Match Data::. - - In this example, point is located directly before the `T'. If it - were anywhere else, the result would be `nil'. - - ---------- Buffer: foo ---------- - I read "-!-The cat in the hat - comes back" twice. - ---------- Buffer: foo ---------- - - (looking-at "The cat in the hat$") - => t - - -File: lispref.info, Node: POSIX Regexps, Next: Search and Replace, Prev: Regexp Search, Up: Searching and Matching - -POSIX Regular Expression Searching -================================== - - The usual regular expression functions do backtracking when necessary -to handle the `\|' and repetition constructs, but they continue this -only until they find _some_ match. Then they succeed and report the -first match found. - - This section describes alternative search functions which perform the -full backtracking specified by the POSIX standard for regular expression -matching. They continue backtracking until they have tried all -possibilities and found all matches, so they can report the longest -match, as required by POSIX. This is much slower, so use these -functions only when you really need the longest match. - - In Emacs versions prior to 19.29, these functions did not exist, and -the functions described above implemented full POSIX backtracking. - - - Function: posix-search-forward regexp &optional limit noerror repeat - This is like `re-search-forward' except that it performs the full - backtracking specified by the POSIX standard for regular expression - matching. - - - Function: posix-search-backward regexp &optional limit noerror repeat - This is like `re-search-backward' except that it performs the full - backtracking specified by the POSIX standard for regular expression - matching. - - - Function: posix-looking-at regexp - This is like `looking-at' except that it performs the full - backtracking specified by the POSIX standard for regular expression - matching. - - - Function: posix-string-match regexp string &optional start - This is like `string-match' except that it performs the full - backtracking specified by the POSIX standard for regular expression - matching. - - -File: lispref.info, Node: Search and Replace, Next: Match Data, Prev: POSIX Regexps, Up: Searching and Matching - -Search and Replace -================== - - - Function: perform-replace from-string replacements query-flag - regexp-flag delimited-flag &optional repeat-count map - This function is the guts of `query-replace' and related commands. - It searches for occurrences of FROM-STRING and replaces some or - all of them. If QUERY-FLAG is `nil', it replaces all occurrences; - otherwise, it asks the user what to do about each one. - - If REGEXP-FLAG is non-`nil', then FROM-STRING is considered a - regular expression; otherwise, it must match literally. If - DELIMITED-FLAG is non-`nil', then only replacements surrounded by - word boundaries are considered. - - The argument REPLACEMENTS specifies what to replace occurrences - with. If it is a string, that string is used. It can also be a - list of strings, to be used in cyclic order. - - If REPEAT-COUNT is non-`nil', it should be an integer. Then it - specifies how many times to use each of the strings in the - REPLACEMENTS list before advancing cyclicly to the next one. - - Normally, the keymap `query-replace-map' defines the possible user - responses for queries. The argument MAP, if non-`nil', is a - keymap to use instead of `query-replace-map'. - - - Variable: query-replace-map - This variable holds a special keymap that defines the valid user - responses for `query-replace' and related functions, as well as - `y-or-n-p' and `map-y-or-n-p'. It is unusual in two ways: - - * The "key bindings" are not commands, just symbols that are - meaningful to the functions that use this map. - - * Prefix keys are not supported; each key binding must be for a - single event key sequence. This is because the functions - don't use read key sequence to get the input; instead, they - read a single event and look it up "by hand." - - Here are the meaningful "bindings" for `query-replace-map'. Several -of them are meaningful only for `query-replace' and friends. - -`act' - Do take the action being considered--in other words, "yes." - -`skip' - Do not take action for this question--in other words, "no." - -`exit' - Answer this question "no," and give up on the entire series of - questions, assuming that the answers will be "no." - -`act-and-exit' - Answer this question "yes," and give up on the entire series of - questions, assuming that subsequent answers will be "no." - -`act-and-show' - Answer this question "yes," but show the results--don't advance yet - to the next question. - -`automatic' - Answer this question and all subsequent questions in the series - with "yes," without further user interaction. - -`backup' - Move back to the previous place that a question was asked about. - -`edit' - Enter a recursive edit to deal with this question--instead of any - other action that would normally be taken. - -`delete-and-edit' - Delete the text being considered, then enter a recursive edit to - replace it. - -`recenter' - Redisplay and center the window, then ask the same question again. - -`quit' - Perform a quit right away. Only `y-or-n-p' and related functions - use this answer. - -`help' - Display some help, then ask again. - - -File: lispref.info, Node: Match Data, Next: Searching and Case, Prev: Search and Replace, Up: Searching and Matching - -The Match Data -============== - - XEmacs keeps track of the positions of the start and end of segments -of text found during a regular expression search. This means, for -example, that you can search for a complex pattern, such as a date in -an Rmail message, and then extract parts of the match under control of -the pattern. - - Because the match data normally describe the most recent search only, -you must be careful not to do another search inadvertently between the -search you wish to refer back to and the use of the match data. If you -can't avoid another intervening search, you must save and restore the -match data around it, to prevent it from being overwritten. - -* Menu: - -* Simple Match Data:: Accessing single items of match data, - such as where a particular subexpression started. -* Replacing Match:: Replacing a substring that was matched. -* Entire Match Data:: Accessing the entire match data at once, as a list. -* Saving Match Data:: Saving and restoring the match data. - - -File: lispref.info, Node: Simple Match Data, Next: Replacing Match, Up: Match Data - -Simple Match Data Access ------------------------- - - This section explains how to use the match data to find out what was -matched by the last search or match operation. - - You can ask about the entire matching text, or about a particular -parenthetical subexpression of a regular expression. The COUNT -argument in the functions below specifies which. If COUNT is zero, you -are asking about the entire match. If COUNT is positive, it specifies -which subexpression you want. - - Recall that the subexpressions of a regular expression are those -expressions grouped with escaped parentheses, `\(...\)'. The COUNTth -subexpression is found by counting occurrences of `\(' from the -beginning of the whole regular expression. The first subexpression is -numbered 1, the second 2, and so on. Only regular expressions can have -subexpressions--after a simple string search, the only information -available is about the entire match. - - - Function: match-string count &optional in-string - This function returns, as a string, the text matched in the last - search or match operation. It returns the entire text if COUNT is - zero, or just the portion corresponding to the COUNTth - parenthetical subexpression, if COUNT is positive. If COUNT is - out of range, or if that subexpression didn't match anything, the - value is `nil'. - - If the last such operation was done against a string with - `string-match', then you should pass the same string as the - argument IN-STRING. Otherwise, after a buffer search or match, - you should omit IN-STRING or pass `nil' for it; but you should - make sure that the current buffer when you call `match-string' is - the one in which you did the searching or matching. - - - Function: match-beginning count - This function returns the position of the start of text matched by - the last regular expression searched for, or a subexpression of it. - - If COUNT is zero, then the value is the position of the start of - the entire match. Otherwise, COUNT specifies a subexpression in - the regular expression, and the value of the function is the - starting position of the match for that subexpression. - - The value is `nil' for a subexpression inside a `\|' alternative - that wasn't used in the match. - - - Function: match-end count - This function is like `match-beginning' except that it returns the - position of the end of the match, rather than the position of the - beginning. - - Here is an example of using the match data, with a comment showing -the positions within the text: - - (string-match "\\(qu\\)\\(ick\\)" - "The quick fox jumped quickly.") - ;0123456789 - => 4 - - (match-string 0 "The quick fox jumped quickly.") - => "quick" - (match-string 1 "The quick fox jumped quickly.") - => "qu" - (match-string 2 "The quick fox jumped quickly.") - => "ick" - - (match-beginning 1) ; The beginning of the match - => 4 ; with `qu' is at index 4. - - (match-beginning 2) ; The beginning of the match - => 6 ; with `ick' is at index 6. - - (match-end 1) ; The end of the match - => 6 ; with `qu' is at index 6. - - (match-end 2) ; The end of the match - => 9 ; with `ick' is at index 9. - - Here is another example. Point is initially located at the beginning -of the line. Searching moves point to between the space and the word -`in'. The beginning of the entire match is at the 9th character of the -buffer (`T'), and the beginning of the match for the first -subexpression is at the 13th character (`c'). - - (list - (re-search-forward "The \\(cat \\)") - (match-beginning 0) - (match-beginning 1)) - => (9 9 13) - - ---------- Buffer: foo ---------- - I read "The cat -!-in the hat comes back" twice. - ^ ^ - 9 13 - ---------- Buffer: foo ---------- - -(In this case, the index returned is a buffer position; the first -character of the buffer counts as 1.) - - -File: lispref.info, Node: Replacing Match, Next: Entire Match Data, Prev: Simple Match Data, Up: Match Data - -Replacing the Text That Matched -------------------------------- - - This function replaces the text matched by the last search with -REPLACEMENT. - - - Function: replace-match replacement &optional fixedcase literal - string - This function replaces the text in the buffer (or in STRING) that - was matched by the last search. It replaces that text with - REPLACEMENT. - - If you did the last search in a buffer, you should specify `nil' - for STRING. Then `replace-match' does the replacement by editing - the buffer; it leaves point at the end of the replacement text, - and returns `t'. - - If you did the search in a string, pass the same string as STRING. - Then `replace-match' does the replacement by constructing and - returning a new string. - - If FIXEDCASE is non-`nil', then the case of the replacement text - is not changed; otherwise, the replacement text is converted to a - different case depending upon the capitalization of the text to be - replaced. If the original text is all upper case, the replacement - text is converted to upper case. If the first word of the - original text is capitalized, then the first word of the - replacement text is capitalized. If the original text contains - just one word, and that word is a capital letter, `replace-match' - considers this a capitalized first word rather than all upper case. - - If `case-replace' is `nil', then case conversion is not done, - regardless of the value of FIXED-CASE. *Note Searching and Case::. - - If LITERAL is non-`nil', then REPLACEMENT is inserted exactly as - it is, the only alterations being case changes as needed. If it - is `nil' (the default), then the character `\' is treated - specially. If a `\' appears in REPLACEMENT, then it must be part - of one of the following sequences: - - `\&' - `\&' stands for the entire text being replaced. - - `\N' - `\N', where N is a digit, stands for the text that matched - the Nth subexpression in the original regexp. Subexpressions - are those expressions grouped inside `\(...\)'. - - `\\' - `\\' stands for a single `\' in the replacement text. - diff --git a/info/lispref.info-32 b/info/lispref.info-32 index 3173f9f..fd9588b 100644 --- a/info/lispref.info-32 +++ b/info/lispref.info-32 @@ -50,6 +50,523 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Regexp Example, Prev: Syntax of Regexps, Up: Regular Expressions + +Complex Regexp Example +---------------------- + + Here is a complicated regexp, used by XEmacs to recognize the end of +a sentence together with any whitespace that follows. It is the value +of the variable `sentence-end'. + + First, we show the regexp as a string in Lisp syntax to distinguish +spaces from tab characters. The string constant begins and ends with a +double-quote. `\"' stands for a double-quote as part of the string, +`\\' for a backslash as part of the string, `\t' for a tab and `\n' for +a newline. + + "[.?!][]\"')}]*\\($\\| $\\|\t\\| \\)[ \t\n]*" + + In contrast, if you evaluate the variable `sentence-end', you will +see the following: + + sentence-end + => + "[.?!][]\"')}]*\\($\\| $\\| \\| \\)[ + ]*" + +In this output, tab and newline appear as themselves. + + This regular expression contains four parts in succession and can be +deciphered as follows: + +`[.?!]' + The first part of the pattern is a character set that matches any + one of three characters: period, question mark, and exclamation + mark. The match must begin with one of these three characters. + +`[]\"')}]*' + The second part of the pattern matches any closing braces and + quotation marks, zero or more of them, that may follow the period, + question mark or exclamation mark. The `\"' is Lisp syntax for a + double-quote in a string. The `*' at the end indicates that the + immediately preceding regular expression (a character set, in this + case) may be repeated zero or more times. + +`\\($\\| $\\|\t\\| \\)' + The third part of the pattern matches the whitespace that follows + the end of a sentence: the end of a line, or a tab, or two spaces. + The double backslashes mark the parentheses and vertical bars as + regular expression syntax; the parentheses delimit a group and the + vertical bars separate alternatives. The dollar sign is used to + match the end of a line. + +`[ \t\n]*' + Finally, the last part of the pattern matches any additional + whitespace beyond the minimum needed to end a sentence. + + +File: lispref.info, Node: Regexp Search, Next: POSIX Regexps, Prev: Regular Expressions, Up: Searching and Matching + +Regular Expression Searching +============================ + + In XEmacs, you can search for the next match for a regexp either +incrementally or not. Incremental search commands are described in the +`The XEmacs Reference Manual'. *Note Regular Expression Search: +(emacs)Regexp Search. Here we describe only the search functions +useful in programs. The principal one is `re-search-forward'. + + - Command: re-search-forward regexp &optional limit noerror repeat + This function searches forward in the current buffer for a string + of text that is matched by the regular expression REGEXP. The + function skips over any amount of text that is not matched by + REGEXP, and leaves point at the end of the first match found. It + returns the new value of point. + + If LIMIT is non-`nil' (it must be a position in the current + buffer), then it is the upper bound to the search. No match + extending after that position is accepted. + + What happens when the search fails depends on the value of + NOERROR. If NOERROR is `nil', a `search-failed' error is + signaled. If NOERROR is `t', `re-search-forward' does nothing and + returns `nil'. If NOERROR is neither `nil' nor `t', then + `re-search-forward' moves point to LIMIT (or the end of the + buffer) and returns `nil'. + + If REPEAT is supplied (it must be a positive number), then the + search is repeated that many times (each time starting at the end + of the previous time's match). If these successive searches + succeed, the function succeeds, moving point and returning its new + value. Otherwise the search fails. + + In the following example, point is initially before the `T'. + Evaluating the search call moves point to the end of that line + (between the `t' of `hat' and the newline). + + ---------- Buffer: foo ---------- + I read "-!-The cat in the hat + comes back" twice. + ---------- Buffer: foo ---------- + + (re-search-forward "[a-z]+" nil t 5) + => 27 + + ---------- Buffer: foo ---------- + I read "The cat in the hat-!- + comes back" twice. + ---------- Buffer: foo ---------- + + - Command: re-search-backward regexp &optional limit noerror repeat + This function searches backward in the current buffer for a string + of text that is matched by the regular expression REGEXP, leaving + point at the beginning of the first text found. + + This function is analogous to `re-search-forward', but they are not + simple mirror images. `re-search-forward' finds the match whose + beginning is as close as possible to the starting point. If + `re-search-backward' were a perfect mirror image, it would find the + match whose end is as close as possible. However, in fact it + finds the match whose beginning is as close as possible. The + reason is that matching a regular expression at a given spot + always works from beginning to end, and starts at a specified + beginning position. + + A true mirror-image of `re-search-forward' would require a special + feature for matching regexps from end to beginning. It's not + worth the trouble of implementing that. + + - Function: string-match regexp string &optional start + This function returns the index of the start of the first match for + the regular expression REGEXP in STRING, or `nil' if there is no + match. If START is non-`nil', the search starts at that index in + STRING. + + For example, + + (string-match + "quick" "The quick brown fox jumped quickly.") + => 4 + (string-match + "quick" "The quick brown fox jumped quickly." 8) + => 27 + + The index of the first character of the string is 0, the index of + the second character is 1, and so on. + + After this function returns, the index of the first character + beyond the match is available as `(match-end 0)'. *Note Match + Data::. + + (string-match + "quick" "The quick brown fox jumped quickly." 8) + => 27 + + (match-end 0) + => 32 + + - Function: split-string string &optional pattern + This function splits STRING to substrings delimited by PATTERN, + and returns a list of substrings. If PATTERN is omitted, it + defaults to `[ \f\t\n\r\v]+', which means that it splits STRING by + white-space. + + (split-string "foo bar") + => ("foo" "bar") + + (split-string "something") + => ("something") + + (split-string "a:b:c" ":") + => ("a" "b" "c") + + (split-string ":a::b:c" ":") + => ("" "a" "" "b" "c") + + - Function: split-path path + This function splits a search path into a list of strings. The + path components are separated with the characters specified with + `path-separator'. Under Unix, `path-separator' will normally be + `:', while under Windows, it will be `;'. + + - Function: looking-at regexp + This function determines whether the text in the current buffer + directly following point matches the regular expression REGEXP. + "Directly following" means precisely that: the search is + "anchored" and it can succeed only starting with the first + character following point. The result is `t' if so, `nil' + otherwise. + + This function does not move point, but it updates the match data, + which you can access using `match-beginning' and `match-end'. + *Note Match Data::. + + In this example, point is located directly before the `T'. If it + were anywhere else, the result would be `nil'. + + ---------- Buffer: foo ---------- + I read "-!-The cat in the hat + comes back" twice. + ---------- Buffer: foo ---------- + + (looking-at "The cat in the hat$") + => t + + +File: lispref.info, Node: POSIX Regexps, Next: Search and Replace, Prev: Regexp Search, Up: Searching and Matching + +POSIX Regular Expression Searching +================================== + + The usual regular expression functions do backtracking when necessary +to handle the `\|' and repetition constructs, but they continue this +only until they find _some_ match. Then they succeed and report the +first match found. + + This section describes alternative search functions which perform the +full backtracking specified by the POSIX standard for regular expression +matching. They continue backtracking until they have tried all +possibilities and found all matches, so they can report the longest +match, as required by POSIX. This is much slower, so use these +functions only when you really need the longest match. + + In Emacs versions prior to 19.29, these functions did not exist, and +the functions described above implemented full POSIX backtracking. + + - Function: posix-search-forward regexp &optional limit noerror repeat + This is like `re-search-forward' except that it performs the full + backtracking specified by the POSIX standard for regular expression + matching. + + - Function: posix-search-backward regexp &optional limit noerror repeat + This is like `re-search-backward' except that it performs the full + backtracking specified by the POSIX standard for regular expression + matching. + + - Function: posix-looking-at regexp + This is like `looking-at' except that it performs the full + backtracking specified by the POSIX standard for regular expression + matching. + + - Function: posix-string-match regexp string &optional start + This is like `string-match' except that it performs the full + backtracking specified by the POSIX standard for regular expression + matching. + + +File: lispref.info, Node: Search and Replace, Next: Match Data, Prev: POSIX Regexps, Up: Searching and Matching + +Search and Replace +================== + + - Function: perform-replace from-string replacements query-flag + regexp-flag delimited-flag &optional repeat-count map + This function is the guts of `query-replace' and related commands. + It searches for occurrences of FROM-STRING and replaces some or + all of them. If QUERY-FLAG is `nil', it replaces all occurrences; + otherwise, it asks the user what to do about each one. + + If REGEXP-FLAG is non-`nil', then FROM-STRING is considered a + regular expression; otherwise, it must match literally. If + DELIMITED-FLAG is non-`nil', then only replacements surrounded by + word boundaries are considered. + + The argument REPLACEMENTS specifies what to replace occurrences + with. If it is a string, that string is used. It can also be a + list of strings, to be used in cyclic order. + + If REPEAT-COUNT is non-`nil', it should be an integer. Then it + specifies how many times to use each of the strings in the + REPLACEMENTS list before advancing cyclicly to the next one. + + Normally, the keymap `query-replace-map' defines the possible user + responses for queries. The argument MAP, if non-`nil', is a + keymap to use instead of `query-replace-map'. + + - Variable: query-replace-map + This variable holds a special keymap that defines the valid user + responses for `query-replace' and related functions, as well as + `y-or-n-p' and `map-y-or-n-p'. It is unusual in two ways: + + * The "key bindings" are not commands, just symbols that are + meaningful to the functions that use this map. + + * Prefix keys are not supported; each key binding must be for a + single event key sequence. This is because the functions + don't use read key sequence to get the input; instead, they + read a single event and look it up "by hand." + + Here are the meaningful "bindings" for `query-replace-map'. Several +of them are meaningful only for `query-replace' and friends. + +`act' + Do take the action being considered--in other words, "yes." + +`skip' + Do not take action for this question--in other words, "no." + +`exit' + Answer this question "no," and give up on the entire series of + questions, assuming that the answers will be "no." + +`act-and-exit' + Answer this question "yes," and give up on the entire series of + questions, assuming that subsequent answers will be "no." + +`act-and-show' + Answer this question "yes," but show the results--don't advance yet + to the next question. + +`automatic' + Answer this question and all subsequent questions in the series + with "yes," without further user interaction. + +`backup' + Move back to the previous place that a question was asked about. + +`edit' + Enter a recursive edit to deal with this question--instead of any + other action that would normally be taken. + +`delete-and-edit' + Delete the text being considered, then enter a recursive edit to + replace it. + +`recenter' + Redisplay and center the window, then ask the same question again. + +`quit' + Perform a quit right away. Only `y-or-n-p' and related functions + use this answer. + +`help' + Display some help, then ask again. + + +File: lispref.info, Node: Match Data, Next: Searching and Case, Prev: Search and Replace, Up: Searching and Matching + +The Match Data +============== + + XEmacs keeps track of the positions of the start and end of segments +of text found during a regular expression search. This means, for +example, that you can search for a complex pattern, such as a date in +an Rmail message, and then extract parts of the match under control of +the pattern. + + Because the match data normally describe the most recent search only, +you must be careful not to do another search inadvertently between the +search you wish to refer back to and the use of the match data. If you +can't avoid another intervening search, you must save and restore the +match data around it, to prevent it from being overwritten. + +* Menu: + +* Simple Match Data:: Accessing single items of match data, + such as where a particular subexpression started. +* Replacing Match:: Replacing a substring that was matched. +* Entire Match Data:: Accessing the entire match data at once, as a list. +* Saving Match Data:: Saving and restoring the match data. + + +File: lispref.info, Node: Simple Match Data, Next: Replacing Match, Up: Match Data + +Simple Match Data Access +------------------------ + + This section explains how to use the match data to find out what was +matched by the last search or match operation. + + You can ask about the entire matching text, or about a particular +parenthetical subexpression of a regular expression. The COUNT +argument in the functions below specifies which. If COUNT is zero, you +are asking about the entire match. If COUNT is positive, it specifies +which subexpression you want. + + Recall that the subexpressions of a regular expression are those +expressions grouped with escaped parentheses, `\(...\)'. The COUNTth +subexpression is found by counting occurrences of `\(' from the +beginning of the whole regular expression. The first subexpression is +numbered 1, the second 2, and so on. Only regular expressions can have +subexpressions--after a simple string search, the only information +available is about the entire match. + + - Function: match-string count &optional in-string + This function returns, as a string, the text matched in the last + search or match operation. It returns the entire text if COUNT is + zero, or just the portion corresponding to the COUNTth + parenthetical subexpression, if COUNT is positive. If COUNT is + out of range, or if that subexpression didn't match anything, the + value is `nil'. + + If the last such operation was done against a string with + `string-match', then you should pass the same string as the + argument IN-STRING. Otherwise, after a buffer search or match, + you should omit IN-STRING or pass `nil' for it; but you should + make sure that the current buffer when you call `match-string' is + the one in which you did the searching or matching. + + - Function: match-beginning count + This function returns the position of the start of text matched by + the last regular expression searched for, or a subexpression of it. + + If COUNT is zero, then the value is the position of the start of + the entire match. Otherwise, COUNT specifies a subexpression in + the regular expression, and the value of the function is the + starting position of the match for that subexpression. + + The value is `nil' for a subexpression inside a `\|' alternative + that wasn't used in the match. + + - Function: match-end count + This function is like `match-beginning' except that it returns the + position of the end of the match, rather than the position of the + beginning. + + Here is an example of using the match data, with a comment showing +the positions within the text: + + (string-match "\\(qu\\)\\(ick\\)" + "The quick fox jumped quickly.") + ;0123456789 + => 4 + + (match-string 0 "The quick fox jumped quickly.") + => "quick" + (match-string 1 "The quick fox jumped quickly.") + => "qu" + (match-string 2 "The quick fox jumped quickly.") + => "ick" + + (match-beginning 1) ; The beginning of the match + => 4 ; with `qu' is at index 4. + + (match-beginning 2) ; The beginning of the match + => 6 ; with `ick' is at index 6. + + (match-end 1) ; The end of the match + => 6 ; with `qu' is at index 6. + + (match-end 2) ; The end of the match + => 9 ; with `ick' is at index 9. + + Here is another example. Point is initially located at the beginning +of the line. Searching moves point to between the space and the word +`in'. The beginning of the entire match is at the 9th character of the +buffer (`T'), and the beginning of the match for the first +subexpression is at the 13th character (`c'). + + (list + (re-search-forward "The \\(cat \\)") + (match-beginning 0) + (match-beginning 1)) + => (9 9 13) + + ---------- Buffer: foo ---------- + I read "The cat -!-in the hat comes back" twice. + ^ ^ + 9 13 + ---------- Buffer: foo ---------- + +(In this case, the index returned is a buffer position; the first +character of the buffer counts as 1.) + + +File: lispref.info, Node: Replacing Match, Next: Entire Match Data, Prev: Simple Match Data, Up: Match Data + +Replacing the Text That Matched +------------------------------- + + This function replaces the text matched by the last search with +REPLACEMENT. + + - Function: replace-match replacement &optional fixedcase literal + string + This function replaces the text in the buffer (or in STRING) that + was matched by the last search. It replaces that text with + REPLACEMENT. + + If you did the last search in a buffer, you should specify `nil' + for STRING. Then `replace-match' does the replacement by editing + the buffer; it leaves point at the end of the replacement text, + and returns `t'. + + If you did the search in a string, pass the same string as STRING. + Then `replace-match' does the replacement by constructing and + returning a new string. + + If FIXEDCASE is non-`nil', then the case of the replacement text + is not changed; otherwise, the replacement text is converted to a + different case depending upon the capitalization of the text to be + replaced. If the original text is all upper case, the replacement + text is converted to upper case. If the first word of the + original text is capitalized, then the first word of the + replacement text is capitalized. If the original text contains + just one word, and that word is a capital letter, `replace-match' + considers this a capitalized first word rather than all upper case. + + If `case-replace' is `nil', then case conversion is not done, + regardless of the value of FIXED-CASE. *Note Searching and Case::. + + If LITERAL is non-`nil', then REPLACEMENT is inserted exactly as + it is, the only alterations being case changes as needed. If it + is `nil' (the default), then the character `\' is treated + specially. If a `\' appears in REPLACEMENT, then it must be part + of one of the following sequences: + + `\&' + `\&' stands for the entire text being replaced. + + `\N' + `\N', where N is a digit, stands for the text that matched + the Nth subexpression in the original regexp. Subexpressions + are those expressions grouped inside `\(...\)'. + + `\\' + `\\' stands for a single `\' in the replacement text. + + File: lispref.info, Node: Entire Match Data, Next: Saving Match Data, Prev: Replacing Match, Up: Match Data Accessing the Entire Match Data @@ -688,546 +1205,3 @@ version 18 or earlier. flag. Optional argument BUFFER defaults to the current buffer if omitted. - -File: lispref.info, Node: Parsing Expressions, Next: Standard Syntax Tables, Prev: Motion and Syntax, Up: Syntax Tables - -Parsing Balanced Expressions -============================ - - Here are several functions for parsing and scanning balanced -expressions, also known as "sexps", in which parentheses match in -pairs. The syntax table controls the interpretation of characters, so -these functions can be used for Lisp expressions when in Lisp mode and -for C expressions when in C mode. *Note List Motion::, for convenient -higher-level functions for moving over balanced expressions. - - - Function: parse-partial-sexp start limit &optional target-depth - stop-before state stop-comment buffer - This function parses a sexp in the current buffer starting at - START, not scanning past LIMIT. It stops at position LIMIT or - when certain criteria described below are met, and sets point to - the location where parsing stops. It returns a value describing - the status of the parse at the point where it stops. - - If STATE is `nil', START is assumed to be at the top level of - parenthesis structure, such as the beginning of a function - definition. Alternatively, you might wish to resume parsing in the - middle of the structure. To do this, you must provide a STATE - argument that describes the initial status of parsing. - - If the third argument TARGET-DEPTH is non-`nil', parsing stops if - the depth in parentheses becomes equal to TARGET-DEPTH. The depth - starts at 0, or at whatever is given in STATE. - - If the fourth argument STOP-BEFORE is non-`nil', parsing stops - when it comes to any character that starts a sexp. If - STOP-COMMENT is non-`nil', parsing stops when it comes to the - start of a comment. - - The fifth argument STATE is an eight-element list of the same form - as the value of this function, described below. The return value - of one call may be used to initialize the state of the parse on - another call to `parse-partial-sexp'. - - The result is a list of eight elements describing the final state - of the parse: - - 0. The depth in parentheses, counting from 0. - - 1. The character position of the start of the innermost - parenthetical grouping containing the stopping point; `nil' - if none. - - 2. The character position of the start of the last complete - subexpression terminated; `nil' if none. - - 3. Non-`nil' if inside a string. More precisely, this is the - character that will terminate the string. - - 4. `t' if inside a comment (of either style). - - 5. `t' if point is just after a quote character. - - 6. The minimum parenthesis depth encountered during this scan. - - 7. `t' if inside a comment of style "b". - - Elements 0, 3, 4, 5 and 7 are significant in the argument STATE. - - This function is most often used to compute indentation for - languages that have nested parentheses. - - - Function: scan-lists from count depth &optional buffer noerror - This function scans forward COUNT balanced parenthetical groupings - from character number FROM. It returns the character position - where the scan stops. - - If DEPTH is nonzero, parenthesis depth counting begins from that - value. The only candidates for stopping are places where the - depth in parentheses becomes zero; `scan-lists' counts COUNT such - places and then stops. Thus, a positive value for DEPTH means go - out DEPTH levels of parenthesis. - - Scanning ignores comments if `parse-sexp-ignore-comments' is - non-`nil'. - - If the scan reaches the beginning or end of the buffer (or its - accessible portion), and the depth is not zero, an error is - signaled. If the depth is zero but the count is not used up, - `nil' is returned. - - If optional arg BUFFER is non-`nil', scanning occurs in that - buffer instead of in the current buffer. - - If optional arg NOERROR is non-`nil', `scan-lists' will return - `nil' instead of signalling an error. - - - Function: scan-sexps from count &optional buffer noerror - This function scans forward COUNT sexps from character position - FROM. It returns the character position where the scan stops. - - Scanning ignores comments if `parse-sexp-ignore-comments' is - non-`nil'. - - If the scan reaches the beginning or end of (the accessible part - of) the buffer in the middle of a parenthetical grouping, an error - is signaled. If it reaches the beginning or end between groupings - but before count is used up, `nil' is returned. - - If optional arg BUFFER is non-`nil', scanning occurs in that - buffer instead of in the current buffer. - - If optional arg NOERROR is non-`nil', `scan-sexps' will return nil - instead of signalling an error. - - - Variable: parse-sexp-ignore-comments - If the value is non-`nil', then comments are treated as whitespace - by the functions in this section and by `forward-sexp'. - - In older Emacs versions, this feature worked only when the comment - terminator is something like `*/', and appears only to end a - comment. In languages where newlines terminate comments, it was - necessary make this variable `nil', since not every newline is the - end of a comment. This limitation no longer exists. - - You can use `forward-comment' to move forward or backward over one -comment or several comments. - - - Function: forward-comment count &optional buffer - This function moves point forward across COUNT comments (backward, - if COUNT is negative). If it finds anything other than a comment - or whitespace, it stops, leaving point at the place where it - stopped. It also stops after satisfying COUNT. - - Optional argument BUFFER defaults to the current buffer. - - To move forward over all comments and whitespace following point, use -`(forward-comment (buffer-size))'. `(buffer-size)' is a good argument -to use, because the number of comments in the buffer cannot exceed that -many. - - -File: lispref.info, Node: Standard Syntax Tables, Next: Syntax Table Internals, Prev: Parsing Expressions, Up: Syntax Tables - -Some Standard Syntax Tables -=========================== - - Most of the major modes in XEmacs have their own syntax tables. Here -are several of them: - - - Function: standard-syntax-table - This function returns the standard syntax table, which is the - syntax table used in Fundamental mode. - - - Variable: text-mode-syntax-table - The value of this variable is the syntax table used in Text mode. - - - Variable: c-mode-syntax-table - The value of this variable is the syntax table for C-mode buffers. - - - Variable: emacs-lisp-mode-syntax-table - The value of this variable is the syntax table used in Emacs Lisp - mode by editing commands. (It has no effect on the Lisp `read' - function.) - - -File: lispref.info, Node: Syntax Table Internals, Prev: Standard Syntax Tables, Up: Syntax Tables - -Syntax Table Internals -====================== - - Each element of a syntax table is an integer that encodes the syntax -of one character: the syntax class, possible matching character, and -flags. Lisp programs don't usually work with the elements directly; the -Lisp-level syntax table functions usually work with syntax descriptors -(*note Syntax Descriptors::). - - The low 8 bits of each element of a syntax table indicate the syntax -class. - -Integer - Class - -0 - whitespace - -1 - punctuation - -2 - word - -3 - symbol - -4 - open parenthesis - -5 - close parenthesis - -6 - expression prefix - -7 - string quote - -8 - paired delimiter - -9 - escape - -10 - character quote - -11 - comment-start - -12 - comment-end - -13 - inherit - - The next 8 bits are the matching opposite parenthesis (if the -character has parenthesis syntax); otherwise, they are not meaningful. -The next 6 bits are the flags. - - -File: lispref.info, Node: Abbrevs, Next: Extents, Prev: Syntax Tables, Up: Top - -Abbrevs And Abbrev Expansion -**************************** - - An abbreviation or "abbrev" is a string of characters that may be -expanded to a longer string. The user can insert the abbrev string and -find it replaced automatically with the expansion of the abbrev. This -saves typing. - - The set of abbrevs currently in effect is recorded in an "abbrev -table". Each buffer has a local abbrev table, but normally all buffers -in the same major mode share one abbrev table. There is also a global -abbrev table. Normally both are used. - - An abbrev table is represented as an obarray containing a symbol for -each abbreviation. The symbol's name is the abbreviation; its value is -the expansion; its function definition is the hook function to do the -expansion (*note Defining Abbrevs::); its property list cell contains -the use count, the number of times the abbreviation has been expanded. -Because these symbols are not interned in the usual obarray, they will -never appear as the result of reading a Lisp expression; in fact, -normally they are never used except by the code that handles abbrevs. -Therefore, it is safe to use them in an extremely nonstandard way. -*Note Creating Symbols::. - - For the user-level commands for abbrevs, see *Note Abbrev Mode: -(emacs)Abbrevs. - -* Menu: - -* Abbrev Mode:: Setting up XEmacs for abbreviation. -* Tables: Abbrev Tables. Creating and working with abbrev tables. -* Defining Abbrevs:: Specifying abbreviations and their expansions. -* Files: Abbrev Files. Saving abbrevs in files. -* Expansion: Abbrev Expansion. Controlling expansion; expansion subroutines. -* Standard Abbrev Tables:: Abbrev tables used by various major modes. - - -File: lispref.info, Node: Abbrev Mode, Next: Abbrev Tables, Up: Abbrevs - -Setting Up Abbrev Mode -====================== - - Abbrev mode is a minor mode controlled by the value of the variable -`abbrev-mode'. - - - Variable: abbrev-mode - A non-`nil' value of this variable turns on the automatic expansion - of abbrevs when their abbreviations are inserted into a buffer. - If the value is `nil', abbrevs may be defined, but they are not - expanded automatically. - - This variable automatically becomes local when set in any fashion. - - - Variable: default-abbrev-mode - This is the value of `abbrev-mode' for buffers that do not - override it. This is the same as `(default-value 'abbrev-mode)'. - - -File: lispref.info, Node: Abbrev Tables, Next: Defining Abbrevs, Prev: Abbrev Mode, Up: Abbrevs - -Abbrev Tables -============= - - This section describes how to create and manipulate abbrev tables. - - - Function: make-abbrev-table - This function creates and returns a new, empty abbrev table--an - obarray containing no symbols. It is a vector filled with zeros. - - - Function: clear-abbrev-table table - This function undefines all the abbrevs in abbrev table TABLE, - leaving it empty. The function returns `nil'. - - - Function: define-abbrev-table tabname definitions - This function defines TABNAME (a symbol) as an abbrev table name, - i.e., as a variable whose value is an abbrev table. It defines - abbrevs in the table according to DEFINITIONS, a list of elements - of the form `(ABBREVNAME EXPANSION HOOK USECOUNT)'. The value is - always `nil'. - - - Variable: abbrev-table-name-list - This is a list of symbols whose values are abbrev tables. - `define-abbrev-table' adds the new abbrev table name to this list. - - - Function: insert-abbrev-table-description name &optional human - This function inserts before point a description of the abbrev - table named NAME. The argument NAME is a symbol whose value is an - abbrev table. The value is always `nil'. - - If HUMAN is non-`nil', the description is human-oriented. - Otherwise the description is a Lisp expression--a call to - `define-abbrev-table' that would define NAME exactly as it is - currently defined. - - -File: lispref.info, Node: Defining Abbrevs, Next: Abbrev Files, Prev: Abbrev Tables, Up: Abbrevs - -Defining Abbrevs -================ - - These functions define an abbrev in a specified abbrev table. -`define-abbrev' is the low-level basic function, while `add-abbrev' is -used by commands that ask for information from the user. - - - Function: add-abbrev table type arg - This function adds an abbreviation to abbrev table TABLE based on - information from the user. The argument TYPE is a string - describing in English the kind of abbrev this will be (typically, - `"global"' or `"mode-specific"'); this is used in prompting the - user. The argument ARG is the number of words in the expansion. - - The return value is the symbol that internally represents the new - abbrev, or `nil' if the user declines to confirm redefining an - existing abbrev. - - - Function: define-abbrev table name expansion hook - This function defines an abbrev in TABLE named NAME, to expand to - EXPANSION, and call HOOK. The return value is an uninterned - symbol that represents the abbrev inside XEmacs; its name is NAME. - - The argument NAME should be a string. The argument EXPANSION - should be a string, or `nil' to undefine the abbrev. - - The argument HOOK is a function or `nil'. If HOOK is non-`nil', - then it is called with no arguments after the abbrev is replaced - with EXPANSION; point is located at the end of EXPANSION when HOOK - is called. - - The use count of the abbrev is initialized to zero. - - - User Option: only-global-abbrevs - If this variable is non-`nil', it means that the user plans to use - global abbrevs only. This tells the commands that define - mode-specific abbrevs to define global ones instead. This - variable does not alter the behavior of the functions in this - section; it is examined by their callers. - - -File: lispref.info, Node: Abbrev Files, Next: Abbrev Expansion, Prev: Defining Abbrevs, Up: Abbrevs - -Saving Abbrevs in Files -======================= - - A file of saved abbrev definitions is actually a file of Lisp code. -The abbrevs are saved in the form of a Lisp program to define the same -abbrev tables with the same contents. Therefore, you can load the file -with `load' (*note How Programs Do Loading::). However, the function -`quietly-read-abbrev-file' is provided as a more convenient interface. - - User-level facilities such as `save-some-buffers' can save abbrevs -in a file automatically, under the control of variables described here. - - - User Option: abbrev-file-name - This is the default file name for reading and saving abbrevs. - - - Function: quietly-read-abbrev-file filename - This function reads abbrev definitions from a file named FILENAME, - previously written with `write-abbrev-file'. If FILENAME is - `nil', the file specified in `abbrev-file-name' is used. - `save-abbrevs' is set to `t' so that changes will be saved. - - This function does not display any messages. It returns `nil'. - - - User Option: save-abbrevs - A non-`nil' value for `save-abbrev' means that XEmacs should save - abbrevs when files are saved. `abbrev-file-name' specifies the - file to save the abbrevs in. - - - Variable: abbrevs-changed - This variable is set non-`nil' by defining or altering any - abbrevs. This serves as a flag for various XEmacs commands to - offer to save your abbrevs. - - - Command: write-abbrev-file filename - Save all abbrev definitions, in all abbrev tables, in the file - FILENAME, in the form of a Lisp program that when loaded will - define the same abbrevs. This function returns `nil'. - - -File: lispref.info, Node: Abbrev Expansion, Next: Standard Abbrev Tables, Prev: Abbrev Files, Up: Abbrevs - -Looking Up and Expanding Abbreviations -====================================== - - Abbrevs are usually expanded by commands for interactive use, -including `self-insert-command'. This section describes the -subroutines used in writing such functions, as well as the variables -they use for communication. - - - Function: abbrev-symbol abbrev &optional table - This function returns the symbol representing the abbrev named - ABBREV. The value returned is `nil' if that abbrev is not - defined. The optional second argument TABLE is the abbrev table - to look it up in. If TABLE is `nil', this function tries first - the current buffer's local abbrev table, and second the global - abbrev table. - - - Function: abbrev-expansion abbrev &optional table - This function returns the string that ABBREV would expand into (as - defined by the abbrev tables used for the current buffer). The - optional argument TABLE specifies the abbrev table to use, as in - `abbrev-symbol'. - - - Command: expand-abbrev - This command expands the abbrev before point, if any. If point - does not follow an abbrev, this command does nothing. The command - returns `t' if it did expansion, `nil' otherwise. - - - Command: abbrev-prefix-mark &optional arg - Mark current point as the beginning of an abbrev. The next call to - `expand-abbrev' will use the text from here to point (where it is - then) as the abbrev to expand, rather than using the previous word - as usual. - - - User Option: abbrev-all-caps - When this is set non-`nil', an abbrev entered entirely in upper - case is expanded using all upper case. Otherwise, an abbrev - entered entirely in upper case is expanded by capitalizing each - word of the expansion. - - - Variable: abbrev-start-location - This is the buffer position for `expand-abbrev' to use as the start - of the next abbrev to be expanded. (`nil' means use the word - before point instead.) `abbrev-start-location' is set to `nil' - each time `expand-abbrev' is called. This variable is also set by - `abbrev-prefix-mark'. - - - Variable: abbrev-start-location-buffer - The value of this variable is the buffer for which - `abbrev-start-location' has been set. Trying to expand an abbrev - in any other buffer clears `abbrev-start-location'. This variable - is set by `abbrev-prefix-mark'. - - - Variable: last-abbrev - This is the `abbrev-symbol' of the last abbrev expanded. This - information is left by `expand-abbrev' for the sake of the - `unexpand-abbrev' command. - - - Variable: last-abbrev-location - This is the location of the last abbrev expanded. This contains - information left by `expand-abbrev' for the sake of the - `unexpand-abbrev' command. - - - Variable: last-abbrev-text - This is the exact expansion text of the last abbrev expanded, - after case conversion (if any). Its value is `nil' if the abbrev - has already been unexpanded. This contains information left by - `expand-abbrev' for the sake of the `unexpand-abbrev' command. - - - Variable: pre-abbrev-expand-hook - This is a normal hook whose functions are executed, in sequence, - just before any expansion of an abbrev. *Note Hooks::. Since it - is a normal hook, the hook functions receive no arguments. - However, they can find the abbrev to be expanded by looking in the - buffer before point. - - The following sample code shows a simple use of -`pre-abbrev-expand-hook'. If the user terminates an abbrev with a -punctuation character, the hook function asks for confirmation. Thus, -this hook allows the user to decide whether to expand the abbrev, and -aborts expansion if it is not confirmed. - - (add-hook 'pre-abbrev-expand-hook 'query-if-not-space) - - ;; This is the function invoked by `pre-abbrev-expand-hook'. - - ;; If the user terminated the abbrev with a space, the function does - ;; nothing (that is, it returns so that the abbrev can expand). If the - ;; user entered some other character, this function asks whether - ;; expansion should continue. - - ;; If the user answers the prompt with `y', the function returns - ;; `nil' (because of the `not' function), but that is - ;; acceptable; the return value has no effect on expansion. - - (defun query-if-not-space () - (if (/= ?\ (preceding-char)) - (if (not (y-or-n-p "Do you want to expand this abbrev? ")) - (error "Not expanding this abbrev")))) - - -File: lispref.info, Node: Standard Abbrev Tables, Prev: Abbrev Expansion, Up: Abbrevs - -Standard Abbrev Tables -====================== - - Here we list the variables that hold the abbrev tables for the -preloaded major modes of XEmacs. - - - Variable: global-abbrev-table - This is the abbrev table for mode-independent abbrevs. The abbrevs - defined in it apply to all buffers. Each buffer may also have a - local abbrev table, whose abbrev definitions take precedence over - those in the global table. - - - Variable: local-abbrev-table - The value of this buffer-local variable is the (mode-specific) - abbreviation table of the current buffer. - - - Variable: fundamental-mode-abbrev-table - This is the local abbrev table used in Fundamental mode; in other - words, it is the local abbrev table in all buffers in Fundamental - mode. - - - Variable: text-mode-abbrev-table - This is the local abbrev table used in Text mode. - - - Variable: c-mode-abbrev-table - This is the local abbrev table used in C mode. - - - Variable: lisp-mode-abbrev-table - This is the local abbrev table used in Lisp mode and Emacs Lisp - mode. - diff --git a/info/lispref.info-33 b/info/lispref.info-33 index 2e32df8..785b693 100644 --- a/info/lispref.info-33 +++ b/info/lispref.info-33 @@ -50,6 +50,549 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Parsing Expressions, Next: Standard Syntax Tables, Prev: Motion and Syntax, Up: Syntax Tables + +Parsing Balanced Expressions +============================ + + Here are several functions for parsing and scanning balanced +expressions, also known as "sexps", in which parentheses match in +pairs. The syntax table controls the interpretation of characters, so +these functions can be used for Lisp expressions when in Lisp mode and +for C expressions when in C mode. *Note List Motion::, for convenient +higher-level functions for moving over balanced expressions. + + - Function: parse-partial-sexp start limit &optional target-depth + stop-before state stop-comment buffer + This function parses a sexp in the current buffer starting at + START, not scanning past LIMIT. It stops at position LIMIT or + when certain criteria described below are met, and sets point to + the location where parsing stops. It returns a value describing + the status of the parse at the point where it stops. + + If STATE is `nil', START is assumed to be at the top level of + parenthesis structure, such as the beginning of a function + definition. Alternatively, you might wish to resume parsing in the + middle of the structure. To do this, you must provide a STATE + argument that describes the initial status of parsing. + + If the third argument TARGET-DEPTH is non-`nil', parsing stops if + the depth in parentheses becomes equal to TARGET-DEPTH. The depth + starts at 0, or at whatever is given in STATE. + + If the fourth argument STOP-BEFORE is non-`nil', parsing stops + when it comes to any character that starts a sexp. If + STOP-COMMENT is non-`nil', parsing stops when it comes to the + start of a comment. + + The fifth argument STATE is an eight-element list of the same form + as the value of this function, described below. The return value + of one call may be used to initialize the state of the parse on + another call to `parse-partial-sexp'. + + The result is a list of eight elements describing the final state + of the parse: + + 0. The depth in parentheses, counting from 0. + + 1. The character position of the start of the innermost + parenthetical grouping containing the stopping point; `nil' + if none. + + 2. The character position of the start of the last complete + subexpression terminated; `nil' if none. + + 3. Non-`nil' if inside a string. More precisely, this is the + character that will terminate the string. + + 4. `t' if inside a comment (of either style). + + 5. `t' if point is just after a quote character. + + 6. The minimum parenthesis depth encountered during this scan. + + 7. `t' if inside a comment of style "b". + + Elements 0, 3, 4, 5 and 7 are significant in the argument STATE. + + This function is most often used to compute indentation for + languages that have nested parentheses. + + - Function: scan-lists from count depth &optional buffer noerror + This function scans forward COUNT balanced parenthetical groupings + from character number FROM. It returns the character position + where the scan stops. + + If DEPTH is nonzero, parenthesis depth counting begins from that + value. The only candidates for stopping are places where the + depth in parentheses becomes zero; `scan-lists' counts COUNT such + places and then stops. Thus, a positive value for DEPTH means go + out DEPTH levels of parenthesis. + + Scanning ignores comments if `parse-sexp-ignore-comments' is + non-`nil'. + + If the scan reaches the beginning or end of the buffer (or its + accessible portion), and the depth is not zero, an error is + signaled. If the depth is zero but the count is not used up, + `nil' is returned. + + If optional arg BUFFER is non-`nil', scanning occurs in that + buffer instead of in the current buffer. + + If optional arg NOERROR is non-`nil', `scan-lists' will return + `nil' instead of signalling an error. + + - Function: scan-sexps from count &optional buffer noerror + This function scans forward COUNT sexps from character position + FROM. It returns the character position where the scan stops. + + Scanning ignores comments if `parse-sexp-ignore-comments' is + non-`nil'. + + If the scan reaches the beginning or end of (the accessible part + of) the buffer in the middle of a parenthetical grouping, an error + is signaled. If it reaches the beginning or end between groupings + but before count is used up, `nil' is returned. + + If optional arg BUFFER is non-`nil', scanning occurs in that + buffer instead of in the current buffer. + + If optional arg NOERROR is non-`nil', `scan-sexps' will return nil + instead of signalling an error. + + - Variable: parse-sexp-ignore-comments + If the value is non-`nil', then comments are treated as whitespace + by the functions in this section and by `forward-sexp'. + + In older Emacs versions, this feature worked only when the comment + terminator is something like `*/', and appears only to end a + comment. In languages where newlines terminate comments, it was + necessary make this variable `nil', since not every newline is the + end of a comment. This limitation no longer exists. + + You can use `forward-comment' to move forward or backward over one +comment or several comments. + + - Function: forward-comment count &optional buffer + This function moves point forward across COUNT comments (backward, + if COUNT is negative). If it finds anything other than a comment + or whitespace, it stops, leaving point at the place where it + stopped. It also stops after satisfying COUNT. + + Optional argument BUFFER defaults to the current buffer. + + To move forward over all comments and whitespace following point, use +`(forward-comment (buffer-size))'. `(buffer-size)' is a good argument +to use, because the number of comments in the buffer cannot exceed that +many. + + +File: lispref.info, Node: Standard Syntax Tables, Next: Syntax Table Internals, Prev: Parsing Expressions, Up: Syntax Tables + +Some Standard Syntax Tables +=========================== + + Most of the major modes in XEmacs have their own syntax tables. Here +are several of them: + + - Function: standard-syntax-table + This function returns the standard syntax table, which is the + syntax table used in Fundamental mode. + + - Variable: text-mode-syntax-table + The value of this variable is the syntax table used in Text mode. + + - Variable: c-mode-syntax-table + The value of this variable is the syntax table for C-mode buffers. + + - Variable: emacs-lisp-mode-syntax-table + The value of this variable is the syntax table used in Emacs Lisp + mode by editing commands. (It has no effect on the Lisp `read' + function.) + + +File: lispref.info, Node: Syntax Table Internals, Prev: Standard Syntax Tables, Up: Syntax Tables + +Syntax Table Internals +====================== + + Each element of a syntax table is an integer that encodes the syntax +of one character: the syntax class, possible matching character, and +flags. Lisp programs don't usually work with the elements directly; the +Lisp-level syntax table functions usually work with syntax descriptors +(*note Syntax Descriptors::). + + The low 8 bits of each element of a syntax table indicate the syntax +class. + +Integer + Class + +0 + whitespace + +1 + punctuation + +2 + word + +3 + symbol + +4 + open parenthesis + +5 + close parenthesis + +6 + expression prefix + +7 + string quote + +8 + paired delimiter + +9 + escape + +10 + character quote + +11 + comment-start + +12 + comment-end + +13 + inherit + + The next 8 bits are the matching opposite parenthesis (if the +character has parenthesis syntax); otherwise, they are not meaningful. +The next 6 bits are the flags. + + +File: lispref.info, Node: Abbrevs, Next: Extents, Prev: Syntax Tables, Up: Top + +Abbrevs And Abbrev Expansion +**************************** + + An abbreviation or "abbrev" is a string of characters that may be +expanded to a longer string. The user can insert the abbrev string and +find it replaced automatically with the expansion of the abbrev. This +saves typing. + + The set of abbrevs currently in effect is recorded in an "abbrev +table". Each buffer has a local abbrev table, but normally all buffers +in the same major mode share one abbrev table. There is also a global +abbrev table. Normally both are used. + + An abbrev table is represented as an obarray containing a symbol for +each abbreviation. The symbol's name is the abbreviation; its value is +the expansion; its function definition is the hook function to do the +expansion (*note Defining Abbrevs::); its property list cell contains +the use count, the number of times the abbreviation has been expanded. +Because these symbols are not interned in the usual obarray, they will +never appear as the result of reading a Lisp expression; in fact, +normally they are never used except by the code that handles abbrevs. +Therefore, it is safe to use them in an extremely nonstandard way. +*Note Creating Symbols::. + + For the user-level commands for abbrevs, see *Note Abbrev Mode: +(emacs)Abbrevs. + +* Menu: + +* Abbrev Mode:: Setting up XEmacs for abbreviation. +* Tables: Abbrev Tables. Creating and working with abbrev tables. +* Defining Abbrevs:: Specifying abbreviations and their expansions. +* Files: Abbrev Files. Saving abbrevs in files. +* Expansion: Abbrev Expansion. Controlling expansion; expansion subroutines. +* Standard Abbrev Tables:: Abbrev tables used by various major modes. + + +File: lispref.info, Node: Abbrev Mode, Next: Abbrev Tables, Up: Abbrevs + +Setting Up Abbrev Mode +====================== + + Abbrev mode is a minor mode controlled by the value of the variable +`abbrev-mode'. + + - Variable: abbrev-mode + A non-`nil' value of this variable turns on the automatic expansion + of abbrevs when their abbreviations are inserted into a buffer. + If the value is `nil', abbrevs may be defined, but they are not + expanded automatically. + + This variable automatically becomes local when set in any fashion. + + - Variable: default-abbrev-mode + This is the value of `abbrev-mode' for buffers that do not + override it. This is the same as `(default-value 'abbrev-mode)'. + + +File: lispref.info, Node: Abbrev Tables, Next: Defining Abbrevs, Prev: Abbrev Mode, Up: Abbrevs + +Abbrev Tables +============= + + This section describes how to create and manipulate abbrev tables. + + - Function: make-abbrev-table + This function creates and returns a new, empty abbrev table--an + obarray containing no symbols. It is a vector filled with zeros. + + - Function: clear-abbrev-table table + This function undefines all the abbrevs in abbrev table TABLE, + leaving it empty. The function returns `nil'. + + - Function: define-abbrev-table tabname definitions + This function defines TABNAME (a symbol) as an abbrev table name, + i.e., as a variable whose value is an abbrev table. It defines + abbrevs in the table according to DEFINITIONS, a list of elements + of the form `(ABBREVNAME EXPANSION HOOK USECOUNT)'. The value is + always `nil'. + + - Variable: abbrev-table-name-list + This is a list of symbols whose values are abbrev tables. + `define-abbrev-table' adds the new abbrev table name to this list. + + - Function: insert-abbrev-table-description name &optional human + This function inserts before point a description of the abbrev + table named NAME. The argument NAME is a symbol whose value is an + abbrev table. The value is always `nil'. + + If HUMAN is non-`nil', the description is human-oriented. + Otherwise the description is a Lisp expression--a call to + `define-abbrev-table' that would define NAME exactly as it is + currently defined. + + +File: lispref.info, Node: Defining Abbrevs, Next: Abbrev Files, Prev: Abbrev Tables, Up: Abbrevs + +Defining Abbrevs +================ + + These functions define an abbrev in a specified abbrev table. +`define-abbrev' is the low-level basic function, while `add-abbrev' is +used by commands that ask for information from the user. + + - Function: add-abbrev table type arg + This function adds an abbreviation to abbrev table TABLE based on + information from the user. The argument TYPE is a string + describing in English the kind of abbrev this will be (typically, + `"global"' or `"mode-specific"'); this is used in prompting the + user. The argument ARG is the number of words in the expansion. + + The return value is the symbol that internally represents the new + abbrev, or `nil' if the user declines to confirm redefining an + existing abbrev. + + - Function: define-abbrev table name expansion hook + This function defines an abbrev in TABLE named NAME, to expand to + EXPANSION, and call HOOK. The return value is an uninterned + symbol that represents the abbrev inside XEmacs; its name is NAME. + + The argument NAME should be a string. The argument EXPANSION + should be a string, or `nil' to undefine the abbrev. + + The argument HOOK is a function or `nil'. If HOOK is non-`nil', + then it is called with no arguments after the abbrev is replaced + with EXPANSION; point is located at the end of EXPANSION when HOOK + is called. + + The use count of the abbrev is initialized to zero. + + - User Option: only-global-abbrevs + If this variable is non-`nil', it means that the user plans to use + global abbrevs only. This tells the commands that define + mode-specific abbrevs to define global ones instead. This + variable does not alter the behavior of the functions in this + section; it is examined by their callers. + + +File: lispref.info, Node: Abbrev Files, Next: Abbrev Expansion, Prev: Defining Abbrevs, Up: Abbrevs + +Saving Abbrevs in Files +======================= + + A file of saved abbrev definitions is actually a file of Lisp code. +The abbrevs are saved in the form of a Lisp program to define the same +abbrev tables with the same contents. Therefore, you can load the file +with `load' (*note How Programs Do Loading::). However, the function +`quietly-read-abbrev-file' is provided as a more convenient interface. + + User-level facilities such as `save-some-buffers' can save abbrevs +in a file automatically, under the control of variables described here. + + - User Option: abbrev-file-name + This is the default file name for reading and saving abbrevs. + + - Function: quietly-read-abbrev-file filename + This function reads abbrev definitions from a file named FILENAME, + previously written with `write-abbrev-file'. If FILENAME is + `nil', the file specified in `abbrev-file-name' is used. + `save-abbrevs' is set to `t' so that changes will be saved. + + This function does not display any messages. It returns `nil'. + + - User Option: save-abbrevs + A non-`nil' value for `save-abbrev' means that XEmacs should save + abbrevs when files are saved. `abbrev-file-name' specifies the + file to save the abbrevs in. + + - Variable: abbrevs-changed + This variable is set non-`nil' by defining or altering any + abbrevs. This serves as a flag for various XEmacs commands to + offer to save your abbrevs. + + - Command: write-abbrev-file filename + Save all abbrev definitions, in all abbrev tables, in the file + FILENAME, in the form of a Lisp program that when loaded will + define the same abbrevs. This function returns `nil'. + + +File: lispref.info, Node: Abbrev Expansion, Next: Standard Abbrev Tables, Prev: Abbrev Files, Up: Abbrevs + +Looking Up and Expanding Abbreviations +====================================== + + Abbrevs are usually expanded by commands for interactive use, +including `self-insert-command'. This section describes the +subroutines used in writing such functions, as well as the variables +they use for communication. + + - Function: abbrev-symbol abbrev &optional table + This function returns the symbol representing the abbrev named + ABBREV. The value returned is `nil' if that abbrev is not + defined. The optional second argument TABLE is the abbrev table + to look it up in. If TABLE is `nil', this function tries first + the current buffer's local abbrev table, and second the global + abbrev table. + + - Function: abbrev-expansion abbrev &optional table + This function returns the string that ABBREV would expand into (as + defined by the abbrev tables used for the current buffer). The + optional argument TABLE specifies the abbrev table to use, as in + `abbrev-symbol'. + + - Command: expand-abbrev + This command expands the abbrev before point, if any. If point + does not follow an abbrev, this command does nothing. The command + returns `t' if it did expansion, `nil' otherwise. + + - Command: abbrev-prefix-mark &optional arg + Mark current point as the beginning of an abbrev. The next call to + `expand-abbrev' will use the text from here to point (where it is + then) as the abbrev to expand, rather than using the previous word + as usual. + + - User Option: abbrev-all-caps + When this is set non-`nil', an abbrev entered entirely in upper + case is expanded using all upper case. Otherwise, an abbrev + entered entirely in upper case is expanded by capitalizing each + word of the expansion. + + - Variable: abbrev-start-location + This is the buffer position for `expand-abbrev' to use as the start + of the next abbrev to be expanded. (`nil' means use the word + before point instead.) `abbrev-start-location' is set to `nil' + each time `expand-abbrev' is called. This variable is also set by + `abbrev-prefix-mark'. + + - Variable: abbrev-start-location-buffer + The value of this variable is the buffer for which + `abbrev-start-location' has been set. Trying to expand an abbrev + in any other buffer clears `abbrev-start-location'. This variable + is set by `abbrev-prefix-mark'. + + - Variable: last-abbrev + This is the `abbrev-symbol' of the last abbrev expanded. This + information is left by `expand-abbrev' for the sake of the + `unexpand-abbrev' command. + + - Variable: last-abbrev-location + This is the location of the last abbrev expanded. This contains + information left by `expand-abbrev' for the sake of the + `unexpand-abbrev' command. + + - Variable: last-abbrev-text + This is the exact expansion text of the last abbrev expanded, + after case conversion (if any). Its value is `nil' if the abbrev + has already been unexpanded. This contains information left by + `expand-abbrev' for the sake of the `unexpand-abbrev' command. + + - Variable: pre-abbrev-expand-hook + This is a normal hook whose functions are executed, in sequence, + just before any expansion of an abbrev. *Note Hooks::. Since it + is a normal hook, the hook functions receive no arguments. + However, they can find the abbrev to be expanded by looking in the + buffer before point. + + The following sample code shows a simple use of +`pre-abbrev-expand-hook'. If the user terminates an abbrev with a +punctuation character, the hook function asks for confirmation. Thus, +this hook allows the user to decide whether to expand the abbrev, and +aborts expansion if it is not confirmed. + + (add-hook 'pre-abbrev-expand-hook 'query-if-not-space) + + ;; This is the function invoked by `pre-abbrev-expand-hook'. + + ;; If the user terminated the abbrev with a space, the function does + ;; nothing (that is, it returns so that the abbrev can expand). If the + ;; user entered some other character, this function asks whether + ;; expansion should continue. + + ;; If the user answers the prompt with `y', the function returns + ;; `nil' (because of the `not' function), but that is + ;; acceptable; the return value has no effect on expansion. + + (defun query-if-not-space () + (if (/= ?\ (preceding-char)) + (if (not (y-or-n-p "Do you want to expand this abbrev? ")) + (error "Not expanding this abbrev")))) + + +File: lispref.info, Node: Standard Abbrev Tables, Prev: Abbrev Expansion, Up: Abbrevs + +Standard Abbrev Tables +====================== + + Here we list the variables that hold the abbrev tables for the +preloaded major modes of XEmacs. + + - Variable: global-abbrev-table + This is the abbrev table for mode-independent abbrevs. The abbrevs + defined in it apply to all buffers. Each buffer may also have a + local abbrev table, whose abbrev definitions take precedence over + those in the global table. + + - Variable: local-abbrev-table + The value of this buffer-local variable is the (mode-specific) + abbreviation table of the current buffer. + + - Variable: fundamental-mode-abbrev-table + This is the local abbrev table used in Fundamental mode; in other + words, it is the local abbrev table in all buffers in Fundamental + mode. + + - Variable: text-mode-abbrev-table + This is the local abbrev table used in Text mode. + + - Variable: c-mode-abbrev-table + This is the local abbrev table used in C mode. + + - Variable: lisp-mode-abbrev-table + This is the local abbrev table used in Lisp mode and Emacs Lisp + mode. + + File: lispref.info, Node: Extents, Next: Specifiers, Prev: Abbrevs, Up: Top Extents @@ -474,622 +1017,3 @@ the following function may be more convenient than `map-extents'. This function returns T if `map-extents' would visit EXTENT if called with the given arguments. - -File: lispref.info, Node: Extent Properties, Next: Detached Extents, Prev: Mapping Over Extents, Up: Extents - -Properties of Extents -===================== - - Each extent has a property list associating property names with -values. Some property names have predefined meanings, and can usually -only assume particular values. Assigning other values to such a -property either cause the value to be converted into a legal value -(e.g., assigning anything but `nil' to a Boolean property will cause -the value of `t' to be assigned to the property) or will cause an -error. Property names without predefined meanings can be assigned any -value. An undefined property is equivalent to a property with a value -of `nil', or with a particular default value in the case of properties -with predefined meanings. Note that, when an extent is created, the -`end-open' and `detachable' properties are set on it. - - If an extent has a parent, all of its properties actually derive -from that parent (or from the root ancestor if the parent in turn has a -parent), and setting a property of the extent actually sets that -property on the parent. *Note Extent Parents::. - - - Function: extent-property extent property - This function returns the value of PROPERTY in EXTENT. If - PROPERTY is undefined, `nil' is returned. - - - Function: extent-properties extent - This function returns a list of all of EXTENT's properties that do - not have the value of `nil' (or the default value, for properties - with predefined meanings). - - - Function: set-extent-property extent property value - This function sets PROPERTY to VALUE in EXTENT. (If PROPERTY has a - predefined meaning, only certain values are allowed, and some - values may be converted to others before being stored.) - - - Function: set-extent-properties extent plist - Change some properties of EXTENT. PLIST is a property list. This - is useful to change many extent properties at once. - - The following table lists the properties with predefined meanings, -along with their allowable values. - -`detached' - (Boolean) Whether the extent is detached. Setting this is the - same as calling `detach-extent'. *Note Detached Extents::. - -`destroyed' - (Boolean) Whether the extent has been deleted. Setting this is - the same as calling `delete-extent'. - -`priority' - (integer) The extent's redisplay priority. Defaults to 0. *Note - priority: Intro to Extents. This property can also be set with - `set-extent-priority' and accessed with `extent-priority'. - -`start-open' - (Boolean) Whether the start position of the extent is open, - meaning that characters inserted at that position go outside of - the extent. *Note Extent Endpoints::. - -`start-closed' - (Boolean) Same as `start-open' but with the opposite sense. - Setting this property clears `start-open' and vice-versa. - -`end-open' - (Boolean) Whether the end position of the extent is open, meaning - that characters inserted at that position go outside of the - extent. This is `t' by default. *Note Extent Endpoints::. - -`end-closed' - (Boolean) Same as `end-open' but with the opposite sense. Setting - this property clears `end-open' and vice-versa. - -`read-only' - (Boolean) Whether text within this extent will be unmodifiable. - -`face' - (face, face name, list of faces or face names, or `nil') The face - in which to display the extent's text. This property can also be - set with `set-extent-face' and accessed with `extent-face'. Note - that if a list of faces is specified, the faces are merged - together, with faces earlier in the list having priority over - faces later in the list. - -`mouse-face' - (face, face name, list of faces or face names, or `nil') The face - used to display the extent when the mouse moves over it. This - property can also be set with `set-extent-mouse-face' and accessed - with `extent-mouse-face'. Note that if a list of faces is - specified, the faces are merged together, with faces earlier in - the list having priority over faces later in the list. *Note - Extents and Events::. - -`pointer' - (pointer glyph) The glyph used as the pointer when the mouse - moves over the extent. This takes precedence over the - `text-pointer-glyph' and `nontext-pointer-glyph' variables. If - for any reason this glyph is an invalid pointer, the standard - glyphs will be used as fallbacks. *Note Mouse Pointer::. - -`detachable' - (Boolean) Whether this extent becomes detached when all of the - text it covers is deleted. This is `t' by default. *Note - Detached Extents::. - -`duplicable' - (Boolean) Whether this extent should be copied into strings, so - that kill, yank, and undo commands will restore or copy it. *Note - Duplicable Extents::. - -`unique' - (Boolean) Meaningful only in conjunction with `duplicable'. When - this is set, there may be only one instance of this extent - attached at a time. *Note Duplicable Extents::. - -`invisible' - (Boolean) If `t', text under this extent will not be displayed - - it will look as if the text is not there at all. - -`keymap' - (keymap or `nil') This keymap is consulted for mouse clicks on this - extent or keypresses made while `point' is within the extent. - *Note Extents and Events::. - -`copy-function' - This is a hook that is run when a duplicable extent is about to be - copied from a buffer to a string (or the kill ring). *Note - Duplicable Extents::. - -`paste-function' - This is a hook that is run when a duplicable extent is about to be - copied from a string (or the kill ring) into a buffer. *Note - Duplicable Extents::. - -`begin-glyph' - (glyph or `nil') This extent's begin glyph. *Note Annotations::. - -`end-glyph' - (glyph or `nil') This extent's end glyph. *Note Annotations::. - -`begin-glyph-layout' - (`text', `whitespace', `inside-margin', or `outside-margin') The - layout policy for this extent's begin glyph. Defaults to `text'. - *Note Annotations::. - -`end-glyph-layout' - (`text', `whitespace', `inside-margin', or `outside-margin') The - layout policy for this extent's end glyph. Defaults to `text'. - *Note Annotations::. - -`initial-redisplay-function' - (any funcallable object) The function to be called the first time - (a part of) the extent is redisplayed. It will be called with the - extent as its argument. - - This is used by `lazy-shot' to implement lazy font-locking. The - functionality is still experimental, and may change without further - notice. - - The following convenience functions are provided for accessing -particular properties of an extent. - - - Function: extent-face extent - This function returns the `face' property of EXTENT. This might - also return a list of face names. Do not modify this list - directly! Instead, use `set-extent-face'. - - Note that you can use `eq' to compare lists of faces as returned - by `extent-face'. In other words, if you set the face of two - different extents to two lists that are `equal' but not `eq', then - the return value of `extent-face' on the two extents will return - the identical list. - - - Function: extent-mouse-face extent - This function returns the `mouse-face' property of EXTENT. This - might also return a list of face names. Do not modify this list - directly! Instead, use `set-extent-mouse-face'. - - Note that you can use `eq' to compare lists of faces as returned - by `extent-mouse-face', just like for `extent-face'. - - - Function: extent-priority extent - This function returns the `priority' property of EXTENT. - - - Function: extent-keymap extent - This function returns the `keymap' property of EXTENT. - - - Function: extent-begin-glyph-layout extent - This function returns the `begin-glyph-layout' property of EXTENT, - i.e. the layout policy associated with the EXTENT's begin glyph. - - - Function: extent-end-glyph-layout extent - This function returns the `end-glyph-layout' property of EXTENT, - i.e. the layout policy associated with the EXTENT's end glyph. - - - Function: extent-begin-glyph extent - This function returns the `begin-glyph' property of EXTENT, i.e. - the glyph object displayed at the beginning of EXTENT. If there - is none, `nil' is returned. - - - Function: extent-end-glyph extent - This function returns the `end-glyph' property of EXTENT, i.e. the - glyph object displayed at the end of EXTENT. If there is none, - `nil' is returned. - - The following convenience functions are provided for setting -particular properties of an extent. - - - Function: set-extent-priority extent pri - This function sets the `priority' property of EXTENT to PRI. - - - Function: set-extent-face extent face - This function sets the `face' property of EXTENT to FACE. - - - Function: set-extent-mouse-face extent face - This function sets the `mouse-face' property of EXTENT to FACE. - - - Function: set-extent-keymap extent keymap - This function sets the `keymap' property of EXTENT to KEYMAP. - KEYMAP must be either a keymap object, or `nil'. - - - Function: set-extent-begin-glyph-layout extent layout - This function sets the `begin-glyph-layout' property of EXTENT to - LAYOUT. - - - Function: set-extent-end-glyph-layout extent layout - This function sets the `end-glyph-layout' property of EXTENT to - LAYOUT. - - - Function: set-extent-begin-glyph extent begin-glyph &optional layout - This function sets the `begin-glyph' and `glyph-layout' properties - of EXTENT to BEGIN-GLYPH and LAYOUT, respectively. (LAYOUT - defaults to `text' if not specified.) - - - Function: set-extent-end-glyph extent end-glyph &optional layout - This function sets the `end-glyph' and `glyph-layout' properties - of EXTENT to END-GLYPH and LAYOUT, respectively. (LAYOUT defaults - to `text' if not specified.) - - - Function: set-extent-initial-redisplay-function extent function - This function sets the `initial-redisplay-function' property of the - extent to FUNCTION. - - -File: lispref.info, Node: Detached Extents, Next: Extent Parents, Prev: Extent Properties, Up: Extents - -Detached Extents -================ - - A detached extent is an extent that is not attached to a buffer or -string but can be re-inserted. Detached extents have a start position -and end position of `nil'. Extents can be explicitly detached using -`detach-extent'. An extent is also detached when all of its characters -are all killed by a deletion, if its `detachable' property is set; if -this property is not set, the extent becomes a zero-length extent. -(Zero-length extents with the `detachable' property set behave -specially. *Note zero-length extents: Extent Endpoints.) - - - Function: detach-extent extent - This function detaches EXTENT from its buffer or string. If - EXTENT has the `duplicable' property, its detachment is tracked by - the undo mechanism. *Note Duplicable Extents::. - - - Function: extent-detached-p extent - This function returns `nil' if EXTENT is detached, and `t' - otherwise. - - - Function: copy-extent extent &optional object - This function makes a copy of EXTENT. It is initially detached. - Optional argument OBJECT defaults to EXTENT's object (normally a - buffer or string, but could be `nil'). - - - Function: insert-extent extent &optional start end no-hooks object - This function inserts EXTENT from START to END in OBJECT (a buffer - or string). If EXTENT is detached from a different buffer or - string, or in most cases when EXTENT is already attached, the - extent will first be copied as if with `copy-extent'. This - function operates the same as if `insert' were called on a string - whose extent data calls for EXTENT to be inserted, except that if - NO-HOOKS is non-`nil', EXTENT's `paste-function' will not be - invoked. *Note Duplicable Extents::. - - -File: lispref.info, Node: Extent Parents, Next: Duplicable Extents, Prev: Detached Extents, Up: Extents - -Extent Parents -============== - - An extent can have a parent extent set for it. If this is the case, -the extent derives all its properties from that extent and has no -properties of its own. The only "properties" that the extent keeps are -the buffer or string it refers to and the start and end points. (More -correctly, the extent's own properties are shadowed. If you later -change the extent to have no parent, its own properties will become -visible again.) - - It is possible for an extent's parent to itself have a parent, and -so on. Through this, a whole tree of extents can be created, all -deriving their properties from one root extent. Note, however, that -you cannot create an inheritance loop--this is explicitly disallowed. - - Parent extents are used to implement the extents over the modeline. - - - Function: set-extent-parent extent parent - This function sets the parent of EXTENT to PARENT. If PARENT is - `nil', the extent is set to have no parent. - - - Function: extent-parent extent - This function return the parents (if any) of EXTENT, or `nil'. - - - Function: extent-children extent - This function returns a list of the children (if any) of EXTENT. - The children of an extent are all those extents whose parent is - that extent. This function does not recursively trace children of - children. - - - Function: extent-descendants extent - This function returns a list of all descendants of EXTENT, - including EXTENT. This recursively applies `extent-children' to - any children of EXTENT, until no more children can be found. - - -File: lispref.info, Node: Duplicable Extents, Next: Extents and Events, Prev: Extent Parents, Up: Extents - -Duplicable Extents -================== - - If an extent has the `duplicable' property, it will be copied into -strings, so that kill, yank, and undo commands will restore or copy it. - - Specifically: - - * When a string is created using `buffer-substring' or - `buffer-string', any duplicable extents in the region corresponding - to the string will be copied into the string (*note Buffer - Contents::). When the string in inserted into a buffer using - `insert', `insert-before-markers', `insert-buffer' or - `insert-buffer-substring', the extents in the string will be copied - back into the buffer (*note Insertion::). The extents in a string - can, of course, be retrieved explicitly using the standard extent - primitives over the string. - - * Similarly, when text is copied or cut into the kill ring, any - duplicable extents will be remembered and reinserted later when - the text is pasted back into a buffer. - - * When `concat' is called on strings, the extents in the strings are - copied into the resulting string. - - * When `substring' is called on a string, the relevant extents are - copied into the resulting string. - - * When a duplicable extent is detached by `detach-extent' or string - deletion, or inserted by `insert-extent' or string insertion, the - action is recorded by the undo mechanism so that it can be undone - later. Note that if an extent gets detached and then a later undo - causes the extent to get reinserted, the new extent will not be - `eq' to the original extent. - - * Extent motion, face changes, and attachment via `make-extent' are - not recorded by the undo mechanism. This means that extent changes - which are to be undo-able must be performed by character editing, - or by insertion and detachment of duplicable extents. - - * A duplicable extent's `copy-function' property, if non-`nil', - should be a function, and will be run when a duplicable extent is - about to be copied from a buffer to a string (or the kill ring). - It is called with three arguments: the extent and the buffer - positions within it which are being copied. If this function - returns `nil', then the extent will not be copied; otherwise it - will. - - * A duplicable extent's `paste-function' property, if non-`nil', - should be a function, and will be run when a duplicable extent is - about to be copied from a string (or the kill ring) into a buffer. - It is called with three arguments: the original extent and the - buffer positions which the copied extent will occupy. (This hook - is run after the corresponding text has already been inserted into - the buffer.) Note that the extent argument may be detached when - this function is run. If this function returns `nil', no extent - will be inserted. Otherwise, there will be an extent covering the - range in question. - - Note: if the extent to be copied is already attached to the buffer - and overlaps the new range, the extent will simply be extended and - the `paste-function' will not be called. - - -File: lispref.info, Node: Extents and Events, Next: Atomic Extents, Prev: Duplicable Extents, Up: Extents - -Interaction of Extents with Keyboard and Mouse Events -===================================================== - - If an extent has the `mouse-face' property set, it will be -highlighted when the mouse passes over it. Highlighting is accomplished -by merging the extent's face with the face or faces specified by the -`mouse-face' property. The effect is as if a pseudo-extent with the -`mouse-face' face were inserted after the extent in the display order -(*note Extent Endpoints::, display order). - - - Variable: mouse-highlight-priority - This variable holds the priority to use when merging in the - highlighting pseudo-extent. The default is 1000. This is - purposely set very high so that the highlighting pseudo-extent - shows up even if there are other extents with various priorities - at the same location. - - You can also explicitly cause an extent to be highlighted. Only one -extent at a time can be highlighted in this fashion, and any other -highlighted extent will be de-highlighted. - - - Function: highlight-extent extent &optional highlight-p - This function highlights (if HIGHLIGHT-P is non-`nil') or - de-highlights (if HIGHLIGHT-P is `nil') EXTENT, if EXTENT has the - `mouse-face' property. (Nothing happens if EXTENT does not have - the `mouse-face' property.) - - - Function: force-highlight-extent extent &optional highlight-p - This function is similar to `highlight-extent' but highlights or - de-highlights the extent regardless of whether it has the - `mouse-face' property. - - If an extent has a `keymap' property, this keymap will be consulted -for mouse clicks on the extent and keypresses made while `point' is -within the extent. The behavior of mouse clicks and keystrokes not -defined in the keymap is as normal for the buffer. - - -File: lispref.info, Node: Atomic Extents, Prev: Extents and Events, Up: Extents - -Atomic Extents -============== - - If the Lisp file `atomic-extents' is loaded, then the atomic extent -facility is available. An "atomic extent" is an extent for which -`point' cannot be positioned anywhere within it. This ensures that -when selecting text, either all or none of the extent is selected. - - To make an extent atomic, set its `atomic' property. - - -File: lispref.info, Node: Specifiers, Next: Faces and Window-System Objects, Prev: Extents, Up: Top - -Specifiers -********** - - A specifier is an object used to keep track of a property whose value -may vary depending on the particular situation (e.g. particular buffer -displayed in a particular window) that it is used in. The value of many -built-in properties, such as the font, foreground, background, and such -properties of a face and variables such as `modeline-shadow-thickness' -and `top-toolbar-height', is actually a specifier object. The -specifier object, in turn, is "instanced" in a particular situation to -yield the real value of the property in that situation. - - - Function: specifierp object - This function returns non-`nil' if OBJECT is a specifier. - -* Menu: - -* Introduction to Specifiers:: Specifiers provide a clean way for - display and other properties to vary - (under user control) in a wide variety - of contexts. -* Specifiers In-Depth:: Gory details about specifier innards. -* Specifier Instancing:: Instancing means obtaining the ``value'' of - a specifier in a particular context. -* Specifier Types:: Specifiers come in different flavors. -* Adding Specifications:: Specifications control a specifier's ``value'' - by giving conditions under which a - particular value is valid. -* Retrieving Specifications:: Querying a specifier's specifications. -* Specifier Tag Functions:: Working with specifier tags. -* Specifier Instancing Functions:: - Functions to instance a specifier. -* Specifier Example:: Making all this stuff clearer. -* Creating Specifiers:: Creating specifiers for your own use. -* Specifier Validation Functions:: - Validating the components of a specifier. -* Other Specification Functions:: - Other ways of working with specifications. - - -File: lispref.info, Node: Introduction to Specifiers, Next: Specifiers In-Depth, Up: Specifiers - -Introduction to Specifiers -========================== - - Sometimes you may want the value of a property to vary depending on -the context the property is used in. A simple example of this in XEmacs -is buffer-local variables. For example, the variable -`modeline-format', which controls the format of the modeline, can have -different values depending on the particular buffer being edited. The -variable has a default value which most modes will use, but a -specialized package such as Calendar might change the variable so as to -tailor the modeline to its own purposes. - - Other properties (such as those that can be changed by the -`modify-frame-parameters' function, for example the color of the text -cursor) can have frame-local values, although it might also make sense -for them to have buffer-local values. In other cases, you might want -the property to vary depending on the particular window within the -frame that applies (e.g. the top or bottom window in a split frame), the -device type that that frame appears on (X or tty), etc. Perhaps you can -envision some more complicated scenario where you want a particular -value in a specified buffer, another value in all other buffers -displayed on a particular frame, another value in all other buffers -displayed in all other frames on any mono (two-color, e.g. black and -white only) displays, and a default value in all other circumstances. - - A "specifier" is a generalization of this, allowing a great deal of -flexibility in controlling exactly what value a property has in which -circumstances. It is most commonly used for display properties, such as -an image or the foreground color of a face. As a simple example, you -can specify that the foreground of the default face be - - * blue for a particular buffer - - * green for all other buffers - - As a more complicated example, you could specify that the foreground -of the default face be - - * forest green for all buffers displayed in a particular Emacs - window, or green if the X server doesn't recognize the color - `forest green' - - * blue for all buffers displayed in a particular frame - - * red for all other buffers displayed on a color device - - * white for all other buffers - - -File: lispref.info, Node: Specifiers In-Depth, Next: Specifier Instancing, Prev: Introduction to Specifiers, Up: Specifiers - -In-Depth Overview of a Specifier -================================ - - A specifier object encapsulates a set of "specifications", each of -which says what its value should be if a particular condition applies. -For example, one specification might be "The value should be -darkseagreen2 on X devices" another might be "The value should be blue -in the *Help* buffer". In specifier terminology, these conditions are -called "locales" and the values are called "instantiators". Given a -specifier, a logical question is "What is its value in a particular -situation?" This involves looking through the specifications to see -which ones apply to this particular situation, and perhaps preferring -one over another if more than one applies. In specifier terminology, a -"particular situation" is called a "domain", and determining its value -in a particular domain is called "instancing". Most of the time, a -domain is identified by a particular window. For example, if the -redisplay engine is drawing text in the default face in a particular -window, it retrieves the specifier for the foreground color of the -default face and "instances" it in the domain given by that window; in -other words, it asks the specifier, "What is your value in this -window?". - - More specifically, a specifier contains a set of "specifications", -each of which associates a "locale" (a window object, a buffer object, -a frame object, a device object, or the symbol `global') with an -"inst-list", which is a list of one or more "inst-pairs". (For each -possible locale, there can be at most one specification containing that -locale.) Each inst-pair is a cons of a "tag set" (an unordered list of -zero or more symbols, or "tags") and an "instantiator" (the allowed -form of this varies depending on the type of specifier). In a given -specification, there may be more than one inst-pair with the same tag -set; this is unlike for locales. - - The tag set is used to restrict the sorts of devices over which the -instantiator is valid and to uniquely identify instantiators added by a -particular application, so that different applications can work on the -same specifier and not interfere with each other. Each tag can have a -"predicate" associated with it, which is a function of one argument (a -device) that specifies whether the tag matches that particular device. -(If a tag does not have a predicate, it matches all devices.) All tags -in a tag set must match a device for the associated inst-pair to be -instantiable over that device. (A null tag set is perfectly valid.) - - The valid device types (normally `x', `tty', and `stream') and -device classes (normally `color', `grayscale', and `mono') can always -be used as tags, and match devices of the associated type or class -(*note Consoles and Devices::). User-defined tags may be defined, with -an optional predicate specified. An application can create its own -tag, use it to mark all its instantiators, and be fairly confident that -it will not interfere with other applications that modify the same -specifier--Functions that add a specification to a specifier usually -only overwrite existing inst-pairs with the same tag set as was given, -and a particular tag or tag set can be specified when removing -instantiators. - - When a specifier is instanced in a domain, both the locale and the -tag set can be viewed as specifying necessary conditions that must -apply in that domain for an instantiator to be considered as a possible -result of the instancing. More specific locales always override more -general locales (thus, there is no particular ordering of the -specifications in a specifier); however, the tag sets are simply -considered in the order that the inst-pairs occur in the -specification's inst-list. - - Note also that the actual object that results from the instancing -(called an "instance object") may not be the same as the instantiator -from which it was derived. For some specifier types (such as integer -specifiers and boolean specifiers), the instantiator will be returned -directly as the instance object. For other types, however, this is not -the case. For example, for font specifiers, the instantiator is a -font-description string and the instance object is a font-instance -object, which describes how the font is displayed on a particular -device. A font-instance object encapsulates such things as the actual -font name used to display the font on that device (a font-description -string under X is usually a wildcard specification that may resolve to -different font names, with possibly different foundries, widths, etc., -on different devices), the extra properties of that font on that -device, etc. Furthermore, this conversion (called "instantiation") -might fail--a font or color might not exist on a particular device, for -example. - diff --git a/info/lispref.info-34 b/info/lispref.info-34 index 65fa87c..fb64927 100644 --- a/info/lispref.info-34 +++ b/info/lispref.info-34 @@ -50,6 +50,625 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Extent Properties, Next: Detached Extents, Prev: Mapping Over Extents, Up: Extents + +Properties of Extents +===================== + + Each extent has a property list associating property names with +values. Some property names have predefined meanings, and can usually +only assume particular values. Assigning other values to such a +property either cause the value to be converted into a legal value +(e.g., assigning anything but `nil' to a Boolean property will cause +the value of `t' to be assigned to the property) or will cause an +error. Property names without predefined meanings can be assigned any +value. An undefined property is equivalent to a property with a value +of `nil', or with a particular default value in the case of properties +with predefined meanings. Note that, when an extent is created, the +`end-open' and `detachable' properties are set on it. + + If an extent has a parent, all of its properties actually derive +from that parent (or from the root ancestor if the parent in turn has a +parent), and setting a property of the extent actually sets that +property on the parent. *Note Extent Parents::. + + - Function: extent-property extent property + This function returns the value of PROPERTY in EXTENT. If + PROPERTY is undefined, `nil' is returned. + + - Function: extent-properties extent + This function returns a list of all of EXTENT's properties that do + not have the value of `nil' (or the default value, for properties + with predefined meanings). + + - Function: set-extent-property extent property value + This function sets PROPERTY to VALUE in EXTENT. (If PROPERTY has a + predefined meaning, only certain values are allowed, and some + values may be converted to others before being stored.) + + - Function: set-extent-properties extent plist + Change some properties of EXTENT. PLIST is a property list. This + is useful to change many extent properties at once. + + The following table lists the properties with predefined meanings, +along with their allowable values. + +`detached' + (Boolean) Whether the extent is detached. Setting this is the + same as calling `detach-extent'. *Note Detached Extents::. + +`destroyed' + (Boolean) Whether the extent has been deleted. Setting this is + the same as calling `delete-extent'. + +`priority' + (integer) The extent's redisplay priority. Defaults to 0. *Note + priority: Intro to Extents. This property can also be set with + `set-extent-priority' and accessed with `extent-priority'. + +`start-open' + (Boolean) Whether the start position of the extent is open, + meaning that characters inserted at that position go outside of + the extent. *Note Extent Endpoints::. + +`start-closed' + (Boolean) Same as `start-open' but with the opposite sense. + Setting this property clears `start-open' and vice-versa. + +`end-open' + (Boolean) Whether the end position of the extent is open, meaning + that characters inserted at that position go outside of the + extent. This is `t' by default. *Note Extent Endpoints::. + +`end-closed' + (Boolean) Same as `end-open' but with the opposite sense. Setting + this property clears `end-open' and vice-versa. + +`read-only' + (Boolean) Whether text within this extent will be unmodifiable. + +`face' + (face, face name, list of faces or face names, or `nil') The face + in which to display the extent's text. This property can also be + set with `set-extent-face' and accessed with `extent-face'. Note + that if a list of faces is specified, the faces are merged + together, with faces earlier in the list having priority over + faces later in the list. + +`mouse-face' + (face, face name, list of faces or face names, or `nil') The face + used to display the extent when the mouse moves over it. This + property can also be set with `set-extent-mouse-face' and accessed + with `extent-mouse-face'. Note that if a list of faces is + specified, the faces are merged together, with faces earlier in + the list having priority over faces later in the list. *Note + Extents and Events::. + +`pointer' + (pointer glyph) The glyph used as the pointer when the mouse + moves over the extent. This takes precedence over the + `text-pointer-glyph' and `nontext-pointer-glyph' variables. If + for any reason this glyph is an invalid pointer, the standard + glyphs will be used as fallbacks. *Note Mouse Pointer::. + +`detachable' + (Boolean) Whether this extent becomes detached when all of the + text it covers is deleted. This is `t' by default. *Note + Detached Extents::. + +`duplicable' + (Boolean) Whether this extent should be copied into strings, so + that kill, yank, and undo commands will restore or copy it. *Note + Duplicable Extents::. + +`unique' + (Boolean) Meaningful only in conjunction with `duplicable'. When + this is set, there may be only one instance of this extent + attached at a time. *Note Duplicable Extents::. + +`invisible' + (Boolean) If `t', text under this extent will not be displayed - + it will look as if the text is not there at all. + +`keymap' + (keymap or `nil') This keymap is consulted for mouse clicks on this + extent or keypresses made while `point' is within the extent. + *Note Extents and Events::. + +`copy-function' + This is a hook that is run when a duplicable extent is about to be + copied from a buffer to a string (or the kill ring). *Note + Duplicable Extents::. + +`paste-function' + This is a hook that is run when a duplicable extent is about to be + copied from a string (or the kill ring) into a buffer. *Note + Duplicable Extents::. + +`begin-glyph' + (glyph or `nil') This extent's begin glyph. *Note Annotations::. + +`end-glyph' + (glyph or `nil') This extent's end glyph. *Note Annotations::. + +`begin-glyph-layout' + (`text', `whitespace', `inside-margin', or `outside-margin') The + layout policy for this extent's begin glyph. Defaults to `text'. + *Note Annotations::. + +`end-glyph-layout' + (`text', `whitespace', `inside-margin', or `outside-margin') The + layout policy for this extent's end glyph. Defaults to `text'. + *Note Annotations::. + +`initial-redisplay-function' + (any funcallable object) The function to be called the first time + (a part of) the extent is redisplayed. It will be called with the + extent as its argument. + + This is used by `lazy-shot' to implement lazy font-locking. The + functionality is still experimental, and may change without further + notice. + + The following convenience functions are provided for accessing +particular properties of an extent. + + - Function: extent-face extent + This function returns the `face' property of EXTENT. This might + also return a list of face names. Do not modify this list + directly! Instead, use `set-extent-face'. + + Note that you can use `eq' to compare lists of faces as returned + by `extent-face'. In other words, if you set the face of two + different extents to two lists that are `equal' but not `eq', then + the return value of `extent-face' on the two extents will return + the identical list. + + - Function: extent-mouse-face extent + This function returns the `mouse-face' property of EXTENT. This + might also return a list of face names. Do not modify this list + directly! Instead, use `set-extent-mouse-face'. + + Note that you can use `eq' to compare lists of faces as returned + by `extent-mouse-face', just like for `extent-face'. + + - Function: extent-priority extent + This function returns the `priority' property of EXTENT. + + - Function: extent-keymap extent + This function returns the `keymap' property of EXTENT. + + - Function: extent-begin-glyph-layout extent + This function returns the `begin-glyph-layout' property of EXTENT, + i.e. the layout policy associated with the EXTENT's begin glyph. + + - Function: extent-end-glyph-layout extent + This function returns the `end-glyph-layout' property of EXTENT, + i.e. the layout policy associated with the EXTENT's end glyph. + + - Function: extent-begin-glyph extent + This function returns the `begin-glyph' property of EXTENT, i.e. + the glyph object displayed at the beginning of EXTENT. If there + is none, `nil' is returned. + + - Function: extent-end-glyph extent + This function returns the `end-glyph' property of EXTENT, i.e. the + glyph object displayed at the end of EXTENT. If there is none, + `nil' is returned. + + The following convenience functions are provided for setting +particular properties of an extent. + + - Function: set-extent-priority extent pri + This function sets the `priority' property of EXTENT to PRI. + + - Function: set-extent-face extent face + This function sets the `face' property of EXTENT to FACE. + + - Function: set-extent-mouse-face extent face + This function sets the `mouse-face' property of EXTENT to FACE. + + - Function: set-extent-keymap extent keymap + This function sets the `keymap' property of EXTENT to KEYMAP. + KEYMAP must be either a keymap object, or `nil'. + + - Function: set-extent-begin-glyph-layout extent layout + This function sets the `begin-glyph-layout' property of EXTENT to + LAYOUT. + + - Function: set-extent-end-glyph-layout extent layout + This function sets the `end-glyph-layout' property of EXTENT to + LAYOUT. + + - Function: set-extent-begin-glyph extent begin-glyph &optional layout + This function sets the `begin-glyph' and `glyph-layout' properties + of EXTENT to BEGIN-GLYPH and LAYOUT, respectively. (LAYOUT + defaults to `text' if not specified.) + + - Function: set-extent-end-glyph extent end-glyph &optional layout + This function sets the `end-glyph' and `glyph-layout' properties + of EXTENT to END-GLYPH and LAYOUT, respectively. (LAYOUT defaults + to `text' if not specified.) + + - Function: set-extent-initial-redisplay-function extent function + This function sets the `initial-redisplay-function' property of the + extent to FUNCTION. + + +File: lispref.info, Node: Detached Extents, Next: Extent Parents, Prev: Extent Properties, Up: Extents + +Detached Extents +================ + + A detached extent is an extent that is not attached to a buffer or +string but can be re-inserted. Detached extents have a start position +and end position of `nil'. Extents can be explicitly detached using +`detach-extent'. An extent is also detached when all of its characters +are all killed by a deletion, if its `detachable' property is set; if +this property is not set, the extent becomes a zero-length extent. +(Zero-length extents with the `detachable' property set behave +specially. *Note zero-length extents: Extent Endpoints.) + + - Function: detach-extent extent + This function detaches EXTENT from its buffer or string. If + EXTENT has the `duplicable' property, its detachment is tracked by + the undo mechanism. *Note Duplicable Extents::. + + - Function: extent-detached-p extent + This function returns `nil' if EXTENT is detached, and `t' + otherwise. + + - Function: copy-extent extent &optional object + This function makes a copy of EXTENT. It is initially detached. + Optional argument OBJECT defaults to EXTENT's object (normally a + buffer or string, but could be `nil'). + + - Function: insert-extent extent &optional start end no-hooks object + This function inserts EXTENT from START to END in OBJECT (a buffer + or string). If EXTENT is detached from a different buffer or + string, or in most cases when EXTENT is already attached, the + extent will first be copied as if with `copy-extent'. This + function operates the same as if `insert' were called on a string + whose extent data calls for EXTENT to be inserted, except that if + NO-HOOKS is non-`nil', EXTENT's `paste-function' will not be + invoked. *Note Duplicable Extents::. + + +File: lispref.info, Node: Extent Parents, Next: Duplicable Extents, Prev: Detached Extents, Up: Extents + +Extent Parents +============== + + An extent can have a parent extent set for it. If this is the case, +the extent derives all its properties from that extent and has no +properties of its own. The only "properties" that the extent keeps are +the buffer or string it refers to and the start and end points. (More +correctly, the extent's own properties are shadowed. If you later +change the extent to have no parent, its own properties will become +visible again.) + + It is possible for an extent's parent to itself have a parent, and +so on. Through this, a whole tree of extents can be created, all +deriving their properties from one root extent. Note, however, that +you cannot create an inheritance loop--this is explicitly disallowed. + + Parent extents are used to implement the extents over the modeline. + + - Function: set-extent-parent extent parent + This function sets the parent of EXTENT to PARENT. If PARENT is + `nil', the extent is set to have no parent. + + - Function: extent-parent extent + This function return the parents (if any) of EXTENT, or `nil'. + + - Function: extent-children extent + This function returns a list of the children (if any) of EXTENT. + The children of an extent are all those extents whose parent is + that extent. This function does not recursively trace children of + children. + + - Function: extent-descendants extent + This function returns a list of all descendants of EXTENT, + including EXTENT. This recursively applies `extent-children' to + any children of EXTENT, until no more children can be found. + + +File: lispref.info, Node: Duplicable Extents, Next: Extents and Events, Prev: Extent Parents, Up: Extents + +Duplicable Extents +================== + + If an extent has the `duplicable' property, it will be copied into +strings, so that kill, yank, and undo commands will restore or copy it. + + Specifically: + + * When a string is created using `buffer-substring' or + `buffer-string', any duplicable extents in the region corresponding + to the string will be copied into the string (*note Buffer + Contents::). When the string in inserted into a buffer using + `insert', `insert-before-markers', `insert-buffer' or + `insert-buffer-substring', the extents in the string will be copied + back into the buffer (*note Insertion::). The extents in a string + can, of course, be retrieved explicitly using the standard extent + primitives over the string. + + * Similarly, when text is copied or cut into the kill ring, any + duplicable extents will be remembered and reinserted later when + the text is pasted back into a buffer. + + * When `concat' is called on strings, the extents in the strings are + copied into the resulting string. + + * When `substring' is called on a string, the relevant extents are + copied into the resulting string. + + * When a duplicable extent is detached by `detach-extent' or string + deletion, or inserted by `insert-extent' or string insertion, the + action is recorded by the undo mechanism so that it can be undone + later. Note that if an extent gets detached and then a later undo + causes the extent to get reinserted, the new extent will not be + `eq' to the original extent. + + * Extent motion, face changes, and attachment via `make-extent' are + not recorded by the undo mechanism. This means that extent changes + which are to be undo-able must be performed by character editing, + or by insertion and detachment of duplicable extents. + + * A duplicable extent's `copy-function' property, if non-`nil', + should be a function, and will be run when a duplicable extent is + about to be copied from a buffer to a string (or the kill ring). + It is called with three arguments: the extent and the buffer + positions within it which are being copied. If this function + returns `nil', then the extent will not be copied; otherwise it + will. + + * A duplicable extent's `paste-function' property, if non-`nil', + should be a function, and will be run when a duplicable extent is + about to be copied from a string (or the kill ring) into a buffer. + It is called with three arguments: the original extent and the + buffer positions which the copied extent will occupy. (This hook + is run after the corresponding text has already been inserted into + the buffer.) Note that the extent argument may be detached when + this function is run. If this function returns `nil', no extent + will be inserted. Otherwise, there will be an extent covering the + range in question. + + Note: if the extent to be copied is already attached to the buffer + and overlaps the new range, the extent will simply be extended and + the `paste-function' will not be called. + + +File: lispref.info, Node: Extents and Events, Next: Atomic Extents, Prev: Duplicable Extents, Up: Extents + +Interaction of Extents with Keyboard and Mouse Events +===================================================== + + If an extent has the `mouse-face' property set, it will be +highlighted when the mouse passes over it. Highlighting is accomplished +by merging the extent's face with the face or faces specified by the +`mouse-face' property. The effect is as if a pseudo-extent with the +`mouse-face' face were inserted after the extent in the display order +(*note Extent Endpoints::, display order). + + - Variable: mouse-highlight-priority + This variable holds the priority to use when merging in the + highlighting pseudo-extent. The default is 1000. This is + purposely set very high so that the highlighting pseudo-extent + shows up even if there are other extents with various priorities + at the same location. + + You can also explicitly cause an extent to be highlighted. Only one +extent at a time can be highlighted in this fashion, and any other +highlighted extent will be de-highlighted. + + - Function: highlight-extent extent &optional highlight-p + This function highlights (if HIGHLIGHT-P is non-`nil') or + de-highlights (if HIGHLIGHT-P is `nil') EXTENT, if EXTENT has the + `mouse-face' property. (Nothing happens if EXTENT does not have + the `mouse-face' property.) + + - Function: force-highlight-extent extent &optional highlight-p + This function is similar to `highlight-extent' but highlights or + de-highlights the extent regardless of whether it has the + `mouse-face' property. + + If an extent has a `keymap' property, this keymap will be consulted +for mouse clicks on the extent and keypresses made while `point' is +within the extent. The behavior of mouse clicks and keystrokes not +defined in the keymap is as normal for the buffer. + + +File: lispref.info, Node: Atomic Extents, Prev: Extents and Events, Up: Extents + +Atomic Extents +============== + + If the Lisp file `atomic-extents' is loaded, then the atomic extent +facility is available. An "atomic extent" is an extent for which +`point' cannot be positioned anywhere within it. This ensures that +when selecting text, either all or none of the extent is selected. + + To make an extent atomic, set its `atomic' property. + + +File: lispref.info, Node: Specifiers, Next: Faces and Window-System Objects, Prev: Extents, Up: Top + +Specifiers +********** + + A specifier is an object used to keep track of a property whose value +may vary depending on the particular situation (e.g. particular buffer +displayed in a particular window) that it is used in. The value of many +built-in properties, such as the font, foreground, background, and such +properties of a face and variables such as `modeline-shadow-thickness' +and `top-toolbar-height', is actually a specifier object. The +specifier object, in turn, is "instanced" in a particular situation to +yield the real value of the property in that situation. + + - Function: specifierp object + This function returns non-`nil' if OBJECT is a specifier. + +* Menu: + +* Introduction to Specifiers:: Specifiers provide a clean way for + display and other properties to vary + (under user control) in a wide variety + of contexts. +* Specifiers In-Depth:: Gory details about specifier innards. +* Specifier Instancing:: Instancing means obtaining the ``value'' of + a specifier in a particular context. +* Specifier Types:: Specifiers come in different flavors. +* Adding Specifications:: Specifications control a specifier's ``value'' + by giving conditions under which a + particular value is valid. +* Retrieving Specifications:: Querying a specifier's specifications. +* Specifier Tag Functions:: Working with specifier tags. +* Specifier Instancing Functions:: + Functions to instance a specifier. +* Specifier Example:: Making all this stuff clearer. +* Creating Specifiers:: Creating specifiers for your own use. +* Specifier Validation Functions:: + Validating the components of a specifier. +* Other Specification Functions:: + Other ways of working with specifications. + + +File: lispref.info, Node: Introduction to Specifiers, Next: Specifiers In-Depth, Up: Specifiers + +Introduction to Specifiers +========================== + + Sometimes you may want the value of a property to vary depending on +the context the property is used in. A simple example of this in XEmacs +is buffer-local variables. For example, the variable +`modeline-format', which controls the format of the modeline, can have +different values depending on the particular buffer being edited. The +variable has a default value which most modes will use, but a +specialized package such as Calendar might change the variable so as to +tailor the modeline to its own purposes. + + Other properties (such as those that can be changed by the +`modify-frame-parameters' function, for example the color of the text +cursor) can have frame-local values, although it might also make sense +for them to have buffer-local values. In other cases, you might want +the property to vary depending on the particular window within the +frame that applies (e.g. the top or bottom window in a split frame), the +device type that that frame appears on (X or tty), etc. Perhaps you can +envision some more complicated scenario where you want a particular +value in a specified buffer, another value in all other buffers +displayed on a particular frame, another value in all other buffers +displayed in all other frames on any mono (two-color, e.g. black and +white only) displays, and a default value in all other circumstances. + + A "specifier" is a generalization of this, allowing a great deal of +flexibility in controlling exactly what value a property has in which +circumstances. It is most commonly used for display properties, such as +an image or the foreground color of a face. As a simple example, you +can specify that the foreground of the default face be + + * blue for a particular buffer + + * green for all other buffers + + As a more complicated example, you could specify that the foreground +of the default face be + + * forest green for all buffers displayed in a particular Emacs + window, or green if the X server doesn't recognize the color + `forest green' + + * blue for all buffers displayed in a particular frame + + * red for all other buffers displayed on a color device + + * white for all other buffers + + +File: lispref.info, Node: Specifiers In-Depth, Next: Specifier Instancing, Prev: Introduction to Specifiers, Up: Specifiers + +In-Depth Overview of a Specifier +================================ + + A specifier object encapsulates a set of "specifications", each of +which says what its value should be if a particular condition applies. +For example, one specification might be "The value should be +darkseagreen2 on X devices" another might be "The value should be blue +in the *Help* buffer". In specifier terminology, these conditions are +called "locales" and the values are called "instantiators". Given a +specifier, a logical question is "What is its value in a particular +situation?" This involves looking through the specifications to see +which ones apply to this particular situation, and perhaps preferring +one over another if more than one applies. In specifier terminology, a +"particular situation" is called a "domain", and determining its value +in a particular domain is called "instancing". Most of the time, a +domain is identified by a particular window. For example, if the +redisplay engine is drawing text in the default face in a particular +window, it retrieves the specifier for the foreground color of the +default face and "instances" it in the domain given by that window; in +other words, it asks the specifier, "What is your value in this +window?". + + More specifically, a specifier contains a set of "specifications", +each of which associates a "locale" (a window object, a buffer object, +a frame object, a device object, or the symbol `global') with an +"inst-list", which is a list of one or more "inst-pairs". (For each +possible locale, there can be at most one specification containing that +locale.) Each inst-pair is a cons of a "tag set" (an unordered list of +zero or more symbols, or "tags") and an "instantiator" (the allowed +form of this varies depending on the type of specifier). In a given +specification, there may be more than one inst-pair with the same tag +set; this is unlike for locales. + + The tag set is used to restrict the sorts of devices over which the +instantiator is valid and to uniquely identify instantiators added by a +particular application, so that different applications can work on the +same specifier and not interfere with each other. Each tag can have a +"predicate" associated with it, which is a function of one argument (a +device) that specifies whether the tag matches that particular device. +(If a tag does not have a predicate, it matches all devices.) All tags +in a tag set must match a device for the associated inst-pair to be +instantiable over that device. (A null tag set is perfectly valid.) + + The valid device types (normally `x', `tty', and `stream') and +device classes (normally `color', `grayscale', and `mono') can always +be used as tags, and match devices of the associated type or class +(*note Consoles and Devices::). User-defined tags may be defined, with +an optional predicate specified. An application can create its own +tag, use it to mark all its instantiators, and be fairly confident that +it will not interfere with other applications that modify the same +specifier--Functions that add a specification to a specifier usually +only overwrite existing inst-pairs with the same tag set as was given, +and a particular tag or tag set can be specified when removing +instantiators. + + When a specifier is instanced in a domain, both the locale and the +tag set can be viewed as specifying necessary conditions that must +apply in that domain for an instantiator to be considered as a possible +result of the instancing. More specific locales always override more +general locales (thus, there is no particular ordering of the +specifications in a specifier); however, the tag sets are simply +considered in the order that the inst-pairs occur in the +specification's inst-list. + + Note also that the actual object that results from the instancing +(called an "instance object") may not be the same as the instantiator +from which it was derived. For some specifier types (such as integer +specifiers and boolean specifiers), the instantiator will be returned +directly as the instance object. For other types, however, this is not +the case. For example, for font specifiers, the instantiator is a +font-description string and the instance object is a font-instance +object, which describes how the font is displayed on a particular +device. A font-instance object encapsulates such things as the actual +font name used to display the font on that device (a font-description +string under X is usually a wildcard specification that may resolve to +different font names, with possibly different foundries, widths, etc., +on different devices), the extra properties of that font on that +device, etc. Furthermore, this conversion (called "instantiation") +might fail--a font or color might not exist on a particular device, for +example. + + File: lispref.info, Node: Specifier Instancing, Next: Specifier Types, Prev: Specifiers In-Depth, Up: Specifiers How a Specifier Is Instanced @@ -449,600 +1068,3 @@ Adding specifications to a Specifier If NOERROR is `nil', signal an error if the spec-list is invalid; otherwise return `t'. - -File: lispref.info, Node: Retrieving Specifications, Next: Specifier Tag Functions, Prev: Adding Specifications, Up: Specifiers - -Retrieving the Specifications from a Specifier -============================================== - - - Function: specifier-spec-list specifier &optional locale tag-set - exact-p - This function returns the spec-list of specifications for - SPECIFIER in LOCALE. - - If LOCALE is a particular locale (a window, buffer, frame, device, - or the symbol `global'), a spec-list consisting of the - specification for that locale will be returned. - - If LOCALE is a locale type (i.e. a symbol `window', `buffer', - `frame', or `device'), a spec-list of the specifications for all - locales of that type will be returned. - - If LOCALE is `nil' or the symbol `all', a spec-list of all - specifications in SPECIFIER will be returned. - - LOCALE can also be a list of locales, locale types, and/or `all'; - the result is as if `specifier-spec-list' were called on each - element of the list and the results concatenated together. - - Only instantiators where TAG-SET (a list of zero or more tags) is - a subset of (or possibly equal to) the instantiator's tag set are - returned. (The default value of` nil' is a subset of all tag sets, - so in this case no instantiators will be screened out.) If EXACT-P - is non-`nil', however, TAG-SET must be equal to an instantiator's - tag set for the instantiator to be returned. - - - Function: specifier-specs specifier &optional locale tag-set exact-p - This function returns the specification(s) for SPECIFIER in LOCALE. - - If LOCALE is a single locale or is a list of one element - containing a single locale, then a "short form" of the - instantiators for that locale will be returned. Otherwise, this - function is identical to `specifier-spec-list'. - - The "short form" is designed for readability and not for ease of - use in Lisp programs, and is as follows: - - 1. If there is only one instantiator, then an inst-pair (i.e. - cons of tag and instantiator) will be returned; otherwise a - list of inst-pairs will be returned. - - 2. For each inst-pair returned, if the instantiator's tag is - `any', the tag will be removed and the instantiator itself - will be returned instead of the inst-pair. - - 3. If there is only one instantiator, its value is `nil', and - its tag is `any', a one-element list containing `nil' will be - returned rather than just `nil', to distinguish this case - from there being no instantiators at all. - - - - Function: specifier-fallback specifier - This function returns the fallback value for SPECIFIER. Fallback - values are provided by the C code for certain built-in specifiers - to make sure that instancing won't fail even if all specs are - removed from the specifier, or to implement simple inheritance - behavior (e.g. this method is used to ensure that faces other than - `default' inherit their attributes from `default'). By design, - you cannot change the fallback value, and specifiers created with - `make-specifier' will never have a fallback (although a similar, - Lisp-accessible capability may be provided in the future to allow - for inheritance). - - The fallback value will be an inst-list that is instanced like any - other inst-list, a specifier of the same type as SPECIFIER - (results in inheritance), or `nil' for no fallback. - - When you instance a specifier, you can explicitly request that the - fallback not be consulted. (The C code does this, for example, when - merging faces.) See `specifier-instance'. - - -File: lispref.info, Node: Specifier Tag Functions, Next: Specifier Instancing Functions, Prev: Retrieving Specifications, Up: Specifiers - -Working With Specifier Tags -=========================== - - A specifier tag set is an entity that is attached to an instantiator -and can be used to restrict the scope of that instantiator to a -particular device class or device type and/or to mark instantiators -added by a particular package so that they can be later removed. - - A specifier tag set consists of a list of zero of more specifier -tags, each of which is a symbol that is recognized by XEmacs as a tag. -(The valid device types and device classes are always tags, as are any -tags defined by `define-specifier-tag'.) It is called a "tag set" (as -opposed to a list) because the order of the tags or the number of times -a particular tag occurs does not matter. - - Each tag has a predicate associated with it, which specifies whether -that tag applies to a particular device. The tags which are device -types and classes match devices of that type or class. User-defined -tags can have any predicate, or none (meaning that all devices match). -When attempting to instance a specifier, a particular instantiator is -only considered if the device of the domain being instanced over matches -all tags in the tag set attached to that instantiator. - - Most of the time, a tag set is not specified, and the instantiator -gets a null tag set, which matches all devices. - - - Function: valid-specifier-tag-p tag - This function returns non-`nil' if TAG is a valid specifier tag. - - - Function: valid-specifier-tag-set-p tag-set - This function returns non-`nil' if TAG-SET is a valid specifier - tag set. - - - Function: canonicalize-tag-set tag-set - This function canonicalizes the given tag set. Two canonicalized - tag sets can be compared with `equal' to see if they represent the - same tag set. (Specifically, canonicalizing involves sorting by - symbol name and removing duplicates.) - - - Function: device-matches-specifier-tag-set-p device tag-set - This function returns non-`nil' if DEVICE matches specifier tag - set TAG-SET. This means that DEVICE matches each tag in the tag - set. - - - Function: define-specifier-tag tag &optional predicate - This function defines a new specifier tag. If PREDICATE is - specified, it should be a function of one argument (a device) that - specifies whether the tag matches that particular device. If - PREDICATE is omitted, the tag matches all devices. - - You can redefine an existing user-defined specifier tag. However, - you cannot redefine the built-in specifier tags (the device types - and classes) or the symbols `nil', `t', `all', or `global'. - - - Function: device-matching-specifier-tag-list &optional device - This function returns a list of all specifier tags matching - DEVICE. DEVICE defaults to the selected device if omitted. - - - Function: specifier-tag-list - This function returns a list of all currently-defined specifier - tags. This includes the built-in ones (the device types and - classes). - - - Function: specifier-tag-predicate tag - This function returns the predicate for the given specifier tag. - - -File: lispref.info, Node: Specifier Instancing Functions, Next: Specifier Example, Prev: Specifier Tag Functions, Up: Specifiers - -Functions for Instancing a Specifier -==================================== - - - Function: specifier-instance specifier &optional domain default - no-fallback - This function instantiates SPECIFIER (return its value) in DOMAIN. - If no instance can be generated for this domain, return DEFAULT. - - DOMAIN should be a window, frame, or device. Other values that - are legal as a locale (e.g. a buffer) are not valid as a domain - because they do not provide enough information to identify a - particular device (see `valid-specifier-domain-p'). DOMAIN - defaults to the selected window if omitted. - - "Instantiating" a specifier in a particular domain means - determining the specifier's "value" in that domain. This is - accomplished by searching through the specifications in the - specifier that correspond to all locales that can be derived from - the given domain, from specific to general. In most cases, the - domain is an Emacs window. In that case specifications are - searched for as follows: - - 1. A specification whose locale is the window itself; - - 2. A specification whose locale is the window's buffer; - - 3. A specification whose locale is the window's frame; - - 4. A specification whose locale is the window's frame's device; - - 5. A specification whose locale is the symbol `global'. - - If all of those fail, then the C-code-provided fallback value for - this specifier is consulted (see `specifier-fallback'). If it is - an inst-list, then this function attempts to instantiate that list - just as when a specification is located in the first five steps - above. If the fallback is a specifier, `specifier-instance' is - called recursively on this specifier and the return value used. - Note, however, that if the optional argument NO-FALLBACK is - non-`nil', the fallback value will not be consulted. - - Note that there may be more than one specification matching a - particular locale; all such specifications are considered before - looking for any specifications for more general locales. Any - particular specification that is found may be rejected because it - is tagged to a particular device class (e.g. `color') or device - type (e.g. `x') or both and the device for the given domain does - not match this, or because the specification is not valid for the - device of the given domain (e.g. the font or color name does not - exist for this particular X server). - - The returned value is dependent on the type of specifier. For - example, for a font specifier (as returned by the `face-font' - function), the returned value will be a font-instance object. For - images, the returned value will be a string, pixmap, or subwindow. - - - Function: specifier-instance-from-inst-list specifier domain - inst-list &optional default - This function attempts to convert a particular inst-list into an - instance. This attempts to instantiate INST-LIST in the given - DOMAIN, as if INST-LIST existed in a specification in SPECIFIER. - If the instantiation fails, DEFAULT is returned. In most - circumstances, you should not use this function; use - `specifier-instance' instead. - - -File: lispref.info, Node: Specifier Example, Next: Creating Specifiers, Prev: Specifier Instancing Functions, Up: Specifiers - -Example of Specifier Usage -========================== - - Now let us present an example to clarify the theoretical discussions -we have been through. In this example, we will use the general -specifier functions for clarity. Keep in mind that many types of -specifiers, and some other types of objects that are associated with -specifiers (e.g. faces), provide convenience functions making it easier -to work with objects of that type. - - Let us consider the background color of the default face. A -specifier is used to specify how that color will appear in different -domains. First, let's retrieve the specifier: - - (setq sp (face-property 'default 'background)) - => # - - (specifier-specs sp) - => ((# (nil . "forest green")) - (# (nil . "hot pink")) - (# (nil . "puke orange") - (nil . "moccasin")) - (# (nil . "magenta")) - (global ((tty) . "cyan") (nil . "white")) - ) - - Then, say we want to determine what the background color of the -default face is for the window currently displaying the buffer -`*scratch*'. We call - - (get-buffer-window "*scratch*") - => # - (window-frame (get-buffer-window "*scratch*")) - => # - (specifier-instance sp (get-buffer-window "*scratch*")) - => # - - Note that we passed a window to `specifier-instance', not a buffer. -We cannot pass a buffer because a buffer by itself does not provide -enough information. The buffer might not be displayed anywhere at all, -or could be displayed in many different frames on different devices. - - The result is arrived at like this: - - 1. First, we look for a specification matching the buffer displayed - in the window, i.e. `*scratch*'. There are none, so we proceed. - - 2. Then, we look for a specification matching the window itself. - Again, there are none. - - 3. Then, we look for a specification matching the window's frame. The - specification `(# . "puke orange")' is - found. We call the instantiation method for colors, passing it the - locale we were searching over (i.e. the window, in this case) and - the instantiator (`"puke orange"'). However, the particular device - which this window is on (let's say it's an X connection) doesn't - recognize the color `"puke orange"', so the specification is - rejected. - - 4. So we continue looking for a specification matching the window's - frame. We find `(# . "moccasin")'. Again, - we call the instantiation method for colors. This time, the X - server our window is on recognizes the color `moccasin', and so the - instantiation method succeeds and returns a color instance. - - -File: lispref.info, Node: Creating Specifiers, Next: Specifier Validation Functions, Prev: Specifier Example, Up: Specifiers - -Creating New Specifier Objects -============================== - - - Function: make-specifier type - This function creates a new specifier. - - A specifier is an object that can be used to keep track of a - property whose value can be per-buffer, per-window, per-frame, or - per-device, and can further be restricted to a particular - device-type or device-class. Specifiers are used, for example, - for the various built-in properties of a face; this allows a face - to have different values in different frames, buffers, etc. For - more information, see `specifier-instance', `specifier-specs', and - `add-spec-to-specifier'; or, for a detailed description of - specifiers, including how they are instantiated over a particular - domain (i.e. how their value in that domain is determined), see - the chapter on specifiers in the XEmacs Lisp Reference Manual. - - TYPE specifies the particular type of specifier, and should be one - of the symbols `generic', `integer', `natnum', `boolean', `color', - `font', `image', `face-boolean', or `toolbar'. - - For more information on particular types of specifiers, see the - functions `generic-specifier-p', `integer-specifier-p', - `natnum-specifier-p', `boolean-specifier-p', `color-specifier-p', - `font-specifier-p', `image-specifier-p', - `face-boolean-specifier-p', and `toolbar-specifier-p'. - - - Function: make-specifier-and-init type spec-list &optional - dont-canonicalize - This function creates and initialize a new specifier. - - This is a front-end onto `make-specifier' that allows you to create - a specifier and add specs to it at the same time. TYPE specifies - the specifier type. SPEC-LIST supplies the specification(s) to be - added to the specifier. Normally, almost any reasonable - abbreviation of the full spec-list form is accepted, and is - converted to the full form; however, if optional argument - DONT-CANONICALIZE is non-`nil', this conversion is not performed, - and the SPEC-LIST must already be in full form. See - `canonicalize-spec-list'. - - -File: lispref.info, Node: Specifier Validation Functions, Next: Other Specification Functions, Prev: Creating Specifiers, Up: Specifiers - -Functions for Checking the Validity of Specifier Components -=========================================================== - - - Function: valid-specifier-domain-p domain - This function returns non-`nil' if DOMAIN is a valid specifier - domain. A domain is used to instance a specifier (i.e. determine - the specifier's value in that domain). Valid domains are a - window, frame, or device. (`nil' is not valid.) - - - Function: valid-specifier-locale-p locale - This function returns non-`nil' if LOCALE is a valid specifier - locale. Valid locales are a device, a frame, a window, a buffer, - and `global'. (`nil' is not valid.) - - - Function: valid-specifier-locale-type-p locale-type - Given a specifier LOCALE-TYPE, this function returns non-nil if it - is valid. Valid locale types are the symbols `global', `device', - `frame', `window', and `buffer'. (Note, however, that in functions - that accept either a locale or a locale type, `global' is - considered an individual locale.) - - - Function: valid-specifier-type-p specifier-type - Given a SPECIFIER-TYPE, this function returns non-`nil' if it is - valid. Valid types are `generic', `integer', `boolean', `color', - `font', `image', `face-boolean', and `toolbar'. - - - Function: valid-specifier-tag-p tag - This function returns non-`nil' if TAG is a valid specifier tag. - - - Function: valid-instantiator-p instantiator specifier-type - This function returns non-`nil' if INSTANTIATOR is valid for - SPECIFIER-TYPE. - - - Function: valid-inst-list-p inst-list type - This function returns non-`nil' if INST-LIST is valid for - specifier type TYPE. - - - Function: valid-spec-list-p spec-list type - This function returns non-`nil' if SPEC-LIST is valid for - specifier type TYPE. - - - Function: check-valid-instantiator instantiator specifier-type - This function signals an error if INSTANTIATOR is invalid for - SPECIFIER-TYPE. - - - Function: check-valid-inst-list inst-list type - This function signals an error if INST-LIST is invalid for - specifier type TYPE. - - - Function: check-valid-spec-list spec-list type - This function signals an error if SPEC-LIST is invalid for - specifier type TYPE. - - -File: lispref.info, Node: Other Specification Functions, Prev: Specifier Validation Functions, Up: Specifiers - -Other Functions for Working with Specifications in a Specifier -============================================================== - - - Function: copy-specifier specifier &optional dest locale tag-set - exact-p how-to-add - This function copies SPECIFIER to DEST, or creates a new one if - DEST is `nil'. - - If DEST is `nil' or omitted, a new specifier will be created and - the specifications copied into it. Otherwise, the specifications - will be copied into the existing specifier in DEST. - - If LOCALE is `nil' or the symbol `all', all specifications will be - copied. If LOCALE is a particular locale, the specification for - that particular locale will be copied. If LOCALE is a locale - type, the specifications for all locales of that type will be - copied. LOCALE can also be a list of locales, locale types, - and/or `all'; this is equivalent to calling `copy-specifier' for - each of the elements of the list. See `specifier-spec-list' for - more information about LOCALE. - - Only instantiators where TAG-SET (a list of zero or more tags) is - a subset of (or possibly equal to) the instantiator's tag set are - copied. (The default value of `nil' is a subset of all tag sets, - so in this case no instantiators will be screened out.) If EXACT-P - is non-`nil', however, TAG-SET must be equal to an instantiator's - tag set for the instantiator to be copied. - - Optional argument HOW-TO-ADD specifies what to do with existing - specifications in DEST. If nil, then whichever locales or locale - types are copied will first be completely erased in DEST. - Otherwise, it is the same as in `add-spec-to-specifier'. - - - Function: remove-specifier specifier &optional locale tag-set exact-p - This function removes specification(s) for SPECIFIER. - - If LOCALE is a particular locale (a buffer, window, frame, device, - or the symbol `global'), the specification for that locale will be - removed. - - If instead, LOCALE is a locale type (i.e. a symbol `buffer', - `window', `frame', or `device'), the specifications for all - locales of that type will be removed. - - If LOCALE is `nil' or the symbol `all', all specifications will be - removed. - - LOCALE can also be a list of locales, locale types, and/or `all'; - this is equivalent to calling `remove-specifier' for each of the - elements in the list. - - Only instantiators where TAG-SET (a list of zero or more tags) is - a subset of (or possibly equal to) the instantiator's tag set are - removed. (The default value of `nil' is a subset of all tag sets, - so in this case no instantiators will be screened out.) If EXACT-P - is non-`nil', however, TAG-SET must be equal to an instantiator's - tag set for the instantiator to be removed. - - - Function: map-specifier specifier func &optional locale maparg - This function applies FUNC to the specification(s) for LOCALE in - SPECIFIER. - - If LOCALE is a locale, FUNC will be called for that locale. If - LOCALE is a locale type, FUNC will be mapped over all locales of - that type. If LOCALE is `nil' or the symbol `all', FUNC will be - mapped over all locales in SPECIFIER. - - FUNC is called with four arguments: the SPECIFIER, the locale - being mapped over, the inst-list for that locale, and the optional - MAPARG. If any invocation of FUNC returns non-`nil', the mapping - will stop and the returned value becomes the value returned from - `map-specifier'. Otherwise, `map-specifier' returns `nil'. - - - Function: specifier-locale-type-from-locale locale - Given a specifier LOCALE, this function returns its type. - - -File: lispref.info, Node: Faces and Window-System Objects, Next: Glyphs, Prev: Specifiers, Up: Top - -Faces and Window-System Objects -******************************* - -* Menu: - -* Faces:: Controlling the way text looks. -* Fonts:: Controlling the typeface of text. -* Colors:: Controlling the color of text and pixmaps. - - -File: lispref.info, Node: Faces, Next: Fonts, Up: Faces and Window-System Objects - -Faces -===== - - A "face" is a named collection of graphical properties: font, -foreground color, background color, background pixmap, optional -underlining, and (on TTY devices) whether the text is to be highlighted, -dimmed, blinking, or displayed in reverse video. Faces control the -display of text on the screen. Every face has a name, which is a symbol -such as `default' or `modeline'. - - Each built-in property of a face is controlled using a specifier, -which allows it to have separate values in particular buffers, frames, -windows, and devices and to further vary according to device type (X or -TTY) and device class (color, mono, or grayscale). *Note Specifiers::, -for more information. - - The face named `default' is used for ordinary text. The face named -`modeline' is used for displaying the modeline. The face named -`highlight' is used for highlighted extents (*note Extents::). The -faces named `left-margin' and `right-margin' are used for the left and -right margin areas, respectively (*note Annotations::). The face named -`zmacs-region' is used for the highlighted region between point and -mark. - -* Menu: - -* Merging Faces:: How XEmacs decides which face to use - for a character. -* Basic Face Functions:: How to define and examine faces. -* Face Properties:: How to access and modify a face's properties. -* Face Convenience Functions:: Convenience functions for accessing - particular properties of a face. -* Other Face Display Functions:: Other functions pertaining to how a - a face appears. - - -File: lispref.info, Node: Merging Faces, Next: Basic Face Functions, Up: Faces - -Merging Faces for Display -------------------------- - - Here are all the ways to specify which face to use for display of -text: - - * With defaults. Each frame has a "default face", which is used for - all text that doesn't somehow specify another face. The face named - `default' applies to the text area, while the faces `left-margin' - and `right-margin' apply to the left and right margin areas. - - * With text properties. A character may have a `face' property; if - so, it's displayed with that face. (Text properties are actually - implemented in terms of extents.) *Note Text Properties::. - - * With extents. An extent may have a `face' property, which applies - to all the text covered by the extent; in addition, if the - `highlight' property is set, the `highlight' property applies when - the mouse moves over the extent or if the extent is explicitly - highlighted. *Note Extents::. - - * With annotations. Annotations that are inserted into a buffer can - specify their own face. (Annotations are actually implemented in - terms of extents.) *Note Annotations::. - - If these various sources together specify more than one face for a -particular character, XEmacs merges the properties of the various faces -specified. Extents, text properties, and annotations all use the same -underlying representation (as extents). When multiple extents cover one -character, an extent with higher priority overrides those with lower -priority. *Note Extents::. If no extent covers a particular character, -the `default' face is used. - - If a background pixmap is specified, it determines what will be -displayed in the background of text characters. If the background -pixmap is actually a pixmap, with its colors specified, those colors are -used; if it is a bitmap, the face's foreground and background colors are -used to color it. - - -File: lispref.info, Node: Basic Face Functions, Next: Face Properties, Prev: Merging Faces, Up: Faces - -Basic Functions for Working with Faces --------------------------------------- - - The properties a face can specify include the font, the foreground -color, the background color, the background pixmap, the underlining, -the display table, and (for TTY devices) whether the text is to be -highlighted, dimmed, blinking, or displayed in reverse video. The face -can also leave these unspecified, causing them to assume the value of -the corresponding property of the `default' face. - - Here are the basic primitives for working with faces. - - - Function: make-face name &optional doc-string temporary - This function defines and returns a new face named NAME, initially - with all properties unspecified. It does nothing if there is - already a face named NAME. Optional argument DOC-STRING specifies - an explanatory string used for descriptive purposes. If optional - argument TEMPORARY is non-`nil', the face will automatically - disappear when there are no more references to it anywhere in text - or Lisp code (otherwise, the face will continue to exist - indefinitely even if it is not used). - - - Function: face-list &optional temporary - This function returns a list of the names of all defined faces. If - TEMPORARY is `nil', only the permanent faces are included. If it - is `t', only the temporary faces are included. If it is any other - non-`nil' value both permanent and temporary are included. - - - Function: facep object - This function returns whether the given object is a face. - - - Function: copy-face old-face new-name &optional locale how-to-add - This function defines a new face named NEW-NAME which is a copy of - the existing face named OLD-FACE. If there is already a face - named NEW-NAME, then it alters the face to have the same - properties as OLD-FACE. LOCALE and HOW-TO-ADD let you copy just - parts of the old face rather than the whole face, and are as in - `copy-specifier' (*note Specifiers::). - diff --git a/info/lispref.info-35 b/info/lispref.info-35 index 2db233e..83b50f0 100644 --- a/info/lispref.info-35 +++ b/info/lispref.info-35 @@ -50,6 +50,603 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Retrieving Specifications, Next: Specifier Tag Functions, Prev: Adding Specifications, Up: Specifiers + +Retrieving the Specifications from a Specifier +============================================== + + - Function: specifier-spec-list specifier &optional locale tag-set + exact-p + This function returns the spec-list of specifications for + SPECIFIER in LOCALE. + + If LOCALE is a particular locale (a window, buffer, frame, device, + or the symbol `global'), a spec-list consisting of the + specification for that locale will be returned. + + If LOCALE is a locale type (i.e. a symbol `window', `buffer', + `frame', or `device'), a spec-list of the specifications for all + locales of that type will be returned. + + If LOCALE is `nil' or the symbol `all', a spec-list of all + specifications in SPECIFIER will be returned. + + LOCALE can also be a list of locales, locale types, and/or `all'; + the result is as if `specifier-spec-list' were called on each + element of the list and the results concatenated together. + + Only instantiators where TAG-SET (a list of zero or more tags) is + a subset of (or possibly equal to) the instantiator's tag set are + returned. (The default value of` nil' is a subset of all tag sets, + so in this case no instantiators will be screened out.) If EXACT-P + is non-`nil', however, TAG-SET must be equal to an instantiator's + tag set for the instantiator to be returned. + + - Function: specifier-specs specifier &optional locale tag-set exact-p + This function returns the specification(s) for SPECIFIER in LOCALE. + + If LOCALE is a single locale or is a list of one element + containing a single locale, then a "short form" of the + instantiators for that locale will be returned. Otherwise, this + function is identical to `specifier-spec-list'. + + The "short form" is designed for readability and not for ease of + use in Lisp programs, and is as follows: + + 1. If there is only one instantiator, then an inst-pair (i.e. + cons of tag and instantiator) will be returned; otherwise a + list of inst-pairs will be returned. + + 2. For each inst-pair returned, if the instantiator's tag is + `any', the tag will be removed and the instantiator itself + will be returned instead of the inst-pair. + + 3. If there is only one instantiator, its value is `nil', and + its tag is `any', a one-element list containing `nil' will be + returned rather than just `nil', to distinguish this case + from there being no instantiators at all. + + + - Function: specifier-fallback specifier + This function returns the fallback value for SPECIFIER. Fallback + values are provided by the C code for certain built-in specifiers + to make sure that instancing won't fail even if all specs are + removed from the specifier, or to implement simple inheritance + behavior (e.g. this method is used to ensure that faces other than + `default' inherit their attributes from `default'). By design, + you cannot change the fallback value, and specifiers created with + `make-specifier' will never have a fallback (although a similar, + Lisp-accessible capability may be provided in the future to allow + for inheritance). + + The fallback value will be an inst-list that is instanced like any + other inst-list, a specifier of the same type as SPECIFIER + (results in inheritance), or `nil' for no fallback. + + When you instance a specifier, you can explicitly request that the + fallback not be consulted. (The C code does this, for example, when + merging faces.) See `specifier-instance'. + + +File: lispref.info, Node: Specifier Tag Functions, Next: Specifier Instancing Functions, Prev: Retrieving Specifications, Up: Specifiers + +Working With Specifier Tags +=========================== + + A specifier tag set is an entity that is attached to an instantiator +and can be used to restrict the scope of that instantiator to a +particular device class or device type and/or to mark instantiators +added by a particular package so that they can be later removed. + + A specifier tag set consists of a list of zero of more specifier +tags, each of which is a symbol that is recognized by XEmacs as a tag. +(The valid device types and device classes are always tags, as are any +tags defined by `define-specifier-tag'.) It is called a "tag set" (as +opposed to a list) because the order of the tags or the number of times +a particular tag occurs does not matter. + + Each tag has a predicate associated with it, which specifies whether +that tag applies to a particular device. The tags which are device +types and classes match devices of that type or class. User-defined +tags can have any predicate, or none (meaning that all devices match). +When attempting to instance a specifier, a particular instantiator is +only considered if the device of the domain being instanced over matches +all tags in the tag set attached to that instantiator. + + Most of the time, a tag set is not specified, and the instantiator +gets a null tag set, which matches all devices. + + - Function: valid-specifier-tag-p tag + This function returns non-`nil' if TAG is a valid specifier tag. + + - Function: valid-specifier-tag-set-p tag-set + This function returns non-`nil' if TAG-SET is a valid specifier + tag set. + + - Function: canonicalize-tag-set tag-set + This function canonicalizes the given tag set. Two canonicalized + tag sets can be compared with `equal' to see if they represent the + same tag set. (Specifically, canonicalizing involves sorting by + symbol name and removing duplicates.) + + - Function: device-matches-specifier-tag-set-p device tag-set + This function returns non-`nil' if DEVICE matches specifier tag + set TAG-SET. This means that DEVICE matches each tag in the tag + set. + + - Function: define-specifier-tag tag &optional predicate + This function defines a new specifier tag. If PREDICATE is + specified, it should be a function of one argument (a device) that + specifies whether the tag matches that particular device. If + PREDICATE is omitted, the tag matches all devices. + + You can redefine an existing user-defined specifier tag. However, + you cannot redefine the built-in specifier tags (the device types + and classes) or the symbols `nil', `t', `all', or `global'. + + - Function: device-matching-specifier-tag-list &optional device + This function returns a list of all specifier tags matching + DEVICE. DEVICE defaults to the selected device if omitted. + + - Function: specifier-tag-list + This function returns a list of all currently-defined specifier + tags. This includes the built-in ones (the device types and + classes). + + - Function: specifier-tag-predicate tag + This function returns the predicate for the given specifier tag. + + +File: lispref.info, Node: Specifier Instancing Functions, Next: Specifier Example, Prev: Specifier Tag Functions, Up: Specifiers + +Functions for Instancing a Specifier +==================================== + + - Function: specifier-instance specifier &optional domain default + no-fallback + This function instantiates SPECIFIER (return its value) in DOMAIN. + If no instance can be generated for this domain, return DEFAULT. + + DOMAIN should be a window, frame, or device. Other values that + are legal as a locale (e.g. a buffer) are not valid as a domain + because they do not provide enough information to identify a + particular device (see `valid-specifier-domain-p'). DOMAIN + defaults to the selected window if omitted. + + "Instantiating" a specifier in a particular domain means + determining the specifier's "value" in that domain. This is + accomplished by searching through the specifications in the + specifier that correspond to all locales that can be derived from + the given domain, from specific to general. In most cases, the + domain is an Emacs window. In that case specifications are + searched for as follows: + + 1. A specification whose locale is the window itself; + + 2. A specification whose locale is the window's buffer; + + 3. A specification whose locale is the window's frame; + + 4. A specification whose locale is the window's frame's device; + + 5. A specification whose locale is the symbol `global'. + + If all of those fail, then the C-code-provided fallback value for + this specifier is consulted (see `specifier-fallback'). If it is + an inst-list, then this function attempts to instantiate that list + just as when a specification is located in the first five steps + above. If the fallback is a specifier, `specifier-instance' is + called recursively on this specifier and the return value used. + Note, however, that if the optional argument NO-FALLBACK is + non-`nil', the fallback value will not be consulted. + + Note that there may be more than one specification matching a + particular locale; all such specifications are considered before + looking for any specifications for more general locales. Any + particular specification that is found may be rejected because it + is tagged to a particular device class (e.g. `color') or device + type (e.g. `x') or both and the device for the given domain does + not match this, or because the specification is not valid for the + device of the given domain (e.g. the font or color name does not + exist for this particular X server). + + The returned value is dependent on the type of specifier. For + example, for a font specifier (as returned by the `face-font' + function), the returned value will be a font-instance object. For + images, the returned value will be a string, pixmap, or subwindow. + + - Function: specifier-instance-from-inst-list specifier domain + inst-list &optional default + This function attempts to convert a particular inst-list into an + instance. This attempts to instantiate INST-LIST in the given + DOMAIN, as if INST-LIST existed in a specification in SPECIFIER. + If the instantiation fails, DEFAULT is returned. In most + circumstances, you should not use this function; use + `specifier-instance' instead. + + +File: lispref.info, Node: Specifier Example, Next: Creating Specifiers, Prev: Specifier Instancing Functions, Up: Specifiers + +Example of Specifier Usage +========================== + + Now let us present an example to clarify the theoretical discussions +we have been through. In this example, we will use the general +specifier functions for clarity. Keep in mind that many types of +specifiers, and some other types of objects that are associated with +specifiers (e.g. faces), provide convenience functions making it easier +to work with objects of that type. + + Let us consider the background color of the default face. A +specifier is used to specify how that color will appear in different +domains. First, let's retrieve the specifier: + + (setq sp (face-property 'default 'background)) + => # + + (specifier-specs sp) + => ((# (nil . "forest green")) + (# (nil . "hot pink")) + (# (nil . "puke orange") + (nil . "moccasin")) + (# (nil . "magenta")) + (global ((tty) . "cyan") (nil . "white")) + ) + + Then, say we want to determine what the background color of the +default face is for the window currently displaying the buffer +`*scratch*'. We call + + (get-buffer-window "*scratch*") + => # + (window-frame (get-buffer-window "*scratch*")) + => # + (specifier-instance sp (get-buffer-window "*scratch*")) + => # + + Note that we passed a window to `specifier-instance', not a buffer. +We cannot pass a buffer because a buffer by itself does not provide +enough information. The buffer might not be displayed anywhere at all, +or could be displayed in many different frames on different devices. + + The result is arrived at like this: + + 1. First, we look for a specification matching the buffer displayed + in the window, i.e. `*scratch*'. There are none, so we proceed. + + 2. Then, we look for a specification matching the window itself. + Again, there are none. + + 3. Then, we look for a specification matching the window's frame. The + specification `(# . "puke orange")' is + found. We call the instantiation method for colors, passing it the + locale we were searching over (i.e. the window, in this case) and + the instantiator (`"puke orange"'). However, the particular device + which this window is on (let's say it's an X connection) doesn't + recognize the color `"puke orange"', so the specification is + rejected. + + 4. So we continue looking for a specification matching the window's + frame. We find `(# . "moccasin")'. Again, + we call the instantiation method for colors. This time, the X + server our window is on recognizes the color `moccasin', and so the + instantiation method succeeds and returns a color instance. + + +File: lispref.info, Node: Creating Specifiers, Next: Specifier Validation Functions, Prev: Specifier Example, Up: Specifiers + +Creating New Specifier Objects +============================== + + - Function: make-specifier type + This function creates a new specifier. + + A specifier is an object that can be used to keep track of a + property whose value can be per-buffer, per-window, per-frame, or + per-device, and can further be restricted to a particular + device-type or device-class. Specifiers are used, for example, + for the various built-in properties of a face; this allows a face + to have different values in different frames, buffers, etc. For + more information, see `specifier-instance', `specifier-specs', and + `add-spec-to-specifier'; or, for a detailed description of + specifiers, including how they are instantiated over a particular + domain (i.e. how their value in that domain is determined), see + the chapter on specifiers in the XEmacs Lisp Reference Manual. + + TYPE specifies the particular type of specifier, and should be one + of the symbols `generic', `integer', `natnum', `boolean', `color', + `font', `image', `face-boolean', or `toolbar'. + + For more information on particular types of specifiers, see the + functions `generic-specifier-p', `integer-specifier-p', + `natnum-specifier-p', `boolean-specifier-p', `color-specifier-p', + `font-specifier-p', `image-specifier-p', + `face-boolean-specifier-p', and `toolbar-specifier-p'. + + - Function: make-specifier-and-init type spec-list &optional + dont-canonicalize + This function creates and initialize a new specifier. + + This is a front-end onto `make-specifier' that allows you to create + a specifier and add specs to it at the same time. TYPE specifies + the specifier type. SPEC-LIST supplies the specification(s) to be + added to the specifier. Normally, almost any reasonable + abbreviation of the full spec-list form is accepted, and is + converted to the full form; however, if optional argument + DONT-CANONICALIZE is non-`nil', this conversion is not performed, + and the SPEC-LIST must already be in full form. See + `canonicalize-spec-list'. + + +File: lispref.info, Node: Specifier Validation Functions, Next: Other Specification Functions, Prev: Creating Specifiers, Up: Specifiers + +Functions for Checking the Validity of Specifier Components +=========================================================== + + - Function: valid-specifier-domain-p domain + This function returns non-`nil' if DOMAIN is a valid specifier + domain. A domain is used to instance a specifier (i.e. determine + the specifier's value in that domain). Valid domains are a + window, frame, or device. (`nil' is not valid.) + + - Function: valid-specifier-locale-p locale + This function returns non-`nil' if LOCALE is a valid specifier + locale. Valid locales are a device, a frame, a window, a buffer, + and `global'. (`nil' is not valid.) + + - Function: valid-specifier-locale-type-p locale-type + Given a specifier LOCALE-TYPE, this function returns non-nil if it + is valid. Valid locale types are the symbols `global', `device', + `frame', `window', and `buffer'. (Note, however, that in functions + that accept either a locale or a locale type, `global' is + considered an individual locale.) + + - Function: valid-specifier-type-p specifier-type + Given a SPECIFIER-TYPE, this function returns non-`nil' if it is + valid. Valid types are `generic', `integer', `boolean', `color', + `font', `image', `face-boolean', and `toolbar'. + + - Function: valid-specifier-tag-p tag + This function returns non-`nil' if TAG is a valid specifier tag. + + - Function: valid-instantiator-p instantiator specifier-type + This function returns non-`nil' if INSTANTIATOR is valid for + SPECIFIER-TYPE. + + - Function: valid-inst-list-p inst-list type + This function returns non-`nil' if INST-LIST is valid for + specifier type TYPE. + + - Function: valid-spec-list-p spec-list type + This function returns non-`nil' if SPEC-LIST is valid for + specifier type TYPE. + + - Function: check-valid-instantiator instantiator specifier-type + This function signals an error if INSTANTIATOR is invalid for + SPECIFIER-TYPE. + + - Function: check-valid-inst-list inst-list type + This function signals an error if INST-LIST is invalid for + specifier type TYPE. + + - Function: check-valid-spec-list spec-list type + This function signals an error if SPEC-LIST is invalid for + specifier type TYPE. + + +File: lispref.info, Node: Other Specification Functions, Prev: Specifier Validation Functions, Up: Specifiers + +Other Functions for Working with Specifications in a Specifier +============================================================== + + - Function: copy-specifier specifier &optional dest locale tag-set + exact-p how-to-add + This function copies SPECIFIER to DEST, or creates a new one if + DEST is `nil'. + + If DEST is `nil' or omitted, a new specifier will be created and + the specifications copied into it. Otherwise, the specifications + will be copied into the existing specifier in DEST. + + If LOCALE is `nil' or the symbol `all', all specifications will be + copied. If LOCALE is a particular locale, the specification for + that particular locale will be copied. If LOCALE is a locale + type, the specifications for all locales of that type will be + copied. LOCALE can also be a list of locales, locale types, + and/or `all'; this is equivalent to calling `copy-specifier' for + each of the elements of the list. See `specifier-spec-list' for + more information about LOCALE. + + Only instantiators where TAG-SET (a list of zero or more tags) is + a subset of (or possibly equal to) the instantiator's tag set are + copied. (The default value of `nil' is a subset of all tag sets, + so in this case no instantiators will be screened out.) If EXACT-P + is non-`nil', however, TAG-SET must be equal to an instantiator's + tag set for the instantiator to be copied. + + Optional argument HOW-TO-ADD specifies what to do with existing + specifications in DEST. If nil, then whichever locales or locale + types are copied will first be completely erased in DEST. + Otherwise, it is the same as in `add-spec-to-specifier'. + + - Function: remove-specifier specifier &optional locale tag-set exact-p + This function removes specification(s) for SPECIFIER. + + If LOCALE is a particular locale (a buffer, window, frame, device, + or the symbol `global'), the specification for that locale will be + removed. + + If instead, LOCALE is a locale type (i.e. a symbol `buffer', + `window', `frame', or `device'), the specifications for all + locales of that type will be removed. + + If LOCALE is `nil' or the symbol `all', all specifications will be + removed. + + LOCALE can also be a list of locales, locale types, and/or `all'; + this is equivalent to calling `remove-specifier' for each of the + elements in the list. + + Only instantiators where TAG-SET (a list of zero or more tags) is + a subset of (or possibly equal to) the instantiator's tag set are + removed. (The default value of `nil' is a subset of all tag sets, + so in this case no instantiators will be screened out.) If EXACT-P + is non-`nil', however, TAG-SET must be equal to an instantiator's + tag set for the instantiator to be removed. + + - Function: map-specifier specifier func &optional locale maparg + This function applies FUNC to the specification(s) for LOCALE in + SPECIFIER. + + If LOCALE is a locale, FUNC will be called for that locale. If + LOCALE is a locale type, FUNC will be mapped over all locales of + that type. If LOCALE is `nil' or the symbol `all', FUNC will be + mapped over all locales in SPECIFIER. + + FUNC is called with four arguments: the SPECIFIER, the locale + being mapped over, the inst-list for that locale, and the optional + MAPARG. If any invocation of FUNC returns non-`nil', the mapping + will stop and the returned value becomes the value returned from + `map-specifier'. Otherwise, `map-specifier' returns `nil'. + + - Function: specifier-locale-type-from-locale locale + Given a specifier LOCALE, this function returns its type. + + +File: lispref.info, Node: Faces and Window-System Objects, Next: Glyphs, Prev: Specifiers, Up: Top + +Faces and Window-System Objects +******************************* + +* Menu: + +* Faces:: Controlling the way text looks. +* Fonts:: Controlling the typeface of text. +* Colors:: Controlling the color of text and pixmaps. + + +File: lispref.info, Node: Faces, Next: Fonts, Up: Faces and Window-System Objects + +Faces +===== + + A "face" is a named collection of graphical properties: font, +foreground color, background color, background pixmap, optional +underlining, and (on TTY devices) whether the text is to be highlighted, +dimmed, blinking, or displayed in reverse video. Faces control the +display of text on the screen. Every face has a name, which is a symbol +such as `default' or `modeline'. + + Each built-in property of a face is controlled using a specifier, +which allows it to have separate values in particular buffers, frames, +windows, and devices and to further vary according to device type (X or +TTY) and device class (color, mono, or grayscale). *Note Specifiers::, +for more information. + + The face named `default' is used for ordinary text. The face named +`modeline' is used for displaying the modeline. The face named +`highlight' is used for highlighted extents (*note Extents::). The +faces named `left-margin' and `right-margin' are used for the left and +right margin areas, respectively (*note Annotations::). The face named +`zmacs-region' is used for the highlighted region between point and +mark. + +* Menu: + +* Merging Faces:: How XEmacs decides which face to use + for a character. +* Basic Face Functions:: How to define and examine faces. +* Face Properties:: How to access and modify a face's properties. +* Face Convenience Functions:: Convenience functions for accessing + particular properties of a face. +* Other Face Display Functions:: Other functions pertaining to how a + a face appears. + + +File: lispref.info, Node: Merging Faces, Next: Basic Face Functions, Up: Faces + +Merging Faces for Display +------------------------- + + Here are all the ways to specify which face to use for display of +text: + + * With defaults. Each frame has a "default face", which is used for + all text that doesn't somehow specify another face. The face named + `default' applies to the text area, while the faces `left-margin' + and `right-margin' apply to the left and right margin areas. + + * With text properties. A character may have a `face' property; if + so, it's displayed with that face. (Text properties are actually + implemented in terms of extents.) *Note Text Properties::. + + * With extents. An extent may have a `face' property, which applies + to all the text covered by the extent; in addition, if the + `highlight' property is set, the `highlight' property applies when + the mouse moves over the extent or if the extent is explicitly + highlighted. *Note Extents::. + + * With annotations. Annotations that are inserted into a buffer can + specify their own face. (Annotations are actually implemented in + terms of extents.) *Note Annotations::. + + If these various sources together specify more than one face for a +particular character, XEmacs merges the properties of the various faces +specified. Extents, text properties, and annotations all use the same +underlying representation (as extents). When multiple extents cover one +character, an extent with higher priority overrides those with lower +priority. *Note Extents::. If no extent covers a particular character, +the `default' face is used. + + If a background pixmap is specified, it determines what will be +displayed in the background of text characters. If the background +pixmap is actually a pixmap, with its colors specified, those colors are +used; if it is a bitmap, the face's foreground and background colors are +used to color it. + + +File: lispref.info, Node: Basic Face Functions, Next: Face Properties, Prev: Merging Faces, Up: Faces + +Basic Functions for Working with Faces +-------------------------------------- + + The properties a face can specify include the font, the foreground +color, the background color, the background pixmap, the underlining, +the display table, and (for TTY devices) whether the text is to be +highlighted, dimmed, blinking, or displayed in reverse video. The face +can also leave these unspecified, causing them to assume the value of +the corresponding property of the `default' face. + + Here are the basic primitives for working with faces. + + - Function: make-face name &optional doc-string temporary + This function defines and returns a new face named NAME, initially + with all properties unspecified. It does nothing if there is + already a face named NAME. Optional argument DOC-STRING specifies + an explanatory string used for descriptive purposes. If optional + argument TEMPORARY is non-`nil', the face will automatically + disappear when there are no more references to it anywhere in text + or Lisp code (otherwise, the face will continue to exist + indefinitely even if it is not used). + + - Function: face-list &optional temporary + This function returns a list of the names of all defined faces. If + TEMPORARY is `nil', only the permanent faces are included. If it + is `t', only the temporary faces are included. If it is any other + non-`nil' value both permanent and temporary are included. + + - Function: facep object + This function returns whether the given object is a face. + + - Function: copy-face old-face new-name &optional locale how-to-add + This function defines a new face named NEW-NAME which is a copy of + the existing face named OLD-FACE. If there is already a face + named NEW-NAME, then it alters the face to have the same + properties as OLD-FACE. LOCALE and HOW-TO-ADD let you copy just + parts of the old face rather than the whole face, and are as in + `copy-specifier' (*note Specifiers::). + + File: lispref.info, Node: Face Properties, Next: Face Convenience Functions, Prev: Basic Face Functions, Up: Faces Face Properties @@ -536,461 +1133,3 @@ Color Specifiers - Function: color-specifier-p object This function returns non-`nil' if OBJECT is a color specifier. - -File: lispref.info, Node: Color Instances, Next: Color Instance Properties, Prev: Color Specifiers, Up: Colors - -Color Instances ---------------- - - A "color-instance object" is an object describing the way a color -specifier is instanced in a particular domain. Functions such as -`face-background-instance' return a color-instance object. For example, - - (face-background-instance 'default (next-window)) - => # - - The color-instance object returned describes the way the background -color of the `default' face is displayed in the next window after the -selected one. - - - Function: color-instance-p object - This function returns non-`nil' if OBJECT is a color-instance. - - -File: lispref.info, Node: Color Instance Properties, Next: Color Convenience Functions, Prev: Color Instances, Up: Colors - -Color Instance Properties -------------------------- - - - Function: color-instance-name color-instance - This function returns the name used to allocate COLOR-INSTANCE. - - - Function: color-instance-rgb-components color-instance - This function returns a three element list containing the red, - green, and blue color components of COLOR-INSTANCE. - - (color-instance-rgb-components - (face-background-instance 'default (next-window))) - => (65535 58596 46517) - - -File: lispref.info, Node: Color Convenience Functions, Prev: Color Instance Properties, Up: Colors - -Color Convenience Functions ---------------------------- - - - Function: color-name color &optional domain - This function returns the name of the COLOR in the specified - DOMAIN, if any. COLOR should be a color specifier object and - DOMAIN is normally a window and defaults to the selected window if - omitted. This is equivalent to using `specifier-instance' and - applying `color-instance-name' to the result. - - - Function: color-rgb-components color &optional domain - This function returns the RGB components of the COLOR in the - specified DOMAIN, if any. COLOR should be a color specifier - object and DOMAIN is normally a window and defaults to the - selected window if omitted. This is equivalent to using - `specifier-instance' and applying `color-instance-rgb-components' - to the result. - - (color-rgb-components (face-background 'default (next-window))) - => (65535 58596 46517) - - -File: lispref.info, Node: Glyphs, Next: Annotations, Prev: Faces and Window-System Objects, Up: Top - -Glyphs -****** - - A "glyph" is an object that is used for pixmaps and images of all -sorts, as well as for things that "act" like pixmaps, such as -non-textual strings ("annotations") displayed in a buffer or in the -margins. It is used in begin-glyphs and end-glyphs attached to extents, -marginal and textual annotations, overlay arrows (`overlay-arrow-*' -variables), toolbar buttons, mouse pointers, frame icons, truncation and -continuation markers, and the like. (Basically, any place there is an -image or something that acts like an image, there will be a glyph object -representing it.) - - The actual image that is displayed (as opposed to its position or -clipping) is defined by an "image specifier" object contained within -the glyph. The separation between an image specifier object and a -glyph object is made because the glyph includes other properties than -just the actual image: e.g. the face it is displayed in (for text -images), the alignment of the image (when it is in a buffer), etc. - - - Function: glyphp object - This function returns `t' if OBJECT is a glyph. - -* Menu: - -* Glyph Functions:: Functions for working with glyphs. -* Images:: Graphical images displayed in a frame. -* Glyph Types:: Each glyph has a particular type. -* Mouse Pointer:: Controlling the mouse pointer. -* Redisplay Glyphs:: Glyphs controlling various redisplay functions. -* Subwindows:: Inserting an externally-controlled subwindow - into a buffer. - - -File: lispref.info, Node: Glyph Functions, Next: Images, Up: Glyphs - -Glyph Functions -=============== - -* Menu: - -* Creating Glyphs:: Creating new glyphs. -* Glyph Properties:: Accessing and modifying a glyph's properties. -* Glyph Convenience Functions:: - Convenience functions for accessing particular - properties of a glyph. -* Glyph Dimensions:: Determining the height, width, etc. of a glyph. - - -File: lispref.info, Node: Creating Glyphs, Next: Glyph Properties, Up: Glyph Functions - -Creating Glyphs ---------------- - - - Function: make-glyph &optional spec-list type - This function creates a new glyph object of type TYPE. - - SPEC-LIST is used to initialize the glyph's image. It is - typically an image instantiator (a string or a vector; *Note Image - Specifiers::), but can also be a list of such instantiators (each - one in turn is tried until an image is successfully produced), a - cons of a locale (frame, buffer, etc.) and an instantiator, a list - of such conses, or any other form accepted by - `canonicalize-spec-list'. *Note Specifiers::, for more - information about specifiers. - - TYPE specifies the type of the glyph, which specifies in which - contexts the glyph can be used, and controls the allowable image - types into which the glyph's image can be instantiated. TYPE - should be one of `buffer' (used for glyphs in an extent, the - modeline, the toolbar, or elsewhere in a buffer), `pointer' (used - for the mouse-pointer), or `icon' (used for a frame's icon), and - defaults to `buffer'. *Note Glyph Types::. - - - Function: make-glyph-internal &optional type - This function creates a new, uninitialized glyph of type TYPE. - - - Function: make-pointer-glyph &optional spec-list - This function is equivalent to calling `make-glyph' with a TYPE of - `pointer'. - - - Function: make-icon-glyph &optional spec-list - This function is equivalent to calling `make-glyph' with a TYPE of - `icon'. - - -File: lispref.info, Node: Glyph Properties, Next: Glyph Convenience Functions, Prev: Creating Glyphs, Up: Glyph Functions - -Glyph Properties ----------------- - - Each glyph has a list of properties, which control all of the -aspects of the glyph's appearance. The following symbols have -predefined meanings: - -`image' - The image used to display the glyph. - -`baseline' - Percent above baseline that glyph is to be displayed. Only for - glyphs displayed inside of a buffer. - -`contrib-p' - Whether the glyph contributes to the height of the line it's on. - Only for glyphs displayed inside of a buffer. - -`face' - Face of this glyph (_not_ a specifier). - - - Function: set-glyph-property glyph property value &optional locale - tag-set how-to-add - This function changes a property of a GLYPH. - - For built-in properties, the actual value of the property is a - specifier and you cannot change this; but you can change the - specifications within the specifier, and that is what this - function will do. For user-defined properties, you can use this - function to either change the actual value of the property or, if - this value is a specifier, change the specifications within it. - - If PROPERTY is a built-in property, the specifications to be added - to this property can be supplied in many different ways: - - * If VALUE is a simple instantiator (e.g. a string naming a - pixmap filename) or a list of instantiators, then the - instantiator(s) will be added as a specification of the - property for the given LOCALE (which defaults to `global' if - omitted). - - * If VALUE is a list of specifications (each of which is a cons - of a locale and a list of instantiators), then LOCALE must be - `nil' (it does not make sense to explicitly specify a locale - in this case), and specifications will be added as given. - - * If VALUE is a specifier (as would be returned by - `glyph-property' if no LOCALE argument is given), then some - or all of the specifications in the specifier will be added - to the property. In this case, the function is really - equivalent to `copy-specifier' and LOCALE has the same - semantics (if it is a particular locale, the specification - for the locale will be copied; if a locale type, - specifications for all locales of that type will be copied; - if `nil' or `all', then all specifications will be copied). - - HOW-TO-ADD should be either `nil' or one of the symbols `prepend', - `append', `remove-tag-set-prepend', `remove-tag-set-append', - `remove-locale', `remove-locale-type', or `remove-all'. See - `copy-specifier' and `add-spec-to-specifier' for a description of - what each of these means. Most of the time, you do not need to - worry about this argument; the default behavior usually is fine. - - In general, it is OK to pass an instance object (e.g. as returned - by `glyph-property-instance') as an instantiator in place of an - actual instantiator. In such a case, the instantiator used to - create that instance object will be used (for example, if you set - a font-instance object as the value of the `font' property, then - the font name used to create that object will be used instead). - If some cases, however, doing this conversion does not make sense, - and this will be noted in the documentation for particular types - of instance objects. - - If PROPERTY is not a built-in property, then this function will - simply set its value if LOCALE is `nil'. However, if LOCALE is - given, then this function will attempt to add VALUE as the - instantiator for the given LOCALE, using `add-spec-to-specifier'. - If the value of the property is not a specifier, it will - automatically be converted into a `generic' specifier. - - - Function: glyph-property glyph property &optional locale - This function returns GLYPH's value of the given PROPERTY. - - If LOCALE is omitted, the GLYPH's actual value for PROPERTY will - be returned. For built-in properties, this will be a specifier - object of a type appropriate to the property (e.g. a font or color - specifier). For other properties, this could be anything. - - If LOCALE is supplied, then instead of returning the actual value, - the specification(s) for the given locale or locale type will be - returned. This will only work if the actual value of PROPERTY is - a specifier (this will always be the case for built-in properties, - but may or may not apply to user-defined properties). If the - actual value of PROPERTY is not a specifier, this value will - simply be returned regardless of LOCALE. - - The return value will be a list of instantiators (e.g. vectors - specifying pixmap data), or a list of specifications, each of - which is a cons of a locale and a list of instantiators. - Specifically, if LOCALE is a particular locale (a buffer, window, - frame, device, or `global'), a list of instantiators for that - locale will be returned. Otherwise, if LOCALE is a locale type - (one of the symbols `buffer', `window', `frame', or `device'), the - specifications for all locales of that type will be returned. - Finally, if LOCALE is `all', the specifications for all locales of - all types will be returned. - - The specifications in a specifier determine what the value of - PROPERTY will be in a particular "domain" or set of circumstances, - which is typically a particular Emacs window along with the buffer - it contains and the frame and device it lies within. The value is - derived from the instantiator associated with the most specific - locale (in the order buffer, window, frame, device, and `global') - that matches the domain in question. In other words, given a - domain (i.e. an Emacs window, usually), the specifier for PROPERTY - will first be searched for a specification whose locale is the - buffer contained within that window; then for a specification - whose locale is the window itself; then for a specification whose - locale is the frame that the window is contained within; etc. The - first instantiator that is valid for the domain (usually this - means that the instantiator is recognized by the device [i.e. the - X server or TTY device] that the domain is on). The function - `glyph-property-instance' actually does all this, and is used to - determine how to display the glyph. - - - Function: glyph-property-instance glyph property &optional domain - default no-fallback - This function returns the instance of GLYPH's PROPERTY in the - specified DOMAIN. - - Under most circumstances, DOMAIN will be a particular window, and - the returned instance describes how the specified property - actually is displayed for that window and the particular buffer in - it. Note that this may not be the same as how the property - appears when the buffer is displayed in a different window or - frame, or how the property appears in the same window if you - switch to another buffer in that window; and in those cases, the - returned instance would be different. - - The returned instance is an image-instance object, and you can - query it using the appropriate image instance functions. For - example, you could use `image-instance-depth' to find out the - depth (number of color planes) of a pixmap displayed in a - particular window. The results might be different from the - results you would get for another window (perhaps the user - specified a different image for the frame that window is on; or - perhaps the same image was specified but the window is on a - different X server, and that X server has different color - capabilities from this one). - - DOMAIN defaults to the selected window if omitted. - - DOMAIN can be a frame or device, instead of a window. The value - returned for such a domain is used in special circumstances when a - more specific domain does not apply; for example, a frame value - might be used for coloring a toolbar, which is conceptually - attached to a frame rather than a particular window. The value is - also useful in determining what the value would be for a - particular window within the frame or device, if it is not - overridden by a more specific specification. - - If PROPERTY does not name a built-in property, its value will - simply be returned unless it is a specifier object, in which case - it will be instanced using `specifier-instance'. - - Optional arguments DEFAULT and NO-FALLBACK are the same as in - `specifier-instance'. *Note Specifiers::. - - - Function: remove-glyph-property glyph property &optional locale - tag-set exact-p - This function removes a property from a glyph. For built-in - properties, this is analogous to `remove-specifier'. *Note - remove-specifier-p: Specifiers, for the meaning of the LOCALE, - TAG-SET, and EXACT-P arguments. - - -File: lispref.info, Node: Glyph Convenience Functions, Next: Glyph Dimensions, Prev: Glyph Properties, Up: Glyph Functions - -Glyph Convenience Functions ---------------------------- - - The following functions are provided for working with specific -properties of a glyph. Note that these are exactly like calling the -general functions described above and passing in the appropriate value -for PROPERTY. - - Remember that if you want to determine the "value" of a specific -glyph property, you probably want to use the `*-instance' functions. -For example, to determine whether a glyph contributes to its line -height, use `glyph-contrib-p-instance', not `glyph-contrib-p'. (The -latter will return a boolean specifier or a list of specifications, and -you probably aren't concerned with these.) - - - Function: glyph-image glyph &optional locale - This function is equivalent to calling `glyph-property' with a - property of `image'. The return value will be an image specifier - if LOCALE is `nil' or omitted; otherwise, it will be a - specification or list of specifications. - - - Function: set-glyph-image glyph spec &optional locale tag-set - how-to-add - This function is equivalent to calling `set-glyph-property' with a - property of `image'. - - - Function: glyph-image-instance glyph &optional domain default - no-fallback - This function returns the instance of GLYPH's image in the given - DOMAIN, and is equivalent to calling `glyph-property-instance' - with a property of `image'. The return value will be an image - instance. - - Normally DOMAIN will be a window or `nil' (meaning the selected - window), and an instance object describing how the image appears - in that particular window and buffer will be returned. - - - Function: glyph-contrib-p glyph &optional locale - This function is equivalent to calling `glyph-property' with a - property of `contrib-p'. The return value will be a boolean - specifier if LOCALE is `nil' or omitted; otherwise, it will be a - specification or list of specifications. - - - Function: set-glyph-contrib-p glyph spec &optional locale tag-set - how-to-add - This function is equivalent to calling `set-glyph-property' with a - property of `contrib-p'. - - - Function: glyph-contrib-p-instance glyph &optional domain default - no-fallback - This function returns whether the glyph contributes to its line - height in the given DOMAIN, and is equivalent to calling - `glyph-property-instance' with a property of `contrib-p'. The - return value will be either `nil' or `t'. (Normally DOMAIN will be - a window or `nil', meaning the selected window.) - - - Function: glyph-baseline glyph &optional locale - This function is equivalent to calling `glyph-property' with a - property of `baseline'. The return value will be a specifier if - LOCALE is `nil' or omitted; otherwise, it will be a specification - or list of specifications. - - - Function: set-glyph-baseline glyph spec &optional locale tag-set - how-to-add - This function is equivalent to calling `set-glyph-property' with a - property of `baseline'. - - - Function: glyph-baseline-instance glyph &optional domain default - no-fallback - This function returns the instance of GLYPH's baseline value in - the given DOMAIN, and is equivalent to calling - `glyph-property-instance' with a property of `baseline'. The - return value will be an integer or `nil'. - - Normally DOMAIN will be a window or `nil' (meaning the selected - window), and an instance object describing the baseline value - appears in that particular window and buffer will be returned. - - - Function: glyph-face glyph - This function returns the face of GLYPH. (Remember, this is not a - specifier, but a simple property.) - - - Function: set-glyph-face glyph face - This function changes the face of GLYPH to FACE. - - -File: lispref.info, Node: Glyph Dimensions, Prev: Glyph Convenience Functions, Up: Glyph Functions - -Glyph Dimensions ----------------- - - - Function: glyph-width glyph &optional window - This function returns the width of GLYPH on WINDOW. This may not - be exact as it does not take into account all of the context that - redisplay will. - - - Function: glyph-ascent glyph &optional window - This function returns the ascent value of GLYPH on WINDOW. This - may not be exact as it does not take into account all of the - context that redisplay will. - - - Function: glyph-descent glyph &optional window - This function returns the descent value of GLYPH on WINDOW. This - may not be exact as it does not take into account all of the - context that redisplay will. - - - Function: glyph-height glyph &optional window - This function returns the height of GLYPH on WINDOW. (This is - equivalent to the sum of the ascent and descent values.) This may - not be exact as it does not take into account all of the context - that redisplay will. - - -File: lispref.info, Node: Images, Next: Glyph Types, Prev: Glyph Functions, Up: Glyphs - -Images -====== - -* Menu: - -* Image Specifiers:: Specifying how an image will appear. -* Image Instantiator Conversion:: - Conversion is applied to image instantiators - at the time they are added to an - image specifier or at the time they - are passed to `make-image-instance'. -* Image Instances:: What an image specifier gets instanced as. - diff --git a/info/lispref.info-36 b/info/lispref.info-36 index 26a4393..473b7f6 100644 --- a/info/lispref.info-36 +++ b/info/lispref.info-36 @@ -50,6 +50,464 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Color Instances, Next: Color Instance Properties, Prev: Color Specifiers, Up: Colors + +Color Instances +--------------- + + A "color-instance object" is an object describing the way a color +specifier is instanced in a particular domain. Functions such as +`face-background-instance' return a color-instance object. For example, + + (face-background-instance 'default (next-window)) + => # + + The color-instance object returned describes the way the background +color of the `default' face is displayed in the next window after the +selected one. + + - Function: color-instance-p object + This function returns non-`nil' if OBJECT is a color-instance. + + +File: lispref.info, Node: Color Instance Properties, Next: Color Convenience Functions, Prev: Color Instances, Up: Colors + +Color Instance Properties +------------------------- + + - Function: color-instance-name color-instance + This function returns the name used to allocate COLOR-INSTANCE. + + - Function: color-instance-rgb-components color-instance + This function returns a three element list containing the red, + green, and blue color components of COLOR-INSTANCE. + + (color-instance-rgb-components + (face-background-instance 'default (next-window))) + => (65535 58596 46517) + + +File: lispref.info, Node: Color Convenience Functions, Prev: Color Instance Properties, Up: Colors + +Color Convenience Functions +--------------------------- + + - Function: color-name color &optional domain + This function returns the name of the COLOR in the specified + DOMAIN, if any. COLOR should be a color specifier object and + DOMAIN is normally a window and defaults to the selected window if + omitted. This is equivalent to using `specifier-instance' and + applying `color-instance-name' to the result. + + - Function: color-rgb-components color &optional domain + This function returns the RGB components of the COLOR in the + specified DOMAIN, if any. COLOR should be a color specifier + object and DOMAIN is normally a window and defaults to the + selected window if omitted. This is equivalent to using + `specifier-instance' and applying `color-instance-rgb-components' + to the result. + + (color-rgb-components (face-background 'default (next-window))) + => (65535 58596 46517) + + +File: lispref.info, Node: Glyphs, Next: Annotations, Prev: Faces and Window-System Objects, Up: Top + +Glyphs +****** + + A "glyph" is an object that is used for pixmaps and images of all +sorts, as well as for things that "act" like pixmaps, such as +non-textual strings ("annotations") displayed in a buffer or in the +margins. It is used in begin-glyphs and end-glyphs attached to extents, +marginal and textual annotations, overlay arrows (`overlay-arrow-*' +variables), toolbar buttons, mouse pointers, frame icons, truncation and +continuation markers, and the like. (Basically, any place there is an +image or something that acts like an image, there will be a glyph object +representing it.) + + The actual image that is displayed (as opposed to its position or +clipping) is defined by an "image specifier" object contained within +the glyph. The separation between an image specifier object and a +glyph object is made because the glyph includes other properties than +just the actual image: e.g. the face it is displayed in (for text +images), the alignment of the image (when it is in a buffer), etc. + + - Function: glyphp object + This function returns `t' if OBJECT is a glyph. + +* Menu: + +* Glyph Functions:: Functions for working with glyphs. +* Images:: Graphical images displayed in a frame. +* Glyph Types:: Each glyph has a particular type. +* Mouse Pointer:: Controlling the mouse pointer. +* Redisplay Glyphs:: Glyphs controlling various redisplay functions. +* Subwindows:: Inserting an externally-controlled subwindow + into a buffer. + + +File: lispref.info, Node: Glyph Functions, Next: Images, Up: Glyphs + +Glyph Functions +=============== + +* Menu: + +* Creating Glyphs:: Creating new glyphs. +* Glyph Properties:: Accessing and modifying a glyph's properties. +* Glyph Convenience Functions:: + Convenience functions for accessing particular + properties of a glyph. +* Glyph Dimensions:: Determining the height, width, etc. of a glyph. + + +File: lispref.info, Node: Creating Glyphs, Next: Glyph Properties, Up: Glyph Functions + +Creating Glyphs +--------------- + + - Function: make-glyph &optional spec-list type + This function creates a new glyph object of type TYPE. + + SPEC-LIST is used to initialize the glyph's image. It is + typically an image instantiator (a string or a vector; *Note Image + Specifiers::), but can also be a list of such instantiators (each + one in turn is tried until an image is successfully produced), a + cons of a locale (frame, buffer, etc.) and an instantiator, a list + of such conses, or any other form accepted by + `canonicalize-spec-list'. *Note Specifiers::, for more + information about specifiers. + + TYPE specifies the type of the glyph, which specifies in which + contexts the glyph can be used, and controls the allowable image + types into which the glyph's image can be instantiated. TYPE + should be one of `buffer' (used for glyphs in an extent, the + modeline, the toolbar, or elsewhere in a buffer), `pointer' (used + for the mouse-pointer), or `icon' (used for a frame's icon), and + defaults to `buffer'. *Note Glyph Types::. + + - Function: make-glyph-internal &optional type + This function creates a new, uninitialized glyph of type TYPE. + + - Function: make-pointer-glyph &optional spec-list + This function is equivalent to calling `make-glyph' with a TYPE of + `pointer'. + + - Function: make-icon-glyph &optional spec-list + This function is equivalent to calling `make-glyph' with a TYPE of + `icon'. + + +File: lispref.info, Node: Glyph Properties, Next: Glyph Convenience Functions, Prev: Creating Glyphs, Up: Glyph Functions + +Glyph Properties +---------------- + + Each glyph has a list of properties, which control all of the +aspects of the glyph's appearance. The following symbols have +predefined meanings: + +`image' + The image used to display the glyph. + +`baseline' + Percent above baseline that glyph is to be displayed. Only for + glyphs displayed inside of a buffer. + +`contrib-p' + Whether the glyph contributes to the height of the line it's on. + Only for glyphs displayed inside of a buffer. + +`face' + Face of this glyph (_not_ a specifier). + + - Function: set-glyph-property glyph property value &optional locale + tag-set how-to-add + This function changes a property of a GLYPH. + + For built-in properties, the actual value of the property is a + specifier and you cannot change this; but you can change the + specifications within the specifier, and that is what this + function will do. For user-defined properties, you can use this + function to either change the actual value of the property or, if + this value is a specifier, change the specifications within it. + + If PROPERTY is a built-in property, the specifications to be added + to this property can be supplied in many different ways: + + * If VALUE is a simple instantiator (e.g. a string naming a + pixmap filename) or a list of instantiators, then the + instantiator(s) will be added as a specification of the + property for the given LOCALE (which defaults to `global' if + omitted). + + * If VALUE is a list of specifications (each of which is a cons + of a locale and a list of instantiators), then LOCALE must be + `nil' (it does not make sense to explicitly specify a locale + in this case), and specifications will be added as given. + + * If VALUE is a specifier (as would be returned by + `glyph-property' if no LOCALE argument is given), then some + or all of the specifications in the specifier will be added + to the property. In this case, the function is really + equivalent to `copy-specifier' and LOCALE has the same + semantics (if it is a particular locale, the specification + for the locale will be copied; if a locale type, + specifications for all locales of that type will be copied; + if `nil' or `all', then all specifications will be copied). + + HOW-TO-ADD should be either `nil' or one of the symbols `prepend', + `append', `remove-tag-set-prepend', `remove-tag-set-append', + `remove-locale', `remove-locale-type', or `remove-all'. See + `copy-specifier' and `add-spec-to-specifier' for a description of + what each of these means. Most of the time, you do not need to + worry about this argument; the default behavior usually is fine. + + In general, it is OK to pass an instance object (e.g. as returned + by `glyph-property-instance') as an instantiator in place of an + actual instantiator. In such a case, the instantiator used to + create that instance object will be used (for example, if you set + a font-instance object as the value of the `font' property, then + the font name used to create that object will be used instead). + If some cases, however, doing this conversion does not make sense, + and this will be noted in the documentation for particular types + of instance objects. + + If PROPERTY is not a built-in property, then this function will + simply set its value if LOCALE is `nil'. However, if LOCALE is + given, then this function will attempt to add VALUE as the + instantiator for the given LOCALE, using `add-spec-to-specifier'. + If the value of the property is not a specifier, it will + automatically be converted into a `generic' specifier. + + - Function: glyph-property glyph property &optional locale + This function returns GLYPH's value of the given PROPERTY. + + If LOCALE is omitted, the GLYPH's actual value for PROPERTY will + be returned. For built-in properties, this will be a specifier + object of a type appropriate to the property (e.g. a font or color + specifier). For other properties, this could be anything. + + If LOCALE is supplied, then instead of returning the actual value, + the specification(s) for the given locale or locale type will be + returned. This will only work if the actual value of PROPERTY is + a specifier (this will always be the case for built-in properties, + but may or may not apply to user-defined properties). If the + actual value of PROPERTY is not a specifier, this value will + simply be returned regardless of LOCALE. + + The return value will be a list of instantiators (e.g. vectors + specifying pixmap data), or a list of specifications, each of + which is a cons of a locale and a list of instantiators. + Specifically, if LOCALE is a particular locale (a buffer, window, + frame, device, or `global'), a list of instantiators for that + locale will be returned. Otherwise, if LOCALE is a locale type + (one of the symbols `buffer', `window', `frame', or `device'), the + specifications for all locales of that type will be returned. + Finally, if LOCALE is `all', the specifications for all locales of + all types will be returned. + + The specifications in a specifier determine what the value of + PROPERTY will be in a particular "domain" or set of circumstances, + which is typically a particular Emacs window along with the buffer + it contains and the frame and device it lies within. The value is + derived from the instantiator associated with the most specific + locale (in the order buffer, window, frame, device, and `global') + that matches the domain in question. In other words, given a + domain (i.e. an Emacs window, usually), the specifier for PROPERTY + will first be searched for a specification whose locale is the + buffer contained within that window; then for a specification + whose locale is the window itself; then for a specification whose + locale is the frame that the window is contained within; etc. The + first instantiator that is valid for the domain (usually this + means that the instantiator is recognized by the device [i.e. the + X server or TTY device] that the domain is on). The function + `glyph-property-instance' actually does all this, and is used to + determine how to display the glyph. + + - Function: glyph-property-instance glyph property &optional domain + default no-fallback + This function returns the instance of GLYPH's PROPERTY in the + specified DOMAIN. + + Under most circumstances, DOMAIN will be a particular window, and + the returned instance describes how the specified property + actually is displayed for that window and the particular buffer in + it. Note that this may not be the same as how the property + appears when the buffer is displayed in a different window or + frame, or how the property appears in the same window if you + switch to another buffer in that window; and in those cases, the + returned instance would be different. + + The returned instance is an image-instance object, and you can + query it using the appropriate image instance functions. For + example, you could use `image-instance-depth' to find out the + depth (number of color planes) of a pixmap displayed in a + particular window. The results might be different from the + results you would get for another window (perhaps the user + specified a different image for the frame that window is on; or + perhaps the same image was specified but the window is on a + different X server, and that X server has different color + capabilities from this one). + + DOMAIN defaults to the selected window if omitted. + + DOMAIN can be a frame or device, instead of a window. The value + returned for such a domain is used in special circumstances when a + more specific domain does not apply; for example, a frame value + might be used for coloring a toolbar, which is conceptually + attached to a frame rather than a particular window. The value is + also useful in determining what the value would be for a + particular window within the frame or device, if it is not + overridden by a more specific specification. + + If PROPERTY does not name a built-in property, its value will + simply be returned unless it is a specifier object, in which case + it will be instanced using `specifier-instance'. + + Optional arguments DEFAULT and NO-FALLBACK are the same as in + `specifier-instance'. *Note Specifiers::. + + - Function: remove-glyph-property glyph property &optional locale + tag-set exact-p + This function removes a property from a glyph. For built-in + properties, this is analogous to `remove-specifier'. *Note + remove-specifier-p: Specifiers, for the meaning of the LOCALE, + TAG-SET, and EXACT-P arguments. + + +File: lispref.info, Node: Glyph Convenience Functions, Next: Glyph Dimensions, Prev: Glyph Properties, Up: Glyph Functions + +Glyph Convenience Functions +--------------------------- + + The following functions are provided for working with specific +properties of a glyph. Note that these are exactly like calling the +general functions described above and passing in the appropriate value +for PROPERTY. + + Remember that if you want to determine the "value" of a specific +glyph property, you probably want to use the `*-instance' functions. +For example, to determine whether a glyph contributes to its line +height, use `glyph-contrib-p-instance', not `glyph-contrib-p'. (The +latter will return a boolean specifier or a list of specifications, and +you probably aren't concerned with these.) + + - Function: glyph-image glyph &optional locale + This function is equivalent to calling `glyph-property' with a + property of `image'. The return value will be an image specifier + if LOCALE is `nil' or omitted; otherwise, it will be a + specification or list of specifications. + + - Function: set-glyph-image glyph spec &optional locale tag-set + how-to-add + This function is equivalent to calling `set-glyph-property' with a + property of `image'. + + - Function: glyph-image-instance glyph &optional domain default + no-fallback + This function returns the instance of GLYPH's image in the given + DOMAIN, and is equivalent to calling `glyph-property-instance' + with a property of `image'. The return value will be an image + instance. + + Normally DOMAIN will be a window or `nil' (meaning the selected + window), and an instance object describing how the image appears + in that particular window and buffer will be returned. + + - Function: glyph-contrib-p glyph &optional locale + This function is equivalent to calling `glyph-property' with a + property of `contrib-p'. The return value will be a boolean + specifier if LOCALE is `nil' or omitted; otherwise, it will be a + specification or list of specifications. + + - Function: set-glyph-contrib-p glyph spec &optional locale tag-set + how-to-add + This function is equivalent to calling `set-glyph-property' with a + property of `contrib-p'. + + - Function: glyph-contrib-p-instance glyph &optional domain default + no-fallback + This function returns whether the glyph contributes to its line + height in the given DOMAIN, and is equivalent to calling + `glyph-property-instance' with a property of `contrib-p'. The + return value will be either `nil' or `t'. (Normally DOMAIN will be + a window or `nil', meaning the selected window.) + + - Function: glyph-baseline glyph &optional locale + This function is equivalent to calling `glyph-property' with a + property of `baseline'. The return value will be a specifier if + LOCALE is `nil' or omitted; otherwise, it will be a specification + or list of specifications. + + - Function: set-glyph-baseline glyph spec &optional locale tag-set + how-to-add + This function is equivalent to calling `set-glyph-property' with a + property of `baseline'. + + - Function: glyph-baseline-instance glyph &optional domain default + no-fallback + This function returns the instance of GLYPH's baseline value in + the given DOMAIN, and is equivalent to calling + `glyph-property-instance' with a property of `baseline'. The + return value will be an integer or `nil'. + + Normally DOMAIN will be a window or `nil' (meaning the selected + window), and an instance object describing the baseline value + appears in that particular window and buffer will be returned. + + - Function: glyph-face glyph + This function returns the face of GLYPH. (Remember, this is not a + specifier, but a simple property.) + + - Function: set-glyph-face glyph face + This function changes the face of GLYPH to FACE. + + +File: lispref.info, Node: Glyph Dimensions, Prev: Glyph Convenience Functions, Up: Glyph Functions + +Glyph Dimensions +---------------- + + - Function: glyph-width glyph &optional window + This function returns the width of GLYPH on WINDOW. This may not + be exact as it does not take into account all of the context that + redisplay will. + + - Function: glyph-ascent glyph &optional window + This function returns the ascent value of GLYPH on WINDOW. This + may not be exact as it does not take into account all of the + context that redisplay will. + + - Function: glyph-descent glyph &optional window + This function returns the descent value of GLYPH on WINDOW. This + may not be exact as it does not take into account all of the + context that redisplay will. + + - Function: glyph-height glyph &optional window + This function returns the height of GLYPH on WINDOW. (This is + equivalent to the sum of the ascent and descent values.) This may + not be exact as it does not take into account all of the context + that redisplay will. + + +File: lispref.info, Node: Images, Next: Glyph Types, Prev: Glyph Functions, Up: Glyphs + +Images +====== + +* Menu: + +* Image Specifiers:: Specifying how an image will appear. +* Image Instantiator Conversion:: + Conversion is applied to image instantiators + at the time they are added to an + image specifier or at the time they + are passed to `make-image-instance'. +* Image Instances:: What an image specifier gets instanced as. + + File: lispref.info, Node: Image Specifiers, Next: Image Instantiator Conversion, Up: Images Image Specifiers @@ -109,78 +567,78 @@ instance types. keyword-value pairs. The "format" field should be a symbol, one of `nothing' - (Don't display anything; no keywords are valid for this. Can only - be instanced as `nothing'.) + Don't display anything; no keywords are valid for this. Can only + be instanced as `nothing'. `string' - (Display this image as a text string. Can only be instanced as + Display this image as a text string. Can only be instanced as `text', although support for instancing as `mono-pixmap' should be - added.) + added. `formatted-string' - (Display this image as a text string with replaceable fields, - similar to a modeline format string; not currently implemented.) + Display this image as a text string with replaceable fields, + similar to a modeline format string; not currently implemented. `xbm' - (An X bitmap; only if X support was compiled into this XEmacs. - Can be instanced as `mono-pixmap', `color-pixmap', or `pointer'.) + An X bitmap; only if X support was compiled into this XEmacs. Can + be instanced as `mono-pixmap', `color-pixmap', or `pointer'. `xpm' - (An XPM pixmap; only if XPM support was compiled into this XEmacs. + An XPM pixmap; only if XPM support was compiled into this XEmacs. Can be instanced as `color-pixmap', `mono-pixmap', or `pointer'. XPM is an add-on library for X that was designed to rectify the shortcomings of the XBM format. Most implementations of X include the XPM library as a standard part. If your vendor does not, it is highly recommended that you download it and install it. You - can get it from the standard XEmacs FTP site, among other places.) + can get it from the standard XEmacs FTP site, among other places. `xface' - (An X-Face bitmap, used to encode people's faces in e-mail - messages; only if X-Face support was compiled into this XEmacs. - Can be instanced as `mono-pixmap', `color-pixmap', or `pointer'.) + An X-Face bitmap, used to encode people's faces in e-mail messages; + only if X-Face support was compiled into this XEmacs. Can be + instanced as `mono-pixmap', `color-pixmap', or `pointer'. `gif' - (A GIF87 or GIF89 image; only if GIF support was compiled into this + A GIF87 or GIF89 image; only if GIF support was compiled into this XEmacs. Can be instanced as `color-pixmap'. Note that XEmacs includes GIF decoding functions as a standard part of it, so if you have X support, you will normally have GIF support, unless you - explicitly disable it at configure time.) + explicitly disable it at configure time. `jpeg' - (A JPEG-format image; only if JPEG support was compiled into this + A JPEG-format image; only if JPEG support was compiled into this XEmacs. Can be instanced as `color-pixmap'. If you have the JPEG libraries present on your system when XEmacs is built, XEmacs will automatically detect this and use them, unless you explicitly - disable it at configure time.) + disable it at configure time. `png' - (A PNG/GIF24 image; only if PNG support was compiled into this - XEmacs. Can be instanced as `color-pixmap'.) + A PNG/GIF24 image; only if PNG support was compiled into this + XEmacs. Can be instanced as `color-pixmap'. `tiff' - (A TIFF-format image; only if TIFF support was compiled into this - XEmacs. Not currently implemented.) + A TIFF-format image; only if TIFF support was compiled into this + XEmacs. `cursor-font' - (One of the standard cursor-font names, such as `watch' or + One of the standard cursor-font names, such as `watch' or `right_ptr' under X. Under X, this is, more specifically, any of the standard cursor names from appendix B of the Xlib manual [also known as the file `'] minus the `XC_' prefix. On other window systems, the valid names will be specific to the type - of window system. Can only be instanced as `pointer'.) + of window system. Can only be instanced as `pointer'. `font' - (A glyph from a font; i.e. the name of a font, and glyph index - into it of the form `FONT fontname index [[mask-font] mask-index]'. + A glyph from a font; i.e. the name of a font, and glyph index into + it of the form `FONT fontname index [[mask-font] mask-index]'. Only if X support was compiled into this XEmacs. Currently can only be instanced as `pointer', although this should probably be - fixed.) + fixed. `subwindow' - (An embedded X window; not currently implemented.) + An embedded X window; not currently implemented. `autodetect' - (XEmacs tries to guess what format the data is in. If X support + XEmacs tries to guess what format the data is in. If X support exists, the data string will be checked to see if it names a filename. If so, and this filename contains XBM or XPM data, the appropriate sort of pixmap or pointer will be created. [This @@ -189,63 +647,62 @@ keyword-value pairs. The "format" field should be a symbol, one of image-instance types and the string names a valid cursor-font name, the image will be created as a pointer. Otherwise, the image will be displayed as text. If no X support exists, the - image will always be displayed as text.) + image will always be displayed as text. The valid keywords are: `:data' - (Inline data. For most formats above, this should be a string. - For XBM images, this should be a list of three elements: width, + Inline data. For most formats above, this should be a string. For + XBM images, this should be a list of three elements: width, height, and a string of bit data. This keyword is not valid for - instantiator format `nothing'.) + instantiator format `nothing'. `:file' - (Data is contained in a file. The value is the name of this file. + Data is contained in a file. The value is the name of this file. If both `:data' and `:file' are specified, the image is created from what is specified in `:data' and the string in `:file' becomes the value of the `image-instance-file-name' function when applied to the resulting image-instance. This keyword is not valid for instantiator formats `nothing', `string', - `formatted-string', `cursor-font', `font', and `autodetect'.) + `formatted-string', `cursor-font', `font', and `autodetect'. `:foreground' `:background' - (For `xbm', `xface', `cursor-font', and `font'. These keywords + For `xbm', `xface', `cursor-font', and `font'. These keywords allow you to explicitly specify foreground and background colors. The argument should be anything acceptable to `make-color-instance'. This will cause what would be a `mono-pixmap' to instead be colorized as a two-color color-pixmap, and specifies the foreground and/or background colors for a pointer - instead of black and white.) + instead of black and white. `:mask-data' - (For `xbm' and `xface'. This specifies a mask to be used with the + For `xbm' and `xface'. This specifies a mask to be used with the bitmap. The format is a list of width, height, and bits, like for - `:data'.) + `:data'. `:mask-file' - (For `xbm' and `xface'. This specifies a file containing the mask + For `xbm' and `xface'. This specifies a file containing the mask data. If neither a mask file nor inline mask data is given for an XBM image, and the XBM image comes from a file, XEmacs will look for a mask file with the same name as the image file but with `Mask' or `msk' appended. For example, if you specify the XBM file `left_ptr' [usually located in `/usr/include/X11/bitmaps'], the - associated mask file `left_ptrmsk' will automatically be picked - up.) + associated mask file `left_ptrmsk' will automatically be picked up. `:hotspot-x' `:hotspot-y' - (For `xbm' and `xface'. These keywords specify a hotspot if the + For `xbm' and `xface'. These keywords specify a hotspot if the image is instantiated as a `pointer'. Note that if the XBM image file specifies a hotspot, it will automatically be picked up if no - explicit hotspot is given.) + explicit hotspot is given. `:color-symbols' - (Only for `xpm'. This specifies an alist that maps strings that + Only for `xpm'. This specifies an alist that maps strings that specify symbolic color names to the actual color to be used for that symbolic color (in the form of a string or a color-specifier object). If this is not specified, the contents of - `xpm-color-symbols' are used to generate the alist.) + `xpm-color-symbols' are used to generate the alist. If instead of a vector, the instantiator is a string, it will be converted into a vector by looking it up according to the specs in the @@ -704,418 +1161,3 @@ can work with annotations without knowing how extents work. * Annotation Hooks:: Hooks called at certain times during an annotation's lifetime. - -File: lispref.info, Node: Annotation Basics, Next: Annotation Primitives, Up: Annotations - -Annotation Basics -================= - - Marginal annotations are notes associated with a particular location -in a buffer. They may be displayed in a margin created on the -left-hand or right-hand side of the frame, in any whitespace at the -beginning or end of a line, or inside of the text itself. Every -annotation may have an associated action to be performed when the -annotation is selected. The term "annotation" is used to refer to an -individual note. The term "margin" is generically used to refer to the -whitespace before the first character on a line or after the last -character on a line. - - Each annotation has the following characteristics: -GLYPH - This is a glyph object and is used as the displayed representation - of the annotation. - -DOWN-GLYPH - If given, this glyph is used as the displayed representation of - the annotation when the mouse is pressed down over the annotation. - -FACE - The face with which to display the glyph. - -SIDE - Which side of the text (left or right) the annotation is displayed - at. - -ACTION - If non-`nil', this field must contain a function capable of being - the first argument to `funcall'. This function is normally - evaluated with a single argument, the value of the DATA field, - each time the annotation is selected. However, if the WITH-EVENT - parameter to `make-annotation' is non-`nil', the function is - called with two arguments. The first argument is the same as - before, and the second argument is the event (a button-up event, - usually) that activated the annotation. - -DATA - Not used internally. This field can contain any E-Lisp object. - It is passed as the first argument to ACTION described above. - -MENU - A menu displayed when the right mouse button is pressed over the - annotation. - - The margin is divided into "outside" and "inside". The outside -margin is space on the left or right side of the frame which normal text -cannot be displayed in. The inside margin is that space between the -leftmost or rightmost point at which text can be displayed and where the -first or last character actually is. - - There are four different "layout types" which affect the exact -location an annotation appears. - -`outside-margin' - The annotation is placed in the outside margin area. as close as - possible to the edge of the frame. If the outside margin is not - wide enough for an annotation to fit, it is not displayed. - -`inside-margin' - The annotation is placed in the inside margin area, as close as - possible to the edge of the frame. If the inside margin is not - wide enough for the annotation to fit, it will be displayed using - any available outside margin space if and only if the specifier - `use-left-overflow' or `use-right-overflow' (depending on which - side the annotation appears in) is non-`nil'. - -`whitespace' - The annotation is placed in the inside margin area, as close as - possible to the first or last non-whitespace character on a line. - If the inside margin is not wide enough for the annotation to fit, - it will be displayed if and only if the specifier - `use-left-overflow' or `use-right-overflow' (depending on which - side the annotation appears in) is non-`nil'. - -`text' - The annotation is placed at the position it is inserted. It will - create enough space for itself inside of the text area. It does - not take up a place in the logical buffer, only in the display of - the buffer. - - The current layout policy is that all `whitespace' annotations are -displayed first. Next, all `inside-margin' annotations are displayed -using any remaining space. Finally as many `outside-margin' -annotations are displayed as possible. The `text' annotations will -always display as they create their own space to display in. - - -File: lispref.info, Node: Annotation Primitives, Next: Annotation Properties, Prev: Annotation Basics, Up: Annotations - -Annotation Primitives -===================== - - - Function: make-annotation glyph &optional position layout buffer - with-event d-glyph rightp - This function creates a marginal annotation at position POS in - BUFFER. The annotation is displayed using GLYPH, which should be - a glyph object or a string, and is positioned using layout policy - LAYOUT. If POS is `nil', point is used. If LAYOUT is `nil', - `whitespace' is used. If BUFFER is `nil', the current buffer is - used. - - If WITH-EVENT is non-`nil', then when an annotation is activated, - the triggering event is passed as the second arg to the annotation - function. If D-GLYPH is non-`nil' then it is used as the glyph - that will be displayed when button1 is down. If RIGHTP is - non-`nil' then the glyph will be displayed on the right side of - the buffer instead of the left. - - The newly created annotation is returned. - - - Function: delete-annotation annotation - This function removes ANNOTATION from its buffer. This does not - modify the buffer text. - - - Function: annotationp annotation - This function returns `t' if ANNOTATION is an annotation, `nil' - otherwise. - - -File: lispref.info, Node: Annotation Properties, Next: Margin Primitives, Prev: Annotation Primitives, Up: Annotations - -Annotation Properties -===================== - - - Function: annotation-glyph annotation - This function returns the glyph object used to display ANNOTATION. - - - Function: set-annotation-glyph annotation glyph &optional layout side - This function sets the glyph of ANNOTATION to GLYPH, which should - be a glyph object. If LAYOUT is non-`nil', set the layout policy - of ANNOTATION to LAYOUT. If SIDE is `left' or `right', change the - side of the buffer at which the annotation is displayed to the - given side. The new value of `annotation-glyph' is returned. - - - Function: annotation-down-glyph annotation - This function returns the glyph used to display ANNOTATION when - the left mouse button is depressed on the annotation. - - - Function: set-annotation-down-glyph annotation glyph - This function returns the glyph used to display ANNOTATION when - the left mouse button is depressed on the annotation to GLYPH, - which should be a glyph object. - - - Function: annotation-face annotation - This function returns the face associated with ANNOTATION. - - - Function: set-annotation-face annotation face - This function sets the face associated with ANNOTATION to FACE. - - - Function: annotation-layout annotation - This function returns the layout policy of ANNOTATION. - - - Function: set-annotation-layout annotation layout - This function sets the layout policy of ANNOTATION to LAYOUT. - - - Function: annotation-side annotation - This function returns the side of the buffer that ANNOTATION is - displayed on. Return value is a symbol, either `left' or `right'. - - - Function: annotation-data annotation - This function returns the data associated with ANNOTATION. - - - Function: set-annotation-data annotation data - This function sets the data field of ANNOTATION to DATA. DATA is - returned. - - - Function: annotation-action annotation - This function returns the action associated with ANNOTATION. - - - Function: set-annotation-action annotation action - This function sets the action field of ANNOTATION to ACTION. - ACTION is returned.. - - - Function: annotation-menu annotation - This function returns the menu associated with ANNOTATION. - - - Function: set-annotation-menu annotation menu - This function sets the menu associated with ANNOTATION to MENU. - This menu will be displayed when the right mouse button is pressed - over the annotation. - - - Function: annotation-visible annotation - This function returns `t' if there is enough available space to - display ANNOTATION, `nil' otherwise. - - - Function: annotation-width annotation - This function returns the width of ANNOTATION in pixels. - - - Function: hide-annotation annotation - This function removes ANNOTATION's glyph, making it invisible. - - - Function: reveal-annotation annotation - This function restores ANNOTATION's glyph, making it visible. - - -File: lispref.info, Node: Locating Annotations, Next: Annotation Hooks, Prev: Margin Primitives, Up: Annotations - -Locating Annotations -==================== - - - Function: annotations-in-region start end buffer - This function returns a list of all annotations in BUFFER which - are between START and END inclusively. - - - Function: annotations-at &optional position buffer - This function returns a list of all annotations at POSITION in - BUFFER. If POSITION is `nil' point is used. If BUFFER is `nil' - the current buffer is used. - - - Function: annotation-list &optional buffer - This function returns a list of all annotations in BUFFER. If - BUFFER is `nil', the current buffer is used. - - - Function: all-annotations - This function returns a list of all annotations in all buffers in - existence. - - -File: lispref.info, Node: Margin Primitives, Next: Locating Annotations, Prev: Annotation Properties, Up: Annotations - -Margin Primitives -================= - - The margin widths are controllable on a buffer-local, window-local, -frame-local, device-local, or device-type-local basis through the use -of specifiers. *Note Specifiers::. - - - Specifier: left-margin-width - This is a specifier variable controlling the width of the left - outside margin, in characters. Use `set-specifier' to change its - value. - - - Specifier: right-margin-width - This is a specifier variable controlling the width of the right - outside margin, in characters. Use `set-specifier' to change its - value. - - - Specifier: use-left-overflow - If non-`nil', use the left outside margin as extra whitespace when - displaying `whitespace' and `inside-margin' annotations. Defaults - to `nil'. This is a specifier variable; use `set-specifier' to - change its value. - - - Specifier: use-right-overflow - If non-`nil', use the right outside margin as extra whitespace when - displaying `whitespace' and `inside-margin' annotations. Defaults - to `nil'. This is a specifier variable; use `set-specifier' to - change its value. - - - Function: window-left-margin-pixel-width &optional window - This function returns the width in pixels of the left outside - margin of WINDOW. If WINDOW is `nil', the selected window is - assumed. - - - Function: window-right-margin-pixel-width &optional window - This function returns the width in pixels of the right outside - margin of WINDOW. If WINDOW is `nil', the selected window is - assumed. - - The margin colors are controlled by the faces `left-margin' and -`right-margin'. These can be set using the X resources -`Emacs.left-margin.background' and `Emacs.left-margin.foreground'; -likewise for the right margin. - - -File: lispref.info, Node: Annotation Hooks, Prev: Locating Annotations, Up: Annotations - -Annotation Hooks -================ - - The following three hooks are provided for use with the marginal -annotations: - -`before-delete-annotation-hook' - This hook is called immediately before an annotation is destroyed. - It is passed a single argument, the annotation being destroyed. - -`after-delete-annotation-hook' - This normal hook is called immediately after an annotation is - destroyed. - -`make-annotation-hook' - This hook is called immediately after an annotation is created. - It is passed a single argument, the newly created annotation. - - -File: lispref.info, Node: Display, Next: Hash Tables, Prev: Annotations, Up: Top - -Emacs Display -************* - - This chapter describes a number of other features related to the -display that XEmacs presents to the user. - -* Menu: - -* Refresh Screen:: Clearing the screen and redrawing everything on it. -* Truncation:: Folding or wrapping long text lines. -* The Echo Area:: Where messages are displayed. -* Warnings:: Display of Warnings. -* Invisible Text:: Hiding part of the buffer text. -* Selective Display:: Hiding part of the buffer text (the old way). -* Overlay Arrow:: Display of an arrow to indicate position. -* Temporary Displays:: Displays that go away automatically. -* Blinking:: How XEmacs shows the matching open parenthesis. -* Usual Display:: The usual conventions for displaying nonprinting chars. -* Display Tables:: How to specify other conventions. -* Beeping:: Audible signal to the user. - - -File: lispref.info, Node: Refresh Screen, Next: Truncation, Up: Display - -Refreshing the Screen -===================== - - The function `redraw-frame' redisplays the entire contents of a -given frame. *Note Frames::. - - - Function: redraw-frame frame - This function clears and redisplays frame FRAME. - - Even more powerful is `redraw-display': - - - Command: redraw-display &optional device - This function redraws all frames on DEVICE marked as having their - image garbled. DEVICE defaults to the selected device. If DEVICE - is `t', all devices will have their frames checked. - - Processing user input takes absolute priority over redisplay. If you -call these functions when input is available, they do nothing -immediately, but a full redisplay does happen eventually--after all the -input has been processed. - - Normally, suspending and resuming XEmacs also refreshes the screen. -Some terminal emulators record separate contents for display-oriented -programs such as XEmacs and for ordinary sequential display. If you are -using such a terminal, you might want to inhibit the redisplay on -resumption. *Note Suspending XEmacs::. - - - Variable: no-redraw-on-reenter - This variable controls whether XEmacs redraws the entire screen - after it has been suspended and resumed. Non-`nil' means yes, - `nil' means no. - - The above functions do not actually cause the display to be updated; -rather, they clear out the internal display records that XEmacs -maintains, so that the next time the display is updated it will be -redrawn from scratch. Normally this occurs the next time that -`next-event' or `sit-for' is called; however, a display update will not -occur if there is input pending. *Note Command Loop::. - - - Function: force-cursor-redisplay - This function causes an immediate update of the cursor on the - selected frame. (This function does not exist in FSF Emacs.) - - -File: lispref.info, Node: Truncation, Next: The Echo Area, Prev: Refresh Screen, Up: Display - -Truncation -========== - - When a line of text extends beyond the right edge of a window, the -line can either be truncated or continued on the next line. When a line -is truncated, this is normally shown with a `\' in the rightmost column -of the window on X displays, and with a `$' on TTY devices. When a -line is continued or "wrapped" onto the next line, this is shown with a -curved arrow in the rightmost column of the window (or with a `\' on -TTY devices). The additional screen lines used to display a long text -line are called "continuation" lines. - - Normally, whenever line truncation is in effect for a particular -window, a horizontal scrollbar is displayed in that window if the -device supports scrollbars. *Note Scrollbars::. - - Note that continuation is different from filling; continuation -happens on the screen only, not in the buffer contents, and it breaks a -line precisely at the right margin, not at a word boundary. *Note -Filling::. - - - User Option: truncate-lines - This buffer-local variable controls how XEmacs displays lines that - extend beyond the right edge of the window. If it is non-`nil', - then XEmacs does not display continuation lines; rather each line - of text occupies exactly one screen line, and a backslash appears - at the edge of any line that extends to or beyond the edge of the - window. The default is `nil'. - - If the variable `truncate-partial-width-windows' is non-`nil', - then truncation is always used for side-by-side windows (within one - frame) regardless of the value of `truncate-lines'. - - - User Option: default-truncate-lines - This variable is the default value for `truncate-lines', for - buffers that do not have local values for it. - - - User Option: truncate-partial-width-windows - This variable controls display of lines that extend beyond the - right edge of the window, in side-by-side windows (*note Splitting - Windows::). If it is non-`nil', these lines are truncated; - otherwise, `truncate-lines' says what to do with them. - - The backslash and curved arrow used to indicate truncated or -continued lines are only defaults, and can be changed. These images -are actually glyphs (*note Glyphs::). XEmacs provides a great deal of -flexibility in how glyphs can be controlled. (This differs from FSF -Emacs, which uses display tables to control these images.) - - For details, *Note Redisplay Glyphs::. - diff --git a/info/lispref.info-37 b/info/lispref.info-37 index bb9e02e..7a64c76 100644 --- a/info/lispref.info-37 +++ b/info/lispref.info-37 @@ -50,6 +50,421 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Annotation Basics, Next: Annotation Primitives, Up: Annotations + +Annotation Basics +================= + + Marginal annotations are notes associated with a particular location +in a buffer. They may be displayed in a margin created on the +left-hand or right-hand side of the frame, in any whitespace at the +beginning or end of a line, or inside of the text itself. Every +annotation may have an associated action to be performed when the +annotation is selected. The term "annotation" is used to refer to an +individual note. The term "margin" is generically used to refer to the +whitespace before the first character on a line or after the last +character on a line. + + Each annotation has the following characteristics: +GLYPH + This is a glyph object and is used as the displayed representation + of the annotation. + +DOWN-GLYPH + If given, this glyph is used as the displayed representation of + the annotation when the mouse is pressed down over the annotation. + +FACE + The face with which to display the glyph. + +SIDE + Which side of the text (left or right) the annotation is displayed + at. + +ACTION + If non-`nil', this field must contain a function capable of being + the first argument to `funcall'. This function is normally + evaluated with a single argument, the value of the DATA field, + each time the annotation is selected. However, if the WITH-EVENT + parameter to `make-annotation' is non-`nil', the function is + called with two arguments. The first argument is the same as + before, and the second argument is the event (a button-up event, + usually) that activated the annotation. + +DATA + Not used internally. This field can contain any E-Lisp object. + It is passed as the first argument to ACTION described above. + +MENU + A menu displayed when the right mouse button is pressed over the + annotation. + + The margin is divided into "outside" and "inside". The outside +margin is space on the left or right side of the frame which normal text +cannot be displayed in. The inside margin is that space between the +leftmost or rightmost point at which text can be displayed and where the +first or last character actually is. + + There are four different "layout types" which affect the exact +location an annotation appears. + +`outside-margin' + The annotation is placed in the outside margin area. as close as + possible to the edge of the frame. If the outside margin is not + wide enough for an annotation to fit, it is not displayed. + +`inside-margin' + The annotation is placed in the inside margin area, as close as + possible to the edge of the frame. If the inside margin is not + wide enough for the annotation to fit, it will be displayed using + any available outside margin space if and only if the specifier + `use-left-overflow' or `use-right-overflow' (depending on which + side the annotation appears in) is non-`nil'. + +`whitespace' + The annotation is placed in the inside margin area, as close as + possible to the first or last non-whitespace character on a line. + If the inside margin is not wide enough for the annotation to fit, + it will be displayed if and only if the specifier + `use-left-overflow' or `use-right-overflow' (depending on which + side the annotation appears in) is non-`nil'. + +`text' + The annotation is placed at the position it is inserted. It will + create enough space for itself inside of the text area. It does + not take up a place in the logical buffer, only in the display of + the buffer. + + The current layout policy is that all `whitespace' annotations are +displayed first. Next, all `inside-margin' annotations are displayed +using any remaining space. Finally as many `outside-margin' +annotations are displayed as possible. The `text' annotations will +always display as they create their own space to display in. + + +File: lispref.info, Node: Annotation Primitives, Next: Annotation Properties, Prev: Annotation Basics, Up: Annotations + +Annotation Primitives +===================== + + - Function: make-annotation glyph &optional position layout buffer + with-event d-glyph rightp + This function creates a marginal annotation at position POS in + BUFFER. The annotation is displayed using GLYPH, which should be + a glyph object or a string, and is positioned using layout policy + LAYOUT. If POS is `nil', point is used. If LAYOUT is `nil', + `whitespace' is used. If BUFFER is `nil', the current buffer is + used. + + If WITH-EVENT is non-`nil', then when an annotation is activated, + the triggering event is passed as the second arg to the annotation + function. If D-GLYPH is non-`nil' then it is used as the glyph + that will be displayed when button1 is down. If RIGHTP is + non-`nil' then the glyph will be displayed on the right side of + the buffer instead of the left. + + The newly created annotation is returned. + + - Function: delete-annotation annotation + This function removes ANNOTATION from its buffer. This does not + modify the buffer text. + + - Function: annotationp annotation + This function returns `t' if ANNOTATION is an annotation, `nil' + otherwise. + + +File: lispref.info, Node: Annotation Properties, Next: Margin Primitives, Prev: Annotation Primitives, Up: Annotations + +Annotation Properties +===================== + + - Function: annotation-glyph annotation + This function returns the glyph object used to display ANNOTATION. + + - Function: set-annotation-glyph annotation glyph &optional layout side + This function sets the glyph of ANNOTATION to GLYPH, which should + be a glyph object. If LAYOUT is non-`nil', set the layout policy + of ANNOTATION to LAYOUT. If SIDE is `left' or `right', change the + side of the buffer at which the annotation is displayed to the + given side. The new value of `annotation-glyph' is returned. + + - Function: annotation-down-glyph annotation + This function returns the glyph used to display ANNOTATION when + the left mouse button is depressed on the annotation. + + - Function: set-annotation-down-glyph annotation glyph + This function returns the glyph used to display ANNOTATION when + the left mouse button is depressed on the annotation to GLYPH, + which should be a glyph object. + + - Function: annotation-face annotation + This function returns the face associated with ANNOTATION. + + - Function: set-annotation-face annotation face + This function sets the face associated with ANNOTATION to FACE. + + - Function: annotation-layout annotation + This function returns the layout policy of ANNOTATION. + + - Function: set-annotation-layout annotation layout + This function sets the layout policy of ANNOTATION to LAYOUT. + + - Function: annotation-side annotation + This function returns the side of the buffer that ANNOTATION is + displayed on. Return value is a symbol, either `left' or `right'. + + - Function: annotation-data annotation + This function returns the data associated with ANNOTATION. + + - Function: set-annotation-data annotation data + This function sets the data field of ANNOTATION to DATA. DATA is + returned. + + - Function: annotation-action annotation + This function returns the action associated with ANNOTATION. + + - Function: set-annotation-action annotation action + This function sets the action field of ANNOTATION to ACTION. + ACTION is returned.. + + - Function: annotation-menu annotation + This function returns the menu associated with ANNOTATION. + + - Function: set-annotation-menu annotation menu + This function sets the menu associated with ANNOTATION to MENU. + This menu will be displayed when the right mouse button is pressed + over the annotation. + + - Function: annotation-visible annotation + This function returns `t' if there is enough available space to + display ANNOTATION, `nil' otherwise. + + - Function: annotation-width annotation + This function returns the width of ANNOTATION in pixels. + + - Function: hide-annotation annotation + This function removes ANNOTATION's glyph, making it invisible. + + - Function: reveal-annotation annotation + This function restores ANNOTATION's glyph, making it visible. + + +File: lispref.info, Node: Locating Annotations, Next: Annotation Hooks, Prev: Margin Primitives, Up: Annotations + +Locating Annotations +==================== + + - Function: annotations-in-region start end buffer + This function returns a list of all annotations in BUFFER which + are between START and END inclusively. + + - Function: annotations-at &optional position buffer + This function returns a list of all annotations at POSITION in + BUFFER. If POSITION is `nil' point is used. If BUFFER is `nil' + the current buffer is used. + + - Function: annotation-list &optional buffer + This function returns a list of all annotations in BUFFER. If + BUFFER is `nil', the current buffer is used. + + - Function: all-annotations + This function returns a list of all annotations in all buffers in + existence. + + +File: lispref.info, Node: Margin Primitives, Next: Locating Annotations, Prev: Annotation Properties, Up: Annotations + +Margin Primitives +================= + + The margin widths are controllable on a buffer-local, window-local, +frame-local, device-local, or device-type-local basis through the use +of specifiers. *Note Specifiers::. + + - Specifier: left-margin-width + This is a specifier variable controlling the width of the left + outside margin, in characters. Use `set-specifier' to change its + value. + + - Specifier: right-margin-width + This is a specifier variable controlling the width of the right + outside margin, in characters. Use `set-specifier' to change its + value. + + - Specifier: use-left-overflow + If non-`nil', use the left outside margin as extra whitespace when + displaying `whitespace' and `inside-margin' annotations. Defaults + to `nil'. This is a specifier variable; use `set-specifier' to + change its value. + + - Specifier: use-right-overflow + If non-`nil', use the right outside margin as extra whitespace when + displaying `whitespace' and `inside-margin' annotations. Defaults + to `nil'. This is a specifier variable; use `set-specifier' to + change its value. + + - Function: window-left-margin-pixel-width &optional window + This function returns the width in pixels of the left outside + margin of WINDOW. If WINDOW is `nil', the selected window is + assumed. + + - Function: window-right-margin-pixel-width &optional window + This function returns the width in pixels of the right outside + margin of WINDOW. If WINDOW is `nil', the selected window is + assumed. + + The margin colors are controlled by the faces `left-margin' and +`right-margin'. These can be set using the X resources +`Emacs.left-margin.background' and `Emacs.left-margin.foreground'; +likewise for the right margin. + + +File: lispref.info, Node: Annotation Hooks, Prev: Locating Annotations, Up: Annotations + +Annotation Hooks +================ + + The following three hooks are provided for use with the marginal +annotations: + +`before-delete-annotation-hook' + This hook is called immediately before an annotation is destroyed. + It is passed a single argument, the annotation being destroyed. + +`after-delete-annotation-hook' + This normal hook is called immediately after an annotation is + destroyed. + +`make-annotation-hook' + This hook is called immediately after an annotation is created. + It is passed a single argument, the newly created annotation. + + +File: lispref.info, Node: Display, Next: Hash Tables, Prev: Annotations, Up: Top + +Emacs Display +************* + + This chapter describes a number of other features related to the +display that XEmacs presents to the user. + +* Menu: + +* Refresh Screen:: Clearing the screen and redrawing everything on it. +* Truncation:: Folding or wrapping long text lines. +* The Echo Area:: Where messages are displayed. +* Warnings:: Display of Warnings. +* Invisible Text:: Hiding part of the buffer text. +* Selective Display:: Hiding part of the buffer text (the old way). +* Overlay Arrow:: Display of an arrow to indicate position. +* Temporary Displays:: Displays that go away automatically. +* Blinking:: How XEmacs shows the matching open parenthesis. +* Usual Display:: The usual conventions for displaying nonprinting chars. +* Display Tables:: How to specify other conventions. +* Beeping:: Audible signal to the user. + + +File: lispref.info, Node: Refresh Screen, Next: Truncation, Up: Display + +Refreshing the Screen +===================== + + The function `redraw-frame' redisplays the entire contents of a +given frame. *Note Frames::. + + - Function: redraw-frame frame + This function clears and redisplays frame FRAME. + + Even more powerful is `redraw-display': + + - Command: redraw-display &optional device + This function redraws all frames on DEVICE marked as having their + image garbled. DEVICE defaults to the selected device. If DEVICE + is `t', all devices will have their frames checked. + + Processing user input takes absolute priority over redisplay. If you +call these functions when input is available, they do nothing +immediately, but a full redisplay does happen eventually--after all the +input has been processed. + + Normally, suspending and resuming XEmacs also refreshes the screen. +Some terminal emulators record separate contents for display-oriented +programs such as XEmacs and for ordinary sequential display. If you are +using such a terminal, you might want to inhibit the redisplay on +resumption. *Note Suspending XEmacs::. + + - Variable: no-redraw-on-reenter + This variable controls whether XEmacs redraws the entire screen + after it has been suspended and resumed. Non-`nil' means yes, + `nil' means no. + + The above functions do not actually cause the display to be updated; +rather, they clear out the internal display records that XEmacs +maintains, so that the next time the display is updated it will be +redrawn from scratch. Normally this occurs the next time that +`next-event' or `sit-for' is called; however, a display update will not +occur if there is input pending. *Note Command Loop::. + + - Function: force-cursor-redisplay + This function causes an immediate update of the cursor on the + selected frame. (This function does not exist in FSF Emacs.) + + +File: lispref.info, Node: Truncation, Next: The Echo Area, Prev: Refresh Screen, Up: Display + +Truncation +========== + + When a line of text extends beyond the right edge of a window, the +line can either be truncated or continued on the next line. When a line +is truncated, this is normally shown with a `\' in the rightmost column +of the window on X displays, and with a `$' on TTY devices. When a +line is continued or "wrapped" onto the next line, this is shown with a +curved arrow in the rightmost column of the window (or with a `\' on +TTY devices). The additional screen lines used to display a long text +line are called "continuation" lines. + + Normally, whenever line truncation is in effect for a particular +window, a horizontal scrollbar is displayed in that window if the +device supports scrollbars. *Note Scrollbars::. + + Note that continuation is different from filling; continuation +happens on the screen only, not in the buffer contents, and it breaks a +line precisely at the right margin, not at a word boundary. *Note +Filling::. + + - User Option: truncate-lines + This buffer-local variable controls how XEmacs displays lines that + extend beyond the right edge of the window. If it is non-`nil', + then XEmacs does not display continuation lines; rather each line + of text occupies exactly one screen line, and a backslash appears + at the edge of any line that extends to or beyond the edge of the + window. The default is `nil'. + + If the variable `truncate-partial-width-windows' is non-`nil', + then truncation is always used for side-by-side windows (within one + frame) regardless of the value of `truncate-lines'. + + - User Option: default-truncate-lines + This variable is the default value for `truncate-lines', for + buffers that do not have local values for it. + + - User Option: truncate-partial-width-windows + This variable controls display of lines that extend beyond the + right edge of the window, in side-by-side windows (*note Splitting + Windows::). If it is non-`nil', these lines are truncated; + otherwise, `truncate-lines' says what to do with them. + + The backslash and curved arrow used to indicate truncated or +continued lines are only defaults, and can be changed. These images +are actually glyphs (*note Glyphs::). XEmacs provides a great deal of +flexibility in how glyphs can be controlled. (This differs from FSF +Emacs, which uses display tables to control these images.) + + For details, *Note Redisplay Glyphs::. + + File: lispref.info, Node: The Echo Area, Next: Warnings, Prev: Truncation, Up: Display The Echo Area @@ -826,455 +1241,3 @@ a vector Display according to the standard interpretation (*note Usual Display::). - -File: lispref.info, Node: Beeping, Prev: Display Tables, Up: Display - -Beeping -======= - - You can make XEmacs ring a bell, play a sound, or blink the screen to -attract the user's attention. Be conservative about how often you do -this; frequent bells can become irritating. Also be careful not to use -beeping alone when signaling an error is appropriate. (*Note Errors::.) - - - Function: ding &optional dont-terminate sound device - This function beeps, or flashes the screen (see `visible-bell' - below). It also terminates any keyboard macro currently executing - unless DONT-TERMINATE is non-`nil'. If SOUND is specified, it - should be a symbol specifying which sound to make. This sound - will be played if `visible-bell' is `nil'. (This only works if - sound support was compiled into the executable and you are running - on the console of a Sun SparcStation, SGI, HP9000s700, or Linux - PC. Otherwise you just get a beep.) The optional third argument - specifies what device to make the sound on, and defaults to the - selected device. - - - Function: beep &optional dont-terminate sound device - This is a synonym for `ding'. - - - User Option: visible-bell - This variable determines whether XEmacs should flash the screen to - represent a bell. Non-`nil' means yes, `nil' means no. On TTY - devices, this is effective only if the Termcap entry for the - terminal type has the visible bell flag (`vb') set. - - - Variable: sound-alist - This variable holds an alist associating names with sounds. When - `beep' or `ding' is called with one of the name symbols, the - associated sound will be generated instead of the standard beep. - - Each element of `sound-alist' is a list describing a sound. The - first element of the list is the name of the sound being defined. - Subsequent elements of the list are alternating keyword/value - pairs: - - `sound' - A string of raw sound data, or the name of another sound to - play. The symbol `t' here means use the default X beep. - - `volume' - An integer from 0-100, defaulting to `bell-volume'. - - `pitch' - If using the default X beep, the pitch (Hz) to generate. - - `duration' - If using the default X beep, the duration (milliseconds). - - For compatibility, elements of `sound-alist' may also be: - - * `( sound-name . )' - - * `( sound-name )' - - You should probably add things to this list by calling the function - `load-sound-file'. - - Caveats: - - - You can only play audio data if running on the console screen - of a Sun SparcStation, SGI, or HP9000s700. - - - The pitch, duration, and volume options are available - everywhere, but many X servers ignore the `pitch' option. - - The following beep-types are used by XEmacs itself: - - `auto-save-error' - when an auto-save does not succeed - - `command-error' - when the XEmacs command loop catches an error - - `undefined-key' - when you type a key that is undefined - - `undefined-click' - when you use an undefined mouse-click combination - - `no-completion' - during completing-read - - `y-or-n-p' - when you type something other than 'y' or 'n' - - `yes-or-no-p' - when you type something other than 'yes' or 'no' - - `default' - used when nothing else is appropriate. - - Other lisp packages may use other beep types, but these are the - ones that the C kernel of XEmacs uses. - - - User Option: bell-volume - This variable specifies the default volume for sounds, from 0 to - 100. - - - Command: load-default-sounds - This function loads and installs some sound files as beep-types. - - - Command: load-sound-file filename sound-name &optional volume - This function reads in an audio file and adds it to `sound-alist'. - The sound file must be in the Sun/NeXT U-LAW format. SOUND-NAME - should be a symbol, specifying the name of the sound. If VOLUME - is specified, the sound will be played at that volume; otherwise, - the value of BELL-VOLUME will be used. - - - Function: play-sound sound &optional volume device - This function plays sound SOUND, which should be a symbol - mentioned in `sound-alist'. If VOLUME is specified, it overrides - the value (if any) specified in `sound-alist'. DEVICE specifies - the device to play the sound on, and defaults to the selected - device. - - - Command: play-sound-file file &optional volume device - This function plays the named sound file at volume VOLUME, which - defaults to `bell-volume'. DEVICE specifies the device to play - the sound on, and defaults to the selected device. - - -File: lispref.info, Node: Hash Tables, Next: Range Tables, Prev: Display, Up: Top - -Hash Tables -*********** - - - Function: hash-table-p object - This function returns `t' if OBJECT is a hash table, else `nil'. - -* Menu: - -* Introduction to Hash Tables:: Hash tables are fast data structures for - implementing simple tables (i.e. finite - mappings from keys to values). -* Working With Hash Tables:: Hash table functions. -* Weak Hash Tables:: Hash tables with special garbage-collection - behavior. - - -File: lispref.info, Node: Introduction to Hash Tables, Next: Working With Hash Tables, Up: Hash Tables - -Introduction to Hash Tables -=========================== - - A "hash table" is a data structure that provides mappings from -arbitrary Lisp objects called "keys" to other arbitrary Lisp objects -called "values". A key/value pair is sometimes called an "entry" in -the hash table. There are many ways other than hash tables of -implementing the same sort of mapping, e.g. association lists (*note -Association Lists::) and property lists (*note Property Lists::), but -hash tables provide much faster lookup when there are many entries in -the mapping. Hash tables are an implementation of the abstract data -type "dictionary", also known as "associative array". - - Internally, hash tables are hashed using the "linear probing" hash -table implementation method. This method hashes each key to a -particular spot in the hash table, and then scans forward sequentially -until a blank entry is found. To look up a key, hash to the appropriate -spot, then search forward for the key until either a key is found or a -blank entry stops the search. This method is used in preference to -double hashing because of changes in recent hardware. The penalty for -non-sequential access to memory has been increasing, and this -compensates for the problem of clustering that linear probing entails. - - When hash tables are created, the user may (but is not required to) -specify initial properties that influence performance. - - Use the `:size' parameter to specify the number of entries that are -likely to be stored in the hash table, to avoid the overhead of resizing -the table. But if the pre-allocated space for the entries is never -used, it is simply wasted and makes XEmacs slower. Excess unused hash -table entries exact a small continuous performance penalty, since they -must be scanned at every garbage collection. If the number of entries -in the hash table is unknown, simply avoid using the `:size' keyword. - - Use the `:rehash-size' and `:rehash-threshold' keywords to adjust -the algorithm for deciding when to rehash the hash table. For -temporary hash tables that are going to be very heavily used, use a -small rehash threshold, for example, 0.4 and a large rehash size, for -example 2.0. For permanent hash tables that will be infrequently used, -specify a large rehash threshold, for example 0.8. - - Hash tables can also be created by the lisp reader using structure -syntax, for example: - #s(hash-table size 20 data (foo 1 bar 2)) - - The structure syntax accepts the same keywords as `make-hash-table' -(without the `:' character), as well as the additional keyword `data', -which specifies the initial hash table contents. - - - Function: make-hash-table &key `test' `size' `rehash-size' - `rehash-threshold' `weakness' - This function returns a new empty hash table object. - - Keyword `:test' can be `eq', `eql' (default) or `equal'. - Comparison between keys is done using this function. If speed is - important, consider using `eq'. When storing strings in the hash - table, you will likely need to use `equal'. - - Keyword `:size' specifies the number of keys likely to be inserted. - This number of entries can be inserted without enlarging the hash - table. - - Keyword `:rehash-size' must be a float greater than 1.0, and - specifies the factor by which to increase the size of the hash - table when enlarging. - - Keyword `:rehash-threshold' must be a float between 0.0 and 1.0, - and specifies the load factor of the hash table which triggers - enlarging. - - Keyword `:weakness' can be `nil' (default), `t', `key' or `value'. - - A weak hash table is one whose pointers do not count as GC - referents: for any key-value pair in the hash table, if the only - remaining pointer to either the key or the value is in a weak hash - table, then the pair will be removed from the hash table, and the - key and value collected. A non-weak hash table (or any other - pointer) would prevent the object from being collected. - - A key-weak hash table is similar to a fully-weak hash table except - that a key-value pair will be removed only if the key remains - unmarked outside of weak hash tables. The pair will remain in the - hash table if the key is pointed to by something other than a weak - hash table, even if the value is not. - - A value-weak hash table is similar to a fully-weak hash table - except that a key-value pair will be removed only if the value - remains unmarked outside of weak hash tables. The pair will - remain in the hash table if the value is pointed to by something - other than a weak hash table, even if the key is not. - - - Function: copy-hash-table hash-table - This function returns a new hash table which contains the same - keys and values as HASH-TABLE. The keys and values will not - themselves be copied. - - - Function: hash-table-count hash-table - This function returns the number of entries in HASH-TABLE. - - - Function: hash-table-test hash-table - This function returns the test function of HASH-TABLE. This can - be one of `eq', `eql' or `equal'. - - - Function: hash-table-size hash-table - This function returns the current number of slots in HASH-TABLE, - whether occupied or not. - - - Function: hash-table-rehash-size hash-table - This function returns the current rehash size of HASH-TABLE. This - is a float greater than 1.0; the factor by which HASH-TABLE is - enlarged when the rehash threshold is exceeded. - - - Function: hash-table-rehash-threshold hash-table - This function returns the current rehash threshold of HASH-TABLE. - This is a float between 0.0 and 1.0; the maximum "load factor" of - HASH-TABLE, beyond which the HASH-TABLE is enlarged by rehashing. - - - Function: hash-table-weakness hash-table - This function returns the weakness of HASH-TABLE. This can be one - of `nil', `t', `key' or `value'. - - -File: lispref.info, Node: Working With Hash Tables, Next: Weak Hash Tables, Prev: Introduction to Hash Tables, Up: Hash Tables - -Working With Hash Tables -======================== - - - Function: puthash key value hash-table - This function hashes KEY to VALUE in HASH-TABLE. - - - Function: gethash key hash-table &optional default - This function finds the hash value for KEY in HASH-TABLE. If - there is no entry for KEY in HASH-TABLE, DEFAULT is returned - (which in turn defaults to `nil'). - - - Function: remhash key hash-table - This function removes the entry for KEY from HASH-TABLE. Does - nothing if there is no entry for KEY in HASH-TABLE. - - - Function: clrhash hash-table - This function removes all entries from HASH-TABLE, leaving it - empty. - - - Function: maphash function hash-table - This function maps FUNCTION over entries in HASH-TABLE, calling it - with two args, each key and value in the hash table. - - FUNCTION may not modify HASH-TABLE, with the one exception that - FUNCTION may remhash or puthash the entry currently being - processed by FUNCTION. - - -File: lispref.info, Node: Weak Hash Tables, Prev: Working With Hash Tables, Up: Hash Tables - -Weak Hash Tables -================ - - A "weak hash table" is a special variety of hash table whose -elements do not count as GC referents. For any key-value pair in such a -hash table, if either the key or value (or in some cases, if one -particular one of the two) has no references to it outside of weak hash -tables (and similar structures such as weak lists), the pair will be -removed from the table, and the key and value collected. A non-weak -hash table (or any other pointer) would prevent the objects from being -collected. - - Weak hash tables are useful for keeping track of information in a -non-obtrusive way, for example to implement caching. If the cache -contains objects such as buffers, markers, image instances, etc. that -will eventually disappear and get garbage-collected, using a weak hash -table ensures that these objects are collected normally rather than -remaining around forever, long past their actual period of use. -(Otherwise, you'd have to explicitly map over the hash table every so -often and remove unnecessary elements.) - - There are three types of weak hash tables: - -fully weak hash tables - In these hash tables, a pair disappears if either the key or the - value is unreferenced outside of the table. - -key-weak hash tables - In these hash tables, a pair disappears if the key is unreferenced - outside of the table, regardless of how the value is referenced. - -value-weak hash tables - In these hash tables, a pair disappears if the value is - unreferenced outside of the table, regardless of how the key is - referenced. - - Also see *Note Weak Lists::. - - Weak hash tables are created by specifying the `:weakness' keyword to -`make-hash-table'. - - -File: lispref.info, Node: Range Tables, Next: Databases, Prev: Hash Tables, Up: Top - -Range Tables -************ - - A range table is a table that efficiently associated values with -ranges of integers. - - Note that range tables have a read syntax, like this: - - #s(range-table data ((-3 2) foo (5 20) bar)) - - This maps integers in the range (-3, 2) to `foo' and integers in the -range (5, 20) to `bar'. - - - Function: range-table-p object - Return non-`nil' if OBJECT is a range table. - -* Menu: - -* Introduction to Range Tables:: Range tables efficiently map ranges of - integers to values. -* Working With Range Tables:: Range table functions. - - -File: lispref.info, Node: Introduction to Range Tables, Next: Working With Range Tables, Up: Range Tables - -Introduction to Range Tables -============================ - - - Function: make-range-table - Make a new, empty range table. - - - Function: copy-range-table old-table - Make a new range table which contains the same values for the same - ranges as the given table. The values will not themselves be - copied. - - -File: lispref.info, Node: Working With Range Tables, Prev: Introduction to Range Tables, Up: Range Tables - -Working With Range Tables -========================= - - - Function: get-range-table pos table &optional default - This function finds value for position POS in TABLE. If there is - no corresponding value, return DEFAULT (defaults to `nil'). - - - Function: put-range-table start end val table - This function sets the value for range (START, END) to be VAL in - TABLE. - - - Function: remove-range-table start end table - This function removes the value for range (START, END) in TABLE. - - - Function: clear-range-table table - This function flushes TABLE. - - - Function: map-range-table function table - This function maps FUNCTION over entries in TABLE, calling it with - three args, the beginning and end of the range and the - corresponding value. - - -File: lispref.info, Node: Databases, Next: Processes, Prev: Range Tables, Up: Top - -Databases -********* - - - Function: databasep object - This function returns non-`nil' if OBJECT is a database. - -* Menu: - -* Connecting to a Database:: -* Working With a Database:: -* Other Database Functions:: - - -File: lispref.info, Node: Connecting to a Database, Next: Working With a Database, Up: Databases - -Connecting to a Database -======================== - - - Function: open-database file &optional type subtype access mode - This function opens database FILE, using database method TYPE and - SUBTYPE, with access rights ACCESS and permissions MODE. ACCESS - can be any combination of `r' `w' and `+', for read, write, and - creation flags. - - TYPE can have the value `'dbm' or `'berkeley_db' to select the - type of database file to use. (Note: XEmacs may not support both - of these types.) - - For a TYPE of `'dbm', there are no subtypes, so SUBTYPE should by - `nil'. - - For a TYPE of `'berkeley_db', the following subtypes are - available: `'hash', `'btree', and `'recno'. See the manpages for - the Berkeley DB functions to more information about these types. - - - Function: close-database obj - This function closes database OBJ. - - - Function: database-live-p obj - This function returns `t' iff OBJ is an active database, else - `nil'. - diff --git a/info/lispref.info-38 b/info/lispref.info-38 index cfb33fd..2ac7f8e 100644 --- a/info/lispref.info-38 +++ b/info/lispref.info-38 @@ -50,6 +50,458 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Beeping, Prev: Display Tables, Up: Display + +Beeping +======= + + You can make XEmacs ring a bell, play a sound, or blink the screen to +attract the user's attention. Be conservative about how often you do +this; frequent bells can become irritating. Also be careful not to use +beeping alone when signaling an error is appropriate. (*Note Errors::.) + + - Function: ding &optional dont-terminate sound device + This function beeps, or flashes the screen (see `visible-bell' + below). It also terminates any keyboard macro currently executing + unless DONT-TERMINATE is non-`nil'. If SOUND is specified, it + should be a symbol specifying which sound to make. This sound + will be played if `visible-bell' is `nil'. (This only works if + sound support was compiled into the executable and you are running + on the console of a Sun SparcStation, SGI, HP9000s700, or Linux + PC. Otherwise you just get a beep.) The optional third argument + specifies what device to make the sound on, and defaults to the + selected device. + + - Function: beep &optional dont-terminate sound device + This is a synonym for `ding'. + + - User Option: visible-bell + This variable determines whether XEmacs should flash the screen to + represent a bell. Non-`nil' means yes, `nil' means no. On TTY + devices, this is effective only if the Termcap entry for the + terminal type has the visible bell flag (`vb') set. + + - Variable: sound-alist + This variable holds an alist associating names with sounds. When + `beep' or `ding' is called with one of the name symbols, the + associated sound will be generated instead of the standard beep. + + Each element of `sound-alist' is a list describing a sound. The + first element of the list is the name of the sound being defined. + Subsequent elements of the list are alternating keyword/value + pairs: + + `sound' + A string of raw sound data, or the name of another sound to + play. The symbol `t' here means use the default X beep. + + `volume' + An integer from 0-100, defaulting to `bell-volume'. + + `pitch' + If using the default X beep, the pitch (Hz) to generate. + + `duration' + If using the default X beep, the duration (milliseconds). + + For compatibility, elements of `sound-alist' may also be: + + * `( sound-name . )' + + * `( sound-name )' + + You should probably add things to this list by calling the function + `load-sound-file'. + + Caveats: + + - You can only play audio data if running on the console screen + of a Sun SparcStation, SGI, or HP9000s700. + + - The pitch, duration, and volume options are available + everywhere, but many X servers ignore the `pitch' option. + + The following beep-types are used by XEmacs itself: + + `auto-save-error' + when an auto-save does not succeed + + `command-error' + when the XEmacs command loop catches an error + + `undefined-key' + when you type a key that is undefined + + `undefined-click' + when you use an undefined mouse-click combination + + `no-completion' + during completing-read + + `y-or-n-p' + when you type something other than 'y' or 'n' + + `yes-or-no-p' + when you type something other than 'yes' or 'no' + + `default' + used when nothing else is appropriate. + + Other lisp packages may use other beep types, but these are the + ones that the C kernel of XEmacs uses. + + - User Option: bell-volume + This variable specifies the default volume for sounds, from 0 to + 100. + + - Command: load-default-sounds + This function loads and installs some sound files as beep-types. + + - Command: load-sound-file filename sound-name &optional volume + This function reads in an audio file and adds it to `sound-alist'. + The sound file must be in the Sun/NeXT U-LAW format. SOUND-NAME + should be a symbol, specifying the name of the sound. If VOLUME + is specified, the sound will be played at that volume; otherwise, + the value of BELL-VOLUME will be used. + + - Function: play-sound sound &optional volume device + This function plays sound SOUND, which should be a symbol + mentioned in `sound-alist'. If VOLUME is specified, it overrides + the value (if any) specified in `sound-alist'. DEVICE specifies + the device to play the sound on, and defaults to the selected + device. + + - Command: play-sound-file file &optional volume device + This function plays the named sound file at volume VOLUME, which + defaults to `bell-volume'. DEVICE specifies the device to play + the sound on, and defaults to the selected device. + + +File: lispref.info, Node: Hash Tables, Next: Range Tables, Prev: Display, Up: Top + +Hash Tables +*********** + + - Function: hash-table-p object + This function returns `t' if OBJECT is a hash table, else `nil'. + +* Menu: + +* Introduction to Hash Tables:: Hash tables are fast data structures for + implementing simple tables (i.e. finite + mappings from keys to values). +* Working With Hash Tables:: Hash table functions. +* Weak Hash Tables:: Hash tables with special garbage-collection + behavior. + + +File: lispref.info, Node: Introduction to Hash Tables, Next: Working With Hash Tables, Up: Hash Tables + +Introduction to Hash Tables +=========================== + + A "hash table" is a data structure that provides mappings from +arbitrary Lisp objects called "keys" to other arbitrary Lisp objects +called "values". A key/value pair is sometimes called an "entry" in +the hash table. There are many ways other than hash tables of +implementing the same sort of mapping, e.g. association lists (*note +Association Lists::) and property lists (*note Property Lists::), but +hash tables provide much faster lookup when there are many entries in +the mapping. Hash tables are an implementation of the abstract data +type "dictionary", also known as "associative array". + + Internally, hash tables are hashed using the "linear probing" hash +table implementation method. This method hashes each key to a +particular spot in the hash table, and then scans forward sequentially +until a blank entry is found. To look up a key, hash to the appropriate +spot, then search forward for the key until either a key is found or a +blank entry stops the search. This method is used in preference to +double hashing because of changes in recent hardware. The penalty for +non-sequential access to memory has been increasing, and this +compensates for the problem of clustering that linear probing entails. + + When hash tables are created, the user may (but is not required to) +specify initial properties that influence performance. + + Use the `:size' parameter to specify the number of entries that are +likely to be stored in the hash table, to avoid the overhead of resizing +the table. But if the pre-allocated space for the entries is never +used, it is simply wasted and makes XEmacs slower. Excess unused hash +table entries exact a small continuous performance penalty, since they +must be scanned at every garbage collection. If the number of entries +in the hash table is unknown, simply avoid using the `:size' keyword. + + Use the `:rehash-size' and `:rehash-threshold' keywords to adjust +the algorithm for deciding when to rehash the hash table. For +temporary hash tables that are going to be very heavily used, use a +small rehash threshold, for example, 0.4 and a large rehash size, for +example 2.0. For permanent hash tables that will be infrequently used, +specify a large rehash threshold, for example 0.8. + + Hash tables can also be created by the lisp reader using structure +syntax, for example: + #s(hash-table size 20 data (foo 1 bar 2)) + + The structure syntax accepts the same keywords as `make-hash-table' +(without the `:' character), as well as the additional keyword `data', +which specifies the initial hash table contents. + + - Function: make-hash-table &key `test' `size' `rehash-size' + `rehash-threshold' `weakness' + This function returns a new empty hash table object. + + Keyword `:test' can be `eq', `eql' (default) or `equal'. + Comparison between keys is done using this function. If speed is + important, consider using `eq'. When storing strings in the hash + table, you will likely need to use `equal'. + + Keyword `:size' specifies the number of keys likely to be inserted. + This number of entries can be inserted without enlarging the hash + table. + + Keyword `:rehash-size' must be a float greater than 1.0, and + specifies the factor by which to increase the size of the hash + table when enlarging. + + Keyword `:rehash-threshold' must be a float between 0.0 and 1.0, + and specifies the load factor of the hash table which triggers + enlarging. + + Keyword `:weakness' can be `nil' (default), `t', `key' or `value'. + + A weak hash table is one whose pointers do not count as GC + referents: for any key-value pair in the hash table, if the only + remaining pointer to either the key or the value is in a weak hash + table, then the pair will be removed from the hash table, and the + key and value collected. A non-weak hash table (or any other + pointer) would prevent the object from being collected. + + A key-weak hash table is similar to a fully-weak hash table except + that a key-value pair will be removed only if the key remains + unmarked outside of weak hash tables. The pair will remain in the + hash table if the key is pointed to by something other than a weak + hash table, even if the value is not. + + A value-weak hash table is similar to a fully-weak hash table + except that a key-value pair will be removed only if the value + remains unmarked outside of weak hash tables. The pair will + remain in the hash table if the value is pointed to by something + other than a weak hash table, even if the key is not. + + - Function: copy-hash-table hash-table + This function returns a new hash table which contains the same + keys and values as HASH-TABLE. The keys and values will not + themselves be copied. + + - Function: hash-table-count hash-table + This function returns the number of entries in HASH-TABLE. + + - Function: hash-table-test hash-table + This function returns the test function of HASH-TABLE. This can + be one of `eq', `eql' or `equal'. + + - Function: hash-table-size hash-table + This function returns the current number of slots in HASH-TABLE, + whether occupied or not. + + - Function: hash-table-rehash-size hash-table + This function returns the current rehash size of HASH-TABLE. This + is a float greater than 1.0; the factor by which HASH-TABLE is + enlarged when the rehash threshold is exceeded. + + - Function: hash-table-rehash-threshold hash-table + This function returns the current rehash threshold of HASH-TABLE. + This is a float between 0.0 and 1.0; the maximum "load factor" of + HASH-TABLE, beyond which the HASH-TABLE is enlarged by rehashing. + + - Function: hash-table-weakness hash-table + This function returns the weakness of HASH-TABLE. This can be one + of `nil', `t', `key' or `value'. + + +File: lispref.info, Node: Working With Hash Tables, Next: Weak Hash Tables, Prev: Introduction to Hash Tables, Up: Hash Tables + +Working With Hash Tables +======================== + + - Function: puthash key value hash-table + This function hashes KEY to VALUE in HASH-TABLE. + + - Function: gethash key hash-table &optional default + This function finds the hash value for KEY in HASH-TABLE. If + there is no entry for KEY in HASH-TABLE, DEFAULT is returned + (which in turn defaults to `nil'). + + - Function: remhash key hash-table + This function removes the entry for KEY from HASH-TABLE. Does + nothing if there is no entry for KEY in HASH-TABLE. + + - Function: clrhash hash-table + This function removes all entries from HASH-TABLE, leaving it + empty. + + - Function: maphash function hash-table + This function maps FUNCTION over entries in HASH-TABLE, calling it + with two args, each key and value in the hash table. + + FUNCTION may not modify HASH-TABLE, with the one exception that + FUNCTION may remhash or puthash the entry currently being + processed by FUNCTION. + + +File: lispref.info, Node: Weak Hash Tables, Prev: Working With Hash Tables, Up: Hash Tables + +Weak Hash Tables +================ + + A "weak hash table" is a special variety of hash table whose +elements do not count as GC referents. For any key-value pair in such a +hash table, if either the key or value (or in some cases, if one +particular one of the two) has no references to it outside of weak hash +tables (and similar structures such as weak lists), the pair will be +removed from the table, and the key and value collected. A non-weak +hash table (or any other pointer) would prevent the objects from being +collected. + + Weak hash tables are useful for keeping track of information in a +non-obtrusive way, for example to implement caching. If the cache +contains objects such as buffers, markers, image instances, etc. that +will eventually disappear and get garbage-collected, using a weak hash +table ensures that these objects are collected normally rather than +remaining around forever, long past their actual period of use. +(Otherwise, you'd have to explicitly map over the hash table every so +often and remove unnecessary elements.) + + There are three types of weak hash tables: + +fully weak hash tables + In these hash tables, a pair disappears if either the key or the + value is unreferenced outside of the table. + +key-weak hash tables + In these hash tables, a pair disappears if the key is unreferenced + outside of the table, regardless of how the value is referenced. + +value-weak hash tables + In these hash tables, a pair disappears if the value is + unreferenced outside of the table, regardless of how the key is + referenced. + + Also see *Note Weak Lists::. + + Weak hash tables are created by specifying the `:weakness' keyword to +`make-hash-table'. + + +File: lispref.info, Node: Range Tables, Next: Databases, Prev: Hash Tables, Up: Top + +Range Tables +************ + + A range table is a table that efficiently associated values with +ranges of integers. + + Note that range tables have a read syntax, like this: + + #s(range-table data ((-3 2) foo (5 20) bar)) + + This maps integers in the range (-3, 2) to `foo' and integers in the +range (5, 20) to `bar'. + + - Function: range-table-p object + Return non-`nil' if OBJECT is a range table. + +* Menu: + +* Introduction to Range Tables:: Range tables efficiently map ranges of + integers to values. +* Working With Range Tables:: Range table functions. + + +File: lispref.info, Node: Introduction to Range Tables, Next: Working With Range Tables, Up: Range Tables + +Introduction to Range Tables +============================ + + - Function: make-range-table + Make a new, empty range table. + + - Function: copy-range-table old-table + Make a new range table which contains the same values for the same + ranges as the given table. The values will not themselves be + copied. + + +File: lispref.info, Node: Working With Range Tables, Prev: Introduction to Range Tables, Up: Range Tables + +Working With Range Tables +========================= + + - Function: get-range-table pos table &optional default + This function finds value for position POS in TABLE. If there is + no corresponding value, return DEFAULT (defaults to `nil'). + + - Function: put-range-table start end val table + This function sets the value for range (START, END) to be VAL in + TABLE. + + - Function: remove-range-table start end table + This function removes the value for range (START, END) in TABLE. + + - Function: clear-range-table table + This function flushes TABLE. + + - Function: map-range-table function table + This function maps FUNCTION over entries in TABLE, calling it with + three args, the beginning and end of the range and the + corresponding value. + + +File: lispref.info, Node: Databases, Next: Processes, Prev: Range Tables, Up: Top + +Databases +********* + + - Function: databasep object + This function returns non-`nil' if OBJECT is a database. + +* Menu: + +* Connecting to a Database:: +* Working With a Database:: +* Other Database Functions:: + + +File: lispref.info, Node: Connecting to a Database, Next: Working With a Database, Up: Databases + +Connecting to a Database +======================== + + - Function: open-database file &optional type subtype access mode + This function opens database FILE, using database method TYPE and + SUBTYPE, with access rights ACCESS and permissions MODE. ACCESS + can be any combination of `r' `w' and `+', for read, write, and + creation flags. + + TYPE can have the value `'dbm' or `'berkeley_db' to select the + type of database file to use. (Note: XEmacs may not support both + of these types.) + + For a TYPE of `'dbm', there are no subtypes, so SUBTYPE should by + `nil'. + + For a TYPE of `'berkeley_db', the following subtypes are + available: `'hash', `'btree', and `'recno'. See the manpages for + the Berkeley DB functions to more information about these types. + + - Function: close-database obj + This function closes database OBJ. + + - Function: database-live-p obj + This function returns `t' iff OBJ is an active database, else + `nil'. + + File: lispref.info, Node: Working With a Database, Next: Other Database Functions, Prev: Connecting to a Database, Up: Databases Working With a Database @@ -791,390 +1243,3 @@ discarded. * Accepting Output:: Explicitly permitting subprocess output. Waiting for subprocess output. - -File: lispref.info, Node: Process Buffers, Next: Filter Functions, Up: Output from Processes - -Process Buffers ---------------- - - A process can (and usually does) have an "associated buffer", which -is an ordinary Emacs buffer that is used for two purposes: storing the -output from the process, and deciding when to kill the process. You -can also use the buffer to identify a process to operate on, since in -normal practice only one process is associated with any given buffer. -Many applications of processes also use the buffer for editing input to -be sent to the process, but this is not built into XEmacs Lisp. - - Unless the process has a filter function (*note Filter Functions::), -its output is inserted in the associated buffer. The position to insert -the output is determined by the `process-mark', which is then updated -to point to the end of the text just inserted. Usually, but not -always, the `process-mark' is at the end of the buffer. - - - Function: process-buffer process - This function returns the associated buffer of the process PROCESS. - - (process-buffer (get-process "shell")) - => # - - - Function: process-mark process - This function returns the process marker for PROCESS, which is the - marker that says where to insert output from the process. - - If PROCESS does not have a buffer, `process-mark' returns a marker - that points nowhere. - - Insertion of process output in a buffer uses this marker to decide - where to insert, and updates it to point after the inserted text. - That is why successive batches of output are inserted - consecutively. - - Filter functions normally should use this marker in the same - fashion as is done by direct insertion of output in the buffer. A - good example of a filter function that uses `process-mark' is - found at the end of the following section. - - When the user is expected to enter input in the process buffer for - transmission to the process, the process marker is useful for - distinguishing the new input from previous output. - - - Function: set-process-buffer process buffer - This function sets the buffer associated with PROCESS to BUFFER. - If BUFFER is `nil', the process becomes associated with no buffer. - - - Function: get-buffer-process buffer-or-name - This function returns the process associated with BUFFER-OR-NAME. - If there are several processes associated with it, then one is - chosen. (Presently, the one chosen is the one most recently - created.) It is usually a bad idea to have more than one process - associated with the same buffer. - - (get-buffer-process "*shell*") - => # - - Killing the process's buffer deletes the process, which kills the - subprocess with a `SIGHUP' signal (*note Signals to Processes::). - - -File: lispref.info, Node: Filter Functions, Next: Accepting Output, Prev: Process Buffers, Up: Output from Processes - -Process Filter Functions ------------------------- - - A process "filter function" is a function that receives the standard -output from the associated process. If a process has a filter, then -_all_ output from that process is passed to the filter. The process -buffer is used directly for output from the process only when there is -no filter. - - A filter function must accept two arguments: the associated process -and a string, which is the output. The function is then free to do -whatever it chooses with the output. - - A filter function runs only while XEmacs is waiting (e.g., for -terminal input, or for time to elapse, or for process output). This -avoids the timing errors that could result from running filters at -random places in the middle of other Lisp programs. You may explicitly -cause Emacs to wait, so that filter functions will run, by calling -`sit-for' or `sleep-for' (*note Waiting::), or `accept-process-output' -(*note Accepting Output::). Emacs is also waiting when the command loop -is reading input. - - Quitting is normally inhibited within a filter function--otherwise, -the effect of typing `C-g' at command level or to quit a user command -would be unpredictable. If you want to permit quitting inside a filter -function, bind `inhibit-quit' to `nil'. *Note Quitting::. - - If an error happens during execution of a filter function, it is -caught automatically, so that it doesn't stop the execution of whatever -program was running when the filter function was started. However, if -`debug-on-error' is non-`nil', the error-catching is turned off. This -makes it possible to use the Lisp debugger to debug the filter -function. *Note Debugger::. - - Many filter functions sometimes or always insert the text in the -process's buffer, mimicking the actions of XEmacs when there is no -filter. Such filter functions need to use `set-buffer' in order to be -sure to insert in that buffer. To avoid setting the current buffer -semipermanently, these filter functions must use `unwind-protect' to -make sure to restore the previous current buffer. They should also -update the process marker, and in some cases update the value of point. -Here is how to do these things: - - (defun ordinary-insertion-filter (proc string) - (let ((old-buffer (current-buffer))) - (unwind-protect - (let (moving) - (set-buffer (process-buffer proc)) - (setq moving (= (point) (process-mark proc))) - (save-excursion - ;; Insert the text, moving the process-marker. - (goto-char (process-mark proc)) - (insert string) - (set-marker (process-mark proc) (point))) - (if moving (goto-char (process-mark proc)))) - (set-buffer old-buffer)))) - -The reason to use an explicit `unwind-protect' rather than letting -`save-excursion' restore the current buffer is so as to preserve the -change in point made by `goto-char'. - - To make the filter force the process buffer to be visible whenever -new text arrives, insert the following line just before the -`unwind-protect': - - (display-buffer (process-buffer proc)) - - To force point to move to the end of the new output no matter where -it was previously, eliminate the variable `moving' and call `goto-char' -unconditionally. - - In earlier Emacs versions, every filter function that did regexp -searching or matching had to explicitly save and restore the match data. -Now Emacs does this automatically; filter functions never need to do it -explicitly. *Note Match Data::. - - A filter function that writes the output into the buffer of the -process should check whether the buffer is still alive. If it tries to -insert into a dead buffer, it will get an error. If the buffer is dead, -`(buffer-name (process-buffer PROCESS))' returns `nil'. - - The output to the function may come in chunks of any size. A program -that produces the same output twice in a row may send it as one batch -of 200 characters one time, and five batches of 40 characters the next. - - - Function: set-process-filter process filter - This function gives PROCESS the filter function FILTER. If FILTER - is `nil', then the process will have no filter. If FILTER is `t', - then no output from the process will be accepted until the filter - is changed. (Output received during this time is not discarded, - but is queued, and will be processed as soon as the filter is - changed.) - - - Function: process-filter process - This function returns the filter function of PROCESS, or `nil' if - it has none. `t' means that output processing has been stopped. - - Here is an example of use of a filter function: - - (defun keep-output (process output) - (setq kept (cons output kept))) - => keep-output - (setq kept nil) - => nil - (set-process-filter (get-process "shell") 'keep-output) - => keep-output - (process-send-string "shell" "ls ~/other\n") - => nil - kept - => ("lewis@slug[8] % " - "FINAL-W87-SHORT.MSS backup.otl kolstad.mss~ - address.txt backup.psf kolstad.psf - backup.bib~ david.mss resume-Dec-86.mss~ - backup.err david.psf resume-Dec.psf - backup.mss dland syllabus.mss - " - "#backups.mss# backup.mss~ kolstad.mss - ") - - -File: lispref.info, Node: Accepting Output, Prev: Filter Functions, Up: Output from Processes - -Accepting Output from Processes -------------------------------- - - Output from asynchronous subprocesses normally arrives only while -XEmacs is waiting for some sort of external event, such as elapsed time -or terminal input. Occasionally it is useful in a Lisp program to -explicitly permit output to arrive at a specific point, or even to wait -until output arrives from a process. - - - Function: accept-process-output &optional process seconds millisec - This function allows XEmacs to read pending output from processes. - The output is inserted in the associated buffers or given to - their filter functions. If PROCESS is non-`nil' then this - function does not return until some output has been received from - PROCESS. - - The arguments SECONDS and MILLISEC let you specify timeout - periods. The former specifies a period measured in seconds and the - latter specifies one measured in milliseconds. The two time - periods thus specified are added together, and - `accept-process-output' returns after that much time whether or - not there has been any subprocess output. Note that SECONDS is - allowed to be a floating-point number; thus, there is no need to - ever use MILLISEC. (It is retained for compatibility purposes.) - - The function `accept-process-output' returns non-`nil' if it did - get some output, or `nil' if the timeout expired before output - arrived. - - -File: lispref.info, Node: Sentinels, Next: Process Window Size, Prev: Output from Processes, Up: Processes - -Sentinels: Detecting Process Status Changes -=========================================== - - A "process sentinel" is a function that is called whenever the -associated process changes status for any reason, including signals -(whether sent by XEmacs or caused by the process's own actions) that -terminate, stop, or continue the process. The process sentinel is also -called if the process exits. The sentinel receives two arguments: the -process for which the event occurred, and a string describing the type -of event. - - The string describing the event looks like one of the following: - - * `"finished\n"'. - - * `"exited abnormally with code EXITCODE\n"'. - - * `"NAME-OF-SIGNAL\n"'. - - * `"NAME-OF-SIGNAL (core dumped)\n"'. - - A sentinel runs only while XEmacs is waiting (e.g., for terminal -input, or for time to elapse, or for process output). This avoids the -timing errors that could result from running them at random places in -the middle of other Lisp programs. A program can wait, so that -sentinels will run, by calling `sit-for' or `sleep-for' (*note -Waiting::), or `accept-process-output' (*note Accepting Output::). -Emacs is also waiting when the command loop is reading input. - - Quitting is normally inhibited within a sentinel--otherwise, the -effect of typing `C-g' at command level or to quit a user command would -be unpredictable. If you want to permit quitting inside a sentinel, -bind `inhibit-quit' to `nil'. *Note Quitting::. - - A sentinel that writes the output into the buffer of the process -should check whether the buffer is still alive. If it tries to insert -into a dead buffer, it will get an error. If the buffer is dead, -`(buffer-name (process-buffer PROCESS))' returns `nil'. - - If an error happens during execution of a sentinel, it is caught -automatically, so that it doesn't stop the execution of whatever -programs was running when the sentinel was started. However, if -`debug-on-error' is non-`nil', the error-catching is turned off. This -makes it possible to use the Lisp debugger to debug the sentinel. -*Note Debugger::. - - In earlier Emacs versions, every sentinel that did regexp searching -or matching had to explicitly save and restore the match data. Now -Emacs does this automatically; sentinels never need to do it explicitly. -*Note Match Data::. - - - Function: set-process-sentinel process sentinel - This function associates SENTINEL with PROCESS. If SENTINEL is - `nil', then the process will have no sentinel. The default - behavior when there is no sentinel is to insert a message in the - process's buffer when the process status changes. - - (defun msg-me (process event) - (princ - (format "Process: %s had the event `%s'" process event))) - (set-process-sentinel (get-process "shell") 'msg-me) - => msg-me - (kill-process (get-process "shell")) - -| Process: # had the event `killed' - => # - - - Function: process-sentinel process - This function returns the sentinel of PROCESS, or `nil' if it has - none. - - - Function: waiting-for-user-input-p - While a sentinel or filter function is running, this function - returns non-`nil' if XEmacs was waiting for keyboard input from - the user at the time the sentinel or filter function was called, - `nil' if it was not. - - -File: lispref.info, Node: Process Window Size, Next: Transaction Queues, Prev: Sentinels, Up: Processes - -Process Window Size -=================== - - - Function: set-process-window-size process height width - This function tells PROCESS that its logical window size is HEIGHT - by WIDTH characters. This is principally useful with pty's. - - -File: lispref.info, Node: Transaction Queues, Next: Network, Prev: Process Window Size, Up: Processes - -Transaction Queues -================== - - You can use a "transaction queue" for more convenient communication -with subprocesses using transactions. First use `tq-create' to create -a transaction queue communicating with a specified process. Then you -can call `tq-enqueue' to send a transaction. - - - Function: tq-create process - This function creates and returns a transaction queue - communicating with PROCESS. The argument PROCESS should be a - subprocess capable of sending and receiving streams of bytes. It - may be a child process, or it may be a TCP connection to a server, - possibly on another machine. - - - Function: tq-enqueue queue question regexp closure fn - This function sends a transaction to queue QUEUE. Specifying the - queue has the effect of specifying the subprocess to talk to. - - The argument QUESTION is the outgoing message that starts the - transaction. The argument FN is the function to call when the - corresponding answer comes back; it is called with two arguments: - CLOSURE, and the answer received. - - The argument REGEXP is a regular expression that should match the - entire answer, but nothing less; that's how `tq-enqueue' determines - where the answer ends. - - The return value of `tq-enqueue' itself is not meaningful. - - - Function: tq-close queue - Shut down transaction queue QUEUE, waiting for all pending - transactions to complete, and then terminate the connection or - child process. - - Transaction queues are implemented by means of a filter function. -*Note Filter Functions::. - - -File: lispref.info, Node: Network, Prev: Transaction Queues, Up: Processes - -Network Connections -=================== - - XEmacs Lisp programs can open TCP network connections to other -processes on the same machine or other machines. A network connection -is handled by Lisp much like a subprocess, and is represented by a -process object. However, the process you are communicating with is not -a child of the XEmacs process, so you can't kill it or send it signals. -All you can do is send and receive data. `delete-process' closes the -connection, but does not kill the process at the other end; that -process must decide what to do about closure of the connection. - - You can distinguish process objects representing network connections -from those representing subprocesses with the `process-status' -function. It always returns either `open' or `closed' for a network -connection, and it never returns either of those values for a real -subprocess. *Note Process Information::. - - - Function: open-network-stream name buffer-or-name host service - This function opens a TCP connection for a service to a host. It - returns a process object to represent the connection. - - The NAME argument specifies the name for the process object. It - is modified as necessary to make it unique. - - The BUFFER-OR-NAME argument is the buffer to associate with the - connection. Output from the connection is inserted in the buffer, - unless you specify a filter function to handle the output. If - BUFFER-OR-NAME is `nil', it means that the connection is not - associated with any buffer. - - The arguments HOST and SERVICE specify where to connect to; HOST - is the host name or IP address (a string), and SERVICE is the name - of a defined network service (a string) or a port number (an - integer). - diff --git a/info/lispref.info-39 b/info/lispref.info-39 index 90be6be..9a6e077 100644 --- a/info/lispref.info-39 +++ b/info/lispref.info-39 @@ -50,6 +50,393 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Process Buffers, Next: Filter Functions, Up: Output from Processes + +Process Buffers +--------------- + + A process can (and usually does) have an "associated buffer", which +is an ordinary Emacs buffer that is used for two purposes: storing the +output from the process, and deciding when to kill the process. You +can also use the buffer to identify a process to operate on, since in +normal practice only one process is associated with any given buffer. +Many applications of processes also use the buffer for editing input to +be sent to the process, but this is not built into XEmacs Lisp. + + Unless the process has a filter function (*note Filter Functions::), +its output is inserted in the associated buffer. The position to insert +the output is determined by the `process-mark', which is then updated +to point to the end of the text just inserted. Usually, but not +always, the `process-mark' is at the end of the buffer. + + - Function: process-buffer process + This function returns the associated buffer of the process PROCESS. + + (process-buffer (get-process "shell")) + => # + + - Function: process-mark process + This function returns the process marker for PROCESS, which is the + marker that says where to insert output from the process. + + If PROCESS does not have a buffer, `process-mark' returns a marker + that points nowhere. + + Insertion of process output in a buffer uses this marker to decide + where to insert, and updates it to point after the inserted text. + That is why successive batches of output are inserted + consecutively. + + Filter functions normally should use this marker in the same + fashion as is done by direct insertion of output in the buffer. A + good example of a filter function that uses `process-mark' is + found at the end of the following section. + + When the user is expected to enter input in the process buffer for + transmission to the process, the process marker is useful for + distinguishing the new input from previous output. + + - Function: set-process-buffer process buffer + This function sets the buffer associated with PROCESS to BUFFER. + If BUFFER is `nil', the process becomes associated with no buffer. + + - Function: get-buffer-process buffer-or-name + This function returns the process associated with BUFFER-OR-NAME. + If there are several processes associated with it, then one is + chosen. (Presently, the one chosen is the one most recently + created.) It is usually a bad idea to have more than one process + associated with the same buffer. + + (get-buffer-process "*shell*") + => # + + Killing the process's buffer deletes the process, which kills the + subprocess with a `SIGHUP' signal (*note Signals to Processes::). + + +File: lispref.info, Node: Filter Functions, Next: Accepting Output, Prev: Process Buffers, Up: Output from Processes + +Process Filter Functions +------------------------ + + A process "filter function" is a function that receives the standard +output from the associated process. If a process has a filter, then +_all_ output from that process is passed to the filter. The process +buffer is used directly for output from the process only when there is +no filter. + + A filter function must accept two arguments: the associated process +and a string, which is the output. The function is then free to do +whatever it chooses with the output. + + A filter function runs only while XEmacs is waiting (e.g., for +terminal input, or for time to elapse, or for process output). This +avoids the timing errors that could result from running filters at +random places in the middle of other Lisp programs. You may explicitly +cause Emacs to wait, so that filter functions will run, by calling +`sit-for' or `sleep-for' (*note Waiting::), or `accept-process-output' +(*note Accepting Output::). Emacs is also waiting when the command loop +is reading input. + + Quitting is normally inhibited within a filter function--otherwise, +the effect of typing `C-g' at command level or to quit a user command +would be unpredictable. If you want to permit quitting inside a filter +function, bind `inhibit-quit' to `nil'. *Note Quitting::. + + If an error happens during execution of a filter function, it is +caught automatically, so that it doesn't stop the execution of whatever +program was running when the filter function was started. However, if +`debug-on-error' is non-`nil', the error-catching is turned off. This +makes it possible to use the Lisp debugger to debug the filter +function. *Note Debugger::. + + Many filter functions sometimes or always insert the text in the +process's buffer, mimicking the actions of XEmacs when there is no +filter. Such filter functions need to use `set-buffer' in order to be +sure to insert in that buffer. To avoid setting the current buffer +semipermanently, these filter functions must use `unwind-protect' to +make sure to restore the previous current buffer. They should also +update the process marker, and in some cases update the value of point. +Here is how to do these things: + + (defun ordinary-insertion-filter (proc string) + (let ((old-buffer (current-buffer))) + (unwind-protect + (let (moving) + (set-buffer (process-buffer proc)) + (setq moving (= (point) (process-mark proc))) + (save-excursion + ;; Insert the text, moving the process-marker. + (goto-char (process-mark proc)) + (insert string) + (set-marker (process-mark proc) (point))) + (if moving (goto-char (process-mark proc)))) + (set-buffer old-buffer)))) + +The reason to use an explicit `unwind-protect' rather than letting +`save-excursion' restore the current buffer is so as to preserve the +change in point made by `goto-char'. + + To make the filter force the process buffer to be visible whenever +new text arrives, insert the following line just before the +`unwind-protect': + + (display-buffer (process-buffer proc)) + + To force point to move to the end of the new output no matter where +it was previously, eliminate the variable `moving' and call `goto-char' +unconditionally. + + In earlier Emacs versions, every filter function that did regexp +searching or matching had to explicitly save and restore the match data. +Now Emacs does this automatically; filter functions never need to do it +explicitly. *Note Match Data::. + + A filter function that writes the output into the buffer of the +process should check whether the buffer is still alive. If it tries to +insert into a dead buffer, it will get an error. If the buffer is dead, +`(buffer-name (process-buffer PROCESS))' returns `nil'. + + The output to the function may come in chunks of any size. A program +that produces the same output twice in a row may send it as one batch +of 200 characters one time, and five batches of 40 characters the next. + + - Function: set-process-filter process filter + This function gives PROCESS the filter function FILTER. If FILTER + is `nil', then the process will have no filter. If FILTER is `t', + then no output from the process will be accepted until the filter + is changed. (Output received during this time is not discarded, + but is queued, and will be processed as soon as the filter is + changed.) + + - Function: process-filter process + This function returns the filter function of PROCESS, or `nil' if + it has none. `t' means that output processing has been stopped. + + Here is an example of use of a filter function: + + (defun keep-output (process output) + (setq kept (cons output kept))) + => keep-output + (setq kept nil) + => nil + (set-process-filter (get-process "shell") 'keep-output) + => keep-output + (process-send-string "shell" "ls ~/other\n") + => nil + kept + => ("lewis@slug[8] % " + "FINAL-W87-SHORT.MSS backup.otl kolstad.mss~ + address.txt backup.psf kolstad.psf + backup.bib~ david.mss resume-Dec-86.mss~ + backup.err david.psf resume-Dec.psf + backup.mss dland syllabus.mss + " + "#backups.mss# backup.mss~ kolstad.mss + ") + + +File: lispref.info, Node: Accepting Output, Prev: Filter Functions, Up: Output from Processes + +Accepting Output from Processes +------------------------------- + + Output from asynchronous subprocesses normally arrives only while +XEmacs is waiting for some sort of external event, such as elapsed time +or terminal input. Occasionally it is useful in a Lisp program to +explicitly permit output to arrive at a specific point, or even to wait +until output arrives from a process. + + - Function: accept-process-output &optional process seconds millisec + This function allows XEmacs to read pending output from processes. + The output is inserted in the associated buffers or given to + their filter functions. If PROCESS is non-`nil' then this + function does not return until some output has been received from + PROCESS. + + The arguments SECONDS and MILLISEC let you specify timeout + periods. The former specifies a period measured in seconds and the + latter specifies one measured in milliseconds. The two time + periods thus specified are added together, and + `accept-process-output' returns after that much time whether or + not there has been any subprocess output. Note that SECONDS is + allowed to be a floating-point number; thus, there is no need to + ever use MILLISEC. (It is retained for compatibility purposes.) + + The function `accept-process-output' returns non-`nil' if it did + get some output, or `nil' if the timeout expired before output + arrived. + + +File: lispref.info, Node: Sentinels, Next: Process Window Size, Prev: Output from Processes, Up: Processes + +Sentinels: Detecting Process Status Changes +=========================================== + + A "process sentinel" is a function that is called whenever the +associated process changes status for any reason, including signals +(whether sent by XEmacs or caused by the process's own actions) that +terminate, stop, or continue the process. The process sentinel is also +called if the process exits. The sentinel receives two arguments: the +process for which the event occurred, and a string describing the type +of event. + + The string describing the event looks like one of the following: + + * `"finished\n"'. + + * `"exited abnormally with code EXITCODE\n"'. + + * `"NAME-OF-SIGNAL\n"'. + + * `"NAME-OF-SIGNAL (core dumped)\n"'. + + A sentinel runs only while XEmacs is waiting (e.g., for terminal +input, or for time to elapse, or for process output). This avoids the +timing errors that could result from running them at random places in +the middle of other Lisp programs. A program can wait, so that +sentinels will run, by calling `sit-for' or `sleep-for' (*note +Waiting::), or `accept-process-output' (*note Accepting Output::). +Emacs is also waiting when the command loop is reading input. + + Quitting is normally inhibited within a sentinel--otherwise, the +effect of typing `C-g' at command level or to quit a user command would +be unpredictable. If you want to permit quitting inside a sentinel, +bind `inhibit-quit' to `nil'. *Note Quitting::. + + A sentinel that writes the output into the buffer of the process +should check whether the buffer is still alive. If it tries to insert +into a dead buffer, it will get an error. If the buffer is dead, +`(buffer-name (process-buffer PROCESS))' returns `nil'. + + If an error happens during execution of a sentinel, it is caught +automatically, so that it doesn't stop the execution of whatever +programs was running when the sentinel was started. However, if +`debug-on-error' is non-`nil', the error-catching is turned off. This +makes it possible to use the Lisp debugger to debug the sentinel. +*Note Debugger::. + + In earlier Emacs versions, every sentinel that did regexp searching +or matching had to explicitly save and restore the match data. Now +Emacs does this automatically; sentinels never need to do it explicitly. +*Note Match Data::. + + - Function: set-process-sentinel process sentinel + This function associates SENTINEL with PROCESS. If SENTINEL is + `nil', then the process will have no sentinel. The default + behavior when there is no sentinel is to insert a message in the + process's buffer when the process status changes. + + (defun msg-me (process event) + (princ + (format "Process: %s had the event `%s'" process event))) + (set-process-sentinel (get-process "shell") 'msg-me) + => msg-me + (kill-process (get-process "shell")) + -| Process: # had the event `killed' + => # + + - Function: process-sentinel process + This function returns the sentinel of PROCESS, or `nil' if it has + none. + + - Function: waiting-for-user-input-p + While a sentinel or filter function is running, this function + returns non-`nil' if XEmacs was waiting for keyboard input from + the user at the time the sentinel or filter function was called, + `nil' if it was not. + + +File: lispref.info, Node: Process Window Size, Next: Transaction Queues, Prev: Sentinels, Up: Processes + +Process Window Size +=================== + + - Function: set-process-window-size process height width + This function tells PROCESS that its logical window size is HEIGHT + by WIDTH characters. This is principally useful with pty's. + + +File: lispref.info, Node: Transaction Queues, Next: Network, Prev: Process Window Size, Up: Processes + +Transaction Queues +================== + + You can use a "transaction queue" for more convenient communication +with subprocesses using transactions. First use `tq-create' to create +a transaction queue communicating with a specified process. Then you +can call `tq-enqueue' to send a transaction. + + - Function: tq-create process + This function creates and returns a transaction queue + communicating with PROCESS. The argument PROCESS should be a + subprocess capable of sending and receiving streams of bytes. It + may be a child process, or it may be a TCP connection to a server, + possibly on another machine. + + - Function: tq-enqueue queue question regexp closure fn + This function sends a transaction to queue QUEUE. Specifying the + queue has the effect of specifying the subprocess to talk to. + + The argument QUESTION is the outgoing message that starts the + transaction. The argument FN is the function to call when the + corresponding answer comes back; it is called with two arguments: + CLOSURE, and the answer received. + + The argument REGEXP is a regular expression that should match the + entire answer, but nothing less; that's how `tq-enqueue' determines + where the answer ends. + + The return value of `tq-enqueue' itself is not meaningful. + + - Function: tq-close queue + Shut down transaction queue QUEUE, waiting for all pending + transactions to complete, and then terminate the connection or + child process. + + Transaction queues are implemented by means of a filter function. +*Note Filter Functions::. + + +File: lispref.info, Node: Network, Prev: Transaction Queues, Up: Processes + +Network Connections +=================== + + XEmacs Lisp programs can open TCP network connections to other +processes on the same machine or other machines. A network connection +is handled by Lisp much like a subprocess, and is represented by a +process object. However, the process you are communicating with is not +a child of the XEmacs process, so you can't kill it or send it signals. +All you can do is send and receive data. `delete-process' closes the +connection, but does not kill the process at the other end; that +process must decide what to do about closure of the connection. + + You can distinguish process objects representing network connections +from those representing subprocesses with the `process-status' +function. It always returns either `open' or `closed' for a network +connection, and it never returns either of those values for a real +subprocess. *Note Process Information::. + + - Function: open-network-stream name buffer-or-name host service + This function opens a TCP connection for a service to a host. It + returns a process object to represent the connection. + + The NAME argument specifies the name for the process object. It + is modified as necessary to make it unique. + + The BUFFER-OR-NAME argument is the buffer to associate with the + connection. Output from the connection is inserted in the buffer, + unless you specify a filter function to handle the output. If + BUFFER-OR-NAME is `nil', it means that the connection is not + associated with any buffer. + + The arguments HOST and SERVICE specify where to connect to; HOST + is the host name or IP address (a string), and SERVICE is the name + of a defined network service (a string) or a port number (an + integer). + + File: lispref.info, Node: System Interface, Next: X-Windows, Prev: Processes, Up: Top Operating System Interface @@ -806,513 +1193,3 @@ Titles::). 3. Return "C:\", as a fallback, but issue a warning. - -File: lispref.info, Node: Time of Day, Next: Time Conversion, Prev: User Identification, Up: System Interface - -Time of Day -=========== - - This section explains how to determine the current time and the time -zone. - - - Function: current-time-string &optional time-value - This function returns the current time and date as a - humanly-readable string. The format of the string is unvarying; - the number of characters used for each part is always the same, so - you can reliably use `substring' to extract pieces of it. It is - wise to count the characters from the beginning of the string - rather than from the end, as additional information may be added - at the end. - - The argument TIME-VALUE, if given, specifies a time to format - instead of the current time. The argument should be a list whose - first two elements are integers. Thus, you can use times obtained - from `current-time' (see below) and from `file-attributes' (*note - File Attributes::). - - (current-time-string) - => "Wed Oct 14 22:21:05 1987" - - - Function: current-time - This function returns the system's time value as a list of three - integers: `(HIGH LOW MICROSEC)'. The integers HIGH and LOW - combine to give the number of seconds since 0:00 January 1, 1970, - which is HIGH * 2**16 + LOW. - - The third element, MICROSEC, gives the microseconds since the - start of the current second (or 0 for systems that return time - only on the resolution of a second). - - The first two elements can be compared with file time values such - as you get with the function `file-attributes'. *Note File - Attributes::. - - - Function: current-time-zone &optional time-value - This function returns a list describing the time zone that the - user is in. - - The value has the form `(OFFSET NAME)'. Here OFFSET is an integer - giving the number of seconds ahead of UTC (east of Greenwich). A - negative value means west of Greenwich. The second element, NAME - is a string giving the name of the time zone. Both elements - change when daylight savings time begins or ends; if the user has - specified a time zone that does not use a seasonal time - adjustment, then the value is constant through time. - - If the operating system doesn't supply all the information - necessary to compute the value, both elements of the list are - `nil'. - - The argument TIME-VALUE, if given, specifies a time to analyze - instead of the current time. The argument should be a cons cell - containing two integers, or a list whose first two elements are - integers. Thus, you can use times obtained from `current-time' - (see above) and from `file-attributes' (*note File Attributes::). - - -File: lispref.info, Node: Time Conversion, Next: Timers, Prev: Time of Day, Up: System Interface - -Time Conversion -=============== - - These functions convert time values (lists of two or three integers) -to strings or to calendrical information. There is also a function to -convert calendrical information to a time value. You can get time -values from the functions `current-time' (*note Time of Day::) and -`file-attributes' (*note File Attributes::). - - - Function: format-time-string format-string &optional time - This function converts TIME to a string according to - FORMAT-STRING. If TIME is omitted, it defaults to the current - time. The argument FORMAT-STRING may contain `%'-sequences which - say to substitute parts of the time. Here is a table of what the - `%'-sequences mean: - - `%a' - This stands for the abbreviated name of the day of week. - - `%A' - This stands for the full name of the day of week. - - `%b' - This stands for the abbreviated name of the month. - - `%B' - This stands for the full name of the month. - - `%c' - This is a synonym for `%x %X'. - - `%C' - This has a locale-specific meaning. In the default locale - (named C), it is equivalent to `%A, %B %e, %Y'. - - `%d' - This stands for the day of month, zero-padded. - - `%D' - This is a synonym for `%m/%d/%y'. - - `%e' - This stands for the day of month, blank-padded. - - `%h' - This is a synonym for `%b'. - - `%H' - This stands for the hour (00-23). - - `%I' - This stands for the hour (00-12). - - `%j' - This stands for the day of the year (001-366). - - `%k' - This stands for the hour (0-23), blank padded. - - `%l' - This stands for the hour (1-12), blank padded. - - `%m' - This stands for the month (01-12). - - `%M' - This stands for the minute (00-59). - - `%n' - This stands for a newline. - - `%p' - This stands for `AM' or `PM', as appropriate. - - `%r' - This is a synonym for `%I:%M:%S %p'. - - `%R' - This is a synonym for `%H:%M'. - - `%S' - This stands for the seconds (00-60). - - `%t' - This stands for a tab character. - - `%T' - This is a synonym for `%H:%M:%S'. - - `%U' - This stands for the week of the year (01-52), assuming that - weeks start on Sunday. - - `%w' - This stands for the numeric day of week (0-6). Sunday is day - 0. - - `%W' - This stands for the week of the year (01-52), assuming that - weeks start on Monday. - - `%x' - This has a locale-specific meaning. In the default locale - (named C), it is equivalent to `%D'. - - `%X' - This has a locale-specific meaning. In the default locale - (named C), it is equivalent to `%T'. - - `%y' - This stands for the year without century (00-99). - - `%Y' - This stands for the year with century. - - `%Z' - This stands for the time zone abbreviation. - - - Function: decode-time time - This function converts a time value into calendrical information. - The return value is a list of nine elements, as follows: - - (SECONDS MINUTES HOUR DAY MONTH YEAR DOW DST ZONE) - - Here is what the elements mean: - - SEC - The number of seconds past the minute, as an integer between - 0 and 59. - - MINUTE - The number of minutes past the hour, as an integer between 0 - and 59. - - HOUR - The hour of the day, as an integer between 0 and 23. - - DAY - The day of the month, as an integer between 1 and 31. - - MONTH - The month of the year, as an integer between 1 and 12. - - YEAR - The year, an integer typically greater than 1900. - - DOW - The day of week, as an integer between 0 and 6, where 0 - stands for Sunday. - - DST - `t' if daylight savings time is effect, otherwise `nil'. - - ZONE - An integer indicating the time zone, as the number of seconds - east of Greenwich. - - Note that Common Lisp has different meanings for DOW and ZONE. - - - Function: encode-time seconds minutes hour day month year &optional - zone - This function is the inverse of `decode-time'. It converts seven - items of calendrical data into a time value. For the meanings of - the arguments, see the table above under `decode-time'. - - Year numbers less than 100 are treated just like other year - numbers. If you want them to stand for years above 1900, you must - alter them yourself before you call `encode-time'. - - The optional argument ZONE defaults to the current time zone and - its daylight savings time rules. If specified, it can be either a - list (as you would get from `current-time-zone') or an integer (as - you would get from `decode-time'). The specified zone is used - without any further alteration for daylight savings time. - - -File: lispref.info, Node: Timers, Next: Terminal Input, Prev: Time Conversion, Up: System Interface - -Timers for Delayed Execution -============================ - - You can set up a timer to call a function at a specified future time. - - - Function: add-timeout secs function object &optional resignal - This function adds a timeout, to be signaled after the timeout - period has elapsed. SECS is a number of seconds, expressed as an - integer or a float. FUNCTION will be called after that many - seconds have elapsed, with one argument, the given OBJECT. If the - optional RESIGNAL argument is provided, then after this timeout - expires, `add-timeout' will automatically be called again with - RESIGNAL as the first argument. - - This function returns an object which is the "id" of this - particular timeout. You can pass that object to `disable-timeout' - to turn off the timeout before it has been signalled. - - The number of seconds may be expressed as a floating-point number, - in which case some fractional part of a second will be used. - Caveat: the usable timeout granularity will vary from system to - system. - - Adding a timeout causes a timeout event to be returned by - `next-event', and the function will be invoked by - `dispatch-event', so if XEmacs is in a tight loop, the function - will not be invoked until the next call to sit-for or until the - return to top-level (the same is true of process filters). - - WARNING: if you are thinking of calling add-timeout from inside of - a callback function as a way of resignalling a timeout, think - again. There is a race condition. That's why the RESIGNAL - argument exists. - - (NOTE: In FSF Emacs, this function is called `run-at-time' and has - different semantics.) - - - Function: disable-timeout id - Cancel the requested action for ID, which should be a value - previously returned by `add-timeout'. This cancels the effect of - that call to `add-timeout'; the arrival of the specified time will - not cause anything special to happen. (NOTE: In FSF Emacs, this - function is called `cancel-timer'.) - - -File: lispref.info, Node: Terminal Input, Next: Terminal Output, Prev: Timers, Up: System Interface - -Terminal Input -============== - - This section describes functions and variables for recording or -manipulating terminal input. See *Note Display::, for related -functions. - -* Menu: - -* Input Modes:: Options for how input is processed. -* Translating Input:: Low level conversion of some characters or events - into others. -* Recording Input:: Saving histories of recent or all input events. - - -File: lispref.info, Node: Input Modes, Next: Translating Input, Up: Terminal Input - -Input Modes ------------ - - - Function: set-input-mode interrupt flow meta quit-char - This function sets the mode for reading keyboard input. If - INTERRUPT is non-null, then XEmacs uses input interrupts. If it is - `nil', then it uses CBREAK mode. When XEmacs communicates - directly with X, it ignores this argument and uses interrupts if - that is the way it knows how to communicate. - - If FLOW is non-`nil', then XEmacs uses XON/XOFF (`C-q', `C-s') - flow control for output to the terminal. This has no effect except - in CBREAK mode. *Note Flow Control::. - - The default setting is system dependent. Some systems always use - CBREAK mode regardless of what is specified. - - The argument META controls support for input character codes above - 127. If META is `t', XEmacs converts characters with the 8th bit - set into Meta characters. If META is `nil', XEmacs disregards the - 8th bit; this is necessary when the terminal uses it as a parity - bit. If META is neither `t' nor `nil', XEmacs uses all 8 bits of - input unchanged. This is good for terminals using European 8-bit - character sets. - - If QUIT-CHAR is non-`nil', it specifies the character to use for - quitting. Normally this character is `C-g'. *Note Quitting::. - - The `current-input-mode' function returns the input mode settings -XEmacs is currently using. - - - Function: current-input-mode - This function returns current mode for reading keyboard input. It - returns a list, corresponding to the arguments of `set-input-mode', - of the form `(INTERRUPT FLOW META QUIT)' in which: - INTERRUPT - is non-`nil' when XEmacs is using interrupt-driven input. If - `nil', Emacs is using CBREAK mode. - - FLOW - is non-`nil' if XEmacs uses XON/XOFF (`C-q', `C-s') flow - control for output to the terminal. This value has no effect - unless INTERRUPT is non-`nil'. - - META - is `t' if XEmacs treats the eighth bit of input characters as - the meta bit; `nil' means XEmacs clears the eighth bit of - every input character; any other value means XEmacs uses all - eight bits as the basic character code. - - QUIT - is the character XEmacs currently uses for quitting, usually - `C-g'. - - -File: lispref.info, Node: Translating Input, Next: Recording Input, Prev: Input Modes, Up: Terminal Input - -Translating Input Events ------------------------- - - This section describes features for translating input events into -other input events before they become part of key sequences. - - - Variable: function-key-map - This variable holds a keymap that describes the character sequences - sent by function keys on an ordinary character terminal. This - keymap uses the same data structure as other keymaps, but is used - differently: it specifies translations to make while reading - events. - - If `function-key-map' "binds" a key sequence K to a vector V, then - when K appears as a subsequence _anywhere_ in a key sequence, it - is replaced with the events in V. - - For example, VT100 terminals send ` O P' when the keypad PF1 - key is pressed. Therefore, we want XEmacs to translate that - sequence of events into the single event `pf1'. We accomplish - this by "binding" ` O P' to `[pf1]' in `function-key-map', - when using a VT100. - - Thus, typing `C-c ' sends the character sequence `C-c O - P'; later the function `read-key-sequence' translates this back - into `C-c ', which it returns as the vector `[?\C-c pf1]'. - - Entries in `function-key-map' are ignored if they conflict with - bindings made in the minor mode, local, or global keymaps. The - intent is that the character sequences that function keys send - should not have command bindings in their own right. - - The value of `function-key-map' is usually set up automatically - according to the terminal's Terminfo or Termcap entry, but - sometimes those need help from terminal-specific Lisp files. - XEmacs comes with terminal-specific files for many common - terminals; their main purpose is to make entries in - `function-key-map' beyond those that can be deduced from Termcap - and Terminfo. *Note Terminal-Specific::. - - Emacs versions 18 and earlier used totally different means of - detecting the character sequences that represent function keys. - - - Variable: key-translation-map - This variable is another keymap used just like `function-key-map' - to translate input events into other events. It differs from - `function-key-map' in two ways: - - * `key-translation-map' goes to work after `function-key-map' is - finished; it receives the results of translation by - `function-key-map'. - - * `key-translation-map' overrides actual key bindings. - - The intent of `key-translation-map' is for users to map one - character set to another, including ordinary characters normally - bound to `self-insert-command'. - - You can use `function-key-map' or `key-translation-map' for more -than simple aliases, by using a function, instead of a key sequence, as -the "translation" of a key. Then this function is called to compute -the translation of that key. - - The key translation function receives one argument, which is the -prompt that was specified in `read-key-sequence'--or `nil' if the key -sequence is being read by the editor command loop. In most cases you -can ignore the prompt value. - - If the function reads input itself, it can have the effect of -altering the event that follows. For example, here's how to define -`C-c h' to turn the character that follows into a Hyper character: - - (defun hyperify (prompt) - (let ((e (read-event))) - (vector (if (numberp e) - (logior (lsh 1 20) e) - (if (memq 'hyper (event-modifiers e)) - e - (add-event-modifier "H-" e)))))) - - (defun add-event-modifier (string e) - (let ((symbol (if (symbolp e) e (car e)))) - (setq symbol (intern (concat string - (symbol-name symbol)))) - (if (symbolp e) - symbol - (cons symbol (cdr e))))) - - (define-key function-key-map "\C-ch" 'hyperify) - - The `iso-transl' library uses this feature to provide a way of -inputting non-ASCII Latin-1 characters. - - -File: lispref.info, Node: Recording Input, Prev: Translating Input, Up: Terminal Input - -Recording Input ---------------- - - - Function: recent-keys &optional number - This function returns a vector containing recent input events from - the keyboard or mouse. By default, 100 events are recorded, which - is how many `recent-keys' returns. - - All input events are included, whether or not they were used as - parts of key sequences. Thus, you always get the last 100 inputs, - not counting keyboard macros. (Events from keyboard macros are - excluded because they are less interesting for debugging; it - should be enough to see the events that invoked the macros.) - - If NUMBER is specified, not more than NUMBER events will be - returned. You may change the number of stored events using - `set-recent-keys-ring-size'. - - - Function: recent-keys-ring-size - This function returns the number of recent events stored - internally. This is also the maximum number of events - `recent-keys' can return. By default, 100 events are stored. - - - Function: set-recent-keys-ring-size size - This function changes the number of events stored by XEmacs and - returned by `recent-keys'. - - For example, `(set-recent-keys-ring-size 250)' will make XEmacs - remember last 250 events and will make `recent-keys' return last - 250 events by default. - - - Command: open-dribble-file filename - This function opens a "dribble file" named FILENAME. When a - dribble file is open, each input event from the keyboard or mouse - (but not those from keyboard macros) is written in that file. A - non-character event is expressed using its printed representation - surrounded by `<...>'. - - You close the dribble file by calling this function with an - argument of `nil'. - - This function is normally used to record the input necessary to - trigger an XEmacs bug, for the sake of a bug report. - - (open-dribble-file "~/dribble") - => nil - - See also the `open-termscript' function (*note Terminal Output::). - diff --git a/info/lispref.info-40 b/info/lispref.info-40 index 3a42e0c..69a170a 100644 --- a/info/lispref.info-40 +++ b/info/lispref.info-40 @@ -50,6 +50,516 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Time of Day, Next: Time Conversion, Prev: User Identification, Up: System Interface + +Time of Day +=========== + + This section explains how to determine the current time and the time +zone. + + - Function: current-time-string &optional time-value + This function returns the current time and date as a + humanly-readable string. The format of the string is unvarying; + the number of characters used for each part is always the same, so + you can reliably use `substring' to extract pieces of it. It is + wise to count the characters from the beginning of the string + rather than from the end, as additional information may be added + at the end. + + The argument TIME-VALUE, if given, specifies a time to format + instead of the current time. The argument should be a list whose + first two elements are integers. Thus, you can use times obtained + from `current-time' (see below) and from `file-attributes' (*note + File Attributes::). + + (current-time-string) + => "Wed Oct 14 22:21:05 1987" + + - Function: current-time + This function returns the system's time value as a list of three + integers: `(HIGH LOW MICROSEC)'. The integers HIGH and LOW + combine to give the number of seconds since 0:00 January 1, 1970, + which is HIGH * 2**16 + LOW. + + The third element, MICROSEC, gives the microseconds since the + start of the current second (or 0 for systems that return time + only on the resolution of a second). + + The first two elements can be compared with file time values such + as you get with the function `file-attributes'. *Note File + Attributes::. + + - Function: current-time-zone &optional time-value + This function returns a list describing the time zone that the + user is in. + + The value has the form `(OFFSET NAME)'. Here OFFSET is an integer + giving the number of seconds ahead of UTC (east of Greenwich). A + negative value means west of Greenwich. The second element, NAME + is a string giving the name of the time zone. Both elements + change when daylight savings time begins or ends; if the user has + specified a time zone that does not use a seasonal time + adjustment, then the value is constant through time. + + If the operating system doesn't supply all the information + necessary to compute the value, both elements of the list are + `nil'. + + The argument TIME-VALUE, if given, specifies a time to analyze + instead of the current time. The argument should be a cons cell + containing two integers, or a list whose first two elements are + integers. Thus, you can use times obtained from `current-time' + (see above) and from `file-attributes' (*note File Attributes::). + + +File: lispref.info, Node: Time Conversion, Next: Timers, Prev: Time of Day, Up: System Interface + +Time Conversion +=============== + + These functions convert time values (lists of two or three integers) +to strings or to calendrical information. There is also a function to +convert calendrical information to a time value. You can get time +values from the functions `current-time' (*note Time of Day::) and +`file-attributes' (*note File Attributes::). + + - Function: format-time-string format-string &optional time + This function converts TIME to a string according to + FORMAT-STRING. If TIME is omitted, it defaults to the current + time. The argument FORMAT-STRING may contain `%'-sequences which + say to substitute parts of the time. Here is a table of what the + `%'-sequences mean: + + `%a' + This stands for the abbreviated name of the day of week. + + `%A' + This stands for the full name of the day of week. + + `%b' + This stands for the abbreviated name of the month. + + `%B' + This stands for the full name of the month. + + `%c' + This is a synonym for `%x %X'. + + `%C' + This has a locale-specific meaning. In the default locale + (named C), it is equivalent to `%A, %B %e, %Y'. + + `%d' + This stands for the day of month, zero-padded. + + `%D' + This is a synonym for `%m/%d/%y'. + + `%e' + This stands for the day of month, blank-padded. + + `%h' + This is a synonym for `%b'. + + `%H' + This stands for the hour (00-23). + + `%I' + This stands for the hour (00-12). + + `%j' + This stands for the day of the year (001-366). + + `%k' + This stands for the hour (0-23), blank padded. + + `%l' + This stands for the hour (1-12), blank padded. + + `%m' + This stands for the month (01-12). + + `%M' + This stands for the minute (00-59). + + `%n' + This stands for a newline. + + `%p' + This stands for `AM' or `PM', as appropriate. + + `%r' + This is a synonym for `%I:%M:%S %p'. + + `%R' + This is a synonym for `%H:%M'. + + `%S' + This stands for the seconds (00-60). + + `%t' + This stands for a tab character. + + `%T' + This is a synonym for `%H:%M:%S'. + + `%U' + This stands for the week of the year (01-52), assuming that + weeks start on Sunday. + + `%w' + This stands for the numeric day of week (0-6). Sunday is day + 0. + + `%W' + This stands for the week of the year (01-52), assuming that + weeks start on Monday. + + `%x' + This has a locale-specific meaning. In the default locale + (named C), it is equivalent to `%D'. + + `%X' + This has a locale-specific meaning. In the default locale + (named C), it is equivalent to `%T'. + + `%y' + This stands for the year without century (00-99). + + `%Y' + This stands for the year with century. + + `%Z' + This stands for the time zone abbreviation. + + - Function: decode-time time + This function converts a time value into calendrical information. + The return value is a list of nine elements, as follows: + + (SECONDS MINUTES HOUR DAY MONTH YEAR DOW DST ZONE) + + Here is what the elements mean: + + SEC + The number of seconds past the minute, as an integer between + 0 and 59. + + MINUTE + The number of minutes past the hour, as an integer between 0 + and 59. + + HOUR + The hour of the day, as an integer between 0 and 23. + + DAY + The day of the month, as an integer between 1 and 31. + + MONTH + The month of the year, as an integer between 1 and 12. + + YEAR + The year, an integer typically greater than 1900. + + DOW + The day of week, as an integer between 0 and 6, where 0 + stands for Sunday. + + DST + `t' if daylight savings time is effect, otherwise `nil'. + + ZONE + An integer indicating the time zone, as the number of seconds + east of Greenwich. + + Note that Common Lisp has different meanings for DOW and ZONE. + + - Function: encode-time seconds minutes hour day month year &optional + zone + This function is the inverse of `decode-time'. It converts seven + items of calendrical data into a time value. For the meanings of + the arguments, see the table above under `decode-time'. + + Year numbers less than 100 are treated just like other year + numbers. If you want them to stand for years above 1900, you must + alter them yourself before you call `encode-time'. + + The optional argument ZONE defaults to the current time zone and + its daylight savings time rules. If specified, it can be either a + list (as you would get from `current-time-zone') or an integer (as + you would get from `decode-time'). The specified zone is used + without any further alteration for daylight savings time. + + +File: lispref.info, Node: Timers, Next: Terminal Input, Prev: Time Conversion, Up: System Interface + +Timers for Delayed Execution +============================ + + You can set up a timer to call a function at a specified future time. + + - Function: add-timeout secs function object &optional resignal + This function adds a timeout, to be signaled after the timeout + period has elapsed. SECS is a number of seconds, expressed as an + integer or a float. FUNCTION will be called after that many + seconds have elapsed, with one argument, the given OBJECT. If the + optional RESIGNAL argument is provided, then after this timeout + expires, `add-timeout' will automatically be called again with + RESIGNAL as the first argument. + + This function returns an object which is the "id" of this + particular timeout. You can pass that object to `disable-timeout' + to turn off the timeout before it has been signalled. + + The number of seconds may be expressed as a floating-point number, + in which case some fractional part of a second will be used. + Caveat: the usable timeout granularity will vary from system to + system. + + Adding a timeout causes a timeout event to be returned by + `next-event', and the function will be invoked by + `dispatch-event', so if XEmacs is in a tight loop, the function + will not be invoked until the next call to sit-for or until the + return to top-level (the same is true of process filters). + + WARNING: if you are thinking of calling add-timeout from inside of + a callback function as a way of resignalling a timeout, think + again. There is a race condition. That's why the RESIGNAL + argument exists. + + (NOTE: In FSF Emacs, this function is called `run-at-time' and has + different semantics.) + + - Function: disable-timeout id + Cancel the requested action for ID, which should be a value + previously returned by `add-timeout'. This cancels the effect of + that call to `add-timeout'; the arrival of the specified time will + not cause anything special to happen. (NOTE: In FSF Emacs, this + function is called `cancel-timer'.) + + +File: lispref.info, Node: Terminal Input, Next: Terminal Output, Prev: Timers, Up: System Interface + +Terminal Input +============== + + This section describes functions and variables for recording or +manipulating terminal input. See *Note Display::, for related +functions. + +* Menu: + +* Input Modes:: Options for how input is processed. +* Translating Input:: Low level conversion of some characters or events + into others. +* Recording Input:: Saving histories of recent or all input events. + + +File: lispref.info, Node: Input Modes, Next: Translating Input, Up: Terminal Input + +Input Modes +----------- + + - Function: set-input-mode interrupt flow meta quit-char + This function sets the mode for reading keyboard input. If + INTERRUPT is non-null, then XEmacs uses input interrupts. If it is + `nil', then it uses CBREAK mode. When XEmacs communicates + directly with X, it ignores this argument and uses interrupts if + that is the way it knows how to communicate. + + If FLOW is non-`nil', then XEmacs uses XON/XOFF (`C-q', `C-s') + flow control for output to the terminal. This has no effect except + in CBREAK mode. *Note Flow Control::. + + The default setting is system dependent. Some systems always use + CBREAK mode regardless of what is specified. + + The argument META controls support for input character codes above + 127. If META is `t', XEmacs converts characters with the 8th bit + set into Meta characters. If META is `nil', XEmacs disregards the + 8th bit; this is necessary when the terminal uses it as a parity + bit. If META is neither `t' nor `nil', XEmacs uses all 8 bits of + input unchanged. This is good for terminals using European 8-bit + character sets. + + If QUIT-CHAR is non-`nil', it specifies the character to use for + quitting. Normally this character is `C-g'. *Note Quitting::. + + The `current-input-mode' function returns the input mode settings +XEmacs is currently using. + + - Function: current-input-mode + This function returns current mode for reading keyboard input. It + returns a list, corresponding to the arguments of `set-input-mode', + of the form `(INTERRUPT FLOW META QUIT)' in which: + INTERRUPT + is non-`nil' when XEmacs is using interrupt-driven input. If + `nil', Emacs is using CBREAK mode. + + FLOW + is non-`nil' if XEmacs uses XON/XOFF (`C-q', `C-s') flow + control for output to the terminal. This value has no effect + unless INTERRUPT is non-`nil'. + + META + is `t' if XEmacs treats the eighth bit of input characters as + the meta bit; `nil' means XEmacs clears the eighth bit of + every input character; any other value means XEmacs uses all + eight bits as the basic character code. + + QUIT + is the character XEmacs currently uses for quitting, usually + `C-g'. + + +File: lispref.info, Node: Translating Input, Next: Recording Input, Prev: Input Modes, Up: Terminal Input + +Translating Input Events +------------------------ + + This section describes features for translating input events into +other input events before they become part of key sequences. + + - Variable: function-key-map + This variable holds a keymap that describes the character sequences + sent by function keys on an ordinary character terminal. This + keymap uses the same data structure as other keymaps, but is used + differently: it specifies translations to make while reading + events. + + If `function-key-map' "binds" a key sequence K to a vector V, then + when K appears as a subsequence _anywhere_ in a key sequence, it + is replaced with the events in V. + + For example, VT100 terminals send ` O P' when the keypad PF1 + key is pressed. Therefore, we want XEmacs to translate that + sequence of events into the single event `pf1'. We accomplish + this by "binding" ` O P' to `[pf1]' in `function-key-map', + when using a VT100. + + Thus, typing `C-c ' sends the character sequence `C-c O + P'; later the function `read-key-sequence' translates this back + into `C-c ', which it returns as the vector `[?\C-c pf1]'. + + Entries in `function-key-map' are ignored if they conflict with + bindings made in the minor mode, local, or global keymaps. The + intent is that the character sequences that function keys send + should not have command bindings in their own right. + + The value of `function-key-map' is usually set up automatically + according to the terminal's Terminfo or Termcap entry, but + sometimes those need help from terminal-specific Lisp files. + XEmacs comes with terminal-specific files for many common + terminals; their main purpose is to make entries in + `function-key-map' beyond those that can be deduced from Termcap + and Terminfo. *Note Terminal-Specific::. + + Emacs versions 18 and earlier used totally different means of + detecting the character sequences that represent function keys. + + - Variable: key-translation-map + This variable is another keymap used just like `function-key-map' + to translate input events into other events. It differs from + `function-key-map' in two ways: + + * `key-translation-map' goes to work after `function-key-map' is + finished; it receives the results of translation by + `function-key-map'. + + * `key-translation-map' overrides actual key bindings. + + The intent of `key-translation-map' is for users to map one + character set to another, including ordinary characters normally + bound to `self-insert-command'. + + You can use `function-key-map' or `key-translation-map' for more +than simple aliases, by using a function, instead of a key sequence, as +the "translation" of a key. Then this function is called to compute +the translation of that key. + + The key translation function receives one argument, which is the +prompt that was specified in `read-key-sequence'--or `nil' if the key +sequence is being read by the editor command loop. In most cases you +can ignore the prompt value. + + If the function reads input itself, it can have the effect of +altering the event that follows. For example, here's how to define +`C-c h' to turn the character that follows into a Hyper character: + + (defun hyperify (prompt) + (let ((e (read-event))) + (vector (if (numberp e) + (logior (lsh 1 20) e) + (if (memq 'hyper (event-modifiers e)) + e + (add-event-modifier "H-" e)))))) + + (defun add-event-modifier (string e) + (let ((symbol (if (symbolp e) e (car e)))) + (setq symbol (intern (concat string + (symbol-name symbol)))) + (if (symbolp e) + symbol + (cons symbol (cdr e))))) + + (define-key function-key-map "\C-ch" 'hyperify) + + The `iso-transl' library uses this feature to provide a way of +inputting non-ASCII Latin-1 characters. + + +File: lispref.info, Node: Recording Input, Prev: Translating Input, Up: Terminal Input + +Recording Input +--------------- + + - Function: recent-keys &optional number + This function returns a vector containing recent input events from + the keyboard or mouse. By default, 100 events are recorded, which + is how many `recent-keys' returns. + + All input events are included, whether or not they were used as + parts of key sequences. Thus, you always get the last 100 inputs, + not counting keyboard macros. (Events from keyboard macros are + excluded because they are less interesting for debugging; it + should be enough to see the events that invoked the macros.) + + If NUMBER is specified, not more than NUMBER events will be + returned. You may change the number of stored events using + `set-recent-keys-ring-size'. + + - Function: recent-keys-ring-size + This function returns the number of recent events stored + internally. This is also the maximum number of events + `recent-keys' can return. By default, 100 events are stored. + + - Function: set-recent-keys-ring-size size + This function changes the number of events stored by XEmacs and + returned by `recent-keys'. + + For example, `(set-recent-keys-ring-size 250)' will make XEmacs + remember last 250 events and will make `recent-keys' return last + 250 events by default. + + - Command: open-dribble-file filename + This function opens a "dribble file" named FILENAME. When a + dribble file is open, each input event from the keyboard or mouse + (but not those from keyboard macros) is written in that file. A + non-character event is expressed using its printed representation + surrounded by `<...>'. + + You close the dribble file by calling this function with an + argument of `nil'. + + This function is normally used to record the input necessary to + trigger an XEmacs bug, for the sake of a bug report. + + (open-dribble-file "~/dribble") + => nil + + See also the `open-termscript' function (*note Terminal Output::). + + File: lispref.info, Node: Terminal Output, Next: Flow Control, Prev: Terminal Input, Up: System Interface Terminal Output @@ -643,599 +1153,3 @@ in the first argument of the message. (let ((m (make-tooltalk-message random-query-message))) (send-tooltalk-message m)) - -File: lispref.info, Node: Elisp Interface for Sending Messages, Prev: Example of Sending Messages, Up: Sending Messages - -Elisp Interface for Sending Messages ------------------------------------- - - - Function: make-tooltalk-message attributes - Create a ToolTalk message and initialize its attributes. The - value of ATTRIBUTES must be a list of alternating keyword/values, - where keywords are symbols that name valid message attributes. - For example: - - (make-tooltalk-message - '(class TT_NOTICE - scope TT_SESSION - address TT_PROCEDURE - op "do-something" - args ("arg1" 12345 (TT_INOUT "arg3" "string")))) - - Values must always be strings, integers, or symbols that represent - ToolTalk constants. Attribute names are the same as those - supported by `set-tooltalk-message-attribute', plus `args'. - - The value of `args' should be a list of message arguments where - each message argument has the following form: - - `(mode [value [type]])' or just `value' - - Where MODE is one of `TT_IN', `TT_OUT', or `TT_INOUT' and TYPE is - a string. If TYPE isn't specified then `int' is used if VALUE is - a number; otherwise `string' is used. If TYPE is `string' then - VALUE is converted to a string (if it isn't a string already) with - `prin1-to-string'. If only a value is specified then MODE - defaults to `TT_IN'. If MODE is `TT_OUT' then VALUE and TYPE - don't need to be specified. You can find out more about the - semantics and uses of ToolTalk message arguments in chapter 4 of - the `ToolTalk Programmer's Guide'. - - - - Function: send-tooltalk-message msg - Send the message on its way. Once the message has been sent it's - almost always a good idea to get rid of it with - `destroy-tooltalk-message'. - - - - Function: return-tooltalk-message msg &optional mode - Send a reply to this message. The second argument can be `reply', - `reject' or `fail'; the default is `reply'. Before sending a - reply, all message arguments whose mode is `TT_INOUT' or `TT_OUT' - should have been filled in--see `set-tooltalk-message-attribute'. - - - - Function: get-tooltalk-message-attribute msg attribute &optional argn - Returns the indicated ToolTalk message attribute. Attributes are - identified by symbols with the same name (underscores and all) as - the suffix of the ToolTalk `tt_message_' function that - extracts the value. String attribute values are copied and - enumerated type values (except disposition) are converted to - symbols; e.g. `TT_HANDLER' is `'TT_HANDLER', `uid' and `gid' are - represented by fixnums (small integers), `opnum' is converted to a - string, and `disposition' is converted to a fixnum. We convert - `opnum' (a C int) to a string (e.g. `123' => `"123"') because - there's no guarantee that opnums will fit within the range of - XEmacs Lisp integers. - - [TBD] Use the `plist' attribute instead of C API `user' attribute - for user-defined message data. To retrieve the value of a message - property, specify the indicator for ARGN. For example, to get the - value of a property called `rflag', use - - (get-tooltalk-message-attribute msg 'plist 'rflag) - - To get the value of a message argument use one of the `arg_val' - (strings), `arg_ival' (integers), or `arg_bval' (strings with - embedded nulls), attributes. For example, to get the integer - value of the third argument: - - (get-tooltalk-message-attribute msg 'arg_ival 2) - - As you can see, argument numbers are zero-based. The type of each - arguments can be retrieved with the `arg_type' attribute; however - ToolTalk doesn't define any semantics for the string value of - `arg_type'. Conventionally `string' is used for strings and `int' - for 32 bit integers. Note that XEmacs Lisp stores the lengths of - strings explicitly (unlike C) so treating the value returned by - `arg_bval' like a string is fine. - - - - Function: set-tooltalk-message-attribute value msg attribute - &optional argn - Initialize one ToolTalk message attribute. - - Attribute names and values are the same as for - `get-tooltalk-message-attribute'. A property list is provided for - user data (instead of the `user' message attribute); see - `get-tooltalk-message-attribute'. - - Callbacks are handled slightly differently than in the C ToolTalk - API. The value of CALLBACK should be the name of a function of one - argument. It will be called each time the state of the message - changes. This is usually used to notice when the message's state - has changed to `TT_HANDLED' (or `TT_FAILED'), so that reply - argument values can be used. - - If one of the argument attributes is specified as `arg_val', - `arg_ival', or `arg_bval', then ARGN must be the number of an - already created argument. Arguments can be added to a message - with `add-tooltalk-message-arg'. - - - - Function: add-tooltalk-message-arg msg mode type &optional value - Append one new argument to the message. MODE must be one of - `TT_IN', `TT_INOUT', or `TT_OUT', TYPE must be a string, and VALUE - can be a string or an integer. ToolTalk doesn't define any - semantics for TYPE, so only the participants in the protocol - you're using need to agree what types mean (if anything). - Conventionally `string' is used for strings and `int' for 32 bit - integers. Arguments can initialized by providing a value or with - `set-tooltalk-message-attribute'; the latter is necessary if you - want to initialize the argument with a string that can contain - embedded nulls (use `arg_bval'). - - - - Function: create-tooltalk-message - Create a new ToolTalk message. The message's session attribute is - initialized to the default session. Other attributes can be - initialized with `set-tooltalk-message-attribute'. - `make-tooltalk-message' is the preferred way to create and - initialize a message. - - - - Function: destroy-tooltalk-message msg - Apply `tt_message_destroy' to the message. It's not necessary to - destroy messages after they've been processed by a message or - pattern callback, the Lisp/ToolTalk callback machinery does this - for you. - - -File: lispref.info, Node: Receiving Messages, Prev: Sending Messages, Up: ToolTalk Support - -Receiving Messages -================== - -* Menu: - -* Example of Receiving Messages:: -* Elisp Interface for Receiving Messages:: - - -File: lispref.info, Node: Example of Receiving Messages, Next: Elisp Interface for Receiving Messages, Up: Receiving Messages - -Example of Receiving Messages ------------------------------ - - Here's a simple example of a handler for a message that tells XEmacs -to display a string in the mini-buffer area. The message operation is -called `emacs-display-string'. Its first (0th) argument is the string -to display. - - (defun tooltalk-display-string-handler (msg) - (message (get-tooltalk-message-attribute msg 'arg_val 0))) - - (defvar display-string-pattern - '(category TT_HANDLE - scope TT_SESSION - op "emacs-display-string" - callback tooltalk-display-string-handler)) - - (let ((p (make-tooltalk-pattern display-string-pattern))) - (register-tooltalk-pattern p)) - - -File: lispref.info, Node: Elisp Interface for Receiving Messages, Prev: Example of Receiving Messages, Up: Receiving Messages - -Elisp Interface for Receiving Messages --------------------------------------- - - - Function: make-tooltalk-pattern attributes - Create a ToolTalk pattern and initialize its attributes. The - value of attributes must be a list of alternating keyword/values, - where keywords are symbols that name valid pattern attributes or - lists of valid attributes. For example: - - (make-tooltalk-pattern - '(category TT_OBSERVE - scope TT_SESSION - op ("operation1" "operation2") - args ("arg1" 12345 (TT_INOUT "arg3" "string")))) - - Attribute names are the same as those supported by - `add-tooltalk-pattern-attribute', plus `'args'. - - Values must always be strings, integers, or symbols that represent - ToolTalk constants or lists of same. When a list of values is - provided all of the list elements are added to the attribute. In - the example above, messages whose `op' attribute is `"operation1"' - or `"operation2"' would match the pattern. - - The value of ARGS should be a list of pattern arguments where each - pattern argument has the following form: - - `(mode [value [type]])' or just `value' - - Where MODE is one of `TT_IN', `TT_OUT', or `TT_INOUT' and TYPE is - a string. If TYPE isn't specified then `int' is used if VALUE is - a number; otherwise `string' is used. If TYPE is `string' then - VALUE is converted to a string (if it isn't a string already) with - `prin1-to-string'. If only a value is specified then MODE - defaults to `TT_IN'. If MODE is `TT_OUT' then VALUE and TYPE - don't need to be specified. You can find out more about the - semantics and uses of ToolTalk pattern arguments in chapter 3 of - the `ToolTalk Programmer's Guide'. - - - - Function: register-tooltalk-pattern pat - XEmacs will begin receiving messages that match this pattern. - - - Function: unregister-tooltalk-pattern pat - XEmacs will stop receiving messages that match this pattern. - - - Function: add-tooltalk-pattern-attribute value pat indicator - Add one value to the indicated pattern attribute. The names of - attributes are the same as the ToolTalk accessors used to set them - less the `tooltalk_pattern_' prefix and the `_add' suffix. For - example, the name of the attribute for the - `tt_pattern_disposition_add' attribute is `disposition'. The - `category' attribute is handled specially, since a pattern can only - be a member of one category (`TT_OBSERVE' or `TT_HANDLE'). - - Callbacks are handled slightly differently than in the C ToolTalk - API. The value of CALLBACK should be the name of a function of one - argument. It will be called each time the pattern matches an - incoming message. - - - Function: add-tooltalk-pattern-arg pat mode type value - Add one fully-specified argument to a ToolTalk pattern. MODE must - be one of `TT_IN', `TT_INOUT', or `TT_OUT'. TYPE must be a - string. VALUE can be an integer, string or `nil'. If VALUE is an - integer then an integer argument (`tt_pattern_iarg_add') is added; - otherwise a string argument is added. At present there's no way - to add a binary data argument. - - - - Function: create-tooltalk-pattern - Create a new ToolTalk pattern and initialize its session attribute - to be the default session. - - - Function: destroy-tooltalk-pattern pat - Apply `tt_pattern_destroy' to the pattern. This effectively - unregisters the pattern. - - - Function: describe-tooltalk-message msg &optional stream - Print the message's attributes and arguments to STREAM. This is - often useful for debugging. - - -File: lispref.info, Node: LDAP Support, Next: Internationalization, Prev: ToolTalk Support, Up: Top - -LDAP Support -************ - - XEmacs can be linked with a LDAP client library to provide Elisp -primitives to access directory servers using the Lightweight Directory -Access Protocol. - -* Menu: - -* Building XEmacs with LDAP support:: How to add LDAP support to XEmacs -* XEmacs LDAP API:: Lisp access to LDAP functions -* Syntax of Search Filters:: A brief summary of RFC 1558 - - -File: lispref.info, Node: Building XEmacs with LDAP support, Next: XEmacs LDAP API, Prev: LDAP Support, Up: LDAP Support - -Building XEmacs with LDAP support -================================= - - LDAP support must be added to XEmacs at build time since it requires -linking to an external LDAP client library. As of 21.2, XEmacs has been -successfully built and tested with - - * OpenLDAP 1.0.3 () - - * University of Michigan's LDAP 3.3 - () - - * LDAP SDK 1.0 from Netscape Corp. () - - Other libraries conforming to RFC 1823 will probably work also but -may require some minor tweaking at C level. - - The standard XEmacs configure script autodetects an installed LDAP -library provided the library itself and the corresponding header files -can be found in the library and include paths. A successful detection -will be signalled in the final output of the configure script. - - -File: lispref.info, Node: XEmacs LDAP API, Next: Syntax of Search Filters, Prev: Building XEmacs with LDAP support, Up: LDAP Support - -XEmacs LDAP API -=============== - - XEmacs LDAP API consists of two layers: a low-level layer which -tries to stay as close as possible to the C API (where practical) and a -higher-level layer which provides more convenient primitives to -effectively use LDAP. - - As of XEmacs 21.0, only interfaces to basic LDAP search functions are -provided, broader support is planned in future versions. - -* Menu: - -* LDAP Variables:: Lisp variables related to LDAP -* The High-Level LDAP API:: High-level LDAP lisp functions -* The Low-Level LDAP API:: Low-level LDAP lisp primitives - - -File: lispref.info, Node: LDAP Variables, Next: The High-Level LDAP API, Prev: XEmacs LDAP API, Up: XEmacs LDAP API - -LDAP Variables --------------- - - - Variable: ldap-default-host - The default LDAP server hostname. A TCP port number can be - appended to that name using a colon as a separator. - - - Variable: ldap-default-port - Default TCP port for LDAP connections. Initialized from the LDAP - library. Default value is 389. - - - Variable: ldap-default-base - Default base for LDAP searches. This is a string using the syntax - of RFC 1779. For instance, "o¬ME, cÿ" limits the search to the - Acme organization in the United States. - - - Variable: ldap-host-parameters-alist - An alist of per host options for LDAP transactions. The list - elements look like `(HOST PROP1 VAL1 PROP2 VAL2 ...)' HOST is the - name of an LDAP server. A TCP port number can be appended to that - name using a colon as a separator. PROPN and VALN are - property/value pairs describing parameters for the server. Valid - properties: - `binddn' - The distinguished name of the user to bind as. This may look - like `cÿ, o¬me, cnÿnny Bugs', see RFC 1779 for details. - - `passwd' - The password to use for authentication. - - `auth' - The authentication method to use, possible values depend on - the LDAP library XEmacs was compiled with, they may include - `simple', `krbv41' and `krbv42'. - - `base' - The base for the search. This may look like `cÿ, o¬me', see - RFC 1779 for syntax details. - - `scope' - One of the symbols `base', `onelevel' or `subtree' indicating - the scope of the search limited to a base object, to a single - level or to the whole subtree. - - `deref' - The dereference policy is one of the symbols `never', - `always', `search' or `find' and defines how aliases are - dereferenced. - `never' - Aliases are never dereferenced - - `always' - Aliases are always dereferenced - - `search' - Aliases are dereferenced when searching - - `find' - Aliases are dereferenced when locating the base object - for the search - - `timelimit' - The timeout limit for the connection in seconds. - - `sizelimit' - The maximum number of matches to return for searches - performed on this connection. - - -File: lispref.info, Node: The High-Level LDAP API, Next: The Low-Level LDAP API, Prev: LDAP Variables, Up: XEmacs LDAP API - -The High-Level LDAP API ------------------------ - - As of this writing the high-level Lisp LDAP API only provides for -LDAP searches. Further support is planned in the future. - - The `ldap-search' function provides the most convenient interface to -perform LDAP searches. It opens a connection to a host, performs the -query and cleanly closes the connection thus insulating the user from -all the details of the low-level interface such as LDAP Lisp objects -*note The Low-Level LDAP API:: - - - Function: ldap-search filter &optional host attributes attrsonly - Perform an LDAP search. FILTER is the search filter *note Syntax - of Search Filters:: HOST is the LDAP host on which to perform the - search ATTRIBUTES is the specific attributes to retrieve, `nil' - means retrieve all ATTRSONLY if non-`nil' retrieves the attributes - only without their associated values. Additional search - parameters can be specified through `ldap-host-parameters-alist'. - - -File: lispref.info, Node: The Low-Level LDAP API, Prev: The High-Level LDAP API, Up: XEmacs LDAP API - -The Low-Level LDAP API ----------------------- - -* Menu: - -* The LDAP Lisp Object:: -* Opening and Closing a LDAP Connection:: -* Searching on a LDAP Server (Low-level):: - - -File: lispref.info, Node: The LDAP Lisp Object, Next: Opening and Closing a LDAP Connection, Prev: The Low-Level LDAP API, Up: The Low-Level LDAP API - -The LDAP Lisp Object -.................... - - An internal built-in `ldap' lisp object represents a LDAP connection. - - - Function: ldapp object - This function returns non-`nil' if OBJECT is a `ldap' object. - - - Function: ldap-host ldap - Return the server host of the connection represented by LDAP - - - Function: ldap-live-p ldap - Return non-`nil' if LDAP is an active LDAP connection - - -File: lispref.info, Node: Opening and Closing a LDAP Connection, Next: Searching on a LDAP Server (Low-level), Prev: The LDAP Lisp Object, Up: The Low-Level LDAP API - -Opening and Closing a LDAP Connection -..................................... - - - Function: ldap-open host &optional plist - Open a LDAP connection to HOST. PLIST is a property list - containing additional parameters for the connection. Valid keys - in that list are: - `port' - The TCP port to use for the connection if different from - `ldap-default-port' or the library builtin value - - `auth' - The authentication method to use, possible values depend on - the LDAP library XEmacs was compiled with, they may include - `simple', `krbv41' and `krbv42'. - - `binddn' - The distinguished name of the user to bind as. This may look - like `cÿ, o¬me, cnÿnny Bugs', see RFC 1779 for details. - - `passwd' - The password to use for authentication. - - `deref' - The dereference policy is one of the symbols `never', - `always', `search' or `find' and defines how aliases are - dereferenced. - `never' - Aliases are never dereferenced - - `always' - Aliases are always dereferenced - - `search' - Aliases are dereferenced when searching - - `find' - Aliases are dereferenced when locating the base object - for the search The default is `never'. - - `timelimit' - The timeout limit for the connection in seconds. - - `sizelimit' - The maximum number of matches to return for searches - performed on this connection. - - - Function: ldap-close ldap - Close the connection represented by LDAP - - -File: lispref.info, Node: Searching on a LDAP Server (Low-level), Prev: Opening and Closing a LDAP Connection, Up: The Low-Level LDAP API - -Searching on a LDAP Server (Low-level) -...................................... - - `ldap-search-internal' is the low-level primitive to perform a -search on a LDAP server. It works directly on an open LDAP connection -thus requiring a preliminary call to `ldap-open'. Multiple searches -can be made on the same connection, then the session must be closed -with `ldap-close'. - - - Function: ldap-search-internal ldap filter base scope attrs attrsonly - Perform a search on an open connection LDAP created with - `ldap-open'. FILTER is a filter string for the search *note - Syntax of Search Filters:: BASE is the distinguished name at which - to start the search. SCOPE is one of the symbols `base', - `onelevel' or `subtree' indicating the scope of the search limited - to a base object, to a single level or to the whole subtree. The - default is `subtree'. `attrs' is a list of strings indicating - which attributes to retrieve for each matching entry. If `nil' all - available attributes are returned. If `attrsonly' is non-`nil' - then only the attributes are retrieved, not their associated values - The function returns a list of matching entries. Each entry being - itself an alist of attribute/values. - - -File: lispref.info, Node: Syntax of Search Filters, Prev: XEmacs LDAP API, Up: LDAP Support - -Syntax of Search Filters -======================== - - LDAP search functions use RFC1558 syntax to describe the search -filter. In that syntax simple filters have the form: - - ( ) - - `' is an attribute name such as `cn' for Common Name, `o' for -Organization, etc... - - `' is the corresponding value. This is generally an exact -string but may also contain `*' characters as wildcards - - `filtertype' is one `=' `~=', `<=', `>=' which respectively describe -equality, approximate equality, inferiority and superiority. - - Thus `(cn=John Smith)' matches all records having a canonical name -equal to John Smith. - - A special case is the presence filter `(=*' which matches -records containing a particular attribute. For instance `(mail=*)' -matches all records containing a `mail' attribute. - - Simple filters can be connected together with the logical operators -`&', `|' and `!' which stand for the usual and, or and not operators. - - `(&(objectClass=Person)(mail=*)(|(sn=Smith)(givenname=John)))' -matches records of class `Person' containing a `mail' attribute and -corresponding to people whose last name is `Smith' or whose first name -is `John'. - - -File: lispref.info, Node: Internationalization, Next: MULE, Prev: LDAP Support, Up: Top - -Internationalization -******************** - -* Menu: - -* I18N Levels 1 and 2:: Support for different time, date, and currency formats. -* I18N Level 3:: Support for localized messages. -* I18N Level 4:: Support for Asian languages. - - -File: lispref.info, Node: I18N Levels 1 and 2, Next: I18N Level 3, Up: Internationalization - -I18N Levels 1 and 2 -=================== - - XEmacs is now compliant with I18N levels 1 and 2. Specifically, -this means that it is 8-bit clean and correctly handles time and date -functions. XEmacs will correctly display the entire ISO-Latin 1 -character set. - - The compose key may now be used to create any character in the -ISO-Latin 1 character set not directly available via the keyboard.. In -order for the compose key to work it is necessary to load the file -`x-compose.el'. At any time while composing a character, `C-h' will -display all valid completions and the character which would be produced. - - -File: lispref.info, Node: I18N Level 3, Next: I18N Level 4, Prev: I18N Levels 1 and 2, Up: Internationalization - -I18N Level 3 -============ - -* Menu: - -* Level 3 Basics:: -* Level 3 Primitives:: -* Dynamic Messaging:: -* Domain Specification:: -* Documentation String Extraction:: - diff --git a/info/lispref.info-41 b/info/lispref.info-41 index 571b28f..a0cdfc2 100644 --- a/info/lispref.info-41 +++ b/info/lispref.info-41 @@ -50,1160 +50,904 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  -File: lispref.info, Node: Level 3 Basics, Next: Level 3 Primitives, Up: I18N Level 3 - -Level 3 Basics --------------- - - XEmacs now provides alpha-level functionality for I18N Level 3. -This means that everything necessary for full messaging is available, -but not every file has been converted. - - The two message files which have been created are `src/emacs.po' and -`lisp/packages/mh-e.po'. Both files need to be converted using -`msgfmt', and the resulting `.mo' files placed in some locale's -`LC_MESSAGES' directory. The test "translations" in these files are -the original messages prefixed by `TRNSLT_'. - - The domain for a variable is stored on the variable's property list -under the property name VARIABLE-DOMAIN. The function -`documentation-property' uses this information when translating a -variable's documentation. +File: lispref.info, Node: Elisp Interface for Sending Messages, Prev: Example of Sending Messages, Up: Sending Messages + +Elisp Interface for Sending Messages +------------------------------------ + + - Function: make-tooltalk-message attributes + Create a ToolTalk message and initialize its attributes. The + value of ATTRIBUTES must be a list of alternating keyword/values, + where keywords are symbols that name valid message attributes. + For example: + + (make-tooltalk-message + '(class TT_NOTICE + scope TT_SESSION + address TT_PROCEDURE + op "do-something" + args ("arg1" 12345 (TT_INOUT "arg3" "string")))) + + Values must always be strings, integers, or symbols that represent + ToolTalk constants. Attribute names are the same as those + supported by `set-tooltalk-message-attribute', plus `args'. + + The value of `args' should be a list of message arguments where + each message argument has the following form: + + `(mode [value [type]])' or just `value' + + Where MODE is one of `TT_IN', `TT_OUT', or `TT_INOUT' and TYPE is + a string. If TYPE isn't specified then `int' is used if VALUE is + a number; otherwise `string' is used. If TYPE is `string' then + VALUE is converted to a string (if it isn't a string already) with + `prin1-to-string'. If only a value is specified then MODE + defaults to `TT_IN'. If MODE is `TT_OUT' then VALUE and TYPE + don't need to be specified. You can find out more about the + semantics and uses of ToolTalk message arguments in chapter 4 of + the `ToolTalk Programmer's Guide'. + + + - Function: send-tooltalk-message msg + Send the message on its way. Once the message has been sent it's + almost always a good idea to get rid of it with + `destroy-tooltalk-message'. + + + - Function: return-tooltalk-message msg &optional mode + Send a reply to this message. The second argument can be `reply', + `reject' or `fail'; the default is `reply'. Before sending a + reply, all message arguments whose mode is `TT_INOUT' or `TT_OUT' + should have been filled in--see `set-tooltalk-message-attribute'. + + + - Function: get-tooltalk-message-attribute msg attribute &optional argn + Returns the indicated ToolTalk message attribute. Attributes are + identified by symbols with the same name (underscores and all) as + the suffix of the ToolTalk `tt_message_' function that + extracts the value. String attribute values are copied and + enumerated type values (except disposition) are converted to + symbols; e.g. `TT_HANDLER' is `'TT_HANDLER', `uid' and `gid' are + represented by fixnums (small integers), `opnum' is converted to a + string, and `disposition' is converted to a fixnum. We convert + `opnum' (a C int) to a string (e.g. `123' => `"123"') because + there's no guarantee that opnums will fit within the range of + XEmacs Lisp integers. + + [TBD] Use the `plist' attribute instead of C API `user' attribute + for user-defined message data. To retrieve the value of a message + property, specify the indicator for ARGN. For example, to get the + value of a property called `rflag', use + + (get-tooltalk-message-attribute msg 'plist 'rflag) + + To get the value of a message argument use one of the `arg_val' + (strings), `arg_ival' (integers), or `arg_bval' (strings with + embedded nulls), attributes. For example, to get the integer + value of the third argument: + + (get-tooltalk-message-attribute msg 'arg_ival 2) + + As you can see, argument numbers are zero-based. The type of each + arguments can be retrieved with the `arg_type' attribute; however + ToolTalk doesn't define any semantics for the string value of + `arg_type'. Conventionally `string' is used for strings and `int' + for 32 bit integers. Note that XEmacs Lisp stores the lengths of + strings explicitly (unlike C) so treating the value returned by + `arg_bval' like a string is fine. + + + - Function: set-tooltalk-message-attribute value msg attribute + &optional argn + Initialize one ToolTalk message attribute. + + Attribute names and values are the same as for + `get-tooltalk-message-attribute'. A property list is provided for + user data (instead of the `user' message attribute); see + `get-tooltalk-message-attribute'. + + Callbacks are handled slightly differently than in the C ToolTalk + API. The value of CALLBACK should be the name of a function of one + argument. It will be called each time the state of the message + changes. This is usually used to notice when the message's state + has changed to `TT_HANDLED' (or `TT_FAILED'), so that reply + argument values can be used. + + If one of the argument attributes is specified as `arg_val', + `arg_ival', or `arg_bval', then ARGN must be the number of an + already created argument. Arguments can be added to a message + with `add-tooltalk-message-arg'. + + + - Function: add-tooltalk-message-arg msg mode type &optional value + Append one new argument to the message. MODE must be one of + `TT_IN', `TT_INOUT', or `TT_OUT', TYPE must be a string, and VALUE + can be a string or an integer. ToolTalk doesn't define any + semantics for TYPE, so only the participants in the protocol + you're using need to agree what types mean (if anything). + Conventionally `string' is used for strings and `int' for 32 bit + integers. Arguments can initialized by providing a value or with + `set-tooltalk-message-attribute'; the latter is necessary if you + want to initialize the argument with a string that can contain + embedded nulls (use `arg_bval'). + + + - Function: create-tooltalk-message + Create a new ToolTalk message. The message's session attribute is + initialized to the default session. Other attributes can be + initialized with `set-tooltalk-message-attribute'. + `make-tooltalk-message' is the preferred way to create and + initialize a message. + + + - Function: destroy-tooltalk-message msg + Apply `tt_message_destroy' to the message. It's not necessary to + destroy messages after they've been processed by a message or + pattern callback, the Lisp/ToolTalk callback machinery does this + for you.  -File: lispref.info, Node: Level 3 Primitives, Next: Dynamic Messaging, Prev: Level 3 Basics, Up: I18N Level 3 - -Level 3 Primitives ------------------- - - - Function: gettext string - This function looks up STRING in the default message domain and - returns its translation. If `I18N3' was not enabled when XEmacs - was compiled, it just returns STRING. - - - Function: dgettext domain string - This function looks up STRING in the specified message domain and - returns its translation. If `I18N3' was not enabled when XEmacs - was compiled, it just returns STRING. - - - Function: bind-text-domain domain pathname - This function associates a pathname with a message domain. Here's - how the path to message file is constructed under SunOS 5.x: - - `{pathname}/{LANG}/LC_MESSAGES/{domain}.mo' - - If `I18N3' was not enabled when XEmacs was compiled, this function - does nothing. +File: lispref.info, Node: Receiving Messages, Prev: Sending Messages, Up: ToolTalk Support - - Special Form: domain string - This function specifies the text domain used for translating - documentation strings and interactive prompts of a function. For - example, write: +Receiving Messages +================== - (defun foo (arg) "Doc string" (domain "emacs-foo") ...) - - to specify `emacs-foo' as the text domain of the function `foo'. - The "call" to `domain' is actually a declaration rather than a - function; when actually called, `domain' just returns `nil'. - - - Function: domain-of function - This function returns the text domain of FUNCTION; it returns - `nil' if it is the default domain. If `I18N3' was not enabled - when XEmacs was compiled, it always returns `nil'. - - -File: lispref.info, Node: Dynamic Messaging, Next: Domain Specification, Prev: Level 3 Primitives, Up: I18N Level 3 - -Dynamic Messaging ------------------ +* Menu: - The `format' function has been extended to permit you to change the -order of parameter insertion. For example, the conversion format -`%1$s' inserts parameter one as a string, while `%2$s' inserts -parameter two. This is useful when creating translations which require -you to change the word order. +* Example of Receiving Messages:: +* Elisp Interface for Receiving Messages::  -File: lispref.info, Node: Domain Specification, Next: Documentation String Extraction, Prev: Dynamic Messaging, Up: I18N Level 3 - -Domain Specification --------------------- - - The default message domain of XEmacs is `emacs'. For add-on -packages, it is best to use a different domain. For example, let us -say we want to convert the "gorilla" package to use the domain -`emacs-gorilla'. To translate the message "What gorilla?", use -`dgettext' as follows: - - (dgettext "emacs-gorilla" "What gorilla?") - - A function (or macro) which has a documentation string or an -interactive prompt needs to be associated with the domain in order for -the documentation or prompt to be translated. This is done with the -`domain' special form as follows: +File: lispref.info, Node: Example of Receiving Messages, Next: Elisp Interface for Receiving Messages, Up: Receiving Messages - (defun scratch (location) - "Scratch the specified location." - (domain "emacs-gorilla") - (interactive "sScratch: ") - ... ) - - It is most efficient to specify the domain in the first line of the -function body, before the `interactive' form. - - For variables and constants which have documentation strings, -specify the domain after the documentation. - - - Special Form: defvar symbol [value [doc-string [domain]]] - Example: - (defvar weight 250 "Weight of gorilla, in pounds." "emacs-gorilla") +Example of Receiving Messages +----------------------------- - - Special Form: defconst symbol [value [doc-string [domain]]] - Example: - (defconst limbs 4 "Number of limbs" "emacs-gorilla") + Here's a simple example of a handler for a message that tells XEmacs +to display a string in the mini-buffer area. The message operation is +called `emacs-display-string'. Its first (0th) argument is the string +to display. - Autoloaded functions which are specified in `loaddefs.el' do not need -to have a domain specification, because their documentation strings are -extracted into the main message base. However, for autoloaded functions -which are specified in a separate package, use following syntax: + (defun tooltalk-display-string-handler (msg) + (message (get-tooltalk-message-attribute msg 'arg_val 0))) + + (defvar display-string-pattern + '(category TT_HANDLE + scope TT_SESSION + op "emacs-display-string" + callback tooltalk-display-string-handler)) + + (let ((p (make-tooltalk-pattern display-string-pattern))) + (register-tooltalk-pattern p)) - - Function: autoload symbol filename &optional docstring interactive - macro domain - Example: - (autoload 'explore "jungle" "Explore the jungle." nil nil "emacs-gorilla") + +File: lispref.info, Node: Elisp Interface for Receiving Messages, Prev: Example of Receiving Messages, Up: Receiving Messages + +Elisp Interface for Receiving Messages +-------------------------------------- + + - Function: make-tooltalk-pattern attributes + Create a ToolTalk pattern and initialize its attributes. The + value of attributes must be a list of alternating keyword/values, + where keywords are symbols that name valid pattern attributes or + lists of valid attributes. For example: + + (make-tooltalk-pattern + '(category TT_OBSERVE + scope TT_SESSION + op ("operation1" "operation2") + args ("arg1" 12345 (TT_INOUT "arg3" "string")))) + + Attribute names are the same as those supported by + `add-tooltalk-pattern-attribute', plus `'args'. + + Values must always be strings, integers, or symbols that represent + ToolTalk constants or lists of same. When a list of values is + provided all of the list elements are added to the attribute. In + the example above, messages whose `op' attribute is `"operation1"' + or `"operation2"' would match the pattern. + + The value of ARGS should be a list of pattern arguments where each + pattern argument has the following form: + + `(mode [value [type]])' or just `value' + + Where MODE is one of `TT_IN', `TT_OUT', or `TT_INOUT' and TYPE is + a string. If TYPE isn't specified then `int' is used if VALUE is + a number; otherwise `string' is used. If TYPE is `string' then + VALUE is converted to a string (if it isn't a string already) with + `prin1-to-string'. If only a value is specified then MODE + defaults to `TT_IN'. If MODE is `TT_OUT' then VALUE and TYPE + don't need to be specified. You can find out more about the + semantics and uses of ToolTalk pattern arguments in chapter 3 of + the `ToolTalk Programmer's Guide'. + + + - Function: register-tooltalk-pattern pat + XEmacs will begin receiving messages that match this pattern. + + - Function: unregister-tooltalk-pattern pat + XEmacs will stop receiving messages that match this pattern. + + - Function: add-tooltalk-pattern-attribute value pat indicator + Add one value to the indicated pattern attribute. The names of + attributes are the same as the ToolTalk accessors used to set them + less the `tooltalk_pattern_' prefix and the `_add' suffix. For + example, the name of the attribute for the + `tt_pattern_disposition_add' attribute is `disposition'. The + `category' attribute is handled specially, since a pattern can only + be a member of one category (`TT_OBSERVE' or `TT_HANDLE'). + + Callbacks are handled slightly differently than in the C ToolTalk + API. The value of CALLBACK should be the name of a function of one + argument. It will be called each time the pattern matches an + incoming message. + + - Function: add-tooltalk-pattern-arg pat mode type value + Add one fully-specified argument to a ToolTalk pattern. MODE must + be one of `TT_IN', `TT_INOUT', or `TT_OUT'. TYPE must be a + string. VALUE can be an integer, string or `nil'. If VALUE is an + integer then an integer argument (`tt_pattern_iarg_add') is added; + otherwise a string argument is added. At present there's no way + to add a binary data argument. + + + - Function: create-tooltalk-pattern + Create a new ToolTalk pattern and initialize its session attribute + to be the default session. + + - Function: destroy-tooltalk-pattern pat + Apply `tt_pattern_destroy' to the pattern. This effectively + unregisters the pattern. + + - Function: describe-tooltalk-message msg &optional stream + Print the message's attributes and arguments to STREAM. This is + often useful for debugging.  -File: lispref.info, Node: Documentation String Extraction, Prev: Domain Specification, Up: I18N Level 3 +File: lispref.info, Node: LDAP Support, Next: PostgreSQL Support, Prev: ToolTalk Support, Up: Top -Documentation String Extraction -------------------------------- +LDAP Support +************ - The utility `etc/make-po' scans the file `DOC' to extract -documentation strings and creates a message file `doc.po'. This file -may then be inserted within `emacs.po'. + XEmacs can be linked with a LDAP client library to provide Elisp +primitives to access directory servers using the Lightweight Directory +Access Protocol. - Currently, `make-po' is hard-coded to read from `DOC' and write to -`doc.po'. In order to extract documentation strings from an add-on -package, first run `make-docfile' on the package to produce the `DOC' -file. Then run `make-po -p' with the `-p' argument to indicate that we -are extracting documentation for an add-on package. +* Menu: - (The `-p' argument is a kludge to make up for a subtle difference -between pre-loaded documentation and add-on documentation: For add-on -packages, the final carriage returns in the strings produced by -`make-docfile' must be ignored.) +* Building XEmacs with LDAP support:: How to add LDAP support to XEmacs +* XEmacs LDAP API:: Lisp access to LDAP functions +* Syntax of Search Filters:: A brief summary of RFC 1558  -File: lispref.info, Node: I18N Level 4, Prev: I18N Level 3, Up: Internationalization +File: lispref.info, Node: Building XEmacs with LDAP support, Next: XEmacs LDAP API, Prev: LDAP Support, Up: LDAP Support -I18N Level 4 -============ +Building XEmacs with LDAP support +================================= - The Asian-language support in XEmacs is called "MULE". *Note MULE::. + LDAP support must be added to XEmacs at build time since it requires +linking to an external LDAP client library. As of 21.2, XEmacs has been +successfully built and tested with - -File: lispref.info, Node: MULE, Next: Tips, Prev: Internationalization, Up: Top + * OpenLDAP 1.2 () -MULE -**** + * University of Michigan's LDAP 3.3 + () - "MULE" is the name originally given to the version of GNU Emacs -extended for multi-lingual (and in particular Asian-language) support. -"MULE" is short for "MUlti-Lingual Emacs". It was originally called -Nemacs ("Nihon Emacs" where "Nihon" is the Japanese word for "Japan"), -when it only provided support for Japanese. XEmacs refers to its -multi-lingual support as "MULE support" since it is based on "MULE". - -* Menu: + * LDAP SDK 1.0 from Netscape Corp. () -* Internationalization Terminology:: - Definition of various internationalization terms. -* Charsets:: Sets of related characters. -* MULE Characters:: Working with characters in XEmacs/MULE. -* Composite Characters:: Making new characters by overstriking other ones. -* ISO 2022:: An international standard for charsets and encodings. -* Coding Systems:: Ways of representing a string of chars using integers. -* CCL:: A special language for writing fast converters. -* Category Tables:: Subdividing charsets into groups. + Other libraries conforming to RFC 1823 will probably work also but +may require some minor tweaking at C level. - -File: lispref.info, Node: Internationalization Terminology, Next: Charsets, Up: MULE - -Internationalization Terminology -================================ - - In internationalization terminology, a string of text is divided up -into "characters", which are the printable units that make up the text. -A single character is (for example) a capital `A', the number `2', a -Katakana character, a Kanji ideograph (an "ideograph" is a "picture" -character, such as is used in Japanese Kanji, Chinese Hanzi, and Korean -Hangul; typically there are thousands of such ideographs in each -language), etc. The basic property of a character is its shape. Note -that the same character may be drawn by two different people (or in two -different fonts) in slightly different ways, although the basic shape -will be the same. - - In some cases, the differences will be significant enough that it is -actually possible to identify two or more distinct shapes that both -represent the same character. For example, the lowercase letters `a' -and `g' each have two distinct possible shapes--the `a' can optionally -have a curved tail projecting off the top, and the `g' can be formed -either of two loops, or of one loop and a tail hanging off the bottom. -Such distinct possible shapes of a character are called "glyphs". The -important characteristic of two glyphs making up the same character is -that the choice between one or the other is purely stylistic and has no -linguistic effect on a word (this is the reason why a capital `A' and -lowercase `a' are different characters rather than different -glyphs--e.g. `Aspen' is a city while `aspen' is a kind of tree). - - Note that "character" and "glyph" are used differently here than -elsewhere in XEmacs. - - A "character set" is simply a set of related characters. ASCII, for -example, is a set of 94 characters (or 128, if you count non-printing -characters). Other character sets are ISO8859-1 (ASCII plus various -accented characters and other international symbols), JISX0201 (ASCII, -more or less, plus half-width Katakana), JISX0208 (Japanese Kanji), -JISX0212 (a second set of less-used Japanese Kanji), GB2312 (Mainland -Chinese Hanzi), etc. - - Every character set has one or more "orderings", which can be viewed -as a way of assigning a number (or set of numbers) to each character in -the set. For most character sets, there is a standard ordering, and in -fact all of the character sets mentioned above define a particular -ordering. ASCII, for example, places letters in their "natural" order, -puts uppercase letters before lowercase letters, numbers before -letters, etc. Note that for many of the Asian character sets, there is -no natural ordering of the characters. The actual orderings are based -on one or more salient characteristic, of which there are many to -choose from--e.g. number of strokes, common radicals, phonetic -ordering, etc. - - The set of numbers assigned to any particular character are called -the character's "position codes". The number of position codes -required to index a particular character in a character set is called -the "dimension" of the character set. ASCII, being a relatively small -character set, is of dimension one, and each character in the set is -indexed using a single position code, in the range 0 through 127 (if -non-printing characters are included) or 33 through 126 (if only the -printing characters are considered). JISX0208, i.e. Japanese Kanji, -has thousands of characters, and is of dimension two - every character -is indexed by two position codes, each in the range 33 through 126. -(Note that the choice of the range here is somewhat arbitrary. -Although a character set such as JISX0208 defines an _ordering_ of all -its characters, it does not define the actual mapping between numbers -and characters. You could just as easily index the characters in -JISX0208 using numbers in the range 0 through 93, 1 through 94, 2 -through 95, etc. The reason for the actual range chosen is so that the -position codes match up with the actual values used in the common -encodings.) - - An "encoding" is a way of numerically representing characters from -one or more character sets into a stream of like-sized numerical values -called "words"; typically these are 8-bit, 16-bit, or 32-bit -quantities. If an encoding encompasses only one character set, then the -position codes for the characters in that character set could be used -directly. (This is the case with ASCII, and as a result, most people do -not understand the difference between a character set and an encoding.) -This is not possible, however, if more than one character set is to be -used in the encoding. For example, printed Japanese text typically -requires characters from multiple character sets--ASCII, JISX0208, and -JISX0212, to be specific. Each of these is indexed using one or more -position codes in the range 33 through 126, so the position codes could -not be used directly or there would be no way to tell which character -was meant. Different Japanese encodings handle this differently--JIS -uses special escape characters to denote different character sets; EUC -sets the high bit of the position codes for JISX0208 and JISX0212, and -puts a special extra byte before each JISX0212 character; etc. (JIS, -EUC, and most of the other encodings you will encounter are 7-bit or -8-bit encodings. There is one common 16-bit encoding, which is Unicode; -this strives to represent all the world's characters in a single large -character set. 32-bit encodings are generally used internally in -programs to simplify the code that manipulates them; however, they are -not much used externally because they are not very space-efficient.) - - Encodings are classified as either "modal" or "non-modal". In a -"modal encoding", there are multiple states that the encoding can be in, -and the interpretation of the values in the stream depends on the -current global state of the encoding. Special values in the encoding, -called "escape sequences", are used to change the global state. JIS, -for example, is a modal encoding. The bytes `ESC $ B' indicate that, -from then on, bytes are to be interpreted as position codes for -JISX0208, rather than as ASCII. This effect is cancelled using the -bytes `ESC ( B', which mean "switch from whatever the current state is -to ASCII". To switch to JISX0212, the escape sequence `ESC $ ( D'. -(Note that here, as is common, the escape sequences do in fact begin -with `ESC'. This is not necessarily the case, however.) - - A "non-modal encoding" has no global state that extends past the -character currently being interpreted. EUC, for example, is a -non-modal encoding. Characters in JISX0208 are encoded by setting the -high bit of the position codes, and characters in JISX0212 are encoded -by doing the same but also prefixing the character with the byte 0x8F. - - The advantage of a modal encoding is that it is generally more -space-efficient, and is easily extendable because there are essentially -an arbitrary number of escape sequences that can be created. The -disadvantage, however, is that it is much more difficult to work with -if it is not being processed in a sequential manner. In the non-modal -EUC encoding, for example, the byte 0x41 always refers to the letter -`A'; whereas in JIS, it could either be the letter `A', or one of the -two position codes in a JISX0208 character, or one of the two position -codes in a JISX0212 character. Determining exactly which one is meant -could be difficult and time-consuming if the previous bytes in the -string have not already been processed. - - Non-modal encodings are further divided into "fixed-width" and -"variable-width" formats. A fixed-width encoding always uses the same -number of words per character, whereas a variable-width encoding does -not. EUC is a good example of a variable-width encoding: one to three -bytes are used per character, depending on the character set. 16-bit -and 32-bit encodings are nearly always fixed-width, and this is in fact -one of the main reasons for using an encoding with a larger word size. -The advantages of fixed-width encodings should be obvious. The -advantages of variable-width encodings are that they are generally more -space-efficient and allow for compatibility with existing 8-bit -encodings such as ASCII. - - Note that the bytes in an 8-bit encoding are often referred to as -"octets" rather than simply as bytes. This terminology dates back to -the days before 8-bit bytes were universal, when some computers had -9-bit bytes, others had 10-bit bytes, etc. + The standard XEmacs configure script auto-detects an installed LDAP +library provided the library itself and the corresponding header files +can be found in the library and include paths. A successful detection +will be signalled in the final output of the configure script.  -File: lispref.info, Node: Charsets, Next: MULE Characters, Prev: Internationalization Terminology, Up: MULE +File: lispref.info, Node: XEmacs LDAP API, Next: Syntax of Search Filters, Prev: Building XEmacs with LDAP support, Up: LDAP Support -Charsets -======== +XEmacs LDAP API +=============== - A "charset" in MULE is an object that encapsulates a particular -character set as well as an ordering of those characters. Charsets are -permanent objects and are named using symbols, like faces. + XEmacs LDAP API consists of two layers: a low-level layer which +tries to stay as close as possible to the C API (where practical) and a +higher-level layer which provides more convenient primitives to +effectively use LDAP. - - Function: charsetp object - This function returns non-`nil' if OBJECT is a charset. + The low-level API should be used directly for very specific purposes +(such as multiple operations on a connection) only. The higher-level +functions provide a more convenient way to access LDAP directories +hiding the subtleties of handling the connection, translating arguments +and ensuring compliance with LDAP internationalization rules and formats +(currently partly implemented only). * Menu: -* Charset Properties:: Properties of a charset. -* Basic Charset Functions:: Functions for working with charsets. -* Charset Property Functions:: Functions for accessing charset properties. -* Predefined Charsets:: Predefined charset objects. - - -File: lispref.info, Node: Charset Properties, Next: Basic Charset Functions, Up: Charsets - -Charset Properties ------------------- - - Charsets have the following properties: - -`name' - A symbol naming the charset. Every charset must have a different - name; this allows a charset to be referred to using its name - rather than the actual charset object. - -`doc-string' - A documentation string describing the charset. - -`registry' - A regular expression matching the font registry field for this - character set. For example, both the `ascii' and `latin-iso8859-1' - charsets use the registry `"ISO8859-1"'. This field is used to - choose an appropriate font when the user gives a general font - specification such as `-*-courier-medium-r-*-140-*', i.e. a - 14-point upright medium-weight Courier font. - -`dimension' - Number of position codes used to index a character in the - character set. XEmacs/MULE can only handle character sets of - dimension 1 or 2. This property defaults to 1. - -`chars' - Number of characters in each dimension. In XEmacs/MULE, the only - allowed values are 94 or 96. (There are a couple of pre-defined - character sets, such as ASCII, that do not follow this, but you - cannot define new ones like this.) Defaults to 94. Note that if - the dimension is 2, the character set thus described is 94x94 or - 96x96. - -`columns' - Number of columns used to display a character in this charset. - Only used in TTY mode. (Under X, the actual width of a character - can be derived from the font used to display the characters.) If - unspecified, defaults to the dimension. (This is almost always the - correct value, because character sets with dimension 2 are usually - ideograph character sets, which need two columns to display the - intricate ideographs.) - -`direction' - A symbol, either `l2r' (left-to-right) or `r2l' (right-to-left). - Defaults to `l2r'. This specifies the direction that the text - should be displayed in, and will be left-to-right for most - charsets but right-to-left for Hebrew and Arabic. (Right-to-left - display is not currently implemented.) - -`final' - Final byte of the standard ISO 2022 escape sequence designating - this charset. Must be supplied. Each combination of (DIMENSION, - CHARS) defines a separate namespace for final bytes, and each - charset within a particular namespace must have a different final - byte. Note that ISO 2022 restricts the final byte to the range - 0x30 - 0x7E if dimension == 1, and 0x30 - 0x5F if dimension == 2. - Note also that final bytes in the range 0x30 - 0x3F are reserved - for user-defined (not official) character sets. For more - information on ISO 2022, see *Note Coding Systems::. - -`graphic' - 0 (use left half of font on output) or 1 (use right half of font on - output). Defaults to 0. This specifies how to convert the - position codes that index a character in a character set into an - index into the font used to display the character set. With - `graphic' set to 0, position codes 33 through 126 map to font - indices 33 through 126; with it set to 1, position codes 33 - through 126 map to font indices 161 through 254 (i.e. the same - number but with the high bit set). For example, for a font whose - registry is ISO8859-1, the left half of the font (octets 0x20 - - 0x7F) is the `ascii' charset, while the right half (octets 0xA0 - - 0xFF) is the `latin-iso8859-1' charset. - -`ccl-program' - A compiled CCL program used to convert a character in this charset - into an index into the font. This is in addition to the `graphic' - property. If a CCL program is defined, the position codes of a - character will first be processed according to `graphic' and then - passed through the CCL program, with the resulting values used to - index the font. - - This is used, for example, in the Big5 character set (used in - Taiwan). This character set is not ISO-2022-compliant, and its - size (94x157) does not fit within the maximum 96x96 size of - ISO-2022-compliant character sets. As a result, XEmacs/MULE - splits it (in a rather complex fashion, so as to group the most - commonly used characters together) into two charset objects - (`big5-1' and `big5-2'), each of size 94x94, and each charset - object uses a CCL program to convert the modified position codes - back into standard Big5 indices to retrieve a character from a - Big5 font. - - Most of the above properties can only be changed when the charset is -created. *Note Charset Property Functions::. +* LDAP Variables:: Lisp variables related to LDAP +* The High-Level LDAP API:: High-level LDAP lisp functions +* The Low-Level LDAP API:: Low-level LDAP lisp primitives +* LDAP Internationalization:: I18n variables and functions  -File: lispref.info, Node: Basic Charset Functions, Next: Charset Property Functions, Prev: Charset Properties, Up: Charsets +File: lispref.info, Node: LDAP Variables, Next: The High-Level LDAP API, Prev: XEmacs LDAP API, Up: XEmacs LDAP API -Basic Charset Functions ------------------------ +LDAP Variables +-------------- - - Function: find-charset charset-or-name - This function retrieves the charset of the given name. If - CHARSET-OR-NAME is a charset object, it is simply returned. - Otherwise, CHARSET-OR-NAME should be a symbol. If there is no - such charset, `nil' is returned. Otherwise the associated charset - object is returned. - - - Function: get-charset name - This function retrieves the charset of the given name. Same as - `find-charset' except an error is signalled if there is no such - charset instead of returning `nil'. - - - Function: charset-list - This function returns a list of the names of all defined charsets. - - - Function: make-charset name doc-string props - This function defines a new character set. This function is for - use with Mule support. NAME is a symbol, the name by which the - character set is normally referred. DOC-STRING is a string - describing the character set. PROPS is a property list, - describing the specific nature of the character set. The - recognized properties are `registry', `dimension', `columns', - `chars', `final', `graphic', `direction', and `ccl-program', as - previously described. - - - Function: make-reverse-direction-charset charset new-name - This function makes a charset equivalent to CHARSET but which goes - in the opposite direction. NEW-NAME is the name of the new - charset. The new charset is returned. - - - Function: charset-from-attributes dimension chars final &optional - direction - This function returns a charset with the given DIMENSION, CHARS, - FINAL, and DIRECTION. If DIRECTION is omitted, both directions - will be checked (left-to-right will be returned if character sets - exist for both directions). - - - Function: charset-reverse-direction-charset charset - This function returns the charset (if any) with the same dimension, - number of characters, and final byte as CHARSET, but which is - displayed in the opposite direction. + - Variable: ldap-default-host + The default LDAP server hostname. A TCP port number can be + appended to that name using a colon as a separator. + + - Variable: ldap-default-port + Default TCP port for LDAP connections. Initialized from the LDAP + library. Default value is 389. + + - Variable: ldap-default-base + Default base for LDAP searches. This is a string using the syntax + of RFC 1779. For instance, "o=ACME, c=US" limits the search to the + Acme organization in the United States. + + - Variable: ldap-host-parameters-alist + An alist of per host options for LDAP transactions. The list + elements look like `(HOST PROP1 VAL1 PROP2 VAL2 ...)' HOST is the + name of an LDAP server. A TCP port number can be appended to that + name using a colon as a separator. PROPN and VALN are + property/value pairs describing parameters for the server. Valid + properties: + `binddn' + The distinguished name of the user to bind as. This may look + like `cn=Babs Jensen,o=ACME,c=US', see RFC 1779 for details. + + `passwd' + The password to use for authentication. + + `auth' + The authentication method to use, possible values depend on + the LDAP library XEmacs was compiled with, they may include + `simple', `krbv41' and `krbv42'. + + `base' + The base for the search. This may look like `cÿ, o¬me', see + RFC 1779 for syntax details. + + `scope' + One of the symbols `base', `onelevel' or `subtree' indicating + the scope of the search limited to a base object, to a single + level or to the whole subtree. + + `deref' + The dereference policy is one of the symbols `never', + `always', `search' or `find' and defines how aliases are + dereferenced. + `never' + Aliases are never dereferenced + + `always' + Aliases are always dereferenced + + `search' + Aliases are dereferenced when searching + + `find' + Aliases are dereferenced when locating the base object + for the search + + `timelimit' + The timeout limit for the connection in seconds. + + `sizelimit' + The maximum number of matches to return for searches + performed on this connection. + + - Variable: ldap-verbose + If non-`nil', LDAP operations will echo progress messages. + Defaults to `nil'.  -File: lispref.info, Node: Charset Property Functions, Next: Predefined Charsets, Prev: Basic Charset Functions, Up: Charsets - -Charset Property Functions --------------------------- - - All of these functions accept either a charset name or charset -object. - - - Function: charset-property charset prop - This function returns property PROP of CHARSET. *Note Charset - Properties::. - - Convenience functions are also provided for retrieving individual -properties of a charset. - - - Function: charset-name charset - This function returns the name of CHARSET. This will be a symbol. +File: lispref.info, Node: The High-Level LDAP API, Next: The Low-Level LDAP API, Prev: LDAP Variables, Up: XEmacs LDAP API - - Function: charset-doc-string charset - This function returns the doc string of CHARSET. - - - Function: charset-registry charset - This function returns the registry of CHARSET. - - - Function: charset-dimension charset - This function returns the dimension of CHARSET. - - - Function: charset-chars charset - This function returns the number of characters per dimension of - CHARSET. - - - Function: charset-columns charset - This function returns the number of display columns per character - (in TTY mode) of CHARSET. - - - Function: charset-direction charset - This function returns the display direction of CHARSET--either - `l2r' or `r2l'. - - - Function: charset-final charset - This function returns the final byte of the ISO 2022 escape - sequence designating CHARSET. - - - Function: charset-graphic charset - This function returns either 0 or 1, depending on whether the - position codes of characters in CHARSET map to the left or right - half of their font, respectively. - - - Function: charset-ccl-program charset - This function returns the CCL program, if any, for converting - position codes of characters in CHARSET into font indices. - - The only property of a charset that can currently be set after the -charset has been created is the CCL program. - - - Function: set-charset-ccl-program charset ccl-program - This function sets the `ccl-program' property of CHARSET to - CCL-PROGRAM. +The High-Level LDAP API +----------------------- - -File: lispref.info, Node: Predefined Charsets, Prev: Charset Property Functions, Up: Charsets - -Predefined Charsets -------------------- - - The following charsets are predefined in the C code. - - Name Type Fi Gr Dir Registry - -------------------------------------------------------------- - ascii 94 B 0 l2r ISO8859-1 - control-1 94 0 l2r --- - latin-iso8859-1 94 A 1 l2r ISO8859-1 - latin-iso8859-2 96 B 1 l2r ISO8859-2 - latin-iso8859-3 96 C 1 l2r ISO8859-3 - latin-iso8859-4 96 D 1 l2r ISO8859-4 - cyrillic-iso8859-5 96 L 1 l2r ISO8859-5 - arabic-iso8859-6 96 G 1 r2l ISO8859-6 - greek-iso8859-7 96 F 1 l2r ISO8859-7 - hebrew-iso8859-8 96 H 1 r2l ISO8859-8 - latin-iso8859-9 96 M 1 l2r ISO8859-9 - thai-tis620 96 T 1 l2r TIS620 - katakana-jisx0201 94 I 1 l2r JISX0201.1976 - latin-jisx0201 94 J 0 l2r JISX0201.1976 - japanese-jisx0208-1978 94x94 @ 0 l2r JISX0208.1978 - japanese-jisx0208 94x94 B 0 l2r JISX0208.19(83|90) - japanese-jisx0212 94x94 D 0 l2r JISX0212 - chinese-gb2312 94x94 A 0 l2r GB2312 - chinese-cns11643-1 94x94 G 0 l2r CNS11643.1 - chinese-cns11643-2 94x94 H 0 l2r CNS11643.2 - chinese-big5-1 94x94 0 0 l2r Big5 - chinese-big5-2 94x94 1 0 l2r Big5 - korean-ksc5601 94x94 C 0 l2r KSC5601 - composite 96x96 0 l2r --- - - The following charsets are predefined in the Lisp code. - - Name Type Fi Gr Dir Registry - -------------------------------------------------------------- - arabic-digit 94 2 0 l2r MuleArabic-0 - arabic-1-column 94 3 0 r2l MuleArabic-1 - arabic-2-column 94 4 0 r2l MuleArabic-2 - sisheng 94 0 0 l2r sisheng_cwnn\|OMRON_UDC_ZH - chinese-cns11643-3 94x94 I 0 l2r CNS11643.1 - chinese-cns11643-4 94x94 J 0 l2r CNS11643.1 - chinese-cns11643-5 94x94 K 0 l2r CNS11643.1 - chinese-cns11643-6 94x94 L 0 l2r CNS11643.1 - chinese-cns11643-7 94x94 M 0 l2r CNS11643.1 - ethiopic 94x94 2 0 l2r Ethio - ascii-r2l 94 B 0 r2l ISO8859-1 - ipa 96 0 1 l2r MuleIPA - vietnamese-lower 96 1 1 l2r VISCII1.1 - vietnamese-upper 96 2 1 l2r VISCII1.1 - - For all of the above charsets, the dimension and number of columns -are the same. - - Note that ASCII, Control-1, and Composite are handled specially. -This is why some of the fields are blank; and some of the filled-in -fields (e.g. the type) are not really accurate. + The following functions provide the most convenient interface to +perform LDAP operations. All of them open a connection to a host, +perform an operation (add/search/modify/delete) on one or several +entries and cleanly close the connection thus insulating the user from +all the details of the low-level interface such as LDAP Lisp objects +*note The Low-Level LDAP API::. + + Note that `ldap-search' which used to be the name of the high-level +search function in XEmacs 21.1 is now obsolete. For consistency in the +naming as well as backward compatibility, that function now acts as a +wrapper that calls either `ldap-search-basic' (low-level search +function) or `ldap-search-entries' (high-level search function) +according to the actual parameters. A direct call to one of these two +functions is preferred since it is faster and unambiguous. + + - Function: ldap-search-entries filter &optional host attributes + attrsonly withdn + Perform an LDAP search. FILTER is the search filter *note Syntax + of Search Filters:: HOST is the LDAP host on which to perform the + search. ATTRIBUTES is the specific attributes to retrieve, `nil' + means retrieve all. ATTRSONLY if non-`nil' retrieves the + attributes only without their associated values. If WITHDN is + non-`nil' each entry in the result will be prepended with its + distinguished name DN. Additional search parameters can be + specified through `ldap-host-parameters-alist'. The function + returns a list of matching entries. Each entry is itself an alist + of attribute/value pairs optionally preceded by the DN of the + entry according to the value of WITHDN. + + - Function: ldap-add-entries entries &optional host binddn passwd + Add entries to an LDAP directory. ENTRIES is a list of entry + specifications of the form `(DN (ATTR . VALUE) (ATTR . VALUE) ...)' + where DN the distinguished name of an entry to add, the following + are cons cells containing attribute/value string pairs. HOST is + the LDAP host, defaulting to `ldap-default-host' BINDDN is the DN + to bind as to the server PASSWD is the corresponding password. + + - Function: ldap-modify-entries entry-mods &optional host binddn passwd + Modify entries of an LDAP directory. ENTRY_MODS is a list of + entry modifications of the form `(DN MOD-SPEC1 MOD-SPEC2 ...)' + where DN is the distinguished name of the entry to modify, the + following are modification specifications. A modification + specification is itself a list of the form `(MOD-OP ATTR VALUE1 + VALUE2 ...)' MOD-OP and ATTR are mandatory, VALUES are optional + depending on MOD-OP. MOD-OP is the type of modification, one of + the symbols `add', `delete' or `replace'. ATTR is the LDAP + attribute type to modify. HOST is the LDAP host, defaulting to + `ldap-default-host' BINDDN is the DN to bind as to the server + PASSWD is the corresponding password" + + - Function: ldap-delete-entries dn &optional host binddn passwd + Delete an entry from an LDAP directory. DN is the distinguished + name of an entry to delete or a list of those. HOST is the LDAP + host, defaulting to `ldap-default-host' BINDDN is the DN to bind + as to the server PASSWD is the corresponding password.  -File: lispref.info, Node: MULE Characters, Next: Composite Characters, Prev: Charsets, Up: MULE - -MULE Characters -=============== +File: lispref.info, Node: The Low-Level LDAP API, Next: LDAP Internationalization, Prev: The High-Level LDAP API, Up: XEmacs LDAP API - - Function: make-char charset arg1 &optional arg2 - This function makes a multi-byte character from CHARSET and octets - ARG1 and ARG2. +The Low-Level LDAP API +---------------------- - - Function: char-charset ch - This function returns the character set of char CH. + The low-level API should be used directly for very specific purposes +(such as multiple operations on a connection) only. The higher-level +functions provide a more convenient way to access LDAP directories +hiding the subtleties of handling the connection, translating arguments +and ensuring compliance with LDAP internationalization rules and formats +(currently partly implemented only). See *note The High-Level LDAP API:: - - Function: char-octet ch &optional n - This function returns the octet (i.e. position code) numbered N - (should be 0 or 1) of char CH. N defaults to 0 if omitted. + Note that the former functions `ldap-*-internal' functions have been +renamed in XEmacs 21.2 - - Function: find-charset-region start end &optional buffer - This function returns a list of the charsets in the region between - START and END. BUFFER defaults to the current buffer if omitted. +* Menu: - - Function: find-charset-string string - This function returns a list of the charsets in STRING. +* The LDAP Lisp Object:: +* Opening and Closing a LDAP Connection:: +* Low-level Operations on a LDAP Server::  -File: lispref.info, Node: Composite Characters, Next: ISO 2022, Prev: MULE Characters, Up: MULE - -Composite Characters -==================== +File: lispref.info, Node: The LDAP Lisp Object, Next: Opening and Closing a LDAP Connection, Prev: The Low-Level LDAP API, Up: The Low-Level LDAP API - Composite characters are not yet completely implemented. +The LDAP Lisp Object +.................... - - Function: make-composite-char string - This function converts a string into a single composite character. - The character is the result of overstriking all the characters in - the string. + An internal built-in `ldap' lisp object represents a LDAP connection. - - Function: composite-char-string ch - This function returns a string of the characters comprising a - composite character. + - Function: ldapp object + This function returns non-`nil' if OBJECT is a `ldap' object. - - Function: compose-region start end &optional buffer - This function composes the characters in the region from START to - END in BUFFER into one composite character. The composite - character replaces the composed characters. BUFFER defaults to - the current buffer if omitted. + - Function: ldap-host ldap + Return the server host of the connection represented by LDAP - - Function: decompose-region start end &optional buffer - This function decomposes any composite characters in the region - from START to END in BUFFER. This converts each composite - character into one or more characters, the individual characters - out of which the composite character was formed. Non-composite - characters are left as-is. BUFFER defaults to the current buffer - if omitted. + - Function: ldap-live-p ldap + Return non-`nil' if LDAP is an active LDAP connection  -File: lispref.info, Node: ISO 2022, Next: Coding Systems, Prev: Composite Characters, Up: MULE - -ISO 2022 -======== +File: lispref.info, Node: Opening and Closing a LDAP Connection, Next: Low-level Operations on a LDAP Server, Prev: The LDAP Lisp Object, Up: The Low-Level LDAP API - This section briefly describes the ISO 2022 encoding standard. For -more thorough understanding, please refer to the original document of -ISO 2022. +Opening and Closing a LDAP Connection +..................................... - Character sets ("charsets") are classified into the following four -categories, according to the number of characters of charset: -94-charset, 96-charset, 94x94-charset, and 96x96-charset. + - Function: ldap-open host &optional plist + Open a LDAP connection to HOST. PLIST is a property list + containing additional parameters for the connection. Valid keys + in that list are: + `port' + The TCP port to use for the connection if different from + `ldap-default-port' or the library builtin value -94-charset - ASCII(B), left(J) and right(I) half of JISX0201, ... + `auth' + The authentication method to use, possible values depend on + the LDAP library XEmacs was compiled with, they may include + `simple', `krbv41' and `krbv42'. -96-charset - Latin-1(A), Latin-2(B), Latin-3(C), ... + `binddn' + The distinguished name of the user to bind as. This may look + like `c=com, o=Acme, cn=Babs Jensen', see RFC 1779 for + details. -94x94-charset - GB2312(A), JISX0208(B), KSC5601(C), ... + `passwd' + The password to use for authentication. -96x96-charset - none for the moment + `deref' + The dereference policy is one of the symbols `never', + `always', `search' or `find' and defines how aliases are + dereferenced. + `never' + Aliases are never dereferenced - The character in parentheses after the name of each charset is the -"final character" F, which can be regarded as the identifier of the -charset. ECMA allocates F to each charset. F is in the range of -0x30..0x7F, but 0x30..0x3F are only for private use. + `always' + Aliases are always dereferenced - Note: "ECMA" = European Computer Manufacturers Association + `search' + Aliases are dereferenced when searching - There are four "registers of charsets", called G0 thru G3. You can -designate (or assign) any charset to one of these registers. + `find' + Aliases are dereferenced when locating the base object + for the search The default is `never'. - The code space contained within one octet (of size 256) is divided -into 4 areas: C0, GL, C1, and GR. GL and GR are the areas into which a -register of charset can be invoked into. + `timelimit' + The timeout limit for the connection in seconds. - C0: 0x00 - 0x1F - GL: 0x20 - 0x7F - C1: 0x80 - 0x9F - GR: 0xA0 - 0xFF + `sizelimit' + The maximum number of matches to return for searches + performed on this connection. - Usually, in the initial state, G0 is invoked into GL, and G1 is -invoked into GR. + - Function: ldap-close ldap + Close the connection represented by LDAP - ISO 2022 distinguishes 7-bit environments and 8-bit environments. In -7-bit environments, only C0 and GL are used. - - Charset designation is done by escape sequences of the form: - - ESC [I] I F - - where I is an intermediate character in the range 0x20 - 0x2F, and F -is the final character identifying this charset. + +File: lispref.info, Node: Low-level Operations on a LDAP Server, Prev: Opening and Closing a LDAP Connection, Up: The Low-Level LDAP API + +Low-level Operations on a LDAP Server +..................................... + + `ldap-search-basic' is the low-level primitive to perform a search +on a LDAP server. It works directly on an open LDAP connection thus +requiring a preliminary call to `ldap-open'. Multiple searches can be +made on the same connection, then the session must be closed with +`ldap-close'. + + - Function: ldap-search-basic ldap filter base scope attrs attrsonly + Perform a search on an open connection LDAP created with + `ldap-open'. FILTER is a filter string for the search *note + Syntax of Search Filters:: BASE is the distinguished name at which + to start the search. SCOPE is one of the symbols `base', + `onelevel' or `subtree' indicating the scope of the search limited + to a base object, to a single level or to the whole subtree. The + default is `subtree'. `attrs' is a list of strings indicating + which attributes to retrieve for each matching entry. If `nil' all + available attributes are returned. If `attrsonly' is non-`nil' + then only the attributes are retrieved, not their associated values + If `withdn' is non-`nil' then each entry in the result is + prepended with its distinguished name DN If `verbose' is non-`nil' + then progress messages are echoed The function returns a list of + matching entries. Each entry is itself an alist of + attribute/value pairs optionally preceded by the DN of the entry + according to the value of `withdn'. + + - Function: ldap-add ldap dn entry + Add ENTRY to a LDAP directory which a connection LDAP has been + opened to with `ldap-open'. DN is the distinguished name of the + entry to add. ENTRY is an entry specification, i.e., a list of + cons cells containing attribute/value string pairs. + + - Function: ldap-modify ldap dn mods + Modify an entry in an LDAP directory. LDAP is an LDAP connection + object created with `ldap-open'. DN is the distinguished name of + the entry to modify. MODS is a list of modifications to apply. A + modification is a list of the form `(MOD-OP ATTR VALUE1 VALUE2 + ...)' MOD-OP and ATTR are mandatory, VALUES are optional + depending on MOD-OP. MOD-OP is the type of modification, one of + the symbols `add', `delete' or `replace'. ATTR is the LDAP + attribute type to modify + + - Function: ldap-delete ldap dn + Delete an entry to an LDAP directory. LDAP is an LDAP connection + object created with `ldap-open'. DN is the distinguished name of + the entry to delete - The meaning of intermediate characters are: + +File: lispref.info, Node: LDAP Internationalization, Prev: The Low-Level LDAP API, Up: XEmacs LDAP API - $ [0x24]: indicate charset of dimension 2 (94x94 or 96x96). - ( [0x28]: designate to G0 a 94-charset whose final byte is F. - ) [0x29]: designate to G1 a 94-charset whose final byte is F. - * [0x2A]: designate to G2 a 94-charset whose final byte is F. - + [0x2B]: designate to G3 a 94-charset whose final byte is F. - - [0x2D]: designate to G1 a 96-charset whose final byte is F. - . [0x2E]: designate to G2 a 96-charset whose final byte is F. - / [0x2F]: designate to G3 a 96-charset whose final byte is F. +LDAP Internationalization +------------------------- - The following rule is not allowed in ISO 2022 but can be used in -Mule. + The XEmacs LDAP API provides basic internationalization features +based on the LDAP v3 specification (essentially RFC2252 on "LDAP v3 +Attribute Syntax Definitions"). Unfortunately since there is currently +no free LDAP v3 server software, this part has not received much +testing and should be considered experimental. The framework is in +place though. - , [0x2C]: designate to G0 a 96-charset whose final byte is F. + - Function: ldap-decode-attribute attr + Decode the attribute/value pair ATTR according to LDAP rules. The + attribute name is looked up in `ldap-attribute-syntaxes-alist' and + the corresponding decoder is then retrieved from + `ldap-attribute-syntax-decoders'' and applied on the value(s). - Here are examples of designations: +* Menu: - ESC ( B : designate to G0 ASCII - ESC - A : designate to G1 Latin-1 - ESC $ ( A or ESC $ A : designate to G0 GB2312 - ESC $ ( B or ESC $ B : designate to G0 JISX0208 - ESC $ ) C : designate to G1 KSC5601 +* LDAP Internationalization Variables:: +* Encoder/Decoder Functions:: - To use a charset designated to G2 or G3, and to use a charset -designated to G1 in a 7-bit environment, you must explicitly invoke G1, -G2, or G3 into GL. There are two types of invocation, Locking Shift -(forever) and Single Shift (one character only). + +File: lispref.info, Node: LDAP Internationalization Variables, Next: Encoder/Decoder Functions, Prev: LDAP Internationalization, Up: LDAP Internationalization + +LDAP Internationalization Variables +................................... + + - Variable: ldap-ignore-attribute-codings + If non-`nil', no encoding/decoding will be performed LDAP + attribute values + + - Variable: ldap-coding-system + Coding system of LDAP string values. LDAP v3 specifies the coding + system of strings to be UTF-8. You need an XEmacs with Mule + support for this. + + - Variable: ldap-default-attribute-decoder + Decoder function to use for attributes whose syntax is unknown. + Such a function receives an encoded attribute value as a string + and should return the decoded value as a string + + - Variable: ldap-attribute-syntax-encoders + A vector of functions used to encode LDAP attribute values. The + sequence of functions corresponds to the sequence of LDAP + attribute syntax object identifiers of the form + 1.3.6.1.4.1.1466.1115.121.1.* as defined in RFC2252 section 4.3.2. + As of this writing, only a few encoder functions are available. + + - Variable: ldap-attribute-syntax-decoders + A vector of functions used to decode LDAP attribute values. The + sequence of functions corresponds to the sequence of LDAP + attribute syntax object identifiers of the form + 1.3.6.1.4.1.1466.1115.121.1.* as defined in RFC2252 section 4.3.2. + As of this writing, only a few decoder functions are available. + + - Variable: ldap-attribute-syntaxes-alist + A map of LDAP attribute names to their type object id minor number. + This table is built from RFC2252 Section 5 and RFC2256 Section 5 - Locking Shift is done as follows: + +File: lispref.info, Node: Encoder/Decoder Functions, Prev: LDAP Internationalization Variables, Up: LDAP Internationalization - LS0 or SI (0x0F): invoke G0 into GL - LS1 or SO (0x0E): invoke G1 into GL - LS2: invoke G2 into GL - LS3: invoke G3 into GL - LS1R: invoke G1 into GR - LS2R: invoke G2 into GR - LS3R: invoke G3 into GR +Encoder/Decoder Functions +......................... - Single Shift is done as follows: + - Function: ldap-encode-boolean bool + A function that encodes an elisp boolean BOOL into a LDAP boolean + string representation - SS2 or ESC N: invoke G2 into GL - SS3 or ESC O: invoke G3 into GL + - Function: ldap-decode-boolean str + A function that decodes a LDAP boolean string representation STR + into an elisp boolean - (#### Ben says: I think the above is slightly incorrect. It appears -that SS2 invokes G2 into GR and SS3 invokes G3 into GR, whereas ESC N -and ESC O behave as indicated. The above definitions will not parse -EUC-encoded text correctly, and it looks like the code in mule-coding.c -has similar problems.) + - Function: ldap-decode-string str + Decode a string STR according to `ldap-coding-system' - You may realize that there are a lot of ISO-2022-compliant ways of -encoding multilingual text. Now, in the world, there exist many coding -systems such as X11's Compound Text, Japanese JUNET code, and so-called -EUC (Extended UNIX Code); all of these are variants of ISO 2022. + - Function: ldap-encode-string str + Encode a string STR according to `ldap-coding-system' - In Mule, we characterize ISO 2022 by the following attributes: + - Function: ldap-decode-address str + Decode an address STR according to `ldap-coding-system' and + replacing $ signs with newlines as specified by LDAP encoding + rules for addresses - 1. Initial designation to G0 thru G3. + - Function: ldap-encode-address str + Encode an address STR according to `ldap-coding-system' and + replacing newlines with $ signs as specified by LDAP encoding + rules for addresses - 2. Allow designation of short form for Japanese and Chinese. + +File: lispref.info, Node: Syntax of Search Filters, Prev: XEmacs LDAP API, Up: LDAP Support - 3. Should we designate ASCII to G0 before control characters? +Syntax of Search Filters +======================== - 4. Should we designate ASCII to G0 at the end of line? + LDAP search functions use RFC1558 syntax to describe the search +filter. In that syntax simple filters have the form: - 5. 7-bit environment or 8-bit environment. + ( ) - 6. Use Locking Shift or not. + `' is an attribute name such as `cn' for Common Name, `o' for +Organization, etc... - 7. Use ASCII or JIS0201-1976-Roman. + `' is the corresponding value. This is generally an exact +string but may also contain `*' characters as wildcards - 8. Use JISX0208-1983 or JISX0208-1976. + `filtertype' is one `=' `~=', `<=', `>=' which respectively describe +equality, approximate equality, inferiority and superiority. - (The last two are only for Japanese.) + Thus `(cn=John Smith)' matches all records having a canonical name +equal to John Smith. - By specifying these attributes, you can create any variant of ISO -2022. + A special case is the presence filter `(=*' which matches +records containing a particular attribute. For instance `(mail=*)' +matches all records containing a `mail' attribute. - Here are several examples: + Simple filters can be connected together with the logical operators +`&', `|' and `!' which stand for the usual and, or and not operators. - junet -- Coding system used in JUNET. - 1. G0 <- ASCII, G1..3 <- never used - 2. Yes. - 3. Yes. - 4. Yes. - 5. 7-bit environment - 6. No. - 7. Use ASCII - 8. Use JISX0208-1983 - - ctext -- Compound Text - 1. G0 <- ASCII, G1 <- Latin-1, G2,3 <- never used - 2. No. - 3. No. - 4. Yes. - 5. 8-bit environment - 6. No. - 7. Use ASCII - 8. Use JISX0208-1983 - - euc-china -- Chinese EUC. Although many people call this - as "GB encoding", the name may cause misunderstanding. - 1. G0 <- ASCII, G1 <- GB2312, G2,3 <- never used - 2. No. - 3. Yes. - 4. Yes. - 5. 8-bit environment - 6. No. - 7. Use ASCII - 8. Use JISX0208-1983 - - korean-mail -- Coding system used in Korean network. - 1. G0 <- ASCII, G1 <- KSC5601, G2,3 <- never used - 2. No. - 3. Yes. - 4. Yes. - 5. 7-bit environment - 6. Yes. - 7. No. - 8. No. - - Mule creates all these coding systems by default. + `(&(objectClass=Person)(mail=*)(|(sn=Smith)(givenname=John)))' +matches records of class `Person' containing a `mail' attribute and +corresponding to people whose last name is `Smith' or whose first name +is `John'.  -File: lispref.info, Node: Coding Systems, Next: CCL, Prev: ISO 2022, Up: MULE - -Coding Systems -============== - - A coding system is an object that defines how text containing -multiple character sets is encoded into a stream of (typically 8-bit) -bytes. The coding system is used to decode the stream into a series of -characters (which may be from multiple charsets) when the text is read -from a file or process, and is used to encode the text back into the -same format when it is written out to a file or process. +File: lispref.info, Node: PostgreSQL Support, Next: Internationalization, Prev: LDAP Support, Up: Top - For example, many ISO-2022-compliant coding systems (such as Compound -Text, which is used for inter-client data under the X Window System) use -escape sequences to switch between different charsets--Japanese Kanji, -for example, is invoked with `ESC $ ( B'; ASCII is invoked with `ESC ( -B'; and Cyrillic is invoked with `ESC - L'. See `make-coding-system' -for more information. +PostgreSQL Support +****************** - Coding systems are normally identified using a symbol, and the -symbol is accepted in place of the actual coding system object whenever -a coding system is called for. (This is similar to how faces and -charsets work.) - - - Function: coding-system-p object - This function returns non-`nil' if OBJECT is a coding system. + XEmacs can be linked with PostgreSQL libpq run-time support to +provide relational database access from Emacs Lisp code. * Menu: -* Coding System Types:: Classifying coding systems. -* EOL Conversion:: Dealing with different ways of denoting - the end of a line. -* Coding System Properties:: Properties of a coding system. -* Basic Coding System Functions:: Working with coding systems. -* Coding System Property Functions:: Retrieving a coding system's properties. -* Encoding and Decoding Text:: Encoding and decoding text. -* Detection of Textual Encoding:: Determining how text is encoded. -* Big5 and Shift-JIS Functions:: Special functions for these non-standard - encodings. +* Building XEmacs with PostgreSQL support:: +* XEmacs PostgreSQL libpq API:: +* XEmacs PostgreSQL libpq Examples::  -File: lispref.info, Node: Coding System Types, Next: EOL Conversion, Up: Coding Systems - -Coding System Types -------------------- - -`nil' -`autodetect' - Automatic conversion. XEmacs attempts to detect the coding system - used in the file. - -`no-conversion' - No conversion. Use this for binary files and such. On output, - graphic characters that are not in ASCII or Latin-1 will be - replaced by a `?'. (For a no-conversion-encoded buffer, these - characters will only be present if you explicitly insert them.) - -`shift-jis' - Shift-JIS (a Japanese encoding commonly used in PC operating - systems). - -`iso2022' - Any ISO-2022-compliant encoding. Among other things, this - includes JIS (the Japanese encoding commonly used for e-mail), - national variants of EUC (the standard Unix encoding for Japanese - and other languages), and Compound Text (an encoding used in X11). - You can specify more specific information about the conversion - with the FLAGS argument. - -`big5' - Big5 (the encoding commonly used for Taiwanese). - -`ccl' - The conversion is performed using a user-written pseudo-code - program. CCL (Code Conversion Language) is the name of this - pseudo-code. - -`internal' - Write out or read in the raw contents of the memory representing - the buffer's text. This is primarily useful for debugging - purposes, and is only enabled when XEmacs has been compiled with - `DEBUG_XEMACS' set (the `--debug' configure option). *Warning*: - Reading in a file using `internal' conversion can result in an - internal inconsistency in the memory representing a buffer's text, - which will produce unpredictable results and may cause XEmacs to - crash. Under normal circumstances you should never use `internal' - conversion. +File: lispref.info, Node: Building XEmacs with PostgreSQL support, Next: XEmacs PostgreSQL libpq API, Up: PostgreSQL Support + +Building XEmacs with PostgreSQL support +======================================= + + XEmacs PostgreSQL support requires linking to the PostgreSQL libpq.so +library. Describing how to build and install PostgreSQL is beyond the +scope of this document, see the PostgreSQL manual for details. + + If you have installed XEmacs from one of the binary kits on +(), or are using an XEmacs binary from a CD ROM, +you should have XEmacs PostgreSQL support by default. If you are +building XEmacs from source on a Linux system with PostgreSQL installed +into the default location, it should be autodetected when you run +configure. If you have installed PostgreSQL into its non-Linux default +location, `/usr/local/pgsql', you must specify +`--site-prefixes=/usr/local/pgsql' when you run configure. If you +installed PostgreSQL into another location, use that instead of +`/usr/local/pgsql' when specifying `--site-prefixes'. + + As of XEmacs 21.2, PostgreSQL versions 6.5.3 and 7.0 are supported. +XEmacs Lisp support for V7.0 is somewhat more extensive than support for +V6.5. In particular, asynchronous queries are supported.  -File: lispref.info, Node: EOL Conversion, Next: Coding System Properties, Prev: Coding System Types, Up: Coding Systems +File: lispref.info, Node: XEmacs PostgreSQL libpq API, Next: XEmacs PostgreSQL libpq Examples, Prev: Building XEmacs with PostgreSQL support, Up: PostgreSQL Support + +XEmacs PostgreSQL libpq API +=========================== + + XEmacs PostgreSQL API is intended to be a policy-free, low-level +binding to libpq. The intent is to provide all the basic functionality +and then let high level Lisp code decide its own policies. + + This documentation assumes that the reader has knowledge of SQL, but +requires no prior knowledge of libpq. + + There are many examples in this manual and some setup will be +required. In order to run most of the following examples, the +following code needs to be executed. In addition to the data is in +this table, nearly all of the examples will assume that the free +variable `P' refers to this database connection. The examples in the +original edition of this manual were run against Postgres 7.0beta1. + + (progn + (setq P (pq-connectdb "")) + ;; id is the primary key, shikona is a Japanese word that + ;; means `the professional name of a Sumo wrestler', and + ;; rank is the Sumo rank name. + (pq-exec P (concat "CREATE TABLE xemacs_test" + " (id int, shikona text, rank text);")) + (pq-exec P "COPY xemacs_test FROM stdin;") + (pq-put-line P "1\tMusashimaru\tYokuzuna\n") + (pq-put-line P "2\tDejima\tOozeki\n") + (pq-put-line P "3\tMusoyama\tSekiwake\n") + (pq-put-line P "4\tMiyabiyama\tSekiwake\n") + (pq-put-line P "5\tWakanoyama\tMaegashira\n") + (pq-put-line P "\\.\n") + (pq-end-copy P)) + => nil -EOL Conversion --------------- - -`nil' - Automatically detect the end-of-line type (LF, CRLF, or CR). Also - generate subsidiary coding systems named `NAME-unix', `NAME-dos', - and `NAME-mac', that are identical to this coding system but have - an EOL-TYPE value of `lf', `crlf', and `cr', respectively. - -`lf' - The end of a line is marked externally using ASCII LF. Since this - is also the way that XEmacs represents an end-of-line internally, - specifying this option results in no end-of-line conversion. This - is the standard format for Unix text files. +* Menu: -`crlf' - The end of a line is marked externally using ASCII CRLF. This is - the standard format for MS-DOS text files. +* libpq Lisp Variables:: +* libpq Lisp Symbols and DataTypes:: +* Synchronous Interface Functions:: +* Asynchronous Interface Functions:: +* Large Object Support:: +* Other libpq Functions:: +* Unimplemented libpq Functions:: -`cr' - The end of a line is marked externally using ASCII CR. This is the - standard format for Macintosh text files. + +File: lispref.info, Node: libpq Lisp Variables, Next: libpq Lisp Symbols and DataTypes, Prev: XEmacs PostgreSQL libpq API, Up: XEmacs PostgreSQL libpq API -`t' - Automatically detect the end-of-line type but do not generate - subsidiary coding systems. (This value is converted to `nil' when - stored internally, and `coding-system-property' will return `nil'.) +libpq Lisp Variables +-------------------- - -File: lispref.info, Node: Coding System Properties, Next: Basic Coding System Functions, Prev: EOL Conversion, Up: Coding Systems - -Coding System Properties ------------------------- - -`mnemonic' - String to be displayed in the modeline when this coding system is - active. - -`eol-type' - End-of-line conversion to be used. It should be one of the types - listed in *Note EOL Conversion::. - -`post-read-conversion' - Function called after a file has been read in, to perform the - decoding. Called with two arguments, BEG and END, denoting a - region of the current buffer to be decoded. - -`pre-write-conversion' - Function called before a file is written out, to perform the - encoding. Called with two arguments, BEG and END, denoting a - region of the current buffer to be encoded. - - The following additional properties are recognized if TYPE is -`iso2022': - -`charset-g0' -`charset-g1' -`charset-g2' -`charset-g3' - The character set initially designated to the G0 - G3 registers. - The value should be one of - - * A charset object (designate that character set) - - * `nil' (do not ever use this register) - - * `t' (no character set is initially designated to the - register, but may be later on; this automatically sets the - corresponding `force-g*-on-output' property) - -`force-g0-on-output' -`force-g1-on-output' -`force-g2-on-output' -`force-g3-on-output' - If non-`nil', send an explicit designation sequence on output - before using the specified register. - -`short' - If non-`nil', use the short forms `ESC $ @', `ESC $ A', and `ESC $ - B' on output in place of the full designation sequences `ESC $ ( - @', `ESC $ ( A', and `ESC $ ( B'. - -`no-ascii-eol' - If non-`nil', don't designate ASCII to G0 at each end of line on - output. Setting this to non-`nil' also suppresses other - state-resetting that normally happens at the end of a line. - -`no-ascii-cntl' - If non-`nil', don't designate ASCII to G0 before control chars on - output. - -`seven' - If non-`nil', use 7-bit environment on output. Otherwise, use - 8-bit environment. - -`lock-shift' - If non-`nil', use locking-shift (SO/SI) instead of single-shift or - designation by escape sequence. - -`no-iso6429' - If non-`nil', don't use ISO6429's direction specification. - -`escape-quoted' - If non-nil, literal control characters that are the same as the - beginning of a recognized ISO 2022 or ISO 6429 escape sequence (in - particular, ESC (0x1B), SO (0x0E), SI (0x0F), SS2 (0x8E), SS3 - (0x8F), and CSI (0x9B)) are "quoted" with an escape character so - that they can be properly distinguished from an escape sequence. - (Note that doing this results in a non-portable encoding.) This - encoding flag is used for byte-compiled files. Note that ESC is a - good choice for a quoting character because there are no escape - sequences whose second byte is a character from the Control-0 or - Control-1 character sets; this is explicitly disallowed by the ISO - 2022 standard. - -`input-charset-conversion' - A list of conversion specifications, specifying conversion of - characters in one charset to another when decoding is performed. - Each specification is a list of two elements: the source charset, - and the destination charset. - -`output-charset-conversion' - A list of conversion specifications, specifying conversion of - characters in one charset to another when encoding is performed. - The form of each specification is the same as for - `input-charset-conversion'. - - The following additional properties are recognized (and required) if -TYPE is `ccl': - -`decode' - CCL program used for decoding (converting to internal format). - -`encode' - CCL program used for encoding (converting to external format). + Various Unix environment variables are used by libpq to provide +defaults to the many different parameters. In the XEmacs Lisp API, +these environment variables are bound to Lisp variables to provide more +convenient access to Lisp Code. These variables are passed to the +backend database server during the establishment of a database +connection and when the `pq-setenv' call is made. - -File: lispref.info, Node: Basic Coding System Functions, Next: Coding System Property Functions, Prev: Coding System Properties, Up: Coding Systems + - Variable: pg:host + Initialized from the PGHOST environment variable. The default + host to connect to. -Basic Coding System Functions ------------------------------ + - Variable: pg:user + Initialized from the PGUSER environment variable. The default + database user name. - - Function: find-coding-system coding-system-or-name - This function retrieves the coding system of the given name. + - Variable: pg:options + Initialized from the PGOPTIONS environment variable. Default + additional server options. - If CODING-SYSTEM-OR-NAME is a coding-system object, it is simply - returned. Otherwise, CODING-SYSTEM-OR-NAME should be a symbol. - If there is no such coding system, `nil' is returned. Otherwise - the associated coding system object is returned. + - Variable: pg:port + Initialized from the PGPORT environment variable. The default TCP + port to connect to. - - Function: get-coding-system name - This function retrieves the coding system of the given name. Same - as `find-coding-system' except an error is signalled if there is no - such coding system instead of returning `nil'. + - Variable: pg:tty + Initialized from the PGTTY environment variable. The default + debugging TTY. - - Function: coding-system-list - This function returns a list of the names of all defined coding - systems. + Compatibility note: Debugging TTYs are turned off in the XEmacs + Lisp binding. - - Function: coding-system-name coding-system - This function returns the name of the given coding system. + - Variable: pg:database + Initialized from the PGDATABASE environment variable. The default + database to connect to. - - Function: make-coding-system name type &optional doc-string props - This function registers symbol NAME as a coding system. + - Variable: pg:realm + Initialized from the PGREALM environment variable. The default + Kerberos realm. - TYPE describes the conversion method used and should be one of the - types listed in *Note Coding System Types::. + - Variable: pg:client-encoding + Initialized from the PGCLIENTENCODING environment variable. The + default client encoding. - DOC-STRING is a string describing the coding system. + Compatibility note: This variable is not present in non-Mule + XEmacsen. This variable is not present in versions of libpq prior + to 7.0. In the current implementation, client encoding is + equivalent to the `file-name-coding-system' format. - PROPS is a property list, describing the specific nature of the - character set. Recognized properties are as in *Note Coding - System Properties::. + - Variable: pg:authtype + Initialized from the PGAUTHTYPE environment variable. The default + authentication scheme used. - - Function: copy-coding-system old-coding-system new-name - This function copies OLD-CODING-SYSTEM to NEW-NAME. If NEW-NAME - does not name an existing coding system, a new one will be created. + Compatibility note: This variable is unused in versions of libpq + after 6.5. It is not implemented at all in the XEmacs Lisp + binding. - - Function: subsidiary-coding-system coding-system eol-type - This function returns the subsidiary coding system of - CODING-SYSTEM with eol type EOL-TYPE. + - Variable: pg:geqo + Initialized from the PGGEQO environment variable. Genetic + optimizer options. - -File: lispref.info, Node: Coding System Property Functions, Next: Encoding and Decoding Text, Prev: Basic Coding System Functions, Up: Coding Systems + - Variable: pg:cost-index + Initialized from the PGCOSTINDEX environment variable. Cost index + options. -Coding System Property Functions --------------------------------- + - Variable: pg:cost-heap + Initialized from the PGCOSTHEAP environment variable. Cost heap + options. - - Function: coding-system-doc-string coding-system - This function returns the doc string for CODING-SYSTEM. + - Variable: pg:tz + Initialized from the PGTZ environment variable. Default timezone. - - Function: coding-system-type coding-system - This function returns the type of CODING-SYSTEM. + - Variable: pg:date-style + Initialized from the PGDATESTYLE environment variable. Default + date style in returned date objects. - - Function: coding-system-property coding-system prop - This function returns the PROP property of CODING-SYSTEM. + - Variable: pg-coding-system + This is a variable controlling which coding system is used to + encode non-ASCII strings sent to the database. - -File: lispref.info, Node: Encoding and Decoding Text, Next: Detection of Textual Encoding, Prev: Coding System Property Functions, Up: Coding Systems - -Encoding and Decoding Text --------------------------- - - - Function: decode-coding-region start end coding-system &optional - buffer - This function decodes the text between START and END which is - encoded in CODING-SYSTEM. This is useful if you've read in - encoded text from a file without decoding it (e.g. you read in a - JIS-formatted file but used the `binary' or `no-conversion' coding - system, so that it shows up as `^[$B! # + + The number in brackets indicates how many rows of data are available. +When the PGresult object is the result of a command query that doesn't +return anything, it will look like: + + (pq-exec P "CREATE TABLE a_new_table (i int);") + => # + + When either the query is a command-type query that can affect a +number of different rows, but doesn't return any of them it will look +like: + + (progn + (pq-exec P "INSERT INTO a_new_table VALUES (1);") + (pq-exec P "INSERT INTO a_new_table VALUES (2);") + (pq-exec P "INSERT INTO a_new_table VALUES (3);") + (setq R (pq-exec P "DELETE FROM a_new_table;"))) + => # + + Lastly, when the underlying PGresult object has been deallocated +directly by `pq-clear' the printed representation will look like: + + (progn + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + (pq-clear R) + R) + => # + + The following set of functions are accessors to various data in the +PGresult object. + + - Function: pq-result-status result + Return status of a query result. RESULT is a PGresult object. + The return value is one of the symbols in the following table. + `pgres::empty-query' + A query contained no text. This is usually the result of a + recoverable error, or a minor programming error. -* CCL Syntax:: CCL program syntax in BNF notation. -* CCL Statements:: Semantics of CCL statements. -* CCL Expressions:: Operators and expressions in CCL. -* Calling CCL:: Running CCL programs. -* CCL Examples:: The encoding functions for Big5 and KOI-8. + `pgres::command-ok' + A query command that doesn't return anything was executed + properly by the backend. + + `pgres::tuples-ok' + A query command that returns tuples was executed properly by + the backend. + + `pgres::copy-out' + Copy Out data transfer is in progress. + + `pgres::copy-in' + Copy In data transfer is in progress. + + `pgres::bad-response' + An unexpected response was received from the backend. + + `pgres::nonfatal-error' + Undocumented. This value is returned when the libpq function + `PQresultStatus' is called with a NULL pointer. + + `pgres::fatal-error' + Undocumented. An error has occurred in processing the query + and the operation was not completed. + + - Function: pq-res-status result + Return the query result status as a string, not a symbol. RESULT + is a PGresult object. + + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + => # + (pq-res-status R) + => "PGRES_TUPLES_OK" + + - Function: pq-result-error-message result + Return an error message generated by the query, if any. RESULT is + a PGresult object. + + (setq R (pq-exec P "SELECT * FROM xemacs-test;")) + => + (pq-result-error-message R) + => "ERROR: parser: parse error at or near \"-\" + " + + - Function: pq-ntuples result + Return the number of tuples in the query result. RESULT is a + PGresult object. + + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + => # + (pq-ntuples R) + => 5 + + - Function: pq-nfields result + Return the number of fields in each tuple of the query result. + RESULT is a PGresult object. + + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + => # + (pq-nfields R) + => 3 + + - Function: pq-binary-tuples result + Returns t if binary tuples are present in the results, nil + otherwise. RESULT is a PGresult object. + + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + => # + (pq-binary-tuples R) + => nil + + - Function: pq-fname result field-index + Returns the name of a specific field. RESULT is a PGresult object. + FIELD-INDEX is the number of the column to select from. The first + column is number zero. + + (let (i l) + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + (setq i (pq-nfields R)) + (while (>= (decf i) 0) + (push (pq-fname R i) l)) + l) + => ("id" "shikona" "rank") + + - Function: pq-fnumber result field-name + Return the field number corresponding to the given field name. -1 + is returned on a bad field name. RESULT is a PGresult object. + FIELD-NAME is a string representing the field name to find. + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + => # + (pq-fnumber R "id") + => 0 + (pq-fnumber R "Not a field") + => -1 + + - Function: pq-ftype result field-num + Return an integer code representing the data type of the specified + column. RESULT is a PGresult object. FIELD-NUM is the field + number. + + The return value of this function is the Object ID (Oid) in the + database of the type. Further queries need to be made to various + system tables in order to convert this value into something useful. + + - Function: pq-fmod result field-num + Return the type modifier code associated with a field. Field + numbers start at zero. RESULT is a PGresult object. FIELD-INDEX + selects which field to use. + + - Function: pq-fsize result field-index + Return size of the given field. RESULT is a PGresult object. + FIELD-INDEX selects which field to use. + + (let (i l) + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + (setq i (pq-nfields R)) + (while (>= (decf i) 0) + (push (list (pq-ftype R i) (pq-fsize R i)) l)) + l) + => ((23 23) (25 25) (25 25)) + + - Function: pq-get-value result tup-num field-num + Retrieve a return value. RESULT is a PGresult object. TUP-NUM + selects which tuple to fetch from. FIELD-NUM selects which field + to fetch from. + + Both tuples and fields are numbered from zero. + + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + => # + (pq-get-value R 0 1) + => "Musashimaru" + (pq-get-value R 1 1) + => "Dejima" + (pq-get-value R 2 1) + => "Musoyama" + + - Function: pq-get-length result tup-num field-num + Return the length of a specific value. RESULT is a PGresult + object. TUP-NUM selects which tuple to fetch from. FIELD-NUM + selects which field to fetch from. + + (setq R (pq-exec P "SELECT * FROM xemacs_test;")) + => # + (pq-get-length R 0 1) + => 11 + (pq-get-length R 1 1) + => 6 + (pq-get-length R 2 1) + => 8 + + - Function: pq-get-is-null result tup-num field-num + Return t if the specific value is the SQL NULL. RESULT is a + PGresult object. TUP-NUM selects which tuple to fetch from. + FIELD-NUM selects which field to fetch from. + + - Function: pq-cmd-status result + Return a summary string from the query. RESULT is a PGresult + object. + (pq-exec P "INSERT INTO xemacs_test + VALUES (6, 'Wakanohana', 'Yokozuna');") + => # + (pq-cmd-status R) + => "INSERT 542086 1" + (setq R (pq-exec P "UPDATE xemacs_test SET rank='retired' + WHERE shikona='Wakanohana';")) + => # + (pq-cmd-status R) + => "UPDATE 1" + + Note that the first number returned from an insertion, like in the + example, is an object ID number and will almost certainly vary from + system to system since object ID numbers in Postgres must be unique + across all databases. + + - Function: pq-cmd-tuples result + Return the number of tuples if the last command was an + INSERT/UPDATE/DELETE. If the last command was something else, the + empty string is returned. RESULT is a PGresult object. + + (setq R (pq-exec P "INSERT INTO xemacs_test VALUES + (7, 'Takanohana', 'Yokuzuna');")) + => # + (pq-cmd-tuples R) + => "1" + (setq R (pq-exec P "SELECT * from xemacs_test;")) + => # + (pq-cmd-tuples R) + => "" + (setq R (pq-exec P "DELETE FROM xemacs_test + WHERE shikona LIKE '%hana';")) + => # + (pq-cmd-tuples R) + => "2" + + - Function: pq-oid-value result + Return the object id of the insertion if the last command was an + INSERT. 0 is returned if the last command was not an insertion. + RESULT is a PGresult object. + + In the first example, the numbers you will see on your local + system will almost certainly be different, however the second + number from the right in the unprintable PGresult object and the + number returned by `pq-oid-value' should match. + (setq R (pq-exec P "INSERT INTO xemacs_test VALUES + (8, 'Terao', 'Maegashira');")) + => # + (pq-oid-value R) + => 542089 + (setq R (pq-exec P "SELECT shikona FROM xemacs_test + WHERE rank='Maegashira';")) + => # + (pq-oid-value R) + => 0 + + - Function: pq-make-empty-pgresult conn status + Create an empty pgresult with the given status. CONN a database + connection object STATUS a value that can be returned by + `pq-result-status'. + + The caller is responsible for making sure the return value gets + properly freed.  -File: lispref.info, Node: CCL Syntax, Next: CCL Statements, Prev: CCL, Up: CCL - -CCL Syntax ----------- - - The full syntax of a CCL program in BNF notation: - -CCL_PROGRAM := - (BUFFER_MAGNIFICATION - CCL_MAIN_BLOCK - [ CCL_EOF_BLOCK ]) - -BUFFER_MAGNIFICATION := integer -CCL_MAIN_BLOCK := CCL_BLOCK -CCL_EOF_BLOCK := CCL_BLOCK - -CCL_BLOCK := - STATEMENT | (STATEMENT [STATEMENT ...]) -STATEMENT := - SET | IF | BRANCH | LOOP | REPEAT | BREAK | READ | WRITE - | CALL | END - -SET := - (REG = EXPRESSION) - | (REG ASSIGNMENT_OPERATOR EXPRESSION) - | integer - -EXPRESSION := ARG | (EXPRESSION OPERATOR ARG) - -IF := (if EXPRESSION CCL_BLOCK [CCL_BLOCK]) -BRANCH := (branch EXPRESSION CCL_BLOCK [CCL_BLOCK ...]) -LOOP := (loop STATEMENT [STATEMENT ...]) -BREAK := (break) -REPEAT := - (repeat) - | (write-repeat [REG | integer | string]) - | (write-read-repeat REG [integer | ARRAY]) -READ := - (read REG ...) - | (read-if (REG OPERATOR ARG) CCL_BLOCK CCL_BLOCK) - | (read-branch REG CCL_BLOCK [CCL_BLOCK ...]) -WRITE := - (write REG ...) - | (write EXPRESSION) - | (write integer) | (write string) | (write REG ARRAY) - | string -CALL := (call ccl-program-name) -END := (end) - -REG := r0 | r1 | r2 | r3 | r4 | r5 | r6 | r7 -ARG := REG | integer -OPERATOR := - + | - | * | / | % | & | '|' | ^ | << | >> | <8 | >8 | // - | < | > | == | <= | >= | != | de-sjis | en-sjis -ASSIGNMENT_OPERATOR := - += | -= | *= | /= | %= | &= | '|=' | ^= | <<= | >>= -ARRAY := '[' integer ... ']' +File: lispref.info, Node: Synchronous Interface Functions, Next: Asynchronous Interface Functions, Prev: libpq Lisp Symbols and DataTypes, Up: XEmacs PostgreSQL libpq API + +Synchronous Interface Functions +------------------------------- + + - Function: pq-connectdb conninfo + Establish a (synchronous) database connection. CONNINFO A string + of blank separated options. Options are of the form "OPTION = + VALUE". If VALUE contains blanks, it must be single quoted. + Blanks around the equal sign are optional. Multiple option + assignments are blank separated. + (pq-connectdb "dbname=japanese port = 25432") + => # + The printed representation of a database connection object has four + fields. The first field is the hostname where the database server + is running (in this case localhost), the second field is the port + number, the third field is the database user name, and the fourth + field is the name of the database. + + Database connection objects which have been disconnected and will + generate an immediate error if they are used look like: + # + Bad connections can be reestablished with `pq-reset', or deleted + entirely with `pq-finish'. + + A database connection object that has been deleted looks like: + (let ((P1 (pq-connectdb ""))) + (pq-finish P1) + P1) + => # + + Note that database connection objects are the most heavy weight + objects in XEmacs Lisp at this writing, usually representing as + much as several megabytes of virtual memory on the machine the + database server is running on. It is wisest to explicitly delete + them when you are finished with them, rather than letting garbage + collection do it. An example idiom is: + + (let ((P (pq-connectiondb ""))) + (unwind-protect + (progn + (...)) ; access database here + (pq-finish P))) + + The following options are available in the options string: + `authtype' + Authentication type. Same as PGAUTHTYPE. This is no longer + used. + + `user' + Database user name. Same as PGUSER. + + `password' + Database password. + + `dbname' + Database name. Same as PGDATABASE + + `host' + Symbolic hostname. Same as PGHOST. + + `hostaddr' + Host address as four octets (eg. like 192.168.1.1). + + `port' + TCP port to connect to. Same as PGPORT. + + `tty' + Debugging TTY. Same as PGTTY. This value is suppressed in + the XEmacs Lisp API. + + `options' + Extra backend database options. Same as PGOPTIONS. A + database connection object is returned regardless of whether a + connection was established or not. + + - Function: pq-reset conn + Reestablish database connection. CONN A database connection + object. + + This function reestablishes a database connection using the + original connection parameters. This is useful if something has + happened to the TCP link and it has become broken. + + - Function: pq-exec conn query + Make a synchronous database query. CONN A database connection + object. QUERY A string containing an SQL query. A PGresult + object is returned, which in turn may be queried by its many + accessor functions to retrieve state out of it. If the query + string contains multiple SQL commands, only results from the final + command are returned. + + (setq R (pq-exec P "SELECT * FROM xemacs_test; + DELETE FROM xemacs_test WHERE id=8;")) + => # + + - Function: pq-notifies conn + Return the latest async notification that has not yet been handled. + CONN A database connection object. If there has been a + notification, then a list of two elements will be returned. The + first element contains the relation name being notified, the second + element contains the backend process ID number. nil is returned + if there aren't any notifications to process. + + - Function: PQsetenv conn + Synchronous transfer of environment variables to a backend CONN A + database connection object. + + Environment variable transfer is done as a normal part of database + connection. + + Compatibility note: This function was present but not documented + in versions of libpq prior to 7.0.  -File: lispref.info, Node: CCL Statements, Next: CCL Expressions, Prev: CCL Syntax, Up: CCL +File: lispref.info, Node: Asynchronous Interface Functions, Next: Large Object Support, Prev: Synchronous Interface Functions, Up: XEmacs PostgreSQL libpq API -CCL Statements --------------- +Asynchronous Interface Functions +-------------------------------- + + Making command by command examples is too complex with the +asynchronous interface functions. See the examples section for +complete calling sequences. + + - Function: pq-connect-start conninfo + Begin establishing an asynchronous database connection. CONNINFO + A string containing the connection options. See the documentation + of `pq-connectdb' for a listing of all the available flags. + + - Function: pq-connect-poll conn + An intermediate function to be called during an asynchronous + database connection. CONN A database connection object. The + result codes are documented in a previous section. + + - Function: pq-is-busy conn + Returns t if `pq-get-result' would block waiting for input. CONN + A database connection object. + + - Function: pq-consume-input conn + Consume any available input from the backend. CONN A database + connection object. + + Nil is returned if anything bad happens. + + - Function: pq-reset-start conn + Reset connection to the backend asynchronously. CONN A database + connection object. + + - Function: pq-reset-poll conn + Poll an asynchronous reset for completion CONN A database + connection object. + + - Function: pq-reset-cancel conn + Attempt to request cancellation of the current operation. CONN A + database connection object. + + The return value is t if the cancel request was successfully + dispatched, nil if not (in which case conn->errorMessage is set). + Note: successful dispatch is no guarantee that there will be any + effect at the backend. The application must read the operation + result as usual. + + - Function: pq-send-query conn query + Submit a query to Postgres and don't wait for the result. CONN A + database connection object. Returns: t if successfully submitted + nil if error (conn->errorMessage is set) + + - Function: pq-get-result conn + Retrieve an asynchronous result from a query. CONN A database + connection object. - The Emacs Code Conversion Language provides the following statement -types: "set", "if", "branch", "loop", "repeat", "break", "read", -"write", "call", and "end". - -Set statement: -============== - - The "set" statement has three variants with the syntaxes `(REG = -EXPRESSION)', `(REG ASSIGNMENT_OPERATOR EXPRESSION)', and `INTEGER'. -The assignment operator variation of the "set" statement works the same -way as the corresponding C expression statement does. The assignment -operators are `+=', `-=', `*=', `/=', `%=', `&=', `|=', `^=', `<<=', -and `>>=', and they have the same meanings as in C. A "naked integer" -INTEGER is equivalent to a SET statement of the form `(r0 = INTEGER)'. - -I/O statements: -=============== - - The "read" statement takes one or more registers as arguments. It -reads one byte (a C char) from the input into each register in turn. - - The "write" takes several forms. In the form `(write REG ...)' it -takes one or more registers as arguments and writes each in turn to the -output. The integer in a register (interpreted as an Emchar) is -encoded to multibyte form (ie, Bufbytes) and written to the current -output buffer. If it is less than 256, it is written as is. The forms -`(write EXPRESSION)' and `(write INTEGER)' are treated analogously. -The form `(write STRING)' writes the constant string to the output. A -"naked string" `STRING' is equivalent to the statement `(write -STRING)'. The form `(write REG ARRAY)' writes the REGth element of the -ARRAY to the output. - -Conditional statements: -======================= - - The "if" statement takes an EXPRESSION, a CCL BLOCK, and an optional -SECOND CCL BLOCK as arguments. If the EXPRESSION evaluates to -non-zero, the first CCL BLOCK is executed. Otherwise, if there is a -SECOND CCL BLOCK, it is executed. - - The "read-if" variant of the "if" statement takes an EXPRESSION, a -CCL BLOCK, and an optional SECOND CCL BLOCK as arguments. The -EXPRESSION must have the form `(REG OPERATOR OPERAND)' (where OPERAND is -a register or an integer). The `read-if' statement first reads from -the input into the first register operand in the EXPRESSION, then -conditionally executes a CCL block just as the `if' statement does. - - The "branch" statement takes an EXPRESSION and one or more CCL -blocks as arguments. The CCL blocks are treated as a zero-indexed -array, and the `branch' statement uses the EXPRESSION as the index of -the CCL block to execute. Null CCL blocks may be used as no-ops, -continuing execution with the statement following the `branch' -statement in the containing CCL block. Out-of-range values for the -EXPRESSION are also treated as no-ops. - - The "read-branch" variant of the "branch" statement takes an -REGISTER, a CCL BLOCK, and an optional SECOND CCL BLOCK as arguments. -The `read-branch' statement first reads from the input into the -REGISTER, then conditionally executes a CCL block just as the `branch' -statement does. - -Loop control statements: -======================== - - The "loop" statement creates a block with an implied jump from the -end of the block back to its head. The loop is exited on a `break' -statement, and continued without executing the tail by a `repeat' -statement. - - The "break" statement, written `(break)', terminates the current -loop and continues with the next statement in the current block. - - The "repeat" statement has three variants, `repeat', `write-repeat', -and `write-read-repeat'. Each continues the current loop from its -head, possibly after performing I/O. `repeat' takes no arguments and -does no I/O before jumping. `write-repeat' takes a single argument (a -register, an integer, or a string), writes it to the output, then jumps. -`write-read-repeat' takes one or two arguments. The first must be a -register. The second may be an integer or an array; if absent, it is -implicitly set to the first (register) argument. `write-read-repeat' -writes its second argument to the output, then reads from the input -into the register, and finally jumps. See the `write' and `read' -statements for the semantics of the I/O operations for each type of -argument. - -Other control statements: -========================= - - The "call" statement, written `(call CCL-PROGRAM-NAME)', executes a -CCL program as a subroutine. It does not return a value to the caller, -but can modify the register status. - - The "end" statement, written `(end)', terminates the CCL program -successfully, and returns to caller (which may be a CCL program). It -does not alter the status of the registers. + NIL is returned when no more query work remains. + + - Function: pq-set-nonblocking conn arg + Sets the PGconn's database connection non-blocking if the arg is + TRUE or makes it non-blocking if the arg is FALSE, this will not + protect you from PQexec(), you'll only be safe when using the + non-blocking API. CONN A database connection object. + + - Function: pq-is-nonblocking conn + Return the blocking status of the database connection CONN A + database connection object. + + - Function: pq-flush conn + Force the write buffer to be written (or at least try) CONN A + database connection object. + + - Function: PQsetenvStart conn + Start asynchronously passing environment variables to a backend. + CONN A database connection object. + + Compatibility note: this function is only available with libpq-7.0. + + - Function: PQsetenvPoll conn + Check an asynchronous enviroment variables transfer for completion. + CONN A database connection object. + + Compatibility note: this function is only available with libpq-7.0. + + - Function: PQsetenvAbort conn + Attempt to terminate an asynchronous environment variables + transfer. CONN A database connection object. + + Compatibility note: this function is only available with libpq-7.0.  -File: lispref.info, Node: CCL Expressions, Next: Calling CCL, Prev: CCL Statements, Up: CCL - -CCL Expressions ---------------- - - CCL, unlike Lisp, uses infix expressions. The simplest CCL -expressions consist of a single OPERAND, either a register (one of `r0', -..., `r0') or an integer. Complex expressions are lists of the form `( -EXPRESSION OPERATOR OPERAND )'. Unlike C, assignments are not -expressions. - - In the following table, X is the target resister for a "set". In -subexpressions, this is implicitly `r7'. This means that `>8', `//', -`de-sjis', and `en-sjis' cannot be used freely in subexpressions, since -they return parts of their values in `r7'. Y may be an expression, -register, or integer, while Z must be a register or an integer. - -Name Operator Code C-like Description -CCL_PLUS `+' 0x00 X = Y + Z -CCL_MINUS `-' 0x01 X = Y - Z -CCL_MUL `*' 0x02 X = Y * Z -CCL_DIV `/' 0x03 X = Y / Z -CCL_MOD `%' 0x04 X = Y % Z -CCL_AND `&' 0x05 X = Y & Z -CCL_OR `|' 0x06 X = Y | Z -CCL_XOR `^' 0x07 X = Y ^ Z -CCL_LSH `<<' 0x08 X = Y << Z -CCL_RSH `>>' 0x09 X = Y >> Z -CCL_LSH8 `<8' 0x0A X = (Y << 8) | Z -CCL_RSH8 `>8' 0x0B X = Y >> 8, r[7] = Y & 0xFF -CCL_DIVMOD `//' 0x0C X = Y / Z, r[7] = Y % Z -CCL_LS `<' 0x10 X = (X < Y) -CCL_GT `>' 0x11 X = (X > Y) -CCL_EQ `==' 0x12 X = (X == Y) -CCL_LE `<=' 0x13 X = (X <= Y) -CCL_GE `>=' 0x14 X = (X >= Y) -CCL_NE `!=' 0x15 X = (X != Y) -CCL_ENCODE_SJIS `en-sjis' 0x16 X = HIGHER_BYTE (SJIS (Y, Z)) - r[7] = LOWER_BYTE (SJIS (Y, Z) -CCL_DECODE_SJIS `de-sjis' 0x17 X = HIGHER_BYTE (DE-SJIS (Y, Z)) - r[7] = LOWER_BYTE (DE-SJIS (Y, Z)) - - The CCL operators are as in C, with the addition of CCL_LSH8, -CCL_RSH8, CCL_DIVMOD, CCL_ENCODE_SJIS, and CCL_DECODE_SJIS. The -CCL_ENCODE_SJIS and CCL_DECODE_SJIS treat their first and second bytes -as the high and low bytes of a two-byte character code. (SJIS stands -for Shift JIS, an encoding of Japanese characters used by Microsoft. -CCL_ENCODE_SJIS is a complicated transformation of the Japanese -standard JIS encoding to Shift JIS. CCL_DECODE_SJIS is its inverse.) -It is somewhat odd to represent the SJIS operations in infix form. +File: lispref.info, Node: Large Object Support, Next: Other libpq Functions, Prev: Asynchronous Interface Functions, Up: XEmacs PostgreSQL libpq API + +Large Object Support +-------------------- + + - Function: pq-lo-import conn filename + Import a file as a large object into the database. CONN a + database connection object FILENAME filename to import + + On success, the object id is returned. + + - Function: pq-lo-export conn oid filename + Copy a large object in the database into a file. CONN a database + connection object. OID object id number of a large object. + FILENAME filename to export to.  -File: lispref.info, Node: Calling CCL, Next: CCL Examples, Prev: CCL Expressions, Up: CCL - -Calling CCL ------------ - - CCL programs are called automatically during Emacs buffer I/O when -the external representation has a coding system type of `shift-jis', -`big5', or `ccl'. The program is specified by the coding system (*note -Coding Systems::). You can also call CCL programs from other CCL -programs, and from Lisp using these functions: - - - Function: ccl-execute ccl-program status - Execute CCL-PROGRAM with registers initialized by STATUS. - CCL-PROGRAM is a vector of compiled CCL code created by - `ccl-compile'. It is an error for the program to try to execute a - CCL I/O command. STATUS must be a vector of nine values, - specifying the initial value for the R0, R1 .. R7 registers and - for the instruction counter IC. A `nil' value for a register - initializer causes the register to be set to 0. A `nil' value for - the IC initializer causes execution to start at the beginning of - the program. When the program is done, STATUS is modified (by - side-effect) to contain the ending values for the corresponding - registers and IC. - - - Function: ccl-execute-on-string ccl-program status str &optional - continue - Execute CCL-PROGRAM with initial STATUS on STRING. CCL-PROGRAM is - a vector of compiled CCL code created by `ccl-compile'. STATUS - must be a vector of nine values, specifying the initial value for - the R0, R1 .. R7 registers and for the instruction counter IC. A - `nil' value for a register initializer causes the register to be - set to 0. A `nil' value for the IC initializer causes execution - to start at the beginning of the program. An optional fourth - argument CONTINUE, if non-nil, causes the IC to remain on the - unsatisfied read operation if the program terminates due to - exhaustion of the input buffer. Otherwise the IC is set to the end - of the program. When the program is done, STATUS is modified (by - side-effect) to contain the ending values for the corresponding - registers and IC. Returns the resulting string. - - To call a CCL program from another CCL program, it must first be -registered: - - - Function: register-ccl-program name ccl-program - Register NAME for CCL program PROGRAM in `ccl-program-table'. - PROGRAM should be the compiled form of a CCL program, or nil. - Return index number of the registered CCL program. - - Information about the processor time used by the CCL interpreter can -be obtained using these functions: - - - Function: ccl-elapsed-time - Returns the elapsed processor time of the CCL interpreter as cons - of user and system time, as floating point numbers measured in - seconds. If only one overall value can be determined, the return - value will be a cons of that value and 0. - - - Function: ccl-reset-elapsed-time - Resets the CCL interpreter's internal elapsed time registers. +File: lispref.info, Node: Other libpq Functions, Next: Unimplemented libpq Functions, Prev: Large Object Support, Up: XEmacs PostgreSQL libpq API + +Other libpq Functions +--------------------- + + - Function: pq-finish conn + Destroy a database connection object by calling free on it. CONN + a database connection object + + It is possible to not call this routine because the usual XEmacs + garbage collection mechanism will call the underlying libpq + routine whenever it is releasing stale `PGconn' objects. However, + this routine is useful in `unwind-protect' clauses to make + connections go away quickly when unrecoverable errors have + occurred. + + After calling this routine, the printed representation of the + XEmacs wrapper object will contain the string "DEAD". + + - Function: pq-client-encoding conn + Return the client encoding as an integer code. CONN a database + connection object + + (pq-client-encoding P) + => 1 + + Compatibility note: This function did not exist prior to libpq-7.0 + and does not exist in a non-Mule XEmacs. + + - Function: pq-set-client-encoding conn encoding + Set client coding system. CONN a database connection object + ENCODING a string representing the desired coding system + + (pq-set-client-encoding P "EUC_JP") + => 0 + + The current idiom for ensuring proper coding system conversion is + the following (illustrated for EUC Japanese encoding): + (setq P (pq-connectdb "...")) + (let ((file-name-coding-system 'euc-jp) + (pg-coding-system 'euc-jp)) + (pq-set-client-encoding "EUC_JP") + ...) + (pq-finish P) + Compatibility note: This function did not exist prior to libpq-7.0 + and does not exist in a non-Mule XEmacs. + + - Function: pq-env-2-encoding + Return the integer code representing the coding system in + PGCLIENTENCODING. + + (pq-env-2-encoding) + => 0 + Compatibility note: This function did not exist prior to libpq-7.0 + and does not exist in a non-Mule XEmacs. + + - Function: pq-clear res + Destroy a query result object by calling free() on it. RES a + query result object + + Note: The memory allocation systems of libpq and XEmacs are + different. The XEmacs representation of a query result object + will have both the XEmacs version and the libpq version freed at + the next garbage collection when the object is no longer being + referenced. Calling this function does not release the XEmacs + object, it is still subject to the usual rules for Lisp objects. + The printed representation of the XEmacs object will contain the + string "DEAD" after this routine is called indicating that it is no + longer useful for anything. + + - Function: pq-conn-defaults + Return a data structure that represents the connection defaults. + The data is returned as a list of lists, where each sublist + contains info regarding a single option.  -File: lispref.info, Node: CCL Examples, Prev: Calling CCL, Up: CCL +File: lispref.info, Node: Unimplemented libpq Functions, Prev: Other libpq Functions, Up: XEmacs PostgreSQL libpq API -CCL Examples ------------- +Unimplemented libpq Functions +----------------------------- - This section is not yet written. + - Unimplemented Function: PGconn *PQsetdbLogin (char *pghost, char + *pgport, char *pgoptions, char *pgtty, char *dbName, char + *login, char *pwd) + Synchronous database connection. PGHOST is the hostname of the + PostgreSQL backend to connect to. PGPORT is the TCP port number + to use. PGOPTIONS specifies other backend options. PGTTY + specifies the debugging tty to use. DBNAME specifies the database + name to use. LOGIN specifies the database user name. PWD + specifies the database user's password. + + This routine is deprecated as of libpq-7.0, and its functionality + can be replaced by external Lisp code if needed. + + - Unimplemented Function: PGconn *PQsetdb (char *pghost, char *pgport, + char *pgoptions, char *pgtty, char *dbName) + Synchronous database connection. PGHOST is the hostname of the + PostgreSQL backend to connect to. PGPORT is the TCP port number + to use. PGOPTIONS specifies other backend options. PGTTY + specifies the debugging tty to use. DBNAME specifies the database + name to use. + + This routine was deprecated in libpq-6.5. + + - Unimplemented Function: int PQsocket (PGconn *conn) + Return socket file descriptor to a backend database process. CONN + database connection object. + + - Unimplemented Function: void PQprint (FILE *fout, PGresult *res, + PGprintOpt *ps) + Print out the results of a query to a designated C stream. FOUT C + stream to print to RES the query result object to print PS the + print options structure. + + This routine is deprecated as of libpq-7.0 and cannot be sensibly + exported to XEmacs Lisp. + + - Unimplemented Function: void PQdisplayTuples (PGresult *res, FILE + *fp, int fillAlign, char *fieldSep, int printHeader, int + quiet) + RES query result object to print FP C stream to print to FILLALIGN + pad the fields with spaces FIELDSEP field separator PRINTHEADER + display headers? QUIET + + This routine was deprecated in libpq-6.5. + + - Unimplemented Function: void PQprintTuples (PGresult *res, FILE + *fout, int printAttName, int terseOutput, int width) + RES query result object to print FOUT C stream to print to + PRINTATTNAME print attribute names TERSEOUTPUT delimiter bars + WIDTH width of column, if 0, use variable width + + This routine was deprecated in libpq-6.5. + + - Unimplemented Function: int PQmblen (char *s, int encoding) + Determine length of a multibyte encoded char at `*s'. S encoded + string ENCODING type of encoding + + Compatibility note: This function was introduced in libpq-7.0. + + - Unimplemented Function: void PQtrace (PGconn *conn, FILE *debug_port) + Enable tracing on `debug_port'. CONN database connection object. + DEBUG_PORT C output stream to use. + + - Unimplemented Function: void PQuntrace (PGconn *conn) + Disable tracing. CONN database connection object. + + - Unimplemented Function: char *PQoidStatus (PGconn *conn) + Return the object id as a string of the last tuple inserted. CONN + database connection object. + + Compatibility note: This function is deprecated in libpq-7.0, + however it is used internally by the XEmacs binding code when + linked against versions prior to 7.0. + + - Unimplemented Function: PGresult *PQfn (PGconn *conn, int fnid, int + *result_buf, int *result_len, int result_is_int, PQArgBlock + *args, int nargs) + "Fast path" interface -- not really recommended for application use + CONN A database connection object. FNID RESULT_BUF RESULT_LEN + RESULT_IS_INT ARGS NARGS + + The following set of very low level large object functions aren't +appropriate to be exported to Lisp. + + - Unimplemented Function: int pq-lo-open (PGconn *conn, int lobjid, + int mode) + CONN a database connection object. LOBJID a large object ID. + MODE opening modes. + + - Unimplemented Function: int pq-lo-close (PGconn *conn, int fd) + CONN a database connection object. FD a large object file + descriptor + + - Unimplemented Function: int pq-lo-read (PGconn *conn, int fd, char + *buf, int len) + CONN a database connection object. FD a large object file + descriptor. BUF buffer to read into. LEN size of buffer. + + - Unimplemented Function: int pq-lo-write (PGconn *conn, int fd, char + *buf, size_t len) + CONN a database connection object. FD a large object file + descriptor. BUF buffer to write from. LEN size of buffer. + + - Unimplemented Function: int pq-lo-lseek (PGconn *conn, int fd, int + offset, int whence) + CONN a database connection object. FD a large object file + descriptor. OFFSET WHENCE - -File: lispref.info, Node: Category Tables, Prev: CCL, Up: MULE - -Category Tables -=============== - - A category table is a type of char table used for keeping track of -categories. Categories are used for classifying characters for use in -regexps--you can refer to a category rather than having to use a -complicated [] expression (and category lookups are significantly -faster). - - There are 95 different categories available, one for each printable -character (including space) in the ASCII charset. Each category is -designated by one such character, called a "category designator". They -are specified in a regexp using the syntax `\cX', where X is a category -designator. (This is not yet implemented.) - - A category table specifies, for each character, the categories that -the character is in. Note that a character can be in more than one -category. More specifically, a category table maps from a character to -either the value `nil' (meaning the character is in no categories) or a -95-element bit vector, specifying for each of the 95 categories whether -the character is in that category. - - Special Lisp functions are provided that abstract this, so you do not -have to directly manipulate bit vectors. - - - Function: category-table-p obj - This function returns `t' if ARG is a category table. - - - Function: category-table &optional buffer - This function returns the current category table. This is the one - specified by the current buffer, or by BUFFER if it is non-`nil'. - - - Function: standard-category-table - This function returns the standard category table. This is the - one used for new buffers. - - - Function: copy-category-table &optional table - This function constructs a new category table and return it. It - is a copy of the TABLE, which defaults to the standard category - table. - - - Function: set-category-table table &optional buffer - This function selects a new category table for BUFFER. One - argument, a category table. BUFFER defaults to the current buffer - if omitted. - - - Function: category-designator-p obj - This function returns `t' if ARG is a category designator (a char - in the range `' '' to `'~''). - - - Function: category-table-value-p obj - This function returns `t' if ARG is a category table value. Valid - values are `nil' or a bit vector of size 95. + - Unimplemented Function: int pq-lo-creat (PGconn *conn, int mode) + CONN a database connection object. MODE opening modes. + + - Unimplemented Function: int pq-lo-tell (PGconn *conn, int fd) + CONN a database connection object. FD a large object file + descriptor. + + - Unimplemented Function: int pq-lo-unlink (PGconn *conn, int lobjid) + CONN a database connection object. LBOJID a large object ID.  -File: lispref.info, Node: Tips, Next: Building XEmacs and Object Allocation, Prev: MULE, Up: Top +File: lispref.info, Node: XEmacs PostgreSQL libpq Examples, Prev: XEmacs PostgreSQL libpq API, Up: PostgreSQL Support + +XEmacs PostgreSQL libpq Examples +================================ + + This is an example of one method of establishing an asynchronous +connection. + + (defun database-poller (P) + (message "%S before poll" (pq-pgconn P 'pq::status)) + (pq-connect-poll P) + (message "%S after poll" (pq-pgconn P 'pq::status)) + (if (eq (pq-pgconn P 'pq::status) 'pg::connection-ok) + (message "Done!") + (add-timeout .1 'database-poller P))) + => database-poller + (progn + (setq P (pq-connect-start "")) + (add-timeout .1 'database-poller P)) + => pg::connection-started before poll + => pg::connection-made after poll + => pg::connection-made before poll + => pg::connection-awaiting-response after poll + => pg::connection-awaiting-response before poll + => pg::connection-auth-ok after poll + => pg::connection-auth-ok before poll + => pg::connection-setenv after poll + => pg::connection-setenv before poll + => pg::connection-ok after poll + => Done! + P + => # + + Here is an example of one method of doing an asynchronous reset. + + (defun database-poller (P) + (let (PS) + (message "%S before poll" (pq-pgconn P 'pq::status)) + (setq PS (pq-reset-poll P)) + (message "%S after poll [%S]" (pq-pgconn P 'pq::status) PS) + (if (eq (pq-pgconn P 'pq::status) 'pg::connection-ok) + (message "Done!") + (add-timeout .1 'database-poller P)))) + => database-poller + (progn + (pq-reset-start P) + (add-timeout .1 'database-poller P)) + => pg::connection-started before poll + => pg::connection-made after poll [pgres::polling-writing] + => pg::connection-made before poll + => pg::connection-awaiting-response after poll [pgres::polling-reading] + => pg::connection-awaiting-response before poll + => pg::connection-setenv after poll [pgres::polling-reading] + => pg::connection-setenv before poll + => pg::connection-ok after poll [pgres::polling-ok] + => Done! + P + => # + + And finally, an asynchronous query. + + (defun database-poller (P) + (let (R) + (pq-consume-input P) + (if (pq-is-busy P) + (add-timeout .1 'database-poller P) + (setq R (pq-get-result P)) + (if R + (progn + (push R result-list) + (add-timeout .1 'database-poller P)))))) + => database-poller + (when (pq-send-query P "SELECT * FROM xemacs_test;") + (setq result-list nil) + (add-timeout .1 'database-poller P)) + => 885 + ;; wait a moment + result-list + => (#) + + Here is an example showing how multiple SQL statements in a single +query can have all their results collected. + ;; Using the same `database-poller' function from the previous example + (when (pq-send-query P "SELECT * FROM xemacs_test; + SELECT * FROM pg_database; + SELECT * FROM pg_user;") + (setq result-list nil) + (add-timeout .1 'database-poller P)) + => 1782 + ;; wait a moment + result-list + => (# # #) + + Here is an example which illustrates collecting all data from a +query, including the field names. + + (defun pg-util-query-results (results) + "Retrieve results of last SQL query into a list structure." + (let ((i (1- (pq-ntuples R))) + j l1 l2) + (while (>= i 0) + (setq j (1- (pq-nfields R))) + (setq l2 nil) + (while (>= j 0) + (push (pq-get-value R i j) l2) + (decf j)) + (push l2 l1) + (decf i)) + (setq j (1- (pq-nfields R))) + (setq l2 nil) + (while (>= j 0) + (push (pq-fname R j) l2) + (decf j)) + (push l2 l1) + l1)) + => pg-util-query-results + (setq R (pq-exec P "SELECT * FROM xemacs_test ORDER BY field2 DESC;")) + => # + (pg-util-query-results R) + => (("f1" "field2") ("a" "97") ("b" "97") ("stuff" "42") ("a string" "12") ("foo" "10") ("string" "2") ("text" "1")) + + Here is an example of a query that uses a database cursor. + + (let (data R) + (setq R (pq-exec P "BEGIN;")) + (setq R (pq-exec P "DECLARE k_cursor CURSOR FOR SELECT * FROM xemacs_test ORDER BY f1 DESC;")) + + (setq R (pq-exec P "FETCH k_cursor;")) + (while (eq (pq-ntuples R) 1) + (push (list (pq-get-value R 0 0) (pq-get-value R 0 1)) data) + (setq R (pq-exec P "FETCH k_cursor;"))) + (setq R (pq-exec P "END;")) + data) + => (("a" "97") ("a string" "12") ("b" "97") ("foo" "10") ("string" "2") ("stuff" "42") ("text" "1")) + + Here's another example of cursors, this time with a Lisp macro to +implement a mapping function over a table. + + (defmacro map-db (P table condition callout) + `(let (R) + (pq-exec ,P "BEGIN;") + (pq-exec ,P (concat "DECLARE k_cursor CURSOR FOR SELECT * FROM " + ,table + " " + ,condition + " ORDER BY f1 DESC;")) + (setq R (pq-exec P "FETCH k_cursor;")) + (while (eq (pq-ntuples R) 1) + (,callout (pq-get-value R 0 0) (pq-get-value R 0 1)) + (setq R (pq-exec P "FETCH k_cursor;"))) + (pq-exec P "END;"))) + => map-db + (defun callback (arg1 arg2) + (message "arg1 = %s, arg2 = %s" arg1 arg2)) + => callback + (map-db P "xemacs_test" "WHERE field2 > 10" callback) + => arg1 = stuff, arg2 = 42 + => arg1 = b, arg2 = 97 + => arg1 = a string, arg2 = 12 + => arg1 = a, arg2 = 97 + => # -Tips and Standards -****************** + +File: lispref.info, Node: Internationalization, Next: MULE, Prev: PostgreSQL Support, Up: Top - This chapter describes no additional features of XEmacs Lisp. -Instead it gives advice on making effective use of the features -described in the previous chapters. +Internationalization +******************** * Menu: -* Style Tips:: Writing clean and robust programs. -* Compilation Tips:: Making compiled code run fast. -* Documentation Tips:: Writing readable documentation strings. -* Comment Tips:: Conventions for writing comments. -* Library Headers:: Standard headers for library packages. +* I18N Levels 1 and 2:: Support for different time, date, and currency formats. +* I18N Level 3:: Support for localized messages. +* I18N Level 4:: Support for Asian languages.  -File: lispref.info, Node: Style Tips, Next: Compilation Tips, Up: Tips +File: lispref.info, Node: I18N Levels 1 and 2, Next: I18N Level 3, Up: Internationalization -Writing Clean Lisp Programs -=========================== +I18N Levels 1 and 2 +=================== - Here are some tips for avoiding common errors in writing Lisp code -intended for widespread use: - - * Since all global variables share the same name space, and all - functions share another name space, you should choose a short word - to distinguish your program from other Lisp programs. Then take - care to begin the names of all global variables, constants, and - functions with the chosen prefix. This helps avoid name conflicts. - - This recommendation applies even to names for traditional Lisp - primitives that are not primitives in XEmacs Lisp--even to `cadr'. - Believe it or not, there is more than one plausible way to define - `cadr'. Play it safe; append your name prefix to produce a name - like `foo-cadr' or `mylib-cadr' instead. - - If you write a function that you think ought to be added to Emacs - under a certain name, such as `twiddle-files', don't call it by - that name in your program. Call it `mylib-twiddle-files' in your - program, and send mail to `bug-gnu-emacs@prep.ai.mit.edu' - suggesting we add it to Emacs. If and when we do, we can change - the name easily enough. - - If one prefix is insufficient, your package may use two or three - alternative common prefixes, so long as they make sense. - - Separate the prefix from the rest of the symbol name with a hyphen, - `-'. This will be consistent with XEmacs itself and with most - Emacs Lisp programs. - - * It is often useful to put a call to `provide' in each separate - library program, at least if there is more than one entry point to - the program. - - * If a file requires certain other library programs to be loaded - beforehand, then the comments at the beginning of the file should - say so. Also, use `require' to make sure they are loaded. - - * If one file FOO uses a macro defined in another file BAR, FOO - should contain this expression before the first use of the macro: - - (eval-when-compile (require 'BAR)) - - (And BAR should contain `(provide 'BAR)', to make the `require' - work.) This will cause BAR to be loaded when you byte-compile - FOO. Otherwise, you risk compiling FOO without the necessary - macro loaded, and that would produce compiled code that won't work - right. *Note Compiling Macros::. - - Using `eval-when-compile' avoids loading BAR when the compiled - version of FOO is _used_. - - * If you define a major mode, make sure to run a hook variable using - `run-hooks', just as the existing major modes do. *Note Hooks::. - - * If the purpose of a function is to tell you whether a certain - condition is true or false, give the function a name that ends in - `p'. If the name is one word, add just `p'; if the name is - multiple words, add `-p'. Examples are `framep' and - `frame-live-p'. - - * If a user option variable records a true-or-false condition, give - it a name that ends in `-flag'. - - * Please do not define `C-c LETTER' as a key in your major modes. - These sequences are reserved for users; they are the *only* - sequences reserved for users, so we cannot do without them. - - Instead, define sequences consisting of `C-c' followed by a - non-letter. These sequences are reserved for major modes. + XEmacs is now compliant with I18N levels 1 and 2. Specifically, +this means that it is 8-bit clean and correctly handles time and date +functions. XEmacs will correctly display the entire ISO-Latin 1 +character set. - Changing all the major modes in Emacs 18 so they would follow this - convention was a lot of work. Abandoning this convention would - make that work go to waste, and inconvenience users. + The compose key may now be used to create any character in the +ISO-Latin 1 character set not directly available via the keyboard.. In +order for the compose key to work it is necessary to load the file +`x-compose.el'. At any time while composing a character, `C-h' will +display all valid completions and the character which would be produced. + + +File: lispref.info, Node: I18N Level 3, Next: I18N Level 4, Prev: I18N Levels 1 and 2, Up: Internationalization - * Sequences consisting of `C-c' followed by `{', `}', `<', `>', `:' - or `;' are also reserved for major modes. - - * Sequences consisting of `C-c' followed by any other punctuation - character are allocated for minor modes. Using them in a major - mode is not absolutely prohibited, but if you do that, the major - mode binding may be shadowed from time to time by minor modes. - - * You should not bind `C-h' following any prefix character (including - `C-c'). If you don't bind `C-h', it is automatically available as - a help character for listing the subcommands of the prefix - character. - - * You should not bind a key sequence ending in except following - another . (That is, it is ok to bind a sequence ending in - ` '.) - - The reason for this rule is that a non-prefix binding for in - any context prevents recognition of escape sequences as function - keys in that context. - - * Applications should not bind mouse events based on button 1 with - the shift key held down. These events include `S-mouse-1', - `M-S-mouse-1', `C-S-mouse-1', and so on. They are reserved for - users. - - * Modes should redefine `mouse-2' as a command to follow some sort of - reference in the text of a buffer, if users usually would not want - to alter the text in that buffer by hand. Modes such as Dired, - Info, Compilation, and Occur redefine it in this way. - - * When a package provides a modification of ordinary Emacs behavior, - it is good to include a command to enable and disable the feature, - Provide a command named `WHATEVER-mode' which turns the feature on - or off, and make it autoload (*note Autoload::). Design the - package so that simply loading it has no visible effect--that - should not enable the feature. Users will request the feature by - invoking the command. - - * It is a bad idea to define aliases for the Emacs primitives. Use - the standard names instead. - - * Redefining an Emacs primitive is an even worse idea. It may do - the right thing for a particular program, but there is no telling - what other programs might break as a result. - - * If a file does replace any of the functions or library programs of - standard XEmacs, prominent comments at the beginning of the file - should say which functions are replaced, and how the behavior of - the replacements differs from that of the originals. - - * Please keep the names of your XEmacs Lisp source files to 13 - characters or less. This way, if the files are compiled, the - compiled files' names will be 14 characters or less, which is - short enough to fit on all kinds of Unix systems. - - * Don't use `next-line' or `previous-line' in programs; nearly - always, `forward-line' is more convenient as well as more - predictable and robust. *Note Text Lines::. - - * Don't call functions that set the mark, unless setting the mark is - one of the intended features of your program. The mark is a - user-level feature, so it is incorrect to change the mark except - to supply a value for the user's benefit. *Note The Mark::. - - In particular, don't use these functions: - - * `beginning-of-buffer', `end-of-buffer' - - * `replace-string', `replace-regexp' - - If you just want to move point, or replace a certain string, - without any of the other features intended for interactive users, - you can replace these functions with one or two lines of simple - Lisp code. - - * Use lists rather than vectors, except when there is a particular - reason to use a vector. Lisp has more facilities for manipulating - lists than for vectors, and working with lists is usually more - convenient. - - Vectors are advantageous for tables that are substantial in size - and are accessed in random order (not searched front to back), - provided there is no need to insert or delete elements (only lists - allow that). - - * The recommended way to print a message in the echo area is with - the `message' function, not `princ'. *Note The Echo Area::. - - * When you encounter an error condition, call the function `error' - (or `signal'). The function `error' does not return. *Note - Signaling Errors::. - - Do not use `message', `throw', `sleep-for', or `beep' to report - errors. - - * An error message should start with a capital letter but should not - end with a period. - - * Try to avoid using recursive edits. Instead, do what the Rmail `e' - command does: use a new local keymap that contains one command - defined to switch back to the old local keymap. Or do what the - `edit-options' command does: switch to another buffer and let the - user switch back at will. *Note Recursive Editing::. - - * In some other systems there is a convention of choosing variable - names that begin and end with `*'. We don't use that convention - in Emacs Lisp, so please don't use it in your programs. (Emacs - uses such names only for program-generated buffers.) The users - will find Emacs more coherent if all libraries use the same - conventions. - - * Indent each function with `C-M-q' (`indent-sexp') using the - default indentation parameters. - - * Don't make a habit of putting close-parentheses on lines by - themselves; Lisp programmers find this disconcerting. Once in a - while, when there is a sequence of many consecutive - close-parentheses, it may make sense to split them in one or two - significant places. - - * Please put a copyright notice on the file if you give copies to - anyone. Use the same lines that appear at the top of the Lisp - files in XEmacs itself. If you have not signed papers to assign - the copyright to the Foundation, then place your name in the - copyright notice in place of the Foundation's name. +I18N Level 3 +============ + +* Menu: + +* Level 3 Basics:: +* Level 3 Primitives:: +* Dynamic Messaging:: +* Domain Specification:: +* Documentation String Extraction::  -File: lispref.info, Node: Compilation Tips, Next: Documentation Tips, Prev: Style Tips, Up: Tips +File: lispref.info, Node: Level 3 Basics, Next: Level 3 Primitives, Up: I18N Level 3 -Tips for Making Compiled Code Fast -================================== +Level 3 Basics +-------------- - Here are ways of improving the execution speed of byte-compiled Lisp -programs. + XEmacs now provides alpha-level functionality for I18N Level 3. +This means that everything necessary for full messaging is available, +but not every file has been converted. - * Use the `profile' library to profile your program. See the file - `profile.el' for instructions. + The two message files which have been created are `src/emacs.po' and +`lisp/packages/mh-e.po'. Both files need to be converted using +`msgfmt', and the resulting `.mo' files placed in some locale's +`LC_MESSAGES' directory. The test "translations" in these files are +the original messages prefixed by `TRNSLT_'. - * Use iteration rather than recursion whenever possible. Function - calls are slow in XEmacs Lisp even when a compiled function is - calling another compiled function. + The domain for a variable is stored on the variable's property list +under the property name VARIABLE-DOMAIN. The function +`documentation-property' uses this information when translating a +variable's documentation. - * Using the primitive list-searching functions `memq', `member', - `assq', or `assoc' is even faster than explicit iteration. It may - be worth rearranging a data structure so that one of these - primitive search functions can be used. + +File: lispref.info, Node: Level 3 Primitives, Next: Dynamic Messaging, Prev: Level 3 Basics, Up: I18N Level 3 - * Certain built-in functions are handled specially in byte-compiled - code, avoiding the need for an ordinary function call. It is a - good idea to use these functions rather than alternatives. To see - whether a function is handled specially by the compiler, examine - its `byte-compile' property. If the property is non-`nil', then - the function is handled specially. +Level 3 Primitives +------------------ - For example, the following input will show you that `aref' is - compiled specially (*note Array Functions::) while `elt' is not - (*note Sequence Functions::): + - Function: gettext string + This function looks up STRING in the default message domain and + returns its translation. If `I18N3' was not enabled when XEmacs + was compiled, it just returns STRING. - (get 'aref 'byte-compile) - => byte-compile-two-args - - (get 'elt 'byte-compile) - => nil + - Function: dgettext domain string + This function looks up STRING in the specified message domain and + returns its translation. If `I18N3' was not enabled when XEmacs + was compiled, it just returns STRING. - * If calling a small function accounts for a substantial part of - your program's running time, make the function inline. This - eliminates the function call overhead. Since making a function - inline reduces the flexibility of changing the program, don't do - it unless it gives a noticeable speedup in something slow enough - that users care about the speed. *Note Inline Functions::. + - Function: bind-text-domain domain pathname + This function associates a pathname with a message domain. Here's + how the path to message file is constructed under SunOS 5.x: - -File: lispref.info, Node: Documentation Tips, Next: Comment Tips, Prev: Compilation Tips, Up: Tips - -Tips for Documentation Strings -============================== - - Here are some tips for the writing of documentation strings. - - * Every command, function, or variable intended for users to know - about should have a documentation string. - - * An internal variable or subroutine of a Lisp program might as well - have a documentation string. In earlier Emacs versions, you could - save space by using a comment instead of a documentation string, - but that is no longer the case. - - * The first line of the documentation string should consist of one - or two complete sentences that stand on their own as a summary. - `M-x apropos' displays just the first line, and if it doesn't - stand on its own, the result looks bad. In particular, start the - first line with a capital letter and end with a period. - - The documentation string can have additional lines that expand on - the details of how to use the function or variable. The - additional lines should be made up of complete sentences also, but - they may be filled if that looks good. - - * For consistency, phrase the verb in the first sentence of a - documentation string as an infinitive with "to" omitted. For - instance, use "Return the cons of A and B." in preference to - "Returns the cons of A and B." Usually it looks good to do - likewise for the rest of the first paragraph. Subsequent - paragraphs usually look better if they have proper subjects. - - * Write documentation strings in the active voice, not the passive, - and in the present tense, not the future. For instance, use - "Return a list containing A and B." instead of "A list containing - A and B will be returned." - - * Avoid using the word "cause" (or its equivalents) unnecessarily. - Instead of, "Cause Emacs to display text in boldface," write just - "Display text in boldface." - - * Do not start or end a documentation string with whitespace. - - * Format the documentation string so that it fits in an Emacs window - on an 80-column screen. It is a good idea for most lines to be no - wider than 60 characters. The first line can be wider if - necessary to fit the information that ought to be there. - - However, rather than simply filling the entire documentation - string, you can make it much more readable by choosing line breaks - with care. Use blank lines between topics if the documentation - string is long. - - * *Do not* indent subsequent lines of a documentation string so that - the text is lined up in the source code with the text of the first - line. This looks nice in the source code, but looks bizarre when - users view the documentation. Remember that the indentation - before the starting double-quote is not part of the string! - - * A variable's documentation string should start with `*' if the - variable is one that users would often want to set interactively. - If the value is a long list, or a function, or if the variable - would be set only in init files, then don't start the - documentation string with `*'. *Note Defining Variables::. - - * The documentation string for a variable that is a yes-or-no flag - should start with words such as "Non-nil means...", to make it - clear that all non-`nil' values are equivalent and indicate - explicitly what `nil' and non-`nil' mean. - - * When a function's documentation string mentions the value of an - argument of the function, use the argument name in capital letters - as if it were a name for that value. Thus, the documentation - string of the function `/' refers to its second argument as - `DIVISOR', because the actual argument name is `divisor'. - - Also use all caps for meta-syntactic variables, such as when you - show the decomposition of a list or vector into subunits, some of - which may vary. - - * When a documentation string refers to a Lisp symbol, write it as it - would be printed (which usually means in lower case), with - single-quotes around it. For example: `lambda'. There are two - exceptions: write t and nil without single-quotes. (In this - manual, we normally do use single-quotes for those symbols.) - - * Don't write key sequences directly in documentation strings. - Instead, use the `\\[...]' construct to stand for them. For - example, instead of writing `C-f', write `\\[forward-char]'. When - Emacs displays the documentation string, it substitutes whatever - key is currently bound to `forward-char'. (This is normally `C-f', - but it may be some other character if the user has moved key - bindings.) *Note Keys in Documentation::. - - * In documentation strings for a major mode, you will want to refer - to the key bindings of that mode's local map, rather than global - ones. Therefore, use the construct `\\<...>' once in the - documentation string to specify which key map to use. Do this - before the first use of `\\[...]'. The text inside the `\\<...>' - should be the name of the variable containing the local keymap for - the major mode. - - It is not practical to use `\\[...]' very many times, because - display of the documentation string will become slow. So use this - to describe the most important commands in your major mode, and - then use `\\{...}' to display the rest of the mode's keymap. + `{pathname}/{LANG}/LC_MESSAGES/{domain}.mo' - -File: lispref.info, Node: Comment Tips, Next: Library Headers, Prev: Documentation Tips, Up: Tips - -Tips on Writing Comments -======================== - - We recommend these conventions for where to put comments and how to -indent them: - -`;' - Comments that start with a single semicolon, `;', should all be - aligned to the same column on the right of the source code. Such - comments usually explain how the code on the same line does its - job. In Lisp mode and related modes, the `M-;' - (`indent-for-comment') command automatically inserts such a `;' in - the right place, or aligns such a comment if it is already present. - - This and following examples are taken from the Emacs sources. - - (setq base-version-list ; there was a base - (assoc (substring fn 0 start-vn) ; version to which - file-version-assoc-list)) ; this looks like - ; a subversion - -`;;' - Comments that start with two semicolons, `;;', should be aligned to - the same level of indentation as the code. Such comments usually - describe the purpose of the following lines or the state of the - program at that point. For example: - - (prog1 (setq auto-fill-function - ... - ... - ;; update modeline - (redraw-modeline))) - - Every function that has no documentation string (because it is use - only internally within the package it belongs to), should have - instead a two-semicolon comment right before the function, - explaining what the function does and how to call it properly. - Explain precisely what each argument means and how the function - interprets its possible values. - -`;;;' - Comments that start with three semicolons, `;;;', should start at - the left margin. Such comments are used outside function - definitions to make general statements explaining the design - principles of the program. For example: - - ;;; This Lisp code is run in XEmacs - ;;; when it is to operate as a server - ;;; for other processes. - - Another use for triple-semicolon comments is for commenting out - lines within a function. We use triple-semicolons for this - precisely so that they remain at the left margin. - - (defun foo (a) - ;;; This is no longer necessary. - ;;; (force-mode-line-update) - (message "Finished with %s" a)) - -`;;;;' - Comments that start with four semicolons, `;;;;', should be aligned - to the left margin and are used for headings of major sections of a - program. For example: - - ;;;; The kill ring - -The indentation commands of the Lisp modes in XEmacs, such as `M-;' -(`indent-for-comment') and (`lisp-indent-line') automatically -indent comments according to these conventions, depending on the number -of semicolons. *Note Manipulating Comments: (emacs)Comments. + If `I18N3' was not enabled when XEmacs was compiled, this function + does nothing. - -File: lispref.info, Node: Library Headers, Prev: Comment Tips, Up: Tips + - Special Form: domain string + This function specifies the text domain used for translating + documentation strings and interactive prompts of a function. For + example, write: -Conventional Headers for XEmacs Libraries -========================================= + (defun foo (arg) "Doc string" (domain "emacs-foo") ...) - XEmacs has conventions for using special comments in Lisp libraries -to divide them into sections and give information such as who wrote -them. This section explains these conventions. First, an example: + to specify `emacs-foo' as the text domain of the function `foo'. + The "call" to `domain' is actually a declaration rather than a + function; when actually called, `domain' just returns `nil'. - ;;; lisp-mnt.el --- minor mode for Emacs Lisp maintainers - - ;; Copyright (C) 1992 Free Software Foundation, Inc. - - ;; Author: Eric S. Raymond - ;; Maintainer: Eric S. Raymond - ;; Created: 14 Jul 1992 - ;; Version: 1.2 - ;; Keywords: docs - - ;; This file is part of XEmacs. - COPYING PERMISSIONS... + - Function: domain-of function + This function returns the text domain of FUNCTION; it returns + `nil' if it is the default domain. If `I18N3' was not enabled + when XEmacs was compiled, it always returns `nil'. - The very first line should have this format: + +File: lispref.info, Node: Dynamic Messaging, Next: Domain Specification, Prev: Level 3 Primitives, Up: I18N Level 3 - ;;; FILENAME --- DESCRIPTION +Dynamic Messaging +----------------- -The description should be complete in one line. + The `format' function has been extended to permit you to change the +order of parameter insertion. For example, the conversion format +`%1$s' inserts parameter one as a string, while `%2$s' inserts +parameter two. This is useful when creating translations which require +you to change the word order. - After the copyright notice come several "header comment" lines, each -beginning with `;; HEADER-NAME:'. Here is a table of the conventional -possibilities for HEADER-NAME: + +File: lispref.info, Node: Domain Specification, Next: Documentation String Extraction, Prev: Dynamic Messaging, Up: I18N Level 3 -`Author' - This line states the name and net address of at least the principal - author of the library. +Domain Specification +-------------------- - If there are multiple authors, you can list them on continuation - lines led by `;;' and a tab character, like this: + The default message domain of XEmacs is `emacs'. For add-on +packages, it is best to use a different domain. For example, let us +say we want to convert the "gorilla" package to use the domain +`emacs-gorilla'. To translate the message "What gorilla?", use +`dgettext' as follows: - ;; Author: Ashwin Ram - ;; Dave Sill - ;; Dave Brennan - ;; Eric Raymond + (dgettext "emacs-gorilla" "What gorilla?") -`Maintainer' - This line should contain a single name/address as in the Author - line, or an address only, or the string `FSF'. If there is no - maintainer line, the person(s) in the Author field are presumed to - be the maintainers. The example above is mildly bogus because the - maintainer line is redundant. + A function (or macro) which has a documentation string or an +interactive prompt needs to be associated with the domain in order for +the documentation or prompt to be translated. This is done with the +`domain' special form as follows: - The idea behind the `Author' and `Maintainer' lines is to make - possible a Lisp function to "send mail to the maintainer" without - having to mine the name out by hand. + (defun scratch (location) + "Scratch the specified location." + (domain "emacs-gorilla") + (interactive "sScratch: ") + ... ) - Be sure to surround the network address with `<...>' if you - include the person's full name as well as the network address. + It is most efficient to specify the domain in the first line of the +function body, before the `interactive' form. -`Created' - This optional line gives the original creation date of the file. - For historical interest only. + For variables and constants which have documentation strings, +specify the domain after the documentation. -`Version' - If you wish to record version numbers for the individual Lisp - program, put them in this line. + - Special Form: defvar symbol [value [doc-string [domain]]] + Example: + (defvar weight 250 "Weight of gorilla, in pounds." "emacs-gorilla") -`Adapted-By' - In this header line, place the name of the person who adapted the - library for installation (to make it fit the style conventions, for - example). + - Special Form: defconst symbol [value [doc-string [domain]]] + Example: + (defconst limbs 4 "Number of limbs" "emacs-gorilla") -`Keywords' - This line lists keywords for the `finder-by-keyword' help command. - This field is important; it's how people will find your package - when they're looking for things by topic area. To separate the - keywords, you can use spaces, commas, or both. + Autoloaded functions which are specified in `loaddefs.el' do not need +to have a domain specification, because their documentation strings are +extracted into the main message base. However, for autoloaded functions +which are specified in a separate package, use following syntax: - Just about every Lisp library ought to have the `Author' and -`Keywords' header comment lines. Use the others if they are -appropriate. You can also put in header lines with other header -names--they have no standard meanings, so they can't do any harm. + - Function: autoload symbol filename &optional docstring interactive + macro domain + Example: + (autoload 'explore "jungle" "Explore the jungle." nil nil "emacs-gorilla") - We use additional stylized comments to subdivide the contents of the -library file. Here is a table of them: + +File: lispref.info, Node: Documentation String Extraction, Prev: Domain Specification, Up: I18N Level 3 -`;;; Commentary:' - This begins introductory comments that explain how the library - works. It should come right after the copying permissions. +Documentation String Extraction +------------------------------- -`;;; Change log:' - This begins change log information stored in the library file (if - you store the change history there). For most of the Lisp files - distributed with XEmacs, the change history is kept in the file - `ChangeLog' and not in the source file at all; these files do not - have a `;;; Change log:' line. + The utility `etc/make-po' scans the file `DOC' to extract +documentation strings and creates a message file `doc.po'. This file +may then be inserted within `emacs.po'. -`;;; Code:' - This begins the actual code of the program. + Currently, `make-po' is hard-coded to read from `DOC' and write to +`doc.po'. In order to extract documentation strings from an add-on +package, first run `make-docfile' on the package to produce the `DOC' +file. Then run `make-po -p' with the `-p' argument to indicate that we +are extracting documentation for an add-on package. -`;;; FILENAME ends here' - This is the "footer line"; it appears at the very end of the file. - Its purpose is to enable people to detect truncated versions of - the file from the lack of a footer line. + (The `-p' argument is a kludge to make up for a subtle difference +between pre-loaded documentation and add-on documentation: For add-on +packages, the final carriage returns in the strings produced by +`make-docfile' must be ignored.)  -File: lispref.info, Node: Building XEmacs and Object Allocation, Next: Standard Errors, Prev: Tips, Up: Top +File: lispref.info, Node: I18N Level 4, Prev: I18N Level 3, Up: Internationalization + +I18N Level 4 +============ -Building XEmacs; Allocation of Objects -************************************** + The Asian-language support in XEmacs is called "MULE". *Note MULE::. + + +File: lispref.info, Node: MULE, Next: Tips, Prev: Internationalization, Up: Top - This chapter describes how the runnable XEmacs executable is dumped -with the preloaded Lisp libraries in it and how storage is allocated. +MULE +**** - There is an entire separate document, the `XEmacs Internals Manual', -devoted to the internals of XEmacs from the perspective of the C -programmer. It contains much more detailed information about the build -process, the allocation and garbage-collection process, and other -aspects related to the internals of XEmacs. + "MULE" is the name originally given to the version of GNU Emacs +extended for multi-lingual (and in particular Asian-language) support. +"MULE" is short for "MUlti-Lingual Emacs". It is an extension and +complete rewrite of Nemacs ("Nihon Emacs" where "Nihon" is the Japanese +word for "Japan"), which only provided support for Japanese. XEmacs +refers to its multi-lingual support as "MULE support" since it is based +on "MULE". * Menu: -* Building XEmacs:: How to preload Lisp libraries into XEmacs. -* Pure Storage:: A kludge to make preloaded Lisp functions sharable. -* Garbage Collection:: Reclaiming space for Lisp objects no longer used. +* Internationalization Terminology:: + Definition of various internationalization terms. +* Charsets:: Sets of related characters. +* MULE Characters:: Working with characters in XEmacs/MULE. +* Composite Characters:: Making new characters by overstriking other ones. +* Coding Systems:: Ways of representing a string of chars using integers. +* CCL:: A special language for writing fast converters. +* Category Tables:: Subdividing charsets into groups. diff --git a/info/lispref.info-43 b/info/lispref.info-43 index aeb086b..d39722d 100644 --- a/info/lispref.info-43 +++ b/info/lispref.info-43 @@ -50,1401 +50,985 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  -File: lispref.info, Node: Building XEmacs, Next: Pure Storage, Up: Building XEmacs and Object Allocation - -Building XEmacs -=============== - - This section explains the steps involved in building the XEmacs -executable. You don't have to know this material to build and install -XEmacs, since the makefiles do all these things automatically. This -information is pertinent to XEmacs maintenance. - - The `XEmacs Internals Manual' contains more information about this. - - Compilation of the C source files in the `src' directory produces an -executable file called `temacs', also called a "bare impure XEmacs". -It contains the XEmacs Lisp interpreter and I/O routines, but not the -editing commands. - - Before XEmacs is actually usable, a number of Lisp files need to be -loaded. These define all the editing commands, plus most of the startup -code and many very basic Lisp primitives. This is accomplished by -loading the file `loadup.el', which in turn loads all of the other -standardly-loaded Lisp files. - - It takes a substantial time to load the standard Lisp files. -Luckily, you don't have to do this each time you run XEmacs; `temacs' -can dump out an executable program called `xemacs' that has these files -preloaded. `xemacs' starts more quickly because it does not need to -load the files. This is the XEmacs executable that is normally -installed. - - To create `xemacs', use the command `temacs -batch -l loadup dump'. -The purpose of `-batch' here is to tell `temacs' to run in -non-interactive, command-line mode. (`temacs' can _only_ run in this -fashion. Part of the code required to initialize frames and faces is -in Lisp, and must be loaded before XEmacs is able to create any frames.) -The argument `dump' tells `loadup.el' to dump a new executable named -`xemacs'. - - The dumping process is highly system-specific, and some operating -systems don't support dumping. On those systems, you must start XEmacs -with the `temacs -batch -l loadup run-temacs' command each time you use -it. This takes a substantial time, but since you need to start Emacs -once a day at most--or once a week if you never log out--the extra time -is not too severe a problem. (In older versions of Emacs, you started -Emacs from `temacs' using `temacs -l loadup'.) - - You are free to start XEmacs directly from `temacs' if you want, -even if there is already a dumped `xemacs'. Normally you wouldn't want -to do that; but the Makefiles do this when you rebuild XEmacs using -`make all-elc', which builds XEmacs and simultaneously compiles any -out-of-date Lisp files. (You need `xemacs' in order to compile Lisp -files. However, you also need the compiled Lisp files in order to dump -out `xemacs'. If both of these are missing or corrupted, you are out -of luck unless you're able to bootstrap `xemacs' from `temacs'. Note -that `make all-elc' actually loads the alternative loadup file -`loadup-el.el', which works like `loadup.el' but disables the -pure-copying process and forces XEmacs to ignore any compiled Lisp -files even if they exist.) - - You can specify additional files to preload by writing a library -named `site-load.el' that loads them. You may need to increase the -value of `PURESIZE', in `src/puresize.h', to make room for the -additional files. You should _not_ modify this file directly, however; -instead, use the `--puresize' configuration option. (If you run out of -pure space while dumping `xemacs', you will be told how much pure space -you actually will need.) However, the advantage of preloading -additional files decreases as machines get faster. On modern machines, -it is often not advisable, especially if the Lisp code is on a file -system local to the machine running XEmacs. - - You can specify other Lisp expressions to execute just before dumping -by putting them in a library named `site-init.el'. However, if they -might alter the behavior that users expect from an ordinary unmodified -XEmacs, it is better to put them in `default.el', so that users can -override them if they wish. *Note Start-up Summary::. - - Before `loadup.el' dumps the new executable, it finds the -documentation strings for primitive and preloaded functions (and -variables) in the file where they are stored, by calling -`Snarf-documentation' (*note Accessing Documentation::). These strings -were moved out of the `xemacs' executable to make it smaller. *Note -Documentation Basics::. - - - Function: dump-emacs to-file from-file - This function dumps the current state of XEmacs into an executable - file TO-FILE. It takes symbols from FROM-FILE (this is normally - the executable file `temacs'). - - If you use this function in an XEmacs that was already dumped, you - must set `command-line-processed' to `nil' first for good results. - *Note Command Line Arguments::. - - - Function: run-emacs-from-temacs &rest args - This is the function that implements the `run-temacs' command-line - argument. It is called from `loadup.el' as appropriate. You - should most emphatically _not_ call this yourself; it will - reinitialize your XEmacs process and you'll be sorry. - - - Command: emacs-version - This function returns a string describing the version of XEmacs - that is running. It is useful to include this string in bug - reports. - - (emacs-version) - => "XEmacs 20.1 [Lucid] (i586-unknown-linux2.0.29) - of Mon Apr 7 1997 on altair.xemacs.org" - - Called interactively, the function prints the same information in - the echo area. - - - Variable: emacs-build-time - The value of this variable is the time at which XEmacs was built - at the local site. - - emacs-build-time "Mon Apr 7 20:28:52 1997" - => - - - Variable: emacs-version - The value of this variable is the version of Emacs being run. It - is a string, e.g. `"20.1 XEmacs Lucid"'. - - The following two variables did not exist before FSF GNU Emacs -version 19.23 and XEmacs version 19.10, which reduces their usefulness -at present, but we hope they will be convenient in the future. - - - Variable: emacs-major-version - The major version number of Emacs, as an integer. For XEmacs - version 20.1, the value is 20. - - - Variable: emacs-minor-version - The minor version number of Emacs, as an integer. For XEmacs - version 20.1, the value is 1. - - -File: lispref.info, Node: Pure Storage, Next: Garbage Collection, Prev: Building XEmacs, Up: Building XEmacs and Object Allocation - -Pure Storage -============ - - XEmacs Lisp uses two kinds of storage for user-created Lisp objects: -"normal storage" and "pure storage". Normal storage is where all the -new data created during an XEmacs session is kept; see the following -section for information on normal storage. Pure storage is used for -certain data in the preloaded standard Lisp files--data that should -never change during actual use of XEmacs. - - Pure storage is allocated only while `temacs' is loading the -standard preloaded Lisp libraries. In the file `xemacs', it is marked -as read-only (on operating systems that permit this), so that the -memory space can be shared by all the XEmacs jobs running on the machine -at once. Pure storage is not expandable; a fixed amount is allocated -when XEmacs is compiled, and if that is not sufficient for the preloaded -libraries, `temacs' aborts with an error message. If that happens, you -must increase the compilation parameter `PURESIZE' using the -`--puresize' option to `configure'. This normally won't happen unless -you try to preload additional libraries or add features to the standard -ones. - - - Function: purecopy object - This function makes a copy of OBJECT in pure storage and returns - it. It copies strings by simply making a new string with the same - characters in pure storage. It recursively copies the contents of - vectors and cons cells. It does not make copies of other objects - such as symbols, but just returns them unchanged. It signals an - error if asked to copy markers. - - This function is a no-op except while XEmacs is being built and - dumped; it is usually called only in the file - `xemacs/lisp/prim/loaddefs.el', but a few packages call it just in - case you decide to preload them. - - - Variable: pure-bytes-used - The value of this variable is the number of bytes of pure storage - allocated so far. Typically, in a dumped XEmacs, this number is - very close to the total amount of pure storage available--if it - were not, we would preallocate less. - - - Variable: purify-flag - This variable determines whether `defun' should make a copy of the - function definition in pure storage. If it is non-`nil', then the - function definition is copied into pure storage. - - This flag is `t' while loading all of the basic functions for - building XEmacs initially (allowing those functions to be sharable - and non-collectible). Dumping XEmacs as an executable always - writes `nil' in this variable, regardless of the value it actually - has before and after dumping. - - You should not change this flag in a running XEmacs. +File: lispref.info, Node: Internationalization Terminology, Next: Charsets, Up: MULE + +Internationalization Terminology +================================ + + In internationalization terminology, a string of text is divided up +into "characters", which are the printable units that make up the text. +A single character is (for example) a capital `A', the number `2', a +Katakana character, a Hangul character, a Kanji ideograph (an +"ideograph" is a "picture" character, such as is used in Japanese +Kanji, Chinese Hanzi, and Korean Hanja; typically there are thousands +of such ideographs in each language), etc. The basic property of a +character is that it is the smallest unit of text with semantic +significance in text processing. + + Human beings normally process text visually, so to a first +approximation a character may be identified with its shape. Note that +the same character may be drawn by two different people (or in two +different fonts) in slightly different ways, although the "basic shape" +will be the same. But consider the works of Scott Kim; human beings +can recognize hugely variant shapes as the "same" character. +Sometimes, especially where characters are extremely complicated to +write, completely different shapes may be defined as the "same" +character in national standards. The Taiwanese variant of Hanzi is +generally the most complicated; over the centuries, the Japanese, +Koreans, and the People's Republic of China have adopted +simplifications of the shape, but the line of descent from the original +shape is recorded, and the meanings and pronunciation of different +forms of the same character are considered to be identical within each +language. (Of course, it may take a specialist to recognize the +related form; the point is that the relations are standardized, despite +the differing shapes.) + + In some cases, the differences will be significant enough that it is +actually possible to identify two or more distinct shapes that both +represent the same character. For example, the lowercase letters `a' +and `g' each have two distinct possible shapes--the `a' can optionally +have a curved tail projecting off the top, and the `g' can be formed +either of two loops, or of one loop and a tail hanging off the bottom. +Such distinct possible shapes of a character are called "glyphs". The +important characteristic of two glyphs making up the same character is +that the choice between one or the other is purely stylistic and has no +linguistic effect on a word (this is the reason why a capital `A' and +lowercase `a' are different characters rather than different +glyphs--e.g. `Aspen' is a city while `aspen' is a kind of tree). + + Note that "character" and "glyph" are used differently here than +elsewhere in XEmacs. + + A "character set" is essentially a set of related characters. ASCII, +for example, is a set of 94 characters (or 128, if you count +non-printing characters). Other character sets are ISO8859-1 (ASCII +plus various accented characters and other international symbols), JIS +X 0201 (ASCII, more or less, plus half-width Katakana), JIS X 0208 +(Japanese Kanji), JIS X 0212 (a second set of less-used Japanese Kanji), +GB2312 (Mainland Chinese Hanzi), etc. + + The definition of a character set will implicitly or explicitly give +it an "ordering", a way of assigning a number to each character in the +set. For many character sets, there is a natural ordering, for example +the "ABC" ordering of the Roman letters. But it is not clear whether +digits should come before or after the letters, and in fact different +European languages treat the ordering of accented characters +differently. It is useful to use the natural order where available, of +course. The number assigned to any particular character is called the +character's "code point". (Within a given character set, each +character has a unique code point. Thus the word "set" is ill-chosen; +different orderings of the same characters are different character sets. +Identifying characters is simple enough for alphabetic character sets, +but the difference in ordering can cause great headaches when the same +thousands of characters are used by different cultures as in the Hanzi.) + + A code point may be broken into a number of "position codes". The +number of position codes required to index a particular character in a +character set is called the "dimension" of the character set. For +practical purposes, a position code may be thought of as a byte-sized +index. The printing characters of ASCII, being a relatively small +character set, is of dimension one, and each character in the set is +indexed using a single position code, in the range 1 through 94. Use of +this unusual range, rather than the familiar 33 through 126, is an +intentional abstraction; to understand the programming issues you must +break the equation between character sets and encodings. + + JIS X 0208, i.e. Japanese Kanji, has thousands of characters, and is +of dimension two - every character is indexed by two position codes, +each in the range 1 through 94. (This number "94" is not a +coincidence; we shall see that the JIS position codes were chosen so +that JIS kanji could be encoded without using codes that in ASCII are +associated with device control functions.) Note that the choice of the +range here is somewhat arbitrary. You could just as easily index the +printing characters in ASCII using numbers in the range 0 through 93, 2 +through 95, 3 through 96, etc. In fact, the standardized _encoding_ +for the ASCII _character set_ uses the range 33 through 126. + + An "encoding" is a way of numerically representing characters from +one or more character sets into a stream of like-sized numerical values +called "words"; typically these are 8-bit, 16-bit, or 32-bit +quantities. If an encoding encompasses only one character set, then the +position codes for the characters in that character set could be used +directly. (This is the case with the trivial cipher used by children, +assigning 1 to `A', 2 to `B', and so on.) However, even with ASCII, +other considerations intrude. For example, why are the upper- and +lowercase alphabets separated by 8 characters? Why do the digits start +with `0' being assigned the code 48? In both cases because semantically +interesting operations (case conversion and numerical value extraction) +become convenient masking operations. Other artificial aspects (the +control characters being assigned to codes 0-31 and 127) are historical +accidents. (The use of 127 for `DEL' is an artifact of the "punch +once" nature of paper tape, for example.) + + Naive use of the position code is not possible, however, if more than +one character set is to be used in the encoding. For example, printed +Japanese text typically requires characters from multiple character sets +- ASCII, JIS X 0208, and JIS X 0212, to be specific. Each of these is +indexed using one or more position codes in the range 1 through 94, so +the position codes could not be used directly or there would be no way +to tell which character was meant. Different Japanese encodings handle +this differently - JIS uses special escape characters to denote +different character sets; EUC sets the high bit of the position codes +for JIS X 0208 and JIS X 0212, and puts a special extra byte before each +JIS X 0212 character; etc. (JIS, EUC, and most of the other encodings +you will encounter in files are 7-bit or 8-bit encodings. There is one +common 16-bit encoding, which is Unicode; this strives to represent all +the world's characters in a single large character set. 32-bit +encodings are often used internally in programs, such as XEmacs with +MULE support, to simplify the code that manipulates them; however, they +are not used externally because they are not very space-efficient.) + + A general method of handling text using multiple character sets +(whether for multilingual text, or simply text in an extremely +complicated single language like Japanese) is defined in the +international standard ISO 2022. ISO 2022 will be discussed in more +detail later (*note ISO 2022::), but for now suffice it to say that text +needs control functions (at least spacing), and if escape sequences are +to be used, an escape sequence introducer. It was decided to make all +text streams compatible with ASCII in the sense that the codes 0-31 +(and 128-159) would always be control codes, never graphic characters, +and where defined by the character set the `SPC' character would be +assigned code 32, and `DEL' would be assigned 127. Thus there are 94 +code points remaining if 7 bits are used. This is the reason that most +character sets are defined using position codes in the range 1 through +94. Then ISO 2022 compatible encodings are produced by shifting the +position codes 1 to 94 into character codes 33 to 126, or (if 8 bit +codes are available) into character codes 161 to 254. + + Encodings are classified as either "modal" or "non-modal". In a +"modal encoding", there are multiple states that the encoding can be +in, and the interpretation of the values in the stream depends on the +current global state of the encoding. Special values in the encoding, +called "escape sequences", are used to change the global state. JIS, +for example, is a modal encoding. The bytes `ESC $ B' indicate that, +from then on, bytes are to be interpreted as position codes for JIS X +0208, rather than as ASCII. This effect is cancelled using the bytes +`ESC ( B', which mean "switch from whatever the current state is to +ASCII". To switch to JIS X 0212, the escape sequence `ESC $ ( D'. +(Note that here, as is common, the escape sequences do in fact begin +with `ESC'. This is not necessarily the case, however. Some encodings +use control characters called "locking shifts" (effect persists until +cancelled) to switch character sets.) + + A "non-modal encoding" has no global state that extends past the +character currently being interpreted. EUC, for example, is a +non-modal encoding. Characters in JIS X 0208 are encoded by setting +the high bit of the position codes, and characters in JIS X 0212 are +encoded by doing the same but also prefixing the character with the +byte 0x8F. + + The advantage of a modal encoding is that it is generally more +space-efficient, and is easily extendable because there are essentially +an arbitrary number of escape sequences that can be created. The +disadvantage, however, is that it is much more difficult to work with +if it is not being processed in a sequential manner. In the non-modal +EUC encoding, for example, the byte 0x41 always refers to the letter +`A'; whereas in JIS, it could either be the letter `A', or one of the +two position codes in a JIS X 0208 character, or one of the two +position codes in a JIS X 0212 character. Determining exactly which +one is meant could be difficult and time-consuming if the previous +bytes in the string have not already been processed, or impossible if +they are drawn from an external stream that cannot be rewound. + + Non-modal encodings are further divided into "fixed-width" and +"variable-width" formats. A fixed-width encoding always uses the same +number of words per character, whereas a variable-width encoding does +not. EUC is a good example of a variable-width encoding: one to three +bytes are used per character, depending on the character set. 16-bit +and 32-bit encodings are nearly always fixed-width, and this is in fact +one of the main reasons for using an encoding with a larger word size. +The advantages of fixed-width encodings should be obvious. The +advantages of variable-width encodings are that they are generally more +space-efficient and allow for compatibility with existing 8-bit +encodings such as ASCII. (For example, in Unicode ASCII characters are +simply promoted to a 16-bit representation. That means that every +ASCII character contains a `NUL' byte; evidently all of the standard +string manipulation functions will lose badly in a fixed-width Unicode +environment.) + + The bytes in an 8-bit encoding are often referred to as "octets" +rather than simply as bytes. This terminology dates back to the days +before 8-bit bytes were universal, when some computers had 9-bit bytes, +others had 10-bit bytes, etc.  -File: lispref.info, Node: Garbage Collection, Prev: Pure Storage, Up: Building XEmacs and Object Allocation - -Garbage Collection -================== - - When a program creates a list or the user defines a new function -(such as by loading a library), that data is placed in normal storage. -If normal storage runs low, then XEmacs asks the operating system to -allocate more memory in blocks of 2k bytes. Each block is used for one -type of Lisp object, so symbols, cons cells, markers, etc., are -segregated in distinct blocks in memory. (Vectors, long strings, -buffers and certain other editing types, which are fairly large, are -allocated in individual blocks, one per object, while small strings are -packed into blocks of 8k bytes. [More correctly, a string is allocated -in two sections: a fixed size chunk containing the length, list of -extents, etc.; and a chunk containing the actual characters in the -string. It is this latter chunk that is either allocated individually -or packed into 8k blocks. The fixed size chunk is packed into 2k -blocks, as for conses, markers, etc.]) - - It is quite common to use some storage for a while, then release it -by (for example) killing a buffer or deleting the last pointer to an -object. XEmacs provides a "garbage collector" to reclaim this -abandoned storage. (This name is traditional, but "garbage recycler" -might be a more intuitive metaphor for this facility.) - - The garbage collector operates by finding and marking all Lisp -objects that are still accessible to Lisp programs. To begin with, it -assumes all the symbols, their values and associated function -definitions, and any data presently on the stack, are accessible. Any -objects that can be reached indirectly through other accessible objects -are also accessible. - - When marking is finished, all objects still unmarked are garbage. No -matter what the Lisp program or the user does, it is impossible to refer -to them, since there is no longer a way to reach them. Their space -might as well be reused, since no one will miss them. The second -("sweep") phase of the garbage collector arranges to reuse them. - - The sweep phase puts unused cons cells onto a "free list" for future -allocation; likewise for symbols, markers, extents, events, floats, -compiled-function objects, and the fixed-size portion of strings. It -compacts the accessible small string-chars chunks so they occupy fewer -8k blocks; then it frees the other 8k blocks. Vectors, buffers, -windows, and other large objects are individually allocated and freed -using `malloc' and `free'. - - Common Lisp note: unlike other Lisps, XEmacs Lisp does not call - the garbage collector when the free list is empty. Instead, it - simply requests the operating system to allocate more storage, and - processing continues until `gc-cons-threshold' bytes have been - used. - - This means that you can make sure that the garbage collector will - not run during a certain portion of a Lisp program by calling the - garbage collector explicitly just before it (provided that portion - of the program does not use so much space as to force a second - garbage collection). - - - Command: garbage-collect - This command runs a garbage collection, and returns information on - the amount of space in use. (Garbage collection can also occur - spontaneously if you use more than `gc-cons-threshold' bytes of - Lisp data since the previous garbage collection.) - - `garbage-collect' returns a list containing the following - information: - - ((USED-CONSES . FREE-CONSES) - (USED-SYMS . FREE-SYMS) - (USED-MARKERS . FREE-MARKERS) - USED-STRING-CHARS - USED-VECTOR-SLOTS - (PLIST)) - - => ((73362 . 8325) (13718 . 164) - (5089 . 5098) 949121 118677 - (conses-used 73362 conses-free 8329 cons-storage 658168 - symbols-used 13718 symbols-free 164 symbol-storage 335216 - bit-vectors-used 0 bit-vectors-total-length 0 - bit-vector-storage 0 vectors-used 7882 - vectors-total-length 118677 vector-storage 537764 - compiled-functions-used 1336 compiled-functions-free 37 - compiled-function-storage 44440 short-strings-used 28829 - long-strings-used 2 strings-free 7722 - short-strings-total-length 916657 short-string-storage 1179648 - long-strings-total-length 32464 string-header-storage 441504 - floats-used 3 floats-free 43 float-storage 2044 markers-used 5089 - markers-free 5098 marker-storage 245280 events-used 103 - events-free 835 event-storage 110656 extents-used 10519 - extents-free 2718 extent-storage 372736 - extent-auxiliarys-used 111 extent-auxiliarys-freed 3 - extent-auxiliary-storage 4440 window-configurations-used 39 - window-configurations-on-free-list 5 - window-configurations-freed 10 window-configuration-storage 9492 - popup-datas-used 3 popup-data-storage 72 toolbar-buttons-used 62 - toolbar-button-storage 4960 toolbar-datas-used 12 - toolbar-data-storage 240 symbol-value-buffer-locals-used 182 - symbol-value-buffer-local-storage 5824 - symbol-value-lisp-magics-used 22 - symbol-value-lisp-magic-storage 1496 - symbol-value-varaliases-used 43 - symbol-value-varalias-storage 1032 opaque-lists-used 2 - opaque-list-storage 48 color-instances-used 12 - color-instance-storage 288 font-instances-used 5 - font-instance-storage 180 opaques-used 11 opaque-storage 312 - range-tables-used 1 range-table-storage 16 faces-used 34 - face-storage 2584 glyphs-used 124 glyph-storage 4464 - specifiers-used 775 specifier-storage 43869 weak-lists-used 786 - weak-list-storage 18864 char-tables-used 40 - char-table-storage 41920 buffers-used 25 buffer-storage 7000 - extent-infos-used 457 extent-infos-freed 73 - extent-info-storage 9140 keymaps-used 275 keymap-storage 12100 - consoles-used 4 console-storage 384 command-builders-used 2 - command-builder-storage 120 devices-used 2 device-storage 344 - frames-used 3 frame-storage 624 image-instances-used 47 - image-instance-storage 3008 windows-used 27 windows-freed 2 - window-storage 9180 lcrecord-lists-used 15 - lcrecord-list-storage 360 hash-tables-used 631 - hash-table-storage 25240 streams-used 1 streams-on-free-list 3 - streams-freed 12 stream-storage 91)) - - Here is a table explaining each element: - - USED-CONSES - The number of cons cells in use. - - FREE-CONSES - The number of cons cells for which space has been obtained - from the operating system, but that are not currently being - used. - - USED-SYMS - The number of symbols in use. - - FREE-SYMS - The number of symbols for which space has been obtained from - the operating system, but that are not currently being used. - - USED-MARKERS - The number of markers in use. - - FREE-MARKERS - The number of markers for which space has been obtained from - the operating system, but that are not currently being used. - - USED-STRING-CHARS - The total size of all strings, in characters. - - USED-VECTOR-SLOTS - The total number of elements of existing vectors. - - PLIST - A list of alternating keyword/value pairs providing more - detailed information. (As you can see above, quite a lot of - information is provided.) - - - User Option: gc-cons-threshold - The value of this variable is the number of bytes of storage that - must be allocated for Lisp objects after one garbage collection in - order to trigger another garbage collection. A cons cell counts - as eight bytes, a string as one byte per character plus a few - bytes of overhead, and so on; space allocated to the contents of - buffers does not count. Note that the subsequent garbage - collection does not happen immediately when the threshold is - exhausted, but only the next time the Lisp evaluator is called. - - The initial threshold value is 500,000. If you specify a larger - value, garbage collection will happen less often. This reduces the - amount of time spent garbage collecting, but increases total - memory use. You may want to do this when running a program that - creates lots of Lisp data. - - You can make collections more frequent by specifying a smaller - value, down to 10,000. A value less than 10,000 will remain in - effect only until the subsequent garbage collection, at which time - `garbage-collect' will set the threshold back to 10,000. (This does - not apply if XEmacs was configured with `--debug'. Therefore, be - careful when setting `gc-cons-threshold' in that case!) - - - Function: memory-limit - This function returns the address of the last byte XEmacs has - allocated, divided by 1024. We divide the value by 1024 to make - sure it fits in a Lisp integer. - - You can use this to get a general idea of how your actions affect - the memory usage. - - - Variable: pre-gc-hook - This is a normal hook to be run just before each garbage - collection. Interrupts, garbage collection, and errors are - inhibited while this hook runs, so be extremely careful in what - you add here. In particular, avoid consing, and do not interact - with the user. - - - Variable: post-gc-hook - This is a normal hook to be run just after each garbage collection. - Interrupts, garbage collection, and errors are inhibited while - this hook runs, so be extremely careful in what you add here. In - particular, avoid consing, and do not interact with the user. - - - Variable: gc-message - This is a string to print to indicate that a garbage collection is - in progress. This is printed in the echo area. If the selected - frame is on a window system and `gc-pointer-glyph' specifies a - value (i.e. a pointer image instance) in the domain of the - selected frame, the mouse cursor will change instead of this - message being printed. - - - Glyph: gc-pointer-glyph - This holds the pointer glyph used to indicate that a garbage - collection is in progress. If the selected window is on a window - system and this glyph specifies a value (i.e. a pointer image - instance) in the domain of the selected window, the cursor will be - changed as specified during garbage collection. Otherwise, a - message will be printed in the echo area, as controlled by - `gc-message'. *Note Glyphs::. - - If XEmacs was configured with `--debug', you can set the following -two variables to get direct information about all the allocation that -is happening in a segment of Lisp code. - - - Variable: debug-allocation - If non-zero, print out information to stderr about all objects - allocated. - - - Variable: debug-allocation-backtrace - Length (in stack frames) of short backtrace printed out by - `debug-allocation'. - - -File: lispref.info, Node: Standard Errors, Next: Standard Buffer-Local Variables, Prev: Building XEmacs and Object Allocation, Up: Top - -Standard Errors -*************** - - Here is the complete list of the error symbols in standard Emacs, -grouped by concept. The list includes each symbol's message (on the -`error-message' property of the symbol) and a cross reference to a -description of how the error can occur. - - Each error symbol has an `error-conditions' property that is a list -of symbols. Normally this list includes the error symbol itself and -the symbol `error'. Occasionally it includes additional symbols, which -are intermediate classifications, narrower than `error' but broader -than a single error symbol. For example, all the errors in accessing -files have the condition `file-error'. - - As a special exception, the error symbol `quit' does not have the -condition `error', because quitting is not considered an error. - - *Note Errors::, for an explanation of how errors are generated and -handled. - -`SYMBOL' - STRING; REFERENCE. - -`error' - `"error"' - *Note Errors::. - -`quit' - `"Quit"' - *Note Quitting::. - -`args-out-of-range' - `"Args out of range"' - *Note Sequences Arrays Vectors::. - -`arith-error' - `"Arithmetic error"' - See `/' and `%' in *Note Numbers::. - -`beginning-of-buffer' - `"Beginning of buffer"' - *Note Motion::. - -`buffer-read-only' - `"Buffer is read-only"' - *Note Read Only Buffers::. - -`cyclic-function-indirection' - `"Symbol's chain of function indirections contains a loop"' - *Note Function Indirection::. - -`domain-error' - `"Arithmetic domain error"' -`end-of-buffer' - `"End of buffer"' - *Note Motion::. - -`end-of-file' - `"End of file during parsing"' - This is not a `file-error'. - *Note Input Functions::. - -`file-error' - This error and its subcategories do not have error-strings, - because the error message is constructed from the data items alone - when the error condition `file-error' is present. - *Note Files::. - -`file-locked' - This is a `file-error'. - *Note File Locks::. - -`file-already-exists' - This is a `file-error'. - *Note Writing to Files::. - -`file-supersession' - This is a `file-error'. - *Note Modification Time::. - -`invalid-byte-code' - `"Invalid byte code"' - *Note Byte Compilation::. - -`invalid-function' - `"Invalid function"' - *Note Classifying Lists::. - -`invalid-read-syntax' - `"Invalid read syntax"' - *Note Input Functions::. - -`invalid-regexp' - `"Invalid regexp"' - *Note Regular Expressions::. - -`mark-inactive' - `"The mark is not active now"' -`no-catch' - `"No catch for tag"' - *Note Catch and Throw::. - -`overflow-error' - `"Arithmetic overflow error"' -`protected-field' - `"Attempt to modify a protected field"' -`range-error' - `"Arithmetic range error"' -`search-failed' - `"Search failed"' - *Note Searching and Matching::. - -`setting-constant' - `"Attempt to set a constant symbol"' - *Note Variables that Never Change: Constant Variables. - -`singularity-error' - `"Arithmetic singularity error"' -`tooltalk-error' - `"ToolTalk error"' - *Note ToolTalk Support::. - -`undefined-keystroke-sequence' - `"Undefined keystroke sequence"' -`void-function' - `"Symbol's function definition is void"' - *Note Function Cells::. - -`void-variable' - `"Symbol's value as variable is void"' - *Note Accessing Variables::. - -`wrong-number-of-arguments' - `"Wrong number of arguments"' - *Note Classifying Lists::. - -`wrong-type-argument' - `"Wrong type argument"' - *Note Type Predicates::. - - These error types, which are all classified as special cases of -`arith-error', can occur on certain systems for invalid use of -mathematical functions. - -`domain-error' - `"Arithmetic domain error"' - *Note Math Functions::. - -`overflow-error' - `"Arithmetic overflow error"' - *Note Math Functions::. - -`range-error' - `"Arithmetic range error"' - *Note Math Functions::. - -`singularity-error' - `"Arithmetic singularity error"' - *Note Math Functions::. - -`underflow-error' - `"Arithmetic underflow error"' - *Note Math Functions::. - - -File: lispref.info, Node: Standard Buffer-Local Variables, Next: Standard Keymaps, Prev: Standard Errors, Up: Top - -Buffer-Local Variables -********************** - - The table below lists the general-purpose Emacs variables that are -automatically local (when set) in each buffer. Many Lisp packages -define such variables for their internal use; we don't list them here. - -`abbrev-mode' - *note Abbrevs:: - -`auto-fill-function' - *note Auto Filling:: - -`buffer-auto-save-file-name' - *note Auto-Saving:: - -`buffer-backed-up' - *note Backup Files:: - -`buffer-display-table' - *note Display Tables:: - -`buffer-file-format' - *note Format Conversion:: - -`buffer-file-name' - *note Buffer File Name:: - -`buffer-file-number' - *note Buffer File Name:: - -`buffer-file-truename' - *note Buffer File Name:: - -`buffer-file-type' - *note Files and MS-DOS:: - -`buffer-invisibility-spec' - *note Invisible Text:: - -`buffer-offer-save' - *note Saving Buffers:: - -`buffer-read-only' - *note Read Only Buffers:: - -`buffer-saved-size' - *note Point:: - -`buffer-undo-list' - *note Undo:: - -`cache-long-line-scans' - *note Text Lines:: - -`case-fold-search' - *note Searching and Case:: - -`ctl-arrow' - *note Usual Display:: - -`comment-column' - *note Comments: (emacs)Comments. - -`default-directory' - *note System Environment:: - -`defun-prompt-regexp' - *note List Motion:: - -`fill-column' - *note Auto Filling:: - -`goal-column' - *note Moving Point: (emacs)Moving Point. - -`left-margin' - *note Indentation:: - -`local-abbrev-table' - *note Abbrevs:: - -`local-write-file-hooks' - *note Saving Buffers:: - -`major-mode' - *note Mode Help:: - -`mark-active' - *note The Mark:: - -`mark-ring' - *note The Mark:: +File: lispref.info, Node: Charsets, Next: MULE Characters, Prev: Internationalization Terminology, Up: MULE -`minor-modes' - *note Minor Modes:: +Charsets +======== -`modeline-format' - *note Modeline Data:: + A "charset" in MULE is an object that encapsulates a particular +character set as well as an ordering of those characters. Charsets are +permanent objects and are named using symbols, like faces. -`modeline-buffer-identification' - *note Modeline Variables:: + - Function: charsetp object + This function returns non-`nil' if OBJECT is a charset. -`modeline-format' - *note Modeline Data:: +* Menu: -`modeline-modified' - *note Modeline Variables:: - -`modeline-process' - *note Modeline Variables:: - -`mode-name' - *note Modeline Variables:: - -`overwrite-mode' - *note Insertion:: - -`paragraph-separate' - *note Standard Regexps:: - -`paragraph-start' - *note Standard Regexps:: - -`point-before-scroll' - Used for communication between mouse commands and scroll-bar - commands. - -`require-final-newline' - *note Insertion:: - -`selective-display' - *note Selective Display:: - -`selective-display-ellipses' - *note Selective Display:: - -`tab-width' - *note Usual Display:: - -`truncate-lines' - *note Truncation:: - -`vc-mode' - *note Modeline Variables:: +* Charset Properties:: Properties of a charset. +* Basic Charset Functions:: Functions for working with charsets. +* Charset Property Functions:: Functions for accessing charset properties. +* Predefined Charsets:: Predefined charset objects.  -File: lispref.info, Node: Standard Keymaps, Next: Standard Hooks, Prev: Standard Buffer-Local Variables, Up: Top - -Standard Keymaps -**************** - - The following symbols are used as the names for various keymaps. -Some of these exist when XEmacs is first started, others are loaded -only when their respective mode is used. This is not an exhaustive -list. - - Almost all of these maps are used as local maps. Indeed, of the -modes that presently exist, only Vip mode and Terminal mode ever change -the global keymap. - -`bookmark-map' - A keymap containing bindings to bookmark functions. - -`Buffer-menu-mode-map' - A keymap used by Buffer Menu mode. - -`c++-mode-map' - A keymap used by C++ mode. - -`c-mode-map' - A keymap used by C mode. A sparse keymap used by C mode. - -`command-history-map' - A keymap used by Command History mode. - -`ctl-x-4-map' - A keymap for subcommands of the prefix `C-x 4'. - -`ctl-x-5-map' - A keymap for subcommands of the prefix `C-x 5'. - -`ctl-x-map' - A keymap for `C-x' commands. - -`debugger-mode-map' - A keymap used by Debugger mode. - -`dired-mode-map' - A keymap for `dired-mode' buffers. - -`edit-abbrevs-map' - A keymap used in `edit-abbrevs'. - -`edit-tab-stops-map' - A keymap used in `edit-tab-stops'. - -`electric-buffer-menu-mode-map' - A keymap used by Electric Buffer Menu mode. - -`electric-history-map' - A keymap used by Electric Command History mode. - -`emacs-lisp-mode-map' - A keymap used by Emacs Lisp mode. - -`help-map' - A keymap for characters following the Help key. - -`Helper-help-map' - A keymap used by the help utility package. - It has the same keymap in its value cell and in its function cell. - -`Info-edit-map' - A keymap used by the `e' command of Info. - -`Info-mode-map' - A keymap containing Info commands. - -`isearch-mode-map' - A keymap that defines the characters you can type within - incremental search. - -`itimer-edit-map' - A keymap used when in Itimer Edit mode. - -`lisp-interaction-mode-map' - A keymap used by Lisp mode. - -`lisp-mode-map' - A keymap used by Lisp mode. - - A keymap for minibuffer input with completion. - -`minibuffer-local-isearch-map' - A keymap for editing isearch strings in the minibuffer. - -`minibuffer-local-map' - Default keymap to use when reading from the minibuffer. - -`minibuffer-local-must-match-map' - A keymap for minibuffer input with completion, for exact match. - -`mode-specific-map' - The keymap for characters following `C-c'. Note, this is in the - global map. This map is not actually mode specific: its name was - chosen to be informative for the user in `C-h b' - (`display-bindings'), where it describes the main use of the `C-c' - prefix key. - -`modeline-map' - The keymap consulted for mouse-clicks on the modeline of a window. - -`objc-mode-map' - A keymap used in Objective C mode as a local map. - -`occur-mode-map' - A local keymap used by Occur mode. - -`overriding-local-map' - A keymap that overrides all other local keymaps. - -`query-replace-map' - A local keymap used for responses in `query-replace' and related - commands; also for `y-or-n-p' and `map-y-or-n-p'. The functions - that use this map do not support prefix keys; they look up one - event at a time. - -`read-expression-map' - The minibuffer keymap used for reading Lisp expressions. - -`read-shell-command-map' - The minibuffer keymap used by shell-command and related commands. - -`shared-lisp-mode-map' - A keymap for commands shared by all sorts of Lisp modes. - -`text-mode-map' - A keymap used by Text mode. - -`toolbar-map' - The keymap consulted for mouse-clicks over a toolbar. - -`view-mode-map' - A keymap used by View mode. +File: lispref.info, Node: Charset Properties, Next: Basic Charset Functions, Up: Charsets + +Charset Properties +------------------ + + Charsets have the following properties: + +`name' + A symbol naming the charset. Every charset must have a different + name; this allows a charset to be referred to using its name + rather than the actual charset object. + +`doc-string' + A documentation string describing the charset. + +`registry' + A regular expression matching the font registry field for this + character set. For example, both the `ascii' and `latin-iso8859-1' + charsets use the registry `"ISO8859-1"'. This field is used to + choose an appropriate font when the user gives a general font + specification such as `-*-courier-medium-r-*-140-*', i.e. a + 14-point upright medium-weight Courier font. + +`dimension' + Number of position codes used to index a character in the + character set. XEmacs/MULE can only handle character sets of + dimension 1 or 2. This property defaults to 1. + +`chars' + Number of characters in each dimension. In XEmacs/MULE, the only + allowed values are 94 or 96. (There are a couple of pre-defined + character sets, such as ASCII, that do not follow this, but you + cannot define new ones like this.) Defaults to 94. Note that if + the dimension is 2, the character set thus described is 94x94 or + 96x96. + +`columns' + Number of columns used to display a character in this charset. + Only used in TTY mode. (Under X, the actual width of a character + can be derived from the font used to display the characters.) If + unspecified, defaults to the dimension. (This is almost always the + correct value, because character sets with dimension 2 are usually + ideograph character sets, which need two columns to display the + intricate ideographs.) + +`direction' + A symbol, either `l2r' (left-to-right) or `r2l' (right-to-left). + Defaults to `l2r'. This specifies the direction that the text + should be displayed in, and will be left-to-right for most + charsets but right-to-left for Hebrew and Arabic. (Right-to-left + display is not currently implemented.) + +`final' + Final byte of the standard ISO 2022 escape sequence designating + this charset. Must be supplied. Each combination of (DIMENSION, + CHARS) defines a separate namespace for final bytes, and each + charset within a particular namespace must have a different final + byte. Note that ISO 2022 restricts the final byte to the range + 0x30 - 0x7E if dimension == 1, and 0x30 - 0x5F if dimension == 2. + Note also that final bytes in the range 0x30 - 0x3F are reserved + for user-defined (not official) character sets. For more + information on ISO 2022, see *Note Coding Systems::. + +`graphic' + 0 (use left half of font on output) or 1 (use right half of font on + output). Defaults to 0. This specifies how to convert the + position codes that index a character in a character set into an + index into the font used to display the character set. With + `graphic' set to 0, position codes 33 through 126 map to font + indices 33 through 126; with it set to 1, position codes 33 + through 126 map to font indices 161 through 254 (i.e. the same + number but with the high bit set). For example, for a font whose + registry is ISO8859-1, the left half of the font (octets 0x20 - + 0x7F) is the `ascii' charset, while the right half (octets 0xA0 - + 0xFF) is the `latin-iso8859-1' charset. + +`ccl-program' + A compiled CCL program used to convert a character in this charset + into an index into the font. This is in addition to the `graphic' + property. If a CCL program is defined, the position codes of a + character will first be processed according to `graphic' and then + passed through the CCL program, with the resulting values used to + index the font. + + This is used, for example, in the Big5 character set (used in + Taiwan). This character set is not ISO-2022-compliant, and its + size (94x157) does not fit within the maximum 96x96 size of + ISO-2022-compliant character sets. As a result, XEmacs/MULE + splits it (in a rather complex fashion, so as to group the most + commonly used characters together) into two charset objects + (`big5-1' and `big5-2'), each of size 94x94, and each charset + object uses a CCL program to convert the modified position codes + back into standard Big5 indices to retrieve a character from a + Big5 font. + + Most of the above properties can only be set when the charset is +initialized, and cannot be changed later. *Note Charset Property +Functions::.  -File: lispref.info, Node: Standard Hooks, Next: Index, Prev: Standard Keymaps, Up: Top - -Standard Hooks -************** - - The following is a list of hook variables that let you provide -functions to be called from within Emacs on suitable occasions. - - Most of these variables have names ending with `-hook'. They are -"normal hooks", run by means of `run-hooks'. The value of such a hook -is a list of functions. The recommended way to put a new function on -such a hook is to call `add-hook'. *Note Hooks::, for more information -about using hooks. - - The variables whose names end in `-function' have single functions -as their values. Usually there is a specific reason why the variable is -not a normal hook, such as the need to pass arguments to the function. -(In older Emacs versions, some of these variables had names ending in -`-hook' even though they were not normal hooks.) - - The variables whose names end in `-hooks' or `-functions' have lists -of functions as their values, but these functions are called in a -special way (they are passed arguments, or else their values are used). - -`activate-menubar-hook' - -`activate-popup-menu-hook' - -`ad-definition-hooks' - -`adaptive-fill-function' - -`add-log-current-defun-function' - -`after-change-functions' - -`after-delete-annotation-hook' - -`after-init-hook' - -`after-insert-file-functions' - -`after-revert-hook' - -`after-save-hook' - -`after-set-visited-file-name-hooks' - -`after-write-file-hooks' - -`auto-fill-function' - -`auto-save-hook' - -`before-change-functions' - -`before-delete-annotation-hook' - -`before-init-hook' - -`before-revert-hook' - -`blink-paren-function' - -`buffers-menu-switch-to-buffer-function' - -`c++-mode-hook' - -`c-delete-function' - -`c-mode-common-hook' - -`c-mode-hook' - -`c-special-indent-hook' - -`calendar-load-hook' - -`change-major-mode-hook' - -`command-history-hook' - -`comment-indent-function' - -`compilation-buffer-name-function' - -`compilation-exit-message-function' - -`compilation-finish-function' - -`compilation-parse-errors-function' - -`compilation-mode-hook' - -`create-console-hook' - -`create-device-hook' - -`create-frame-hook' - -`dabbrev-friend-buffer-function' - -`dabbrev-select-buffers-function' - -`delete-console-hook' - -`delete-device-hook' - -`delete-frame-hook' - -`deselect-frame-hook' - -`diary-display-hook' - -`diary-hook' - -`dired-after-readin-hook' - -`dired-before-readin-hook' - -`dired-load-hook' - -`dired-mode-hook' - -`disabled-command-hook' - -`display-buffer-function' - -`ediff-after-setup-control-frame-hook' - -`ediff-after-setup-windows-hook' - -`ediff-before-setup-control-frame-hook' - -`ediff-before-setup-windows-hook' - -`ediff-brief-help-message-function' - -`ediff-cleanup-hook' +File: lispref.info, Node: Basic Charset Functions, Next: Charset Property Functions, Prev: Charset Properties, Up: Charsets + +Basic Charset Functions +----------------------- + + - Function: find-charset charset-or-name + This function retrieves the charset of the given name. If + CHARSET-OR-NAME is a charset object, it is simply returned. + Otherwise, CHARSET-OR-NAME should be a symbol. If there is no + such charset, `nil' is returned. Otherwise the associated charset + object is returned. + + - Function: get-charset name + This function retrieves the charset of the given name. Same as + `find-charset' except an error is signalled if there is no such + charset instead of returning `nil'. + + - Function: charset-list + This function returns a list of the names of all defined charsets. + + - Function: make-charset name doc-string props + This function defines a new character set. This function is for + use with MULE support. NAME is a symbol, the name by which the + character set is normally referred. DOC-STRING is a string + describing the character set. PROPS is a property list, + describing the specific nature of the character set. The + recognized properties are `registry', `dimension', `columns', + `chars', `final', `graphic', `direction', and `ccl-program', as + previously described. + + - Function: make-reverse-direction-charset charset new-name + This function makes a charset equivalent to CHARSET but which goes + in the opposite direction. NEW-NAME is the name of the new + charset. The new charset is returned. + + - Function: charset-from-attributes dimension chars final &optional + direction + This function returns a charset with the given DIMENSION, CHARS, + FINAL, and DIRECTION. If DIRECTION is omitted, both directions + will be checked (left-to-right will be returned if character sets + exist for both directions). + + - Function: charset-reverse-direction-charset charset + This function returns the charset (if any) with the same dimension, + number of characters, and final byte as CHARSET, but which is + displayed in the opposite direction. -`ediff-control-frame-position-function' - -`ediff-display-help-hook' - -`ediff-focus-on-regexp-matches-function' - -`ediff-forward-word-function' - -`ediff-hide-regexp-matches-function' - -`ediff-keymap-setup-hook' - -`ediff-load-hook' - -`ediff-long-help-message-function' - -`ediff-make-wide-display-function' - -`ediff-merge-split-window-function' - -`ediff-meta-action-function' - -`ediff-meta-redraw-function' - -`ediff-mode-hook' - -`ediff-prepare-buffer-hook' - -`ediff-quit-hook' - -`ediff-registry-setup-hook' - -`ediff-select-hook' - -`ediff-session-action-function' - -`ediff-session-group-setup-hook' - -`ediff-setup-diff-regions-function' - -`ediff-show-registry-hook' - -`ediff-show-session-group-hook' - -`ediff-skip-diff-region-function' - -`ediff-split-window-function' - -`ediff-startup-hook' - -`ediff-suspend-hook' - -`ediff-toggle-read-only-function' - -`ediff-unselect-hook' - -`ediff-window-setup-function' - -`edit-picture-hook' - -`electric-buffer-menu-mode-hook' - -`electric-command-history-hook' - -`electric-help-mode-hook' - -`emacs-lisp-mode-hook' - -`fill-paragraph-function' - -`find-file-hooks' - -`find-file-not-found-hooks' - -`first-change-hook' - -`font-lock-after-fontify-buffer-hook' - -`font-lock-beginning-of-syntax-function' - -`font-lock-mode-hook' - -`fume-found-function-hook' - -`fume-list-mode-hook' - -`fume-rescan-buffer-hook' - -`fume-sort-function' - -`gnus-startup-hook' - -`hack-local-variables-hook' - -`highlight-headers-follow-url-function' - -`hyper-apropos-mode-hook' - -`indent-line-function' - -`indent-mim-hook' - -`indent-region-function' - -`initial-calendar-window-hook' - -`isearch-mode-end-hook' - -`isearch-mode-hook' - -`java-mode-hook' - -`kill-buffer-hook' - -`kill-buffer-query-functions' - -`kill-emacs-hook' - -`kill-emacs-query-functions' - -`kill-hooks' - -`LaTeX-mode-hook' - -`latex-mode-hook' - -`ledit-mode-hook' - -`lisp-indent-function' - -`lisp-interaction-mode-hook' - -`lisp-mode-hook' - -`list-diary-entries-hook' - -`load-read-function' - -`log-message-filter-function' - -`m2-mode-hook' - -`mail-citation-hook' - -`mail-mode-hook' - -`mail-setup-hook' - -`make-annotation-hook' - -`makefile-mode-hook' - -`map-frame-hook' - -`mark-diary-entries-hook' - -`medit-mode-hook' - -`menu-no-selection-hook' - -`mh-compose-letter-hook' - -`mh-folder-mode-hook' - -`mh-letter-mode-hook' - -`mim-mode-hook' - -`minibuffer-exit-hook' - -`minibuffer-setup-hook' - -`mode-motion-hook' - -`mouse-enter-frame-hook' - -`mouse-leave-frame-hook' - -`mouse-track-cleanup-hook' - -`mouse-track-click-hook' - -`mouse-track-down-hook' - -`mouse-track-drag-hook' - -`mouse-track-drag-up-hook' - -`mouse-track-up-hook' - -`mouse-yank-function' - -`news-mode-hook' - -`news-reply-mode-hook' - -`news-setup-hook' - -`nongregorian-diary-listing-hook' - -`nongregorian-diary-marking-hook' - -`nroff-mode-hook' - -`objc-mode-hook' - -`outline-mode-hook' - -`perl-mode-hook' - -`plain-TeX-mode-hook' - -`post-command-hook' - -`post-gc-hook' - -`pre-abbrev-expand-hook' - -`pre-command-hook' - -`pre-display-buffer-function' - -`pre-gc-hook' - -`pre-idle-hook' - -`print-diary-entries-hook' - -`prolog-mode-hook' - -`protect-innocence-hook' - -`remove-message-hook' - -`revert-buffer-function' - -`revert-buffer-insert-contents-function' - -`rmail-edit-mode-hook' - -`rmail-mode-hook' - -`rmail-retry-setup-hook' - -`rmail-summary-mode-hook' - -`scheme-indent-hook' - -`scheme-mode-hook' - -`scribe-mode-hook' - -`select-frame-hook' - -`send-mail-function' - -`shell-mode-hook' - -`shell-set-directory-error-hook' - -`special-display-function' - -`suspend-hook' - -`suspend-resume-hook' - -`temp-buffer-show-function' - -`term-setup-hook' - -`terminal-mode-hook' - -`terminal-mode-break-hook' - -`TeX-mode-hook' - -`tex-mode-hook' - -`text-mode-hook' - -`today-visible-calendar-hook' - -`today-invisible-calendar-hook' - -`tooltalk-message-handler-hook' - -`tooltalk-pattern-handler-hook' - -`tooltalk-unprocessed-message-hook' - -`unmap-frame-hook' - -`vc-checkin-hook' - -`vc-checkout-writable-buffer-hook' + +File: lispref.info, Node: Charset Property Functions, Next: Predefined Charsets, Prev: Basic Charset Functions, Up: Charsets -`vc-log-after-operation-hook' +Charset Property Functions +-------------------------- -`vc-make-buffer-writable-hook' + All of these functions accept either a charset name or charset +object. -`view-hook' + - Function: charset-property charset prop + This function returns property PROP of CHARSET. *Note Charset + Properties::. -`vm-arrived-message-hook' + Convenience functions are also provided for retrieving individual +properties of a charset. -`vm-arrived-messages-hook' + - Function: charset-name charset + This function returns the name of CHARSET. This will be a symbol. -`vm-chop-full-name-function' + - Function: charset-doc-string charset + This function returns the doc string of CHARSET. -`vm-display-buffer-hook' + - Function: charset-registry charset + This function returns the registry of CHARSET. -`vm-edit-message-hook' + - Function: charset-dimension charset + This function returns the dimension of CHARSET. -`vm-forward-message-hook' + - Function: charset-chars charset + This function returns the number of characters per dimension of + CHARSET. -`vm-iconify-frame-hook' + - Function: charset-columns charset + This function returns the number of display columns per character + (in TTY mode) of CHARSET. -`vm-inhibit-write-file-hook' + - Function: charset-direction charset + This function returns the display direction of CHARSET--either + `l2r' or `r2l'. -`vm-key-functions' + - Function: charset-final charset + This function returns the final byte of the ISO 2022 escape + sequence designating CHARSET. -`vm-mail-hook' + - Function: charset-graphic charset + This function returns either 0 or 1, depending on whether the + position codes of characters in CHARSET map to the left or right + half of their font, respectively. -`vm-mail-mode-hook' + - Function: charset-ccl-program charset + This function returns the CCL program, if any, for converting + position codes of characters in CHARSET into font indices. -`vm-menu-setup-hook' + The only property of a charset that can currently be set after the +charset has been created is the CCL program. -`vm-mode-hook' + - Function: set-charset-ccl-program charset ccl-program + This function sets the `ccl-program' property of CHARSET to + CCL-PROGRAM. -`vm-quit-hook' + +File: lispref.info, Node: Predefined Charsets, Prev: Charset Property Functions, Up: Charsets + +Predefined Charsets +------------------- + + The following charsets are predefined in the C code. + + Name Type Fi Gr Dir Registry + -------------------------------------------------------------- + ascii 94 B 0 l2r ISO8859-1 + control-1 94 0 l2r --- + latin-iso8859-1 94 A 1 l2r ISO8859-1 + latin-iso8859-2 96 B 1 l2r ISO8859-2 + latin-iso8859-3 96 C 1 l2r ISO8859-3 + latin-iso8859-4 96 D 1 l2r ISO8859-4 + cyrillic-iso8859-5 96 L 1 l2r ISO8859-5 + arabic-iso8859-6 96 G 1 r2l ISO8859-6 + greek-iso8859-7 96 F 1 l2r ISO8859-7 + hebrew-iso8859-8 96 H 1 r2l ISO8859-8 + latin-iso8859-9 96 M 1 l2r ISO8859-9 + thai-tis620 96 T 1 l2r TIS620 + katakana-jisx0201 94 I 1 l2r JISX0201.1976 + latin-jisx0201 94 J 0 l2r JISX0201.1976 + japanese-jisx0208-1978 94x94 @ 0 l2r JISX0208.1978 + japanese-jisx0208 94x94 B 0 l2r JISX0208.19(83|90) + japanese-jisx0212 94x94 D 0 l2r JISX0212 + chinese-gb2312 94x94 A 0 l2r GB2312 + chinese-cns11643-1 94x94 G 0 l2r CNS11643.1 + chinese-cns11643-2 94x94 H 0 l2r CNS11643.2 + chinese-big5-1 94x94 0 0 l2r Big5 + chinese-big5-2 94x94 1 0 l2r Big5 + korean-ksc5601 94x94 C 0 l2r KSC5601 + composite 96x96 0 l2r --- + + The following charsets are predefined in the Lisp code. + + Name Type Fi Gr Dir Registry + -------------------------------------------------------------- + arabic-digit 94 2 0 l2r MuleArabic-0 + arabic-1-column 94 3 0 r2l MuleArabic-1 + arabic-2-column 94 4 0 r2l MuleArabic-2 + sisheng 94 0 0 l2r sisheng_cwnn\|OMRON_UDC_ZH + chinese-cns11643-3 94x94 I 0 l2r CNS11643.1 + chinese-cns11643-4 94x94 J 0 l2r CNS11643.1 + chinese-cns11643-5 94x94 K 0 l2r CNS11643.1 + chinese-cns11643-6 94x94 L 0 l2r CNS11643.1 + chinese-cns11643-7 94x94 M 0 l2r CNS11643.1 + ethiopic 94x94 2 0 l2r Ethio + ascii-r2l 94 B 0 r2l ISO8859-1 + ipa 96 0 1 l2r MuleIPA + vietnamese-lower 96 1 1 l2r VISCII1.1 + vietnamese-upper 96 2 1 l2r VISCII1.1 + + For all of the above charsets, the dimension and number of columns +are the same. + + Note that ASCII, Control-1, and Composite are handled specially. +This is why some of the fields are blank; and some of the filled-in +fields (e.g. the type) are not really accurate. -`vm-rename-current-buffer-function' + +File: lispref.info, Node: MULE Characters, Next: Composite Characters, Prev: Charsets, Up: MULE -`vm-reply-hook' +MULE Characters +=============== -`vm-resend-bounced-message-hook' + - Function: make-char charset arg1 &optional arg2 + This function makes a multi-byte character from CHARSET and octets + ARG1 and ARG2. -`vm-resend-message-hook' + - Function: char-charset ch + This function returns the character set of char CH. -`vm-retrieved-spooled-mail-hook' + - Function: char-octet ch &optional n + This function returns the octet (i.e. position code) numbered N + (should be 0 or 1) of char CH. N defaults to 0 if omitted. -`vm-select-message-hook' + - Function: find-charset-region start end &optional buffer + This function returns a list of the charsets in the region between + START and END. BUFFER defaults to the current buffer if omitted. -`vm-select-new-message-hook' + - Function: find-charset-string string + This function returns a list of the charsets in STRING. -`vm-select-unread-message-hook' + +File: lispref.info, Node: Composite Characters, Next: Coding Systems, Prev: MULE Characters, Up: MULE -`vm-send-digest-hook' +Composite Characters +==================== -`vm-summary-mode-hook' + Composite characters are not yet completely implemented. -`vm-summary-pointer-update-hook' + - Function: make-composite-char string + This function converts a string into a single composite character. + The character is the result of overstriking all the characters in + the string. -`vm-summary-redo-hook' + - Function: composite-char-string ch + This function returns a string of the characters comprising a + composite character. -`vm-summary-update-hook' + - Function: compose-region start end &optional buffer + This function composes the characters in the region from START to + END in BUFFER into one composite character. The composite + character replaces the composed characters. BUFFER defaults to + the current buffer if omitted. -`vm-undisplay-buffer-hook' + - Function: decompose-region start end &optional buffer + This function decomposes any composite characters in the region + from START to END in BUFFER. This converts each composite + character into one or more characters, the individual characters + out of which the composite character was formed. Non-composite + characters are left as-is. BUFFER defaults to the current buffer + if omitted. -`vm-visit-folder-hook' + +File: lispref.info, Node: Coding Systems, Next: CCL, Prev: Composite Characters, Up: MULE + +Coding Systems +============== + + A coding system is an object that defines how text containing +multiple character sets is encoded into a stream of (typically 8-bit) +bytes. The coding system is used to decode the stream into a series of +characters (which may be from multiple charsets) when the text is read +from a file or process, and is used to encode the text back into the +same format when it is written out to a file or process. + + For example, many ISO-2022-compliant coding systems (such as Compound +Text, which is used for inter-client data under the X Window System) use +escape sequences to switch between different charsets - Japanese Kanji, +for example, is invoked with `ESC $ ( B'; ASCII is invoked with `ESC ( +B'; and Cyrillic is invoked with `ESC - L'. See `make-coding-system' +for more information. + + Coding systems are normally identified using a symbol, and the +symbol is accepted in place of the actual coding system object whenever +a coding system is called for. (This is similar to how faces and +charsets work.) + + - Function: coding-system-p object + This function returns non-`nil' if OBJECT is a coding system. + +* Menu: + +* Coding System Types:: Classifying coding systems. +* ISO 2022:: An international standard for + charsets and encodings. +* EOL Conversion:: Dealing with different ways of denoting + the end of a line. +* Coding System Properties:: Properties of a coding system. +* Basic Coding System Functions:: Working with coding systems. +* Coding System Property Functions:: Retrieving a coding system's properties. +* Encoding and Decoding Text:: Encoding and decoding text. +* Detection of Textual Encoding:: Determining how text is encoded. +* Big5 and Shift-JIS Functions:: Special functions for these non-standard + encodings. +* Predefined Coding Systems:: Coding systems implemented by MULE. -`window-setup-hook' + +File: lispref.info, Node: Coding System Types, Next: ISO 2022, Up: Coding Systems + +Coding System Types +------------------- + + The coding system type determines the basic algorithm XEmacs will +use to decode or encode a data stream. Character encodings will be +converted to the MULE encoding, escape sequences processed, and newline +sequences converted to XEmacs's internal representation. There are +three basic classes of coding system type: no-conversion, ISO-2022, and +special. + + No conversion allows you to look at the file's internal +representation. Since XEmacs is basically a text editor, "no +conversion" does convert newline conventions by default. (Use the +'binary coding-system if this is not desired.) + + ISO 2022 (*note ISO 2022::) is the basic international standard +regulating use of "coded character sets for the exchange of data", ie, +text streams. ISO 2022 contains functions that make it possible to +encode text streams to comply with restrictions of the Internet mail +system and de facto restrictions of most file systems (eg, use of the +separator character in file names). Coding systems which are not ISO +2022 conformant can be difficult to handle. Perhaps more important, +they are not adaptable to multilingual information interchange, with +the obvious exception of ISO 10646 (Unicode). (Unicode is partially +supported by XEmacs with the addition of the Lisp package ucs-conv.) + + The special class of coding systems includes automatic detection, +CCL (a "little language" embedded as an interpreter, useful for +translating between variants of a single character set), +non-ISO-2022-conformant encodings like Unicode, Shift JIS, and Big5, +and MULE internal coding. (NB: this list is based on XEmacs 21.2. +Terminology may vary slightly for other versions of XEmacs and for GNU +Emacs 20.) + +`no-conversion' + No conversion, for binary files, and a few special cases of + non-ISO-2022 coding systems where conversion is done by hook + functions (usually implemented in CCL). On output, graphic + characters that are not in ASCII or Latin-1 will be replaced by a + `?'. (For a no-conversion-encoded buffer, these characters will + only be present if you explicitly insert them.) + +`iso2022' + Any ISO-2022-compliant encoding. Among others, this includes JIS + (the Japanese encoding commonly used for e-mail), national + variants of EUC (the standard Unix encoding for Japanese and other + languages), and Compound Text (an encoding used in X11). You can + specify more specific information about the conversion with the + FLAGS argument. + +`ucs-4' + ISO 10646 UCS-4 encoding. A 31-bit fixed-width superset of + Unicode. + +`utf-8' + ISO 10646 UTF-8 encoding. A "file system safe" transformation + format that can be used with both UCS-4 and Unicode. + +`undecided' + Automatic conversion. XEmacs attempts to detect the coding system + used in the file. + +`shift-jis' + Shift-JIS (a Japanese encoding commonly used in PC operating + systems). + +`big5' + Big5 (the encoding commonly used for Taiwanese). + +`ccl' + The conversion is performed using a user-written pseudo-code + program. CCL (Code Conversion Language) is the name of this + pseudo-code. For example, CCL is used to map KOI8-R characters + (an encoding for Russian Cyrillic) to ISO8859-5 (the form used + internally by MULE). + +`internal' + Write out or read in the raw contents of the memory representing + the buffer's text. This is primarily useful for debugging + purposes, and is only enabled when XEmacs has been compiled with + `DEBUG_XEMACS' set (the `--debug' configure option). *Warning*: + Reading in a file using `internal' conversion can result in an + internal inconsistency in the memory representing a buffer's text, + which will produce unpredictable results and may cause XEmacs to + crash. Under normal circumstances you should never use `internal' + conversion. -`write-contents-hooks' + +File: lispref.info, Node: ISO 2022, Next: EOL Conversion, Prev: Coding System Types, Up: Coding Systems + +ISO 2022 +======== + + This section briefly describes the ISO 2022 encoding standard. A +more thorough treatment is available in the original document of ISO +2022 as well as various national standards (such as JIS X 0202). + + Character sets ("charsets") are classified into the following four +categories, according to the number of characters in the charset: +94-charset, 96-charset, 94x94-charset, and 96x96-charset. This means +that although an ISO 2022 coding system may have variable width +characters, each charset used is fixed-width (in contrast to the MULE +character set and UTF-8, for example). + + ISO 2022 provides for switching between character sets via escape +sequences. This switching is somewhat complicated, because ISO 2022 +provides for both legacy applications like Internet mail that accept +only 7 significant bits in some contexts (RFC 822 headers, for example), +and more modern "8-bit clean" applications. It also provides for +compact and transparent representation of languages like Japanese which +mix ASCII and a national script (even outside of computer programs). + + First, ISO 2022 codified prevailing practice by dividing the code +space into "control" and "graphic" regions. The code points 0x00-0x1F +and 0x80-0x9F are reserved for "control characters", while "graphic +characters" must be assigned to code points in the regions 0x20-0x7F and +0xA0-0xFF. The positions 0x20 and 0x7F are special, and under some +circumstances must be assigned the graphic character "ASCII SPACE" and +the control character "ASCII DEL" respectively. + + The various regions are given the name C0 (0x00-0x1F), GL +(0x20-0x7F), C1 (0x80-0x9F), and GR (0xA0-0xFF). GL and GR stand for +"graphic left" and "graphic right", respectively, because of the +standard method of displaying graphic character sets in tables with the +high byte indexing columns and the low byte indexing rows. I don't +find it very intuitive, but these are called "registers". + + An ISO 2022-conformant encoding for a graphic character set must use +a fixed number of bytes per character, and the values must fit into a +single register; that is, each byte must range over either 0x20-0x7F, or +0xA0-0xFF. It is not allowed to extend the range of the repertoire of a +character set by using both ranges at the same. This is why a standard +character set such as ISO 8859-1 is actually considered by ISO 2022 to +be an aggregation of two character sets, ASCII and LATIN-1, and why it +is technically incorrect to refer to ISO 8859-1 as "Latin 1". Also, a +single character's bytes must all be drawn from the same register; this +is why Shift JIS (for Japanese) and Big 5 (for Chinese) are not ISO +2022-compatible encodings. + + The reason for this restriction becomes clear when you attempt to +define an efficient, robust encoding for a language like Japanese. +Like ISO 8859, Japanese encodings are aggregations of several character +sets. In practice, the vast majority of characters are drawn from the +"JIS Roman" character set (a derivative of ASCII; it won't hurt to +think of it as ASCII) and the JIS X 0208 standard "basic Japanese" +character set including not only ideographic characters ("kanji") but +syllabic Japanese characters ("kana"), a wide variety of symbols, and +many alphabetic characters (Roman, Greek, and Cyrillic) as well. +Although JIS X 0208 includes the whole Roman alphabet, as a 2-byte code +it is not suited to programming; thus the inclusion of ASCII in the +standard Japanese encodings. + + For normal Japanese text such as in newspapers, a broad repertoire of +approximately 3000 characters is used. Evidently this won't fit into +one byte; two must be used. But much of the text processed by Japanese +computers is computer source code, nearly all of which is ASCII. A not +insignificant portion of ordinary text is English (as such or as +borrowed Japanese vocabulary) or other languages which can represented +at least approximately in ASCII, as well. It seems reasonable then to +represent ASCII in one byte, and JIS X 0208 in two. And this is exactly +what the Extended Unix Code for Japanese (EUC-JP) does. ASCII is +invoked to the GL register, and JIS X 0208 is invoked to the GR +register. Thus, each byte can be tested for its character set by +looking at the high bit; if set, it is Japanese, if clear, it is ASCII. +Furthermore, since control characters like newline can never be part of +a graphic character, even in the case of corruption in transmission the +stream will be resynchronized at every line break, on the order of 60-80 +bytes. This coding system requires no escape sequences or special +control codes to represent 99.9% of all Japanese text. + + Note carefully the distinction between the character sets (ASCII and +JIS X 0208), the encoding (EUC-JP), and the coding system (ISO 2022). +The JIS X 0208 character set is used in three different encodings for +Japanese, but in ISO-2022-JP it is invoked into GL (so the high bit is +always clear), in EUC-JP it is invoked into GR (setting the high bit in +the process), and in Shift JIS the high bit may be set or reset, and the +significant bits are shifted within the 16-bit character so that the two +main character sets can coexist with a third (the "halfwidth katakana" +of JIS X 0201). As the name implies, the ISO-2022-JP encoding is also a +version of the ISO-2022 coding system. + + In order to systematically treat subsidiary character sets (like the +"halfwidth katakana" already mentioned, and the "supplementary kanji" of +JIS X 0212), four further registers are defined: G0, G1, G2, and G3. +Unlike GL and GR, they are not logically distinguished by internal +format. Instead, the process of "invocation" mentioned earlier is +broken into two steps: first, a character set is "designated" to one of +the registers G0-G3 by use of an "escape sequence" of the form: + + ESC [I] I F + + where I is an intermediate character or characters in the range 0x20 +- 0x3F, and F, from the range 0x30-0x7Fm is the final character +identifying this charset. (Final characters in the range 0x30-0x3F are +reserved for private use and will never have a publically registered +meaning.) + + Then that register is "invoked" to either GL or GR, either +automatically (designations to G0 normally involve invocation to GL as +well), or by use of shifting (affecting only the following character in +the data stream) or locking (effective until the next designation or +locking) control sequences. An encoding conformant to ISO 2022 is +typically defined by designating the initial contents of the G0-G3 +registers, specifying an 7 or 8 bit environment, and specifying whether +further designations will be recognized. + + Some examples of character sets and the registered final characters +F used to designate them: + +94-charset + ASCII (B), left (J) and right (I) half of JIS X 0201, ... + +96-charset + Latin-1 (A), Latin-2 (B), Latin-3 (C), ... + +94x94-charset + GB2312 (A), JIS X 0208 (B), KSC5601 (C), ... + +96x96-charset + none for the moment + + The meanings of the various characters in these sequences, where not +specified by the ISO 2022 standard (such as the ESC character), are +assigned by "ECMA", the European Computer Manufacturers Association. + + The meaning of intermediate characters are: + + $ [0x24]: indicate charset of dimension 2 (94x94 or 96x96). + ( [0x28]: designate to G0 a 94-charset whose final byte is F. + ) [0x29]: designate to G1 a 94-charset whose final byte is F. + * [0x2A]: designate to G2 a 94-charset whose final byte is F. + + [0x2B]: designate to G3 a 94-charset whose final byte is F. + , [0x2C]: designate to G0 a 96-charset whose final byte is F. + - [0x2D]: designate to G1 a 96-charset whose final byte is F. + . [0x2E]: designate to G2 a 96-charset whose final byte is F. + / [0x2F]: designate to G3 a 96-charset whose final byte is F. + + The comma may be used in files read and written only by MULE, as a +MULE extension, but this is illegal in ISO 2022. (The reason is that +in ISO 2022 G0 must be a 94-member character set, with 0x20 assigned +the value SPACE, and 0x7F assigned the value DEL.) + + Here are examples of designations: + + ESC ( B : designate to G0 ASCII + ESC - A : designate to G1 Latin-1 + ESC $ ( A or ESC $ A : designate to G0 GB2312 + ESC $ ( B or ESC $ B : designate to G0 JISX0208 + ESC $ ) C : designate to G1 KSC5601 + + (The short forms used to designate GB2312 and JIS X 0208 are for +backwards compatibility; the long forms are preferred.) + + To use a charset designated to G2 or G3, and to use a charset +designated to G1 in a 7-bit environment, you must explicitly invoke G1, +G2, or G3 into GL. There are two types of invocation, Locking Shift +(forever) and Single Shift (one character only). + + Locking Shift is done as follows: + + LS0 or SI (0x0F): invoke G0 into GL + LS1 or SO (0x0E): invoke G1 into GL + LS2: invoke G2 into GL + LS3: invoke G3 into GL + LS1R: invoke G1 into GR + LS2R: invoke G2 into GR + LS3R: invoke G3 into GR + + Single Shift is done as follows: + + SS2 or ESC N: invoke G2 into GL + SS3 or ESC O: invoke G3 into GL + + The shift functions (such as LS1R and SS3) are represented by control +characters (from C1) in 8 bit environments and by escape sequences in 7 +bit environments. + + (#### Ben says: I think the above is slightly incorrect. It appears +that SS2 invokes G2 into GR and SS3 invokes G3 into GR, whereas ESC N +and ESC O behave as indicated. The above definitions will not parse +EUC-encoded text correctly, and it looks like the code in mule-coding.c +has similar problems.) + + Evidently there are a lot of ISO-2022-compliant ways of encoding +multilingual text. Now, in the world, there exist many coding systems +such as X11's Compound Text, Japanese JUNET code, and so-called EUC +(Extended UNIX Code); all of these are variants of ISO 2022. + + In MULE, we characterize a version of ISO 2022 by the following +attributes: + + 1. The character sets initially designated to G0 thru G3. + + 2. Whether short form designations are allowed for Japanese and + Chinese. + + 3. Whether ASCII should be designated to G0 before control characters. + + 4. Whether ASCII should be designated to G0 at the end of line. + + 5. 7-bit environment or 8-bit environment. + + 6. Whether Locking Shifts are used or not. + + 7. Whether to use ASCII or the variant JIS X 0201-1976-Roman. + + 8. Whether to use JIS X 0208-1983 or the older version JIS X + 0208-1976. + + (The last two are only for Japanese.) + + By specifying these attributes, you can create any variant of ISO +2022. + + Here are several examples: + + ISO-2022-JP -- Coding system used in Japanese email (RFC 1463 #### check). + 1. G0 <- ASCII, G1..3 <- never used + 2. Yes. + 3. Yes. + 4. Yes. + 5. 7-bit environment + 6. No. + 7. Use ASCII + 8. Use JIS X 0208-1983 + + ctext -- X11 Compound Text + 1. G0 <- ASCII, G1 <- Latin-1, G2,3 <- never used. + 2. No. + 3. No. + 4. Yes. + 5. 8-bit environment. + 6. No. + 7. Use ASCII. + 8. Use JIS X 0208-1983. + + euc-china -- Chinese EUC. Often called the "GB encoding", but that is + technically incorrect. + 1. G0 <- ASCII, G1 <- GB 2312, G2,3 <- never used. + 2. No. + 3. Yes. + 4. Yes. + 5. 8-bit environment. + 6. No. + 7. Use ASCII. + 8. Use JIS X 0208-1983. + + ISO-2022-KR -- Coding system used in Korean email. + 1. G0 <- ASCII, G1 <- KSC 5601, G2,3 <- never used. + 2. No. + 3. Yes. + 4. Yes. + 5. 7-bit environment. + 6. Yes. + 7. Use ASCII. + 8. Use JIS X 0208-1983. + + MULE creates all of these coding systems by default. -`write-file-data-hooks' + +File: lispref.info, Node: EOL Conversion, Next: Coding System Properties, Prev: ISO 2022, Up: Coding Systems -`write-file-hooks' +EOL Conversion +-------------- -`write-region-annotate-functions' +`nil' + Automatically detect the end-of-line type (LF, CRLF, or CR). Also + generate subsidiary coding systems named `NAME-unix', `NAME-dos', + and `NAME-mac', that are identical to this coding system but have + an EOL-TYPE value of `lf', `crlf', and `cr', respectively. -`x-lost-selection-hooks' +`lf' + The end of a line is marked externally using ASCII LF. Since this + is also the way that XEmacs represents an end-of-line internally, + specifying this option results in no end-of-line conversion. This + is the standard format for Unix text files. -`x-sent-selection-hooks' +`crlf' + The end of a line is marked externally using ASCII CRLF. This is + the standard format for MS-DOS text files. -`zmacs-activate-region-hook' +`cr' + The end of a line is marked externally using ASCII CR. This is the + standard format for Macintosh text files. -`zmacs-deactivate-region-hook' +`t' + Automatically detect the end-of-line type but do not generate + subsidiary coding systems. (This value is converted to `nil' when + stored internally, and `coding-system-property' will return `nil'.) -`zmacs-update-region-hook' diff --git a/info/lispref.info-44 b/info/lispref.info-44 index e2e76dc..ace6584 100644 --- a/info/lispref.info-44 +++ b/info/lispref.info-44 @@ -50,3300 +50,1034 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  -File: lispref.info, Node: Index, Prev: Standard Hooks, Up: Top +File: lispref.info, Node: Coding System Properties, Next: Basic Coding System Functions, Prev: EOL Conversion, Up: Coding Systems -Index -***** +Coding System Properties +------------------------ + +`mnemonic' + String to be displayed in the modeline when this coding system is + active. + +`eol-type' + End-of-line conversion to be used. It should be one of the types + listed in *Note EOL Conversion::. + +`eol-lf' + The coding system which is the same as this one, except that it + uses the Unix line-breaking convention. + +`eol-crlf' + The coding system which is the same as this one, except that it + uses the DOS line-breaking convention. + +`eol-cr' + The coding system which is the same as this one, except that it + uses the Macintosh line-breaking convention. + +`post-read-conversion' + Function called after a file has been read in, to perform the + decoding. Called with two arguments, BEG and END, denoting a + region of the current buffer to be decoded. + +`pre-write-conversion' + Function called before a file is written out, to perform the + encoding. Called with two arguments, BEG and END, denoting a + region of the current buffer to be encoded. + + The following additional properties are recognized if TYPE is +`iso2022': + +`charset-g0' +`charset-g1' +`charset-g2' +`charset-g3' + The character set initially designated to the G0 - G3 registers. + The value should be one of + + * A charset object (designate that character set) + + * `nil' (do not ever use this register) + + * `t' (no character set is initially designated to the + register, but may be later on; this automatically sets the + corresponding `force-g*-on-output' property) + +`force-g0-on-output' +`force-g1-on-output' +`force-g2-on-output' +`force-g3-on-output' + If non-`nil', send an explicit designation sequence on output + before using the specified register. + +`short' + If non-`nil', use the short forms `ESC $ @', `ESC $ A', and `ESC $ + B' on output in place of the full designation sequences `ESC $ ( + @', `ESC $ ( A', and `ESC $ ( B'. + +`no-ascii-eol' + If non-`nil', don't designate ASCII to G0 at each end of line on + output. Setting this to non-`nil' also suppresses other + state-resetting that normally happens at the end of a line. + +`no-ascii-cntl' + If non-`nil', don't designate ASCII to G0 before control chars on + output. + +`seven' + If non-`nil', use 7-bit environment on output. Otherwise, use + 8-bit environment. + +`lock-shift' + If non-`nil', use locking-shift (SO/SI) instead of single-shift or + designation by escape sequence. + +`no-iso6429' + If non-`nil', don't use ISO6429's direction specification. + +`escape-quoted' + If non-nil, literal control characters that are the same as the + beginning of a recognized ISO 2022 or ISO 6429 escape sequence (in + particular, ESC (0x1B), SO (0x0E), SI (0x0F), SS2 (0x8E), SS3 + (0x8F), and CSI (0x9B)) are "quoted" with an escape character so + that they can be properly distinguished from an escape sequence. + (Note that doing this results in a non-portable encoding.) This + encoding flag is used for byte-compiled files. Note that ESC is a + good choice for a quoting character because there are no escape + sequences whose second byte is a character from the Control-0 or + Control-1 character sets; this is explicitly disallowed by the ISO + 2022 standard. + +`input-charset-conversion' + A list of conversion specifications, specifying conversion of + characters in one charset to another when decoding is performed. + Each specification is a list of two elements: the source charset, + and the destination charset. + +`output-charset-conversion' + A list of conversion specifications, specifying conversion of + characters in one charset to another when encoding is performed. + The form of each specification is the same as for + `input-charset-conversion'. + + The following additional properties are recognized (and required) if +TYPE is `ccl': + +`decode' + CCL program used for decoding (converting to internal format). + +`encode' + CCL program used for encoding (converting to external format). + + The following properties are used internally: EOL-CR, EOL-CRLF, +EOL-LF, and BASE. + + +File: lispref.info, Node: Basic Coding System Functions, Next: Coding System Property Functions, Prev: Coding System Properties, Up: Coding Systems + +Basic Coding System Functions +----------------------------- + + - Function: find-coding-system coding-system-or-name + This function retrieves the coding system of the given name. + + If CODING-SYSTEM-OR-NAME is a coding-system object, it is simply + returned. Otherwise, CODING-SYSTEM-OR-NAME should be a symbol. + If there is no such coding system, `nil' is returned. Otherwise + the associated coding system object is returned. + + - Function: get-coding-system name + This function retrieves the coding system of the given name. Same + as `find-coding-system' except an error is signalled if there is no + such coding system instead of returning `nil'. + + - Function: coding-system-list + This function returns a list of the names of all defined coding + systems. + + - Function: coding-system-name coding-system + This function returns the name of the given coding system. + + - Function: coding-system-base coding-system + Returns the base coding system (undecided EOL convention) coding + system. + + - Function: make-coding-system name type &optional doc-string props + This function registers symbol NAME as a coding system. + + TYPE describes the conversion method used and should be one of the + types listed in *Note Coding System Types::. + + DOC-STRING is a string describing the coding system. + + PROPS is a property list, describing the specific nature of the + character set. Recognized properties are as in *Note Coding + System Properties::. + + - Function: copy-coding-system old-coding-system new-name + This function copies OLD-CODING-SYSTEM to NEW-NAME. If NEW-NAME + does not name an existing coding system, a new one will be created. + + - Function: subsidiary-coding-system coding-system eol-type + This function returns the subsidiary coding system of + CODING-SYSTEM with eol type EOL-TYPE. + + +File: lispref.info, Node: Coding System Property Functions, Next: Encoding and Decoding Text, Prev: Basic Coding System Functions, Up: Coding Systems + +Coding System Property Functions +-------------------------------- + + - Function: coding-system-doc-string coding-system + This function returns the doc string for CODING-SYSTEM. + + - Function: coding-system-type coding-system + This function returns the type of CODING-SYSTEM. + + - Function: coding-system-property coding-system prop + This function returns the PROP property of CODING-SYSTEM. + + +File: lispref.info, Node: Encoding and Decoding Text, Next: Detection of Textual Encoding, Prev: Coding System Property Functions, Up: Coding Systems + +Encoding and Decoding Text +-------------------------- + + - Function: decode-coding-region start end coding-system &optional + buffer + This function decodes the text between START and END which is + encoded in CODING-SYSTEM. This is useful if you've read in + encoded text from a file without decoding it (e.g. you read in a + JIS-formatted file but used the `binary' or `no-conversion' coding + system, so that it shows up as `^[$B!: Functions for Key Lookup. -* =: Comparison of Numbers. -* >: Comparison of Numbers. -* >=: Comparison of Numbers. -* ? in character constant: Character Type. -* ? in regexp: Syntax of Regexps. -* @ in interactive: Using Interactive. -* [ in regexp: Syntax of Regexps. -* [...] (Edebug): Specification List. -* \ in character constant: Character Type. -* \ in display: Truncation. -* \ in printing: Output Functions. -* \ in regexp: Syntax of Regexps. -* \ in replacement: Replacing Match. -* \ in strings: String Type. -* \ in symbols: Symbol Type. -* \' in regexp: Syntax of Regexps. -* \(?: in regexp: Syntax of Regexps. -* \< in regexp: Syntax of Regexps. -* \= in regexp: Syntax of Regexps. -* \> in regexp: Syntax of Regexps. -* \` in regexp: Syntax of Regexps. -* \a: Character Type. -* \b: Character Type. -* \B in regexp: Syntax of Regexps. -* \b in regexp: Syntax of Regexps. -* \e: Character Type. -* \f: Character Type. -* \n: Character Type. -* \n in print: Output Variables. -* \N in replacement: Replacing Match. -* \r: Character Type. -* \S in regexp: Syntax of Regexps. -* \s in regexp: Syntax of Regexps. -* \t: Character Type. -* \v: Character Type. -* \W in regexp: Syntax of Regexps. -* \w in regexp: Syntax of Regexps. -* \{n,m\} in regexp: Syntax of Regexps. -* ] in regexp: Syntax of Regexps. -* ^ in regexp: Syntax of Regexps. -* _ in interactive: Using Interactive. -* `: Backquote. -* ` (Edebug): Debugging Backquote. -* ` (list substitution): Backquote. -* abbrev: Abbrevs. -* abbrev table: Abbrevs. -* abbrev tables in modes: Major Mode Conventions. -* abbrev-all-caps: Abbrev Expansion. -* abbrev-expansion: Abbrev Expansion. -* abbrev-file-name: Abbrev Files. -* abbrev-mode: Abbrev Mode. -* abbrev-prefix-mark: Abbrev Expansion. -* abbrev-start-location: Abbrev Expansion. -* abbrev-start-location-buffer: Abbrev Expansion. -* abbrev-symbol: Abbrev Expansion. -* abbrev-table-name-list: Abbrev Tables. -* abbreviate-file-name: Directory Names. -* abbrevs-changed: Abbrev Files. -* abort-recursive-edit: Recursive Editing. -* aborting: Recursive Editing. -* abs: Arithmetic Operations. -* absolute file name: Relative File Names. -* accelerate-menu: Menu Accelerator Functions. -* accept-process-output: Accepting Output. -* accessibility of a file: Testing Accessibility. -* accessible portion (of a buffer): Narrowing. -* accessible-keymaps: Scanning Keymaps. -* acos: Math Functions. -* acosh: Math Functions. -* activate-menubar-hook: Menubar. -* activate-popup-menu-hook: Pop-Up Menus. -* active display table: Active Display Table. -* active keymap: Active Keymaps. -* active-minibuffer-window: Minibuffer Misc. -* add-abbrev: Defining Abbrevs. -* add-hook: Hooks. -* add-menu: Modifying Menus. -* add-menu-button: Modifying Menus. -* add-menu-item: Modifying Menus. -* add-name-to-file: Changing File Attributes. -* add-spec-list-to-specifier: Adding Specifications. -* add-spec-to-specifier: Adding Specifications. -* add-submenu: Modifying Menus. -* add-text-properties: Changing Properties. -* add-timeout: Timers. -* add-to-list: Setting Variables. -* add-tooltalk-message-arg: Elisp Interface for Sending Messages. -* add-tooltalk-pattern-arg: Elisp Interface for Receiving Messages. -* add-tooltalk-pattern-attribute: Elisp Interface for Receiving Messages. -* address field of register: Cons Cell Type. -* after-change-function: Change Hooks. -* after-change-functions: Change Hooks. -* after-find-file: Subroutines of Visiting. -* after-init-hook: Init File. -* after-insert-file-functions: Saving Properties. -* after-load-alist: Hooks for Loading. -* after-revert-hook: Reverting. -* after-save-hook: Saving Buffers. -* aliases, for variables: Variable Aliases. -* alist: Association Lists. -* alist-to-plist: Converting Plists To/From Alists. -* all-annotations: Locating Annotations. -* all-completions: Basic Completion. -* and: Combining Conditions. -* annotation: Annotations. -* annotation hooks: Annotation Hooks. -* annotation-action: Annotation Properties. -* annotation-data: Annotation Properties. -* annotation-down-glyph: Annotation Properties. -* annotation-face: Annotation Properties. -* annotation-glyph: Annotation Properties. -* annotation-layout: Annotation Properties. -* annotation-list: Locating Annotations. -* annotation-menu: Annotation Properties. -* annotation-side: Annotation Properties. -* annotation-visible: Annotation Properties. -* annotation-width: Annotation Properties. -* annotationp: Annotation Primitives. -* annotations-at: Locating Annotations. -* annotations-in-region: Locating Annotations. -* anonymous function: Anonymous Functions. -* anonymous lambda expressions (Edebug): Instrumenting. -* apostrophe for quoting: Quoting. -* append: Building Lists. -* append-to-file: Writing to Files. -* apply: Calling Functions. -* apply, and debugging: Internals of Debugger. -* apropos: Help Functions. -* aref: Array Functions. -* argument binding: Argument List. -* argument descriptors: Using Interactive. -* argument evaluation form: Using Interactive. -* argument prompt: Using Interactive. -* arguments, reading: Minibuffers. -* arith-error example: Handling Errors. -* arith-error in division: Arithmetic Operations. -* arithmetic shift: Bitwise Operations. -* array: Arrays. -* array elements: Array Functions. -* arrayp: Array Functions. -* ASCII character codes: Character Type. -* aset: Array Functions. -* ash: Bitwise Operations. -* asin: Math Functions. -* asinh: Math Functions. -* ask-user-about-lock: File Locks. -* ask-user-about-supersession-threat: Modification Time. -* asking the user questions: Yes-or-No Queries. -* assoc: Association Lists. -* association list: Association Lists. -* assq: Association Lists. -* asynchronous subprocess: Asynchronous Processes. -* atan: Math Functions. -* atanh: Math Functions. -* atom <1>: List-related Predicates. -* atom: Cons Cell Type. -* atomic extent: Atomic Extents. -* atoms: List-related Predicates. -* attributes of text: Text Properties. -* Auto Fill mode: Auto Filling. -* auto-fill-function: Auto Filling. -* auto-lower-frame: Raising and Lowering. -* auto-mode-alist: Auto Major Mode. -* auto-raise-frame: Raising and Lowering. -* auto-save-default: Auto-Saving. -* auto-save-file-format: Format Conversion. -* auto-save-file-name-p: Auto-Saving. -* auto-save-hook: Auto-Saving. -* auto-save-interval: Auto-Saving. -* auto-save-list-file-name: Auto-Saving. -* auto-save-mode: Auto-Saving. -* auto-save-timeout: Auto-Saving. -* auto-save-visited-file-name: Auto-Saving. -* auto-saving: Auto-Saving. -* autoload <1>: Domain Specification. -* autoload: Autoload. -* autoload errors: Autoload. -* automatically buffer-local: Intro to Buffer-Local. -* available fonts: Font Instance Names. -* back-to-indentation: Motion by Indent. -* background pixmap: Merging Faces. -* backquote (Edebug): Debugging Backquote. -* backquote (list substitution): Backquote. -* backslash in character constant: Character Type. -* backslash in strings: String Type. -* backslash in symbols: Symbol Type. -* backspace: Character Type. -* backtrace: Internals of Debugger. -* backtrace-debug: Internals of Debugger. -* backtrace-frame: Internals of Debugger. -* backtracking: Backtracking. -* backup file: Backup Files. -* backup files, how to make them: Rename or Copy. -* backup-buffer: Making Backups. -* backup-by-copying: Rename or Copy. -* backup-by-copying-when-linked: Rename or Copy. -* backup-by-copying-when-mismatch: Rename or Copy. -* backup-enable-predicate: Making Backups. -* backup-file-name-p: Backup Names. -* backup-inhibited: Making Backups. -* backward-char: Character Motion. -* backward-delete-char-untabify: Deletion. -* backward-list: List Motion. -* backward-prefix-chars: Motion and Syntax. -* backward-sexp: List Motion. -* backward-to-indentation: Motion by Indent. -* backward-word: Word Motion. -* balancing parentheses: Blinking. -* barf-if-buffer-read-only: Read Only Buffers. -* base buffer: Indirect Buffers. -* base64: Transformations. -* base64-decode-region: Transformations. -* base64-decode-string: Transformations. -* base64-encode-region: Transformations. -* base64-encode-string: Transformations. -* batch mode: Batch Mode. -* batch-byte-compile: Compilation Functions. -* batch-byte-recompile-directory: Compilation Functions. -* beep: Beeping. -* beeping: Beeping. -* before point, insertion: Insertion. -* before-change-function: Change Hooks. -* before-change-functions: Change Hooks. -* before-init-hook: Init File. -* before-revert-hook: Reverting. -* beginning of line: Text Lines. -* beginning of line in regexp: Syntax of Regexps. -* beginning-of-buffer: Buffer End Motion. -* beginning-of-defun: List Motion. -* beginning-of-line: Text Lines. -* bell: Beeping. -* bell character: Character Type. -* bell-volume: Beeping. -* binary files and text files: Files and MS-DOS. -* binary-process-input: MS-DOS Subprocesses. -* binary-process-output: MS-DOS Subprocesses. -* bind-text-domain: Level 3 Primitives. -* binding arguments: Argument List. -* binding local variables: Local Variables. -* binding of a key: Keymap Terminology. -* bit vector: Bit Vectors. -* bit vector length: Sequence Functions. -* bit-vector: Bit Vector Functions. -* bit-vector-p: Bit Vector Functions. -* bitp: Bit Vector Functions. -* bitwise and: Bitwise Operations. -* bitwise exclusive or: Bitwise Operations. -* bitwise not: Bitwise Operations. -* bitwise or: Bitwise Operations. -* blink-matching-open: Blinking. -* blink-matching-paren: Blinking. -* blink-matching-paren-delay: Blinking. -* blink-matching-paren-distance: Blinking. -* blink-paren-function: Blinking. -* blink-paren-hook: Blinking. -* blinking: Blinking. -* bobp: Near Point. -* body of function: Lambda Components. -* bold: Font Instance Characteristics. -* bolp: Near Point. -* bookmark-map: Standard Keymaps. -* boolean: nil and t. -* boolean-specifier-p: Specifier Types. -* bootstrapping XEmacs from temacs: Building XEmacs. -* bottom-toolbar: Specifying the Toolbar. -* bottom-toolbar-height: Other Toolbar Variables. -* bottom-toolbar-visible-p: Other Toolbar Variables. -* boundp: Void Variables. -* box diagrams, for lists: Cons Cell Type. -* box representation for lists: Lists as Boxes. -* break: Debugger. -* breakpoints: Breakpoints. -* bucket (in obarray): Creating Symbols. -* buffer: Buffers. -* buffer contents: Text. -* buffer file name: Buffer File Name. -* buffer input stream: Input Streams. -* buffer list: The Buffer List. -* buffer modification: Buffer Modification. -* buffer names: Buffer Names. -* buffer output stream: Output Streams. -* buffer text notation: Buffer Text Notation. -* buffer, read-only: Read Only Buffers. -* buffer-auto-save-file-name: Auto-Saving. -* buffer-backed-up: Making Backups. -* buffer-base-buffer: Indirect Buffers. -* buffer-disable-undo: Maintaining Undo. -* buffer-enable-undo: Maintaining Undo. -* buffer-end: Point. -* buffer-file-format: Format Conversion. -* buffer-file-name: Buffer File Name. -* buffer-file-number: Buffer File Name. -* buffer-file-truename: Buffer File Name. -* buffer-file-type: Files and MS-DOS. -* buffer-flush-undo: Maintaining Undo. -* buffer-glyph-p: Glyph Types. -* buffer-indirect-children: Indirect Buffers. -* buffer-invisibility-spec: Invisible Text. -* buffer-list: The Buffer List. -* buffer-live-p: Killing Buffers. -* buffer-local variables: Buffer-Local Variables. -* buffer-local variables in modes: Major Mode Conventions. -* buffer-local-variables: Creating Buffer-Local. -* Buffer-menu-mode-map: Standard Keymaps. -* buffer-modified-p: Buffer Modification. -* buffer-modified-tick: Buffer Modification. -* buffer-name: Buffer Names. -* buffer-offer-save <1>: Killing Buffers. -* buffer-offer-save: Saving Buffers. -* buffer-read-only: Read Only Buffers. -* buffer-saved-size <1>: Point. -* buffer-saved-size: Auto-Saving. -* buffer-size: Point. -* buffer-string: Buffer Contents. -* buffer-substring: Buffer Contents. -* buffer-undo-list: Undo. -* bufferp: Buffer Basics. -* buffers menu: Buffers Menu. -* buffers, controlled in windows: Buffers and Windows. -* buffers, creating: Creating Buffers. -* buffers, killing: Killing Buffers. -* buffers-menu-filter: Menu Filters. -* buffers-menu-max-size: Buffers Menu. -* buffers-menu-switch-to-buffer-function: Buffers Menu. -* building lists: Building Lists. -* building XEmacs: Building XEmacs. -* built-in function: What Is a Function. -* bury-buffer: The Buffer List. -* busy-pointer-glyph: Mouse Pointer. -* button-event-p: Event Predicates. -* button-press-event-p: Event Predicates. -* button-release-event-p: Event Predicates. -* bvconcat: Bit Vector Functions. -* byte-code <1>: Compilation Functions. -* byte-code: Byte Compilation. -* byte-code function: Compiled-Function Objects. -* byte-code interpreter: Compilation Functions. -* byte-compile: Compilation Functions. -* byte-compile-dynamic: Dynamic Loading. -* byte-compile-dynamic-docstrings: Docs and Compilation. -* byte-compile-file: Compilation Functions. -* byte-compiling macros: Compiling Macros. -* byte-compiling require: Named Features. -* byte-recompile-directory: Compilation Functions. -* byte-recompile-directory-ignore-errors-p: Compilation Functions. -* bytes: Strings and Characters. -* c++-mode-map: Standard Keymaps. -* C-c: Prefix Keys. -* C-g: Quitting. -* C-h: Prefix Keys. -* C-M-x: Instrumenting. -* c-mode-abbrev-table: Standard Abbrev Tables. -* c-mode-map: Standard Keymaps. -* c-mode-syntax-table: Standard Syntax Tables. -* C-q: Flow Control. -* C-s: Flow Control. -* C-x: Prefix Keys. -* C-x 4: Prefix Keys. -* C-x 5: Prefix Keys. -* C-x a: Prefix Keys. -* C-x n: Prefix Keys. -* C-x r: Prefix Keys. -* caaaar: List Elements. -* caaadr: List Elements. -* caaar: List Elements. -* caadar: List Elements. -* caaddr: List Elements. -* caadr: List Elements. -* caar: List Elements. -* cadaar: List Elements. -* cadadr: List Elements. -* cadar: List Elements. -* caddar: List Elements. -* cadddr: List Elements. -* caddr: List Elements. -* cadr: List Elements. -* call stack: Internals of Debugger. -* call-interactively: Interactive Call. -* call-process: Synchronous Processes. -* call-process-region: Synchronous Processes. -* calling a function: Calling Functions. -* cancel-debug-on-entry: Function Debugging. -* canonicalize-inst-list: Adding Specifications. -* canonicalize-inst-pair: Adding Specifications. -* canonicalize-lax-plist: Working With Lax Plists. -* canonicalize-plist: Working With Normal Plists. -* canonicalize-spec: Adding Specifications. -* canonicalize-spec-list: Adding Specifications. -* canonicalize-tag-set: Specifier Tag Functions. -* capitalization: Character Case. -* capitalize: Character Case. -* capitalize-region: Case Changes. -* capitalize-word: Case Changes. -* car: List Elements. -* car-safe: List Elements. -* case changes: Case Changes. -* case in replacements: Replacing Match. -* case-fold-search: Searching and Case. -* case-replace: Searching and Case. -* case-table-p: Case Tables. -* catch: Catch and Throw. -* category-designator-p: Category Tables. -* category-table: Category Tables. -* category-table-p: Category Tables. -* category-table-value-p: Category Tables. -* CBREAK: Flow Control. -* ccl-elapsed-time: Calling CCL. -* ccl-execute: Calling CCL. -* ccl-execute-on-string: Calling CCL. -* ccl-reset-elapsed-time: Calling CCL. -* cdaaar: List Elements. -* cdaadr: List Elements. -* cdaar: List Elements. -* cdadar: List Elements. -* cdaddr: List Elements. -* cdadr: List Elements. -* cdar: List Elements. -* cddaar: List Elements. -* cddadr: List Elements. -* cddar: List Elements. -* cdddar: List Elements. -* cddddr: List Elements. -* cdddr: List Elements. -* cddr: List Elements. -* CDE dt: CDE dt. -* cdr: List Elements. -* cdr-safe: List Elements. -* ceiling: Numeric Conversions. -* centering point: Vertical Scrolling. -* cerror: Signaling Errors. -* change hooks: Change Hooks. -* change-major-mode-hook: Major Mode Conventions. -* changing key bindings: Changing Key Bindings. -* changing to another buffer: Current Buffer. -* changing window size: Resizing Windows. -* char table type: Char Table Type. -* char-after: Near Point. -* char-before: Near Point. -* char-charset: MULE Characters. -* char-equal: Text Comparison. -* char-int: Character Codes. -* char-int confoundance disease: Character Type. -* char-int-p: Character Codes. -* char-octet: MULE Characters. -* char-or-char-int-p: Character Codes. -* char-or-string-p: Predicates for Strings. -* char-syntax: Syntax Table Functions. -* char-table-p: Char Tables. -* char-table-type: Char Table Types. -* char-table-type-list: Char Table Types. -* char-to-string: String Conversion. -* char=: Text Comparison. -* character arrays: Strings and Characters. -* character case: Character Case. -* character descriptor: Character Descriptors. -* character insertion: Commands for Insertion. -* character printing: Describing Characters. -* character set (in regexp): Syntax of Regexps. -* character to string: String Conversion. -* character-to-event: Converting Events. -* characteristics of font instances: Font Instance Characteristics. -* characterp: Predicates for Characters. -* characters: Strings and Characters. -* characters for interactive codes: Interactive Codes. -* character quote: Syntax Class Table. -* charset type: Charset Type. -* charset-ccl-program: Charset Property Functions. -* charset-chars: Charset Property Functions. -* charset-columns: Charset Property Functions. -* charset-dimension: Charset Property Functions. -* charset-direction: Charset Property Functions. -* charset-doc-string: Charset Property Functions. -* charset-final: Charset Property Functions. -* charset-from-attributes: Basic Charset Functions. -* charset-graphic: Charset Property Functions. -* charset-list: Basic Charset Functions. -* charset-name: Charset Property Functions. -* charset-property: Charset Property Functions. -* charset-registry: Charset Property Functions. -* charset-reverse-direction-charset: Basic Charset Functions. -* charsetp: Charsets. -* check-argument-type: Signaling Errors. -* check-toolbar-button-syntax: Toolbar Descriptor Format. -* check-valid-char-table-value: Working With Char Tables. -* check-valid-inst-list: Specifier Validation Functions. -* check-valid-instantiator: Specifier Validation Functions. -* check-valid-plist: Property Lists. -* check-valid-spec-list: Specifier Validation Functions. -* child process: Processes. -* children, of extent: Extent Parents. -* CL note--allocate more storage: Garbage Collection. -* CL note--case of letters: Symbol Type. -* CL note--default optional arg: Argument List. -* CL note--integers vrs eq: Comparison of Numbers. -* CL note--lack union, set: Sets And Lists. -* CL note--only throw in Emacs: Catch and Throw. -* CL note--rplaca vrs setcar: Modifying Lists. -* CL note--set local: Setting Variables. -* CL note--special forms compared: Special Forms. -* CL note--special variables: Variable Scoping. -* CL note--symbol in obarrays: Creating Symbols. -* cl-read: Reading in Edebug. -* cl-specs.el: Instrumenting. -* cl.el (Edebug): Instrumenting. -* cleanup forms: Cleanups. -* clear-abbrev-table: Abbrev Tables. -* clear-message: The Echo Area. -* clear-range-table: Working With Range Tables. -* clear-visited-file-modtime: Modification Time. -* close parenthesis: Blinking. -* close-database: Connecting to a Database. -* close parenthesis character: Syntax Class Table. -* closures not available: Extent. -* clrhash: Working With Hash Tables. -* codes, interactive, description of: Interactive Codes. -* coding standards: Tips. -* coding system type: Coding System Type. -* coding-category-list: Detection of Textual Encoding. -* coding-category-system: Detection of Textual Encoding. -* coding-priority-list: Detection of Textual Encoding. -* coding-system-doc-string: Coding System Property Functions. -* coding-system-list: Basic Coding System Functions. -* coding-system-name: Basic Coding System Functions. -* coding-system-p: Coding Systems. -* coding-system-property: Coding System Property Functions. -* coding-system-type: Coding System Property Functions. -* color instance type: Color Instance Type. -* color instances: Color Instances. -* color-instance-name: Color Instance Properties. -* color-instance-p: Color Instances. -* color-instance-rgb-components: Color Instance Properties. -* color-name: Color Convenience Functions. -* color-pixmap-image-instance-p: Image Instance Types. -* color-rgb-components: Color Convenience Functions. -* color-specifier-p <1>: Color Specifiers. -* color-specifier-p: Specifier Types. -* colorize-image-instance: Image Instance Functions. -* colors: Colors. -* columns: Columns. -* command: What Is a Function. -* command descriptions: A Sample Function Description. -* command history: Command History. -* command in keymap: Key Lookup. -* command line arguments: Command Line Arguments. -* command line options: Command Line Arguments. -* command loop: Command Loop. -* command loop, recursive: Recursive Editing. -* command-debug-status: Internals of Debugger. -* command-execute: Interactive Call. -* command-history: Command History. -* command-history-map: Standard Keymaps. -* command-line: Command Line Arguments. -* command-line-args: Command Line Arguments. -* command-line-functions: Command Line Arguments. -* command-line-processed: Command Line Arguments. -* command-switch-alist: Command Line Arguments. -* commandp: Interactive Call. -* commandp example: High-Level Completion. -* commands, defining: Defining Commands. -* comment syntax: Syntax Class Table. -* comments: Comments. -* comment ender: Syntax Class Table. -* comment starter: Syntax Class Table. -* Common Lisp: Lisp History. -* Common Lisp (Edebug): Instrumenting. -* compare-buffer-substrings: Comparing Text. -* comparing buffer text: Comparing Text. -* comparison of modification time: Modification Time. -* compilation: Byte Compilation. -* compilation functions: Compilation Functions. -* compile-defun: Compilation Functions. -* compiled function: Compiled-Function Objects. -* compiled-function-arglist: Compiled-Function Objects. -* compiled-function-constants: Compiled-Function Objects. -* compiled-function-doc-string: Compiled-Function Objects. -* compiled-function-domain: Compiled-Function Objects. -* compiled-function-instructions: Compiled-Function Objects. -* compiled-function-interactive: Compiled-Function Objects. -* compiled-function-p: What Is a Function. -* compiled-function-stack-size: Compiled-Function Objects. -* complete key: Keymap Terminology. -* completing-read: Minibuffer Completion. -* completion: Completion. -* completion, file name: File Name Completion. -* completion, user name: User Name Completion. -* completion-auto-help: Completion Commands. -* completion-ignore-case: Basic Completion. -* completion-ignored-extensions: File Name Completion. -* complex arguments: Minibuffers. -* complex command: Command History. -* complex-buffers-menu-p: Buffers Menu. -* compose-region: Composite Characters. -* composite-char-string: Composite Characters. -* concat: Creating Strings. -* concatenating lists: Rearrangement. -* concatenating strings: Creating Strings. -* cond: Conditionals. -* condition name: Error Symbols. -* condition-case: Handling Errors. -* conditional evaluation: Conditionals. -* cons: Building Lists. -* cons cell as box: Lists as Boxes. -* cons cells: Building Lists. -* consing: Building Lists. -* console-device-list: Basic Console Functions. -* console-disable-input: Console and Device I/O. -* console-enable-input: Console and Device I/O. -* console-list: Basic Console Functions. -* console-live-p: Connecting to a Console or Device. -* console-type-image-conversion-list: Image Instantiator Conversion. -* consolep: Consoles and Devices. -* consoles: Consoles and Devices. -* consp: List-related Predicates. -* continuation lines: Truncation. -* continuation-glyph: Redisplay Glyphs. -* continue-process: Signals to Processes. -* control character printing: Describing Characters. -* control characters: Character Type. -* control characters in display: Usual Display. -* control characters, reading: Quoted Character Input. -* control structures: Control Structures. -* control-arrow-glyph: Redisplay Glyphs. -* Control-X-prefix: Prefix Keys. -* conventions for writing minor modes: Minor Mode Conventions. -* conversion of image instantiators: Image Instantiator Conversion. -* conversion of strings: String Conversion. -* copy-alist: Association Lists. -* copy-category-table: Category Tables. -* copy-coding-system: Basic Coding System Functions. -* copy-event: Working With Events. -* copy-extent: Detached Extents. -* copy-face: Basic Face Functions. -* copy-file: Changing File Attributes. -* copy-hash-table: Introduction to Hash Tables. -* copy-keymap: Creating Keymaps. -* copy-marker: Creating Markers. -* copy-range-table: Introduction to Range Tables. -* copy-region-as-kill: Kill Functions. -* copy-sequence: Sequence Functions. -* copy-specifier: Other Specification Functions. -* copy-syntax-table: Syntax Table Functions. -* copying alists: Association Lists. -* copying bit vectors: Bit Vector Functions. -* copying files: Changing File Attributes. -* copying lists: Building Lists. -* copying sequences: Sequence Functions. -* copying strings: Creating Strings. -* copying vectors: Vector Functions. -* cos: Math Functions. -* cosh: Math Functions. -* count-lines: Text Lines. -* count-loop: A Sample Function Description. -* counting columns: Columns. -* coverage testing: Coverage Testing. -* create-device-hook: Connecting to a Console or Device. -* create-file-buffer: Subroutines of Visiting. -* create-frame-hook: Frame Hooks. -* create-tooltalk-message: Elisp Interface for Sending Messages. -* create-tooltalk-pattern: Elisp Interface for Receiving Messages. -* creating buffers: Creating Buffers. -* creating keymaps: Creating Keymaps. -* ctl-arrow: Usual Display. -* ctl-x-4-map <1>: Standard Keymaps. -* ctl-x-4-map: Prefix Keys. -* ctl-x-5-map <1>: Standard Keymaps. -* ctl-x-5-map: Prefix Keys. -* ctl-x-map <1>: Standard Keymaps. -* ctl-x-map: Prefix Keys. -* cube-root: Math Functions. -* current binding: Local Variables. -* current buffer: Current Buffer. -* current buffer excursion: Excursions. -* current buffer mark: The Mark. -* current buffer point and mark (Edebug): Edebug Display Update. -* current buffer position: Point. -* current command: Command Loop Info. -* current stack frame: Using Debugger. -* current-buffer: Current Buffer. -* current-case-table: Case Tables. -* current-column: Columns. -* current-fill-column: Margins. -* current-frame-configuration: Frame Configurations. -* current-global-map: Active Keymaps. -* current-indentation: Primitive Indent. -* current-input-mode: Input Modes. -* current-justification: Filling. -* current-keymaps: Active Keymaps. -* current-kill: Low-Level Kill Ring. -* current-left-margin: Margins. -* current-local-map: Active Keymaps. -* current-menubar: Menubar. -* current-message: The Echo Area. -* current-minor-mode-maps: Active Keymaps. -* current-mouse-event: Command Loop Info. -* current-prefix-arg: Prefix Command Arguments. -* current-time: Time of Day. -* current-time-string: Time of Day. -* current-time-zone: Time of Day. -* current-window-configuration: Window Configurations. -* cursor (mouse): Mouse Pointer. -* cursor-in-echo-area: The Echo Area. -* cust-print: Printing in Edebug. -* cut buffer: X Selections. -* cyclic ordering of windows: Cyclic Window Ordering. -* data type: Lisp Data Types. -* data-directory: Accessing Documentation. -* database: Databases. -* database type: Database Type. -* database-file-name: Other Database Functions. -* database-last-error: Other Database Functions. -* database-live-p: Connecting to a Database. -* database-subtype: Other Database Functions. -* database-type: Other Database Functions. -* databasep: Databases. -* deallocate-event: Working With Events. -* debug: Invoking the Debugger. -* debug-allocation: Garbage Collection. -* debug-allocation-backtrace: Garbage Collection. -* debug-ignored-errors: Error Debugging. -* debug-on-entry: Function Debugging. -* debug-on-error: Error Debugging. -* debug-on-error use: Processing of Errors. -* debug-on-next-call: Internals of Debugger. -* debug-on-quit: Infinite Loops. -* debug-on-signal: Error Debugging. -* debug-on-signal use: Handling Errors. -* debugger <1>: Internals of Debugger. -* debugger: Debugger. -* debugger command list: Debugger Commands. -* debugger-mode-map: Standard Keymaps. -* debugging errors: Error Debugging. -* debugging specific functions: Function Debugging. -* decode-big5-char: Big5 and Shift-JIS Functions. -* decode-coding-region: Encoding and Decoding Text. -* decode-shift-jis-char: Big5 and Shift-JIS Functions. -* decode-time: Time Conversion. -* decoding file formats: Format Conversion. -* decompose-region: Composite Characters. -* decrement field of register: Cons Cell Type. -* dedicated window: Choosing Window. -* deep binding: Impl of Scope. -* def-edebug-spec: Instrumenting Macro Calls. -* defalias: Defining Functions. -* default argument string: Interactive Codes. -* default init file: Init File. -* default value: Default Value. -* default-abbrev-mode: Abbrev Mode. -* default-boundp: Default Value. -* default-buffer-file-type: Files and MS-DOS. -* default-case-fold-search: Searching and Case. -* default-ctl-arrow: Usual Display. -* default-deselect-frame-hook: Raising and Lowering. -* default-directory: File Name Expansion. -* default-file-modes: Changing File Attributes. -* default-fill-column: Margins. -* default-frame-name: Frame Name. -* default-frame-plist: Initial Properties. -* default-justification: Filling. -* default-major-mode: Auto Major Mode. -* default-menubar: Menubar. -* default-minibuffer-frame: Minibuffers and Frames. -* default-modeline-format: Modeline Variables. -* default-popup-menu: Pop-Up Menus. -* default-select-frame-hook: Raising and Lowering. -* default-text-properties: Examining Properties. -* default-toolbar: Specifying the Toolbar. -* default-toolbar-height: Other Toolbar Variables. -* default-toolbar-position: Specifying the Toolbar. -* default-toolbar-visible-p: Other Toolbar Variables. -* default-toolbar-width: Other Toolbar Variables. -* default-truncate-lines: Truncation. -* default-value: Default Value. -* default-x-device: Resources. -* default.el: Start-up Summary. -* defconst <1>: Domain Specification. -* defconst: Defining Variables. -* defcustom: Variable Definitions. -* defgroup: Group Definitions. -* define-abbrev: Defining Abbrevs. -* define-abbrev-table: Abbrev Tables. -* define-derived-mode: Derived Modes. -* define-error: Error Symbols. -* define-function: Defining Functions. -* define-key: Changing Key Bindings. -* define-logical-name: Changing File Attributes. -* define-obsolete-function-alias: Obsoleteness. -* define-obsolete-variable-alias: Obsoleteness. -* define-prefix-command: Prefix Keys. -* define-specifier-tag: Specifier Tag Functions. -* defining a function: Defining Functions. -* defining commands: Defining Commands. -* defining-kbd-macro: Keyboard Macros. -* definition of a symbol: Definitions. -* defmacro: Defining Macros. -* defsubst: Inline Functions. -* defun: Defining Functions. -* defun-prompt-regexp: List Motion. -* defvar <1>: Domain Specification. -* defvar: Defining Variables. -* defvaralias: Variable Aliases. -* deiconify-frame: Visibility of Frames. -* delete: Sets And Lists. -* delete previous char: Deletion. -* delete-annotation: Annotation Primitives. -* delete-auto-save-file-if-necessary: Auto-Saving. -* delete-auto-save-files: Auto-Saving. -* delete-backward-char: Deletion. -* delete-blank-lines: User-Level Deletion. -* delete-char: Deletion. -* delete-device: Connecting to a Console or Device. -* delete-device-hook: Connecting to a Console or Device. -* delete-directory: Create/Delete Dirs. -* delete-exited-processes: Deleting Processes. -* delete-extent: Creating and Modifying Extents. -* delete-file: Changing File Attributes. -* delete-frame: Deleting Frames. -* delete-frame-hook: Frame Hooks. -* delete-horizontal-space: User-Level Deletion. -* delete-indentation: User-Level Deletion. -* delete-menu-item: Modifying Menus. -* delete-other-windows: Deleting Windows. -* delete-process: Deleting Processes. -* delete-region: Deletion. -* delete-to-left-margin: Margins. -* delete-window: Deleting Windows. -* delete-windows-on: Deleting Windows. -* deleting files: Changing File Attributes. -* deleting processes: Deleting Processes. -* deleting whitespace: User-Level Deletion. -* deleting windows: Deleting Windows. -* deletion of elements: Sets And Lists. -* deletion of frames: Deleting Frames. -* deletion vs killing: Deletion. -* delq: Sets And Lists. -* demibold: Font Instance Characteristics. -* describe-bindings: Scanning Keymaps. -* describe-bindings-internal: Scanning Keymaps. -* describe-buffer-case-table: Case Tables. -* describe-mode: Mode Help. -* describe-prefix-bindings: Help Functions. -* describe-tooltalk-message: Elisp Interface for Receiving Messages. -* description for interactive codes: Interactive Codes. -* description format: Format of Descriptions. -* deselect-frame-hook: Frame Hooks. -* destroy-tooltalk-message: Elisp Interface for Sending Messages. -* destroy-tooltalk-pattern: Elisp Interface for Receiving Messages. -* destructive-alist-to-plist: Converting Plists To/From Alists. -* destructive-plist-to-alist: Converting Plists To/From Alists. -* detach-extent: Detached Extents. -* detached extent: Detached Extents. -* detect-coding-region: Detection of Textual Encoding. -* device-baud-rate <1>: Terminal Output. -* device-baud-rate: Console and Device I/O. -* device-class: Console Types and Device Classes. -* device-frame-list <1>: Basic Device Functions. -* device-frame-list: Finding All Frames. -* device-list: Basic Device Functions. -* device-live-p: Connecting to a Console or Device. -* device-matches-specifier-tag-set-p: Specifier Tag Functions. -* device-matching-specifier-tag-list: Specifier Tag Functions. -* device-or-frame-p: Basic Device Functions. -* device-or-frame-type: Console Types and Device Classes. -* device-type: Console Types and Device Classes. -* device-x-display: Connecting to a Console or Device. -* devicep: Consoles and Devices. -* devices: Consoles and Devices. -* dgettext: Level 3 Primitives. -* diagrams, boxed, for lists: Cons Cell Type. -* dialog box: Dialog Boxes. -* digit-argument: Prefix Command Arguments. -* ding: Beeping. -* directory name: Directory Names. -* directory name abbreviation: Directory Names. -* directory part (of file name): File Name Components. -* directory-abbrev-alist: Directory Names. -* directory-file-name: Directory Names. -* directory-files: Contents of Directories. -* directory-oriented functions: Contents of Directories. -* dired-kept-versions: Numbered Backups. -* dired-mode-map: Standard Keymaps. -* disable undo: Maintaining Undo. -* disable-command: Disabling Commands. -* disable-menu-item: Modifying Menus. -* disable-timeout: Timers. -* disabled: Disabling Commands. -* disabled command: Disabling Commands. -* disabled-command-hook: Disabling Commands. -* disassemble: Disassembly. -* disassembled byte-code: Disassembly. -* discard input: Peeking and Discarding. -* discard-input: Peeking and Discarding. -* dispatch-event: Dispatching an Event. -* dispatching an event: Dispatching an Event. -* display columns: Size and Position. -* display lines: Size and Position. -* display order: Extent Endpoints. -* display table: Display Tables. -* display update: Refresh Screen. -* display-buffer: Choosing Window. -* display-buffer-function: Choosing Window. -* display-completion-list: Completion Commands. -* display-error: Processing of Errors. -* display-message: The Echo Area. -* display-warning: Warnings. -* display-warning-minimum-level: Warnings. -* display-warning-suppressed-classes: Warnings. -* displaying a buffer: Displaying Buffers. -* do-auto-save: Auto-Saving. -* DOC (documentation) file: Documentation Basics. -* doc-directory: Accessing Documentation. -* documentation: Accessing Documentation. -* documentation conventions: Documentation Basics. -* documentation for major mode: Mode Help. -* documentation notation: Evaluation Notation. -* documentation of function: Function Documentation. -* documentation strings: Documentation. -* documentation, keys in: Keys in Documentation. -* documentation-property: Accessing Documentation. -* domain: Level 3 Primitives. -* domain (in a specifier): Specifiers In-Depth. -* domain-of: Level 3 Primitives. -* dotted lists (Edebug): Specification List. -* dotted pair notation: Dotted Pair Notation. -* double-quote in strings: String Type. -* down-list: List Motion. -* downcase: Character Case. -* downcase-region: Case Changes. -* downcase-word: Case Changes. -* downcasing in lookup-key: Key Sequence Input. -* drag: Drag Interface. -* drag and drop: Drag and Drop. -* Drag API: Drag Interface. -* dribble file: Recording Input. -* drop: Drop Interface. -* Drop API: Drop Interface. -* dump-emacs: Building XEmacs. -* duplicable extent: Duplicable Extents. -* dynamic loading of documentation: Docs and Compilation. -* dynamic loading of functions: Dynamic Loading. -* dynamic scoping: Variable Scoping. -* echo area: The Echo Area. -* echo-keystrokes <1>: The Echo Area. -* echo-keystrokes: Command Loop Info. -* edebug: Embedded Breakpoints. -* Edebug: Edebug. -* Edebug execution modes: Edebug Execution Modes. -* Edebug mode: Edebug. -* Edebug specification list: Specification List. -* edebug-`: Debugging Backquote. -* edebug-all-defs <1>: Edebug Options. -* edebug-all-defs: Instrumenting. -* edebug-all-forms <1>: Edebug Options. -* edebug-all-forms: Instrumenting. -* edebug-continue-kbd-macro: Edebug Options. -* edebug-display-freq-count: Coverage Testing. -* edebug-eval-top-level-form: Instrumenting. -* edebug-global-break-condition <1>: Edebug Options. -* edebug-global-break-condition: Global Break Condition. -* edebug-initial-mode: Edebug Options. -* edebug-on-error <1>: Edebug Options. -* edebug-on-error: Trapping Errors. -* edebug-on-quit <1>: Edebug Options. -* edebug-on-quit: Trapping Errors. -* edebug-print-circle <1>: Edebug Options. -* edebug-print-circle: Printing in Edebug. -* edebug-print-length <1>: Edebug Options. -* edebug-print-length: Printing in Edebug. -* edebug-print-level <1>: Edebug Options. -* edebug-print-level: Printing in Edebug. -* edebug-print-trace-after <1>: Edebug Options. -* edebug-print-trace-after: Tracing. -* edebug-print-trace-before <1>: Edebug Options. -* edebug-print-trace-before: Tracing. -* edebug-save-displayed-buffer-points <1>: Edebug Options. -* edebug-save-displayed-buffer-points: Edebug Display Update. -* edebug-save-windows <1>: Edebug Options. -* edebug-save-windows: Edebug Display Update. -* edebug-set-global-break-condition: Global Break Condition. -* edebug-setup-hook: Edebug Options. -* edebug-test-coverage: Edebug Options. -* edebug-trace <1>: Edebug Options. -* edebug-trace: Tracing. -* edebug-tracing: Tracing. -* edebug-unwrap: Specification List. -* edebug-unwrap-results <1>: Edebug Options. -* edebug-unwrap-results: Debugging Backquote. -* edit-abbrevs-map: Standard Keymaps. -* edit-and-eval-command: Object from Minibuffer. -* edit-menu-filter: Menu Filters. -* edit-tab-stops-map: Standard Keymaps. -* editing types: Editing Types. -* editor command loop: Command Loop. -* eighth: List Elements. -* electric-buffer-menu-mode-map: Standard Keymaps. -* electric-future-map: A Sample Variable Description. -* electric-history-map: Standard Keymaps. -* element (of list): Lists. -* elements of sequences: Sequence Functions. -* elt: Sequence Functions. -* emacs-build-time: Building XEmacs. -* emacs-lisp-mode-map: Standard Keymaps. -* emacs-lisp-mode-syntax-table: Standard Syntax Tables. -* emacs-major-version: Building XEmacs. -* emacs-minor-version: Building XEmacs. -* emacs-pid: System Environment. -* emacs-version: Building XEmacs. -* EMACSLOADPATH environment variable: How Programs Do Loading. -* embedded breakpoints: Embedded Breakpoints. -* empty list: Cons Cell Type. -* enable-command: Disabling Commands. -* enable-flow-control: Flow Control. -* enable-flow-control-on: Flow Control. -* enable-local-eval: Auto Major Mode. -* enable-local-variables: Auto Major Mode. -* enable-menu-item: Modifying Menus. -* enable-recursive-minibuffers: Minibuffer Misc. -* encode-big5-char: Big5 and Shift-JIS Functions. -* encode-coding-region: Encoding and Decoding Text. -* encode-shift-jis-char: Big5 and Shift-JIS Functions. -* encode-time: Time Conversion. -* encoding file formats: Format Conversion. -* end of buffer marker: Creating Markers. -* end-of-buffer: Buffer End Motion. -* end-of-defun: List Motion. -* end-of-file: Input Functions. -* end-of-line: Text Lines. -* enlarge-window: Resizing Windows. -* enlarge-window-horizontally: Resizing Windows. -* enlarge-window-pixels: Resizing Windows. -* enqueue-eval-event: Reading One Event. -* environment: Intro Eval. -* environment variable access: System Environment. -* environment variables, subprocesses: Subprocess Creation. -* eobp: Near Point. -* eolp: Near Point. -* eq: Equality Predicates. -* equal: Equality Predicates. -* equality: Equality Predicates. -* erase-buffer: Deletion. -* error: Signaling Errors. -* error cleanup: Cleanups. -* error debugging: Error Debugging. -* error display: The Echo Area. -* error handler: Handling Errors. -* error in debug: Invoking the Debugger. -* error message notation: Error Messages. -* error name: Error Symbols. -* error symbol: Error Symbols. -* error-conditions: Error Symbols. -* error-message-string: Processing of Errors. -* errors: Errors. -* esc-map: Prefix Keys. -* ESC-prefix: Prefix Keys. -* escape <1>: Syntax Class Table. -* escape: Character Type. -* escape characters: Output Variables. -* escape characters in printing: Output Functions. -* escape sequence: Character Type. -* eval: Eval. -* eval, and debugging: Internals of Debugger. -* eval-and-compile: Eval During Compile. -* eval-buffer: Eval. -* eval-current-buffer (Edebug): Instrumenting. -* eval-defun (Edebug): Instrumenting. -* eval-event-p: Event Predicates. -* eval-expression (Edebug): Instrumenting. -* eval-minibuffer: Object from Minibuffer. -* eval-region: Eval. -* eval-region (Edebug): Instrumenting. -* eval-when-compile: Eval During Compile. -* evaluated expression argument: Interactive Codes. -* evaluation: Evaluation. -* evaluation error: Local Variables. -* evaluation list (Edebug): Eval List. -* evaluation notation: Evaluation Notation. -* evaluation of buffer contents: Eval. -* event printing: Describing Characters. -* event-buffer: Window-Level Event Position Info. -* event-button: Accessing Other Event Info. -* event-closest-point: Event Text Position Info. -* event-device: Accessing Other Event Info. -* event-frame: Frame-Level Event Position Info. -* event-function: Accessing Other Event Info. -* event-glyph-extent: Event Glyph Position Info. -* event-glyph-x-pixel: Event Glyph Position Info. -* event-glyph-y-pixel: Event Glyph Position Info. -* event-key: Accessing Other Event Info. -* event-live-p: Event Predicates. -* event-matches-key-specifier-p: Key Sequences. -* event-modifier-bits: Accessing Other Event Info. -* event-modifiers: Accessing Other Event Info. -* event-object: Accessing Other Event Info. -* event-over-border-p: Other Event Position Info. -* event-over-glyph-p: Event Glyph Position Info. -* event-over-modeline-p: Event Text Position Info. -* event-over-text-area-p: Event Text Position Info. -* event-over-toolbar-p: Event Toolbar Position Info. -* event-point: Event Text Position Info. -* event-process: Accessing Other Event Info. -* event-timestamp: Accessing Other Event Info. -* event-to-character: Converting Events. -* event-toolbar-button: Event Toolbar Position Info. -* event-type: Event Contents. -* event-window: Window-Level Event Position Info. -* event-window-x-pixel: Window-Level Event Position Info. -* event-window-y-pixel: Window-Level Event Position Info. -* event-x: Event Text Position Info. -* event-x-pixel: Frame-Level Event Position Info. -* event-y: Event Text Position Info. -* event-y-pixel: Frame-Level Event Position Info. -* eventp: Events. -* events: Events. -* events-to-keys: Converting Events. -* examining windows: Buffers and Windows. -* examples of using interactive: Interactive Examples. -* exchange-point-and-mark: The Mark. -* excursion: Excursions. -* exec-directory: Subprocess Creation. -* exec-path: Subprocess Creation. -* execute program: Subprocess Creation. -* execute with prefix argument: Interactive Call. -* execute-extended-command: Interactive Call. -* execute-kbd-macro: Keyboard Macros. -* executing-macro: Keyboard Macros. -* execution speed: Compilation Tips. -* exit: Recursive Editing. -* exit recursive editing: Recursive Editing. -* exit-minibuffer: Minibuffer Misc. -* exit-recursive-edit: Recursive Editing. -* exiting XEmacs: Getting Out. -* exp: Math Functions. -* expand-abbrev: Abbrev Expansion. -* expand-file-name: File Name Expansion. -* expansion of file names: File Name Expansion. -* expansion of macros: Expansion. -* expression: Intro Eval. -* expression prefix: Syntax Class Table. -* expt: Math Functions. -* extended-command-history: Minibuffer History. -* extent <1>: Extents. -* extent: Variable Scoping. -* extent children: Extent Parents. -* extent end position: Extent Endpoints. -* extent endpoint: Extent Endpoints. -* extent order: Extent Endpoints. -* extent parent: Extent Parents. -* extent priority: Intro to Extents. -* extent property: Extent Properties. -* extent replica: Duplicable Extents. -* extent start position: Extent Endpoints. -* extent, duplicable: Duplicable Extents. -* extent, unique: Duplicable Extents. -* extent-at: Finding Extents. -* extent-begin-glyph: Extent Properties. -* extent-begin-glyph-layout: Extent Properties. -* extent-children: Extent Parents. -* extent-descendants: Extent Parents. -* extent-detached-p: Detached Extents. -* extent-end-glyph: Extent Properties. -* extent-end-glyph-layout: Extent Properties. -* extent-end-position: Extent Endpoints. -* extent-face: Extent Properties. -* extent-in-region-p: Mapping Over Extents. -* extent-keymap: Extent Properties. -* extent-length: Extent Endpoints. -* extent-list: Finding Extents. -* extent-live-p: Creating and Modifying Extents. -* extent-mouse-face: Extent Properties. -* extent-object: Creating and Modifying Extents. -* extent-parent: Extent Parents. -* extent-priority: Extent Properties. -* extent-properties: Extent Properties. -* extent-property: Extent Properties. -* extent-start-position: Extent Endpoints. -* extentp: Extents. -* extents, locating: Finding Extents. -* extents, mapping: Mapping Over Extents. -* face type: Face Type. -* face-background: Face Convenience Functions. -* face-background-instance: Face Convenience Functions. -* face-background-pixmap: Face Convenience Functions. -* face-background-pixmap-instance: Face Convenience Functions. -* face-boolean-specifier-p: Specifier Types. -* face-differs-from-default-p: Other Face Display Functions. -* face-equal: Other Face Display Functions. -* face-font: Face Convenience Functions. -* face-font-instance: Face Convenience Functions. -* face-font-name: Face Convenience Functions. -* face-foreground: Face Convenience Functions. -* face-foreground-instance: Face Convenience Functions. -* face-list: Basic Face Functions. -* face-property: Face Properties. -* face-property-instance: Face Properties. -* face-underline-p: Face Convenience Functions. -* facep: Basic Face Functions. -* faces: Faces and Window-System Objects. -* fallback (in a specifier): Specifier Instancing. -* false: nil and t. -* fboundp: Function Cells. -* fceiling: Rounding Operations. -* featurep: Named Features. -* features: Named Features. -* fetch-bytecode: Dynamic Loading. -* ffloor: Rounding Operations. -* field width: Formatting Strings. -* fifth: List Elements. -* file accessibility: Testing Accessibility. -* file age: Testing Accessibility. -* file attributes: File Attributes. -* file format conversion: Format Conversion. -* file hard link: Changing File Attributes. -* file locks: File Locks. -* file mode specification error: Auto Major Mode. -* file modes and MS-DOS: Changing File Attributes. -* file modification time: Testing Accessibility. -* file name completion subroutines: File Name Completion. -* file name of buffer: Buffer File Name. -* file name of directory: Directory Names. -* file names: File Names. -* file names in directory: Contents of Directories. -* file open error: Subroutines of Visiting. -* file symbolic links: Kinds of Files. -* file types on MS-DOS: Files and MS-DOS. -* file with multiple names: Changing File Attributes. -* file-accessible-directory-p: Testing Accessibility. -* file-already-exists: Changing File Attributes. -* file-attributes: File Attributes. -* file-directory-p: Kinds of Files. -* file-error: How Programs Do Loading. -* file-executable-p: Testing Accessibility. -* file-exists-p: Testing Accessibility. -* file-local-copy: Magic File Names. -* file-locked: File Locks. -* file-locked-p: File Locks. -* file-menu-filter: Menu Filters. -* file-modes: File Attributes. -* file-name-absolute-p: Relative File Names. -* file-name-all-completions: File Name Completion. -* file-name-as-directory: Directory Names. -* file-name-buffer-file-type-alist: Files and MS-DOS. -* file-name-completion: File Name Completion. -* file-name-directory: File Name Components. -* file-name-history: Minibuffer History. -* file-name-nondirectory: File Name Components. -* file-name-sans-extension: File Name Components. -* file-name-sans-versions: File Name Components. -* file-newer-than-file-p: Testing Accessibility. -* file-newest-backup: Backup Names. -* file-nlinks: File Attributes. -* file-ownership-preserved-p: Testing Accessibility. -* file-precious-flag: Saving Buffers. -* file-readable-p: Testing Accessibility. -* file-regular-p: Kinds of Files. -* file-relative-name: File Name Expansion. -* file-supersession: Modification Time. -* file-symlink-p: Kinds of Files. -* file-truename: Truenames. -* file-writable-p: Testing Accessibility. -* fill-column: Margins. -* fill-individual-paragraphs: Filling. -* fill-individual-varying-indent: Filling. -* fill-paragraph: Filling. -* fill-paragraph-function: Filling. -* fill-prefix: Margins. -* fill-region: Filling. -* fill-region-as-paragraph: Filling. -* fillarray: Array Functions. -* filling a paragraph: Filling. -* filling, automatic: Auto Filling. -* filling, explicit: Filling. -* filter function: Filter Functions. -* find-backup-file-name: Backup Names. -* find-buffer-file-type: Files and MS-DOS. -* find-charset: Basic Charset Functions. -* find-charset-region: MULE Characters. -* find-charset-string: MULE Characters. -* find-coding-system: Basic Coding System Functions. -* find-file: Visiting Functions. -* find-file-binary: Files and MS-DOS. -* find-file-hooks: Visiting Functions. -* find-file-name-handler: Magic File Names. -* find-file-noselect: Visiting Functions. -* find-file-not-found-hooks: Visiting Functions. -* find-file-other-window: Visiting Functions. -* find-file-read-only: Visiting Functions. -* find-file-text: Files and MS-DOS. -* find-menu-item: Modifying Menus. -* finding files: Visiting Files. -* finding windows: Selecting Windows. -* first: List Elements. -* first-change-hook: Change Hooks. -* fixup-whitespace: User-Level Deletion. -* float: Numeric Conversions. -* float-output-format: Output Variables. -* floating-point numbers, printing: Output Variables. -* floatp: Predicates on Numbers. -* floor: Numeric Conversions. -* flow control characters: Flow Control. -* flush input: Peeking and Discarding. -* fmakunbound: Function Cells. -* focus-frame: Input Focus. -* following-char: Near Point. -* font instance characteristics: Font Instance Characteristics. -* font instance name: Font Instance Names. -* font instance size: Font Instance Size. -* font instance type: Font Instance Type. -* font-instance-name: Font Instance Names. -* font-instance-p: Font Instances. -* font-instance-properties: Font Instance Characteristics. -* font-instance-truename: Font Instance Names. -* font-name: Font Convenience Functions. -* font-properties: Font Convenience Functions. -* font-specifier-p <1>: Font Specifiers. -* font-specifier-p: Specifier Types. -* font-truename: Font Convenience Functions. -* fonts <1>: Fonts. -* fonts: Some Terms. -* fonts available: Font Instance Names. -* foo: A Sample Function Description. -* for: Argument Evaluation. -* force-cursor-redisplay: Refresh Screen. -* force-highlight-extent: Extents and Events. -* forcing redisplay: Waiting. -* format: Formatting Strings. -* format definition: Format Conversion. -* format of keymaps: Format of Keymaps. -* format of menus: Menu Format. -* format of the menubar: Menubar Format. -* format precision: Formatting Strings. -* format specification: Formatting Strings. -* format-alist: Format Conversion. -* format-buffers-menu-line: Buffers Menu. -* format-find-file: Format Conversion. -* format-insert-file: Format Conversion. -* format-time-string: Time Conversion. -* format-write-file: Format Conversion. -* formatting strings: Formatting Strings. -* formfeed: Character Type. -* forms: Intro Eval. -* forward-char: Character Motion. -* forward-comment: Parsing Expressions. -* forward-line: Text Lines. -* forward-list: List Motion. -* forward-sexp: List Motion. -* forward-to-indentation: Motion by Indent. -* forward-word: Word Motion. -* fourth: List Elements. -* frame: Frames. -* frame configuration: Frame Configurations. -* frame hooks: Frame Hooks. -* frame name: Frame Name. -* frame of terminal: Basic Windows. -* frame position: Size and Position. -* frame size: Size and Position. -* frame visibility: Visibility of Frames. -* frame-device: Basic Device Functions. -* frame-height: Size and Position. -* frame-icon-title-format: Frame Titles. -* frame-iconified-p: Visibility of Frames. -* frame-list: Finding All Frames. -* frame-live-p: Deleting Frames. -* frame-name: Frame Name. -* frame-pixel-height: Size and Position. -* frame-pixel-width: Size and Position. -* frame-properties: Property Access. -* frame-property: Property Access. -* frame-root-window: Frames and Windows. -* frame-selected-window: Frames and Windows. -* frame-title-format: Frame Titles. -* frame-top-window: Frames and Windows. -* frame-totally-visible-p: Visibility of Frames. -* frame-visible-p: Visibility of Frames. -* frame-width: Size and Position. -* framep: Frames. -* free list: Garbage Collection. -* frequency counts: Coverage Testing. -* fround: Rounding Operations. -* fset: Function Cells. -* ftp-login: Cleanups. -* ftruncate: Rounding Operations. -* funcall: Calling Functions. -* funcall, and debugging: Internals of Debugger. -* function <1>: Anonymous Functions. -* function: What Is a Function. -* function call: Function Forms. -* function call debugging: Function Debugging. -* function cell: Symbol Components. -* function cell in autoload: Autoload. -* function definition: Function Names. -* function descriptions: A Sample Function Description. -* function form evaluation: Function Forms. -* function input stream: Input Streams. -* function invocation: Calling Functions. -* function name: Function Names. -* function output stream: Output Streams. -* function quoting: Anonymous Functions. -* function-interactive: Using Interactive. -* function-key-map: Translating Input. -* function-obsoleteness-doc: Obsoleteness. -* functionals: Calling Functions. -* functions in modes: Major Mode Conventions. -* functions, making them interactive: Defining Commands. -* Fundamental mode: Major Modes. -* fundamental-mode: Auto Major Mode. -* fundamental-mode-abbrev-table: Standard Abbrev Tables. -* garbage collector: Garbage Collection. -* garbage-collect: Garbage Collection. -* gc-cons-threshold: Garbage Collection. -* gc-message: Garbage Collection. -* gc-pointer-glyph <1>: Garbage Collection. -* gc-pointer-glyph: Mouse Pointer. -* generate-new-buffer: Creating Buffers. -* generate-new-buffer-name: Buffer Names. -* generic-specifier-p: Specifier Types. -* get: Symbol Plists. -* get-buffer: Buffer Names. -* get-buffer-create: Creating Buffers. -* get-buffer-process: Process Buffers. -* get-buffer-window: Buffers and Windows. -* get-char-property: Examining Properties. -* get-char-table: Working With Char Tables. -* get-charset: Basic Charset Functions. -* get-coding-system: Basic Coding System Functions. -* get-database: Working With a Database. -* get-file-buffer: Buffer File Name. -* get-largest-window: Selecting Windows. -* get-lru-window: Selecting Windows. -* get-process: Process Information. -* get-range-char-table: Working With Char Tables. -* get-range-table: Working With Range Tables. -* get-register: Registers. -* get-text-property: Examining Properties. -* get-tooltalk-message-attribute: Elisp Interface for Sending Messages. -* getenv: System Environment. -* getf: Other Plists. -* gethash: Working With Hash Tables. -* gettext: Level 3 Primitives. -* global binding: Local Variables. -* global break condition: Global Break Condition. -* global keymap: Active Keymaps. -* global mark ring: The Mark. -* global variable: Global Variables. -* global-abbrev-table: Standard Abbrev Tables. -* global-key-binding: Functions for Key Lookup. -* global-map: Active Keymaps. -* global-mark-ring: The Mark. -* global-mode-string: Modeline Variables. -* global-popup-menu: Pop-Up Menus. -* global-set-key: Key Binding Commands. -* global-unset-key: Key Binding Commands. -* glyph type: Glyph Type. -* glyph-ascent: Glyph Dimensions. -* glyph-baseline: Glyph Convenience Functions. -* glyph-baseline-instance: Glyph Convenience Functions. -* glyph-contrib-p: Glyph Convenience Functions. -* glyph-contrib-p-instance: Glyph Convenience Functions. -* glyph-descent: Glyph Dimensions. -* glyph-face: Glyph Convenience Functions. -* glyph-height: Glyph Dimensions. -* glyph-image: Glyph Convenience Functions. -* glyph-image-instance: Glyph Convenience Functions. -* glyph-property: Glyph Properties. -* glyph-property-instance: Glyph Properties. -* glyph-type: Glyph Types. -* glyph-type-list: Glyph Types. -* glyph-width: Glyph Dimensions. -* glyphp: Glyphs. -* glyphs: Glyphs. -* goto-char: Character Motion. -* goto-line: Text Lines. -* hack-local-variables: Auto Major Mode. -* handling errors: Handling Errors. -* hash notation: Printed Representation. -* hash table: Hash Tables. -* hash table type: Hash Table Type. -* hash table, weak: Weak Hash Tables. -* hash-table-count: Introduction to Hash Tables. -* hash-table-p: Hash Tables. -* hash-table-rehash-size: Introduction to Hash Tables. -* hash-table-rehash-threshold: Introduction to Hash Tables. -* hash-table-size: Introduction to Hash Tables. -* hash-table-test: Introduction to Hash Tables. -* hash-table-weakness: Introduction to Hash Tables. -* hashing: Creating Symbols. -* header comments: Library Headers. -* help for major mode: Mode Help. -* help-char: Help Functions. -* help-command: Help Functions. -* help-form: Help Functions. -* help-map <1>: Standard Keymaps. -* help-map: Help Functions. -* Helper-describe-bindings: Help Functions. -* Helper-help: Help Functions. -* Helper-help-map: Standard Keymaps. -* hide-annotation: Annotation Properties. -* highlight-extent: Extents and Events. -* history list: Minibuffer History. -* history of commands: Command History. -* HOME environment variable: Subprocess Creation. -* hooks: Hooks. -* hooks for loading: Hooks for Loading. -* hooks for text changes: Change Hooks. -* horizontal position: Columns. -* horizontal scrolling: Horizontal Scrolling. -* hscroll-glyph: Redisplay Glyphs. -* icon-glyph-p: Glyph Types. -* iconified frame: Visibility of Frames. -* iconify-frame: Visibility of Frames. -* identity: Calling Functions. -* IEEE floating point: Float Basics. -* if: Conditionals. -* ignore: Calling Functions. -* ignored-local-variables: Auto Major Mode. -* image instance type: Image Instance Type. -* image instance types: Image Instance Types. -* image instances: Image Instances. -* image instantiator conversion: Image Instantiator Conversion. -* image specifiers: Image Specifiers. -* image-instance-background: Image Instance Functions. -* image-instance-depth: Image Instance Functions. -* image-instance-file-name: Image Instance Functions. -* image-instance-foreground: Image Instance Functions. -* image-instance-height: Image Instance Functions. -* image-instance-hotspot-x: Image Instance Functions. -* image-instance-hotspot-y: Image Instance Functions. -* image-instance-mask-file-name: Image Instance Functions. -* image-instance-name: Image Instance Functions. -* image-instance-p: Image Instances. -* image-instance-string: Image Instance Functions. -* image-instance-type: Image Instance Types. -* image-instance-type-list: Image Instance Types. -* image-instance-width: Image Instance Functions. -* image-instantiator-format-list: Image Specifiers. -* image-specifier-p <1>: Image Specifiers. -* image-specifier-p: Specifier Types. -* implicit progn: Sequencing. -* inc: Simple Macro. -* indent-according-to-mode: Mode-Specific Indent. -* indent-code-rigidly: Region Indent. -* indent-for-tab-command: Mode-Specific Indent. -* indent-line-function: Mode-Specific Indent. -* indent-region: Region Indent. -* indent-region-function: Region Indent. -* indent-relative: Relative Indent. -* indent-relative-maybe: Relative Indent. -* indent-rigidly: Region Indent. -* indent-tabs-mode: Primitive Indent. -* indent-to: Primitive Indent. -* indent-to-left-margin: Margins. -* indentation: Indentation. -* indenting with parentheses: Parsing Expressions. -* indirect buffers: Indirect Buffers. -* indirect specifications: Specification List. -* indirect variables: Variable Aliases. -* indirect-function: Function Indirection. -* indirect-variable: Variable Aliases. -* indirection: Function Indirection. -* infinite loops: Infinite Loops. -* infinite recursion: Local Variables. -* infinity: Float Basics. -* Info-edit-map: Standard Keymaps. -* Info-minibuffer-history: Minibuffer History. -* Info-mode-map: Standard Keymaps. -* inherit: Syntax Class Table. -* inheriting a keymap's bindings: Inheritance and Keymaps. -* inhibit-default-init: Init File. -* inhibit-file-name-handlers: Magic File Names. -* inhibit-file-name-operation: Magic File Names. -* inhibit-quit: Quitting. -* inhibit-read-only: Read Only Buffers. -* inhibit-startup-echo-area-message: Start-up Summary. -* inhibit-startup-message: Start-up Summary. -* init file: Init File. -* initial-frame-plist: Initial Properties. -* initial-major-mode: Auto Major Mode. -* initial-toolbar-spec: Other Toolbar Variables. -* initialization: Start-up Summary. -* inline functions: Inline Functions. -* innermost containing parentheses: Parsing Expressions. -* input events: Events. -* input focus: Input Focus. -* input modes: Input Modes. -* input stream: Input Streams. -* input-pending-p: Peeking and Discarding. -* insert: Insertion. -* insert-abbrev-table-description: Abbrev Tables. -* insert-before-markers: Insertion. -* insert-buffer: Commands for Insertion. -* insert-buffer-substring: Insertion. -* insert-char: Insertion. -* insert-default-directory: Reading File Names. -* insert-directory: Contents of Directories. -* insert-directory-program: Contents of Directories. -* insert-extent: Detached Extents. -* insert-file-contents: Reading from Files. -* insert-register: Registers. -* insert-string: Insertion. -* inserting killed text: Yank Commands. -* insertion before point: Insertion. -* insertion of text: Insertion. -* inside comment: Parsing Expressions. -* inside margin: Annotation Basics. -* inside string: Parsing Expressions. -* inst-list (in a specifier): Specifiers In-Depth. -* inst-pair (in a specifier): Specifiers In-Depth. -* installation-directory: System Environment. -* instance (in a specifier): Specifiers In-Depth. -* instancing (in a specifier): Specifiers In-Depth. -* instantiator (in a specifier): Specifiers In-Depth. -* int-char: Character Codes. -* int-to-string: String Conversion. -* integer to decimal: String Conversion. -* integer to hexadecimal: Formatting Strings. -* integer to octal: Formatting Strings. -* integer to string: String Conversion. -* integer-char-or-marker-p: Predicates on Markers. -* integer-or-char-p: Predicates for Characters. -* integer-or-marker-p: Predicates on Markers. -* integer-specifier-p: Specifier Types. -* integerp: Predicates on Numbers. -* integers: Numbers. -* interactive: Using Interactive. -* interactive call: Interactive Call. -* interactive code description: Interactive Codes. -* interactive commands (Edebug): Instrumenting. -* interactive completion: Interactive Codes. -* interactive function: Defining Commands. -* interactive, examples of using: Interactive Examples. -* interactive-p: Interactive Call. -* intern: Creating Symbols. -* intern-soft: Creating Symbols. -* internal-doc-file-name: Accessing Documentation. -* interning: Creating Symbols. -* interpreter: Evaluation. -* interpreter-mode-alist: Auto Major Mode. -* interprogram-cut-function: Low-Level Kill Ring. -* interprogram-paste-function: Low-Level Kill Ring. -* interrupt-process: Signals to Processes. -* invalid function: Function Indirection. -* invalid prefix key error: Changing Key Bindings. -* invalid-function: Function Indirection. -* invalid-read-syntax: Printed Representation. -* invalid-regexp: Syntax of Regexps. -* invert-face: Other Face Display Functions. -* invisible frame: Visibility of Frames. -* invisible text: Invisible Text. -* invisible-text-glyph: Redisplay Glyphs. -* invocation-directory: System Environment. -* invocation-name: System Environment. -* isearch-mode-map: Standard Keymaps. -* ISO Latin 1: Case Tables. -* ISO Latin-1 characters (input): Translating Input. -* iso-syntax: Case Tables. -* iso-transl: Translating Input. -* italic: Font Instance Characteristics. -* iteration: Iteration. -* itimer-edit-map: Standard Keymaps. -* joining lists: Rearrangement. -* just-one-space: User-Level Deletion. -* justify-current-line: Filling. -* kept-new-versions: Numbered Backups. -* kept-old-versions: Numbered Backups. -* key: Keymap Terminology. -* key binding: Keymap Terminology. -* key lookup: Key Lookup. -* key sequence: Key Sequence Input. -* key sequence error: Changing Key Bindings. -* key sequence input: Key Sequence Input. -* key sequences: Key Sequences. -* key translation function: Translating Input. -* key-binding: Functions for Key Lookup. -* key-description: Describing Characters. -* key-press-event-p: Event Predicates. -* key-translation-map: Translating Input. -* keyboard macro execution: Interactive Call. -* keyboard macro termination: Beeping. -* keyboard macros: Keyboard Macros. -* keyboard macros (Edebug): Edebug Execution Modes. -* keyboard menu accelerators: Menu Accelerators. -* keyboard-quit: Quitting. -* keymap: Keymaps. -* keymap entry: Key Lookup. -* keymap format: Format of Keymaps. -* keymap in keymap: Key Lookup. -* keymap inheritance: Inheritance and Keymaps. -* keymap parent: Inheritance and Keymaps. -* keymap-default-binding: Inheritance and Keymaps. -* keymap-fullness: Scanning Keymaps. -* keymap-name: Creating Keymaps. -* keymap-parents: Inheritance and Keymaps. -* keymap-prompt: Other Keymap Functions. -* keymapp: Format of Keymaps. -* keymaps in modes: Major Mode Conventions. -* keys in documentation strings: Keys in Documentation. -* keystroke: Keymap Terminology. -* keystroke command: What Is a Function. -* keywordp: Specification List. -* kill command repetition: Command Loop Info. -* kill ring: The Kill Ring. -* kill-all-local-variables: Creating Buffer-Local. -* kill-append: Low-Level Kill Ring. -* kill-buffer: Killing Buffers. -* kill-buffer-hook: Killing Buffers. -* kill-buffer-query-functions: Killing Buffers. -* kill-emacs: Killing XEmacs. -* kill-emacs-hook: Killing XEmacs. -* kill-emacs-query-functions: Killing XEmacs. -* kill-local-variable: Creating Buffer-Local. -* kill-new: Low-Level Kill Ring. -* kill-process: Signals to Processes. -* kill-region: Kill Functions. -* kill-ring: Internals of Kill Ring. -* kill-ring-max: Internals of Kill Ring. -* kill-ring-yank-pointer: Internals of Kill Ring. -* killing buffers: Killing Buffers. -* killing XEmacs: Killing XEmacs. -* lambda expression: Lambda Expressions. -* lambda expression in hook: Hooks. -* lambda in debug: Invoking the Debugger. -* lambda in keymap: Key Lookup. -* lambda list: Lambda Components. -* lambda-list (Edebug): Specification List. -* lambda-list-keywordp: Specification List. -* last-abbrev: Abbrev Expansion. -* last-abbrev-location: Abbrev Expansion. -* last-abbrev-text: Abbrev Expansion. -* last-command: Command Loop Info. -* last-command-char: Command Loop Info. -* last-command-event: Command Loop Info. -* last-input-char: Peeking and Discarding. -* last-input-event: Peeking and Discarding. -* last-kbd-macro: Keyboard Macros. -* Latin-1 character set (input): Translating Input. -* lax-plist-get: Working With Lax Plists. -* lax-plist-member: Working With Lax Plists. -* lax-plist-put: Working With Lax Plists. -* lax-plist-remprop: Working With Lax Plists. -* lax-plists-eq: Working With Lax Plists. -* lax-plists-equal: Working With Lax Plists. -* layout policy: Annotation Basics. -* layout types: Annotation Basics. -* lazy loading: Dynamic Loading. -* LDAP: LDAP Support. -* ldap-close: Opening and Closing a LDAP Connection. -* ldap-default-base: LDAP Variables. -* ldap-default-host: LDAP Variables. -* ldap-default-port: LDAP Variables. -* ldap-host: The LDAP Lisp Object. -* ldap-host-parameters-alist: LDAP Variables. -* ldap-live-p: The LDAP Lisp Object. -* ldap-open: Opening and Closing a LDAP Connection. -* ldap-search: The High-Level LDAP API. -* ldap-search-internal: Searching on a LDAP Server (Low-level). -* ldapp: The LDAP Lisp Object. -* left-margin: Margins. -* left-margin-width: Margin Primitives. -* left-toolbar: Specifying the Toolbar. -* left-toolbar-visible-p: Other Toolbar Variables. -* left-toolbar-width: Other Toolbar Variables. -* length: Sequence Functions. -* let: Local Variables. -* let*: Local Variables. -* let-specifier: Adding Specifications. -* lexical binding (Edebug): Edebug Eval. -* lexical comparison: Text Comparison. -* library: Loading. -* library compilation: Compilation Functions. -* library header comments: Library Headers. -* line wrapping: Truncation. -* lines: Text Lines. -* lines in region: Text Lines. -* linking files: Changing File Attributes. -* Lisp debugger: Debugger. -* Lisp expression motion: List Motion. -* Lisp history: Lisp History. -* Lisp library: Loading. -* Lisp nesting error: Eval. -* Lisp object: Lisp Data Types. -* Lisp printer: Output Functions. -* Lisp reader: Streams Intro. -* lisp-interaction-mode-map: Standard Keymaps. -* lisp-mode-abbrev-table: Standard Abbrev Tables. -* lisp-mode-map: Standard Keymaps. -* lisp-mode.el: Example Major Modes. -* list <1>: Building Lists. -* list: Lists. -* list elements: List Elements. -* list form evaluation: Classifying Lists. -* list in keymap: Key Lookup. -* list length: Sequence Functions. -* list motion: List Motion. -* list structure: Cons Cells. -* list-buffers: The Buffer List. -* list-buffers-directory: Buffer File Name. -* list-fonts: Font Instance Names. -* list-processes: Process Information. -* listp: List-related Predicates. -* lists and cons cells: Cons Cells. -* lists as sets: Sets And Lists. -* lists represented as boxes: Lists as Boxes. -* literal evaluation: Self-Evaluating Forms. -* lmessage: The Echo Area. -* ln: Changing File Attributes. -* load: How Programs Do Loading. -* load error with require: Named Features. -* load errors: How Programs Do Loading. -* load-average: System Environment. -* load-default-sounds: Beeping. -* load-history: Unloading. -* load-ignore-elc-files: How Programs Do Loading. -* load-in-progress: How Programs Do Loading. -* load-path: How Programs Do Loading. -* load-read-function: How Programs Do Loading. -* load-sound-file: Beeping. -* load-warn-when-source-newer: How Programs Do Loading. -* load-warn-when-source-only: How Programs Do Loading. -* loading: Loading. -* loading hooks: Hooks for Loading. -* loadup.el: Building XEmacs. -* local binding: Local Variables. -* local keymap: Active Keymaps. -* local variables: Local Variables. -* local-abbrev-table: Standard Abbrev Tables. -* local-key-binding: Functions for Key Lookup. -* local-set-key: Key Binding Commands. -* local-unset-key: Key Binding Commands. -* local-variable-p: Creating Buffer-Local. -* local-write-file-hooks: Saving Buffers. -* locale (in a specifier): Specifiers In-Depth. -* locate-file: How Programs Do Loading. -* locate-file-clear-hashing: How Programs Do Loading. -* lock-buffer: File Locks. -* log: Math Functions. -* log-message-ignore-labels: The Echo Area. -* log-message-ignore-regexps: The Echo Area. -* log-message-max-size: The Echo Area. -* log-warning-minimum-level: Warnings. -* log-warning-suppressed-classes: Warnings. -* log10: Math Functions. -* logand: Bitwise Operations. -* logb: Float Basics. -* logical and: Bitwise Operations. -* logical exclusive or: Bitwise Operations. -* logical inclusive or: Bitwise Operations. -* logical not: Bitwise Operations. -* logical shift: Bitwise Operations. -* logior: Bitwise Operations. -* lognot: Bitwise Operations. -* logxor: Bitwise Operations. -* looking-at: Regexp Search. -* lookup-key: Functions for Key Lookup. -* loops, infinite: Infinite Loops. -* lower case: Character Case. -* lower-frame: Raising and Lowering. -* lowering a frame: Raising and Lowering. -* lsh: Bitwise Operations. -* lwarn: Warnings. -* M-x: Interactive Call. -* Maclisp: Lisp History. -* macro: What Is a Function. -* macro argument evaluation: Argument Evaluation. -* macro call: Expansion. -* macro call evaluation: Macro Forms. -* macro compilation: Compilation Functions. -* macro descriptions: A Sample Function Description. -* macro expansion: Expansion. -* macroexpand: Expansion. -* macros: Macros. -* magic file names: Magic File Names. -* mail-host-address: System Environment. -* major mode: Major Modes. -* major mode hook: Major Mode Conventions. -* major mode keymap: Active Keymaps. -* major-mode: Mode Help. -* make-abbrev-table: Abbrev Tables. -* make-annotation: Annotation Primitives. -* make-auto-save-file-name: Auto-Saving. -* make-backup-file-name: Backup Names. -* make-backup-files: Making Backups. -* make-bit-vector: Bit Vector Functions. -* make-byte-code: Compiled-Function Objects. -* make-char: MULE Characters. -* make-char-table: Working With Char Tables. -* make-charset: Basic Charset Functions. -* make-coding-system: Basic Coding System Functions. -* make-composite-char: Composite Characters. -* make-device: Connecting to a Console or Device. -* make-directory: Create/Delete Dirs. -* make-display-table: Display Table Format. -* make-event: Working With Events. -* make-extent: Creating and Modifying Extents. -* make-face: Basic Face Functions. -* make-file-part: Creating a Partial File. -* make-font-instance: Font Instances. -* make-frame: Creating Frames. -* make-frame-invisible: Visibility of Frames. -* make-frame-visible: Visibility of Frames. -* make-glyph: Creating Glyphs. -* make-glyph-internal: Creating Glyphs. -* make-hash-table: Introduction to Hash Tables. -* make-icon-glyph: Creating Glyphs. -* make-image-instance: Image Instance Functions. -* make-image-specifier: Image Specifiers. -* make-indirect-buffer: Indirect Buffers. -* make-keymap: Creating Keymaps. -* make-list: Building Lists. -* make-local-hook: Hooks. -* make-local-variable: Creating Buffer-Local. -* make-marker: Creating Markers. -* make-obsolete: Obsoleteness. -* make-obsolete-variable: Obsoleteness. -* make-pointer-glyph: Creating Glyphs. -* make-range-table: Introduction to Range Tables. -* make-reverse-direction-charset: Basic Charset Functions. -* make-sparse-keymap: Creating Keymaps. -* make-specifier: Creating Specifiers. -* make-specifier-and-init: Creating Specifiers. -* make-string: Creating Strings. -* make-symbol: Creating Symbols. -* make-symbolic-link: Changing File Attributes. -* make-syntax-table: Syntax Table Functions. -* make-temp-name: Unique File Names. -* make-tooltalk-message: Elisp Interface for Sending Messages. -* make-tooltalk-pattern: Elisp Interface for Receiving Messages. -* make-tty-device: Connecting to a Console or Device. -* make-variable-buffer-local: Creating Buffer-Local. -* make-vector: Vector Functions. -* make-weak-list: Weak Lists. -* make-x-device: Connecting to a Console or Device. -* makunbound: Void Variables. -* Manual-page-minibuffer-history: Minibuffer History. -* map-char-table: Working With Char Tables. -* map-database: Working With a Database. -* map-extent-children: Mapping Over Extents. -* map-extents: Mapping Over Extents. -* map-frame-hook: Frame Hooks. -* map-keymap: Scanning Keymaps. -* map-range-table: Working With Range Tables. -* map-specifier: Other Specification Functions. -* map-y-or-n-p: Multiple Queries. -* mapatoms: Creating Symbols. -* mapcar: Mapping Functions. -* mapcar-extents: Mapping Over Extents. -* mapconcat: Mapping Functions. -* maphash: Working With Hash Tables. -* mapping functions: Mapping Functions. -* margin: Annotation Basics. -* margin width: Margin Primitives. -* mark: The Mark. -* mark excursion: Excursions. -* mark ring: The Mark. -* mark, the: The Mark. -* mark-marker: The Mark. -* mark-ring: The Mark. -* mark-ring-max: The Mark. -* marker argument: Interactive Codes. -* marker garbage collection: Overview of Markers. -* marker input stream: Input Streams. -* marker output stream: Output Streams. -* marker relocation: Overview of Markers. -* marker-buffer: Information from Markers. -* marker-position: Information from Markers. -* markerp: Predicates on Markers. -* markers: Markers. -* markers as numbers: Overview of Markers. -* markers vs. extents: Overview of Markers. -* match data: Match Data. -* match-beginning: Simple Match Data. -* match-data: Entire Match Data. -* match-end: Simple Match Data. -* match-string: Simple Match Data. -* mathematical functions: Math Functions. -* max: Comparison of Numbers. -* max-lisp-eval-depth: Eval. -* max-specpdl-size: Local Variables. -* md5: Transformations. -* MD5 digests: Transformations. -* member: Sets And Lists. -* membership in a list: Sets And Lists. -* memory allocation: Garbage Collection. -* memory-limit: Garbage Collection. -* memq: Sets And Lists. -* menu: Menus. -* menu accelerators: Menu Accelerators. -* menu filters: Menu Filters. -* menu format: Menu Format. -* menu-accelerator-enabled: Menu Accelerator Functions. -* menu-accelerator-map: Menu Accelerator Functions. -* menu-accelerator-modifiers: Menu Accelerator Functions. -* menu-accelerator-prefix: Menu Accelerator Functions. -* menu-no-selection-hook: Menubar. -* menubar: Menubar. -* menubar format: Menubar Format. -* menubar-configuration: Menu Format. -* menubar-pointer-glyph: Mouse Pointer. -* menubar-show-keybindings: Menubar. -* message: The Echo Area. -* meta character printing: Describing Characters. -* meta-prefix-char: Functions for Key Lookup. -* min: Comparison of Numbers. -* minibuffer: Minibuffers. -* minibuffer history: Minibuffer History. -* minibuffer input: Recursive Editing. -* minibuffer window: Cyclic Window Ordering. -* minibuffer-complete: Completion Commands. -* minibuffer-complete-and-exit: Completion Commands. -* minibuffer-complete-word: Completion Commands. -* minibuffer-completion-confirm: Completion Commands. -* minibuffer-completion-help: Completion Commands. -* minibuffer-completion-predicate: Completion Commands. -* minibuffer-completion-table: Completion Commands. -* minibuffer-depth: Minibuffer Misc. -* minibuffer-exit-hook: Minibuffer Misc. -* minibuffer-frame-plist: Initial Properties. -* minibuffer-help-form: Minibuffer Misc. -* minibuffer-history: Minibuffer History. -* minibuffer-local-completion-map <1>: Standard Keymaps. -* minibuffer-local-completion-map: Completion Commands. -* minibuffer-local-isearch-map: Standard Keymaps. -* minibuffer-local-map <1>: Standard Keymaps. -* minibuffer-local-map: Text from Minibuffer. -* minibuffer-local-must-match-map <1>: Standard Keymaps. -* minibuffer-local-must-match-map: Completion Commands. -* minibuffer-prompt: Minibuffer Misc. -* minibuffer-prompt-width: Minibuffer Misc. -* minibuffer-scroll-window: Minibuffer Misc. -* minibuffer-setup-hook: Minibuffer Misc. -* minibuffer-window: Minibuffer Misc. -* minibuffer-window-active-p: Minibuffer Misc. -* minimum window size: Resizing Windows. -* minor mode: Minor Modes. -* minor mode conventions: Minor Mode Conventions. -* minor-mode-alist: Modeline Variables. -* minor-mode-key-binding: Functions for Key Lookup. -* minor-mode-map-alist: Active Keymaps. -* misc-user-event-p: Event Predicates. -* mod: Arithmetic Operations. -* mode: Modes. -* mode help: Mode Help. -* mode hook: Major Mode Conventions. -* mode loading: Major Mode Conventions. -* mode variable: Minor Mode Conventions. -* mode-class property: Major Mode Conventions. -* mode-name: Modeline Variables. -* mode-popup-menu: Pop-Up Menus. -* mode-specific-map <1>: Standard Keymaps. -* mode-specific-map: Prefix Keys. -* modeline: Modeline Format. -* modeline construct: Modeline Data. -* modeline-buffer-identification: Modeline Variables. -* modeline-format: Modeline Data. -* modeline-map <1>: Standard Keymaps. -* modeline-map: Active Keymaps. -* modeline-modified: Modeline Variables. -* modeline-pointer-glyph: Mouse Pointer. -* modeline-process: Modeline Variables. -* modification flag (of buffer): Buffer Modification. -* modification of lists: Rearrangement. -* modification time, comparison of: Modification Time. -* modify-syntax-entry: Syntax Table Functions. -* modulus: Arithmetic Operations. -* momentary-string-display: Temporary Displays. -* mono-pixmap-image-instance-p: Image Instance Types. -* motion-event-p: Event Predicates. -* mouse cursor: Mouse Pointer. -* mouse pointer: Mouse Pointer. -* mouse-event-p: Event Predicates. -* mouse-grabbed-buffer: Active Keymaps. -* mouse-highlight-priority: Extents and Events. -* move-marker: Changing Markers. -* move-to-column: Columns. -* move-to-left-margin: Margins. -* move-to-window-line: Screen Lines. -* MS-DOS and file modes: Changing File Attributes. -* MS-DOS file types: Files and MS-DOS. -* MSWindows OLE: MSWindows OLE. -* multilingual string formatting: Formatting Strings. -* multiple windows: Basic Windows. -* named function: Function Names. -* NaN: Float Basics. -* narrow-to-page: Narrowing. -* narrow-to-region: Narrowing. -* narrowing: Narrowing. -* natnum-specifier-p: Specifier Types. -* natnump: Predicates on Numbers. -* natural numbers: Predicates on Numbers. -* nconc: Rearrangement. -* negative infinity: Float Basics. -* negative-argument: Prefix Command Arguments. -* network connection: Network. -* new file message: Subroutines of Visiting. -* newline <1>: Commands for Insertion. -* newline: Character Type. -* newline and Auto Fill mode: Commands for Insertion. -* newline in print: Output Functions. -* newline in strings: String Type. -* newline-and-indent: Mode-Specific Indent. -* next input: Peeking and Discarding. -* next-command-event: Reading One Event. -* next-event: Reading One Event. -* next-extent: Finding Extents. -* next-frame: Finding All Frames. -* next-history-element: Minibuffer Misc. -* next-matching-history-element: Minibuffer Misc. -* next-property-change: Property Search. -* next-screen-context-lines: Vertical Scrolling. -* next-single-property-change: Property Search. -* next-window: Cyclic Window Ordering. -* nil: Constant Variables. -* nil and lists: Cons Cells. -* nil in keymap: Key Lookup. -* nil in lists: Cons Cell Type. -* nil input stream: Input Streams. -* nil output stream: Output Streams. -* nil, uses of: nil and t. -* ninth: List Elements. -* nlistp: List-related Predicates. -* no-catch: Catch and Throw. -* no-redraw-on-reenter: Refresh Screen. -* nondirectory part (of file name): File Name Components. -* noninteractive: Batch Mode. -* noninteractive use: Batch Mode. -* nonlocal exits: Nonlocal Exits. -* nonprinting characters, reading: Quoted Character Input. -* nontext-pointer-glyph: Mouse Pointer. -* normal-mode: Auto Major Mode. -* not: Combining Conditions. -* not-modified: Buffer Modification. -* nothing-image-instance-p: Image Instance Types. -* nreverse: Rearrangement. -* nth: List Elements. -* nthcdr: List Elements. -* null: List-related Predicates. -* number equality: Comparison of Numbers. -* number-char-or-marker-p: Predicates on Markers. -* number-or-marker-p: Predicates on Markers. -* number-to-string: String Conversion. -* numberp: Predicates on Numbers. -* numbers: Numbers. -* numeric prefix: Formatting Strings. -* numeric prefix argument: Prefix Command Arguments. -* numeric prefix argument usage: Interactive Codes. -* obarray: Creating Symbols. -* obarray in completion: Basic Completion. -* objc-mode-map: Standard Keymaps. -* object: Lisp Data Types. -* object to string: Output Functions. -* oblique: Font Instance Characteristics. -* obsolete buffer: Modification Time. -* occur-mode-map: Standard Keymaps. -* octal character code: Character Type. -* octal character input: Quoted Character Input. -* octal-escape-glyph: Redisplay Glyphs. -* OffiX DND: OffiX DND. -* old-eq: Equality Predicates. -* one-window-p: Splitting Windows. -* only-global-abbrevs: Defining Abbrevs. -* open-database: Connecting to a Database. -* open-dribble-file: Recording Input. -* open-network-stream: Network. -* open-termscript: Terminal Output. -* open parenthesis character: Syntax Class Table. -* operating system environment: System Environment. -* option descriptions: A Sample Variable Description. -* optional arguments: Argument List. -* options on command line: Command Line Arguments. -* or: Combining Conditions. -* order of extents: Extent Endpoints. -* ordering of windows, cyclic: Cyclic Window Ordering. -* other-buffer: The Buffer List. -* other-window: Cyclic Window Ordering. -* other-window-scroll-buffer: Vertical Scrolling. -* Outline mode: Substitution. -* output from processes: Output from Processes. -* output stream: Output Streams. -* outside margin: Annotation Basics. -* overflow: Integer Basics. -* overlay arrow: Overlay Arrow. -* overlay-arrow-position: Overlay Arrow. -* overlay-arrow-string: Overlay Arrow. -* overriding-local-map <1>: Standard Keymaps. -* overriding-local-map: Active Keymaps. -* overriding-terminal-local-map: Active Keymaps. -* overwrite-mode: Commands for Insertion. -* padding: Formatting Strings. -* page-delimiter: Standard Regexps. -* paired delimiter: Syntax Class Table. -* paragraph-separate: Standard Regexps. -* paragraph-start: Standard Regexps. -* parent of a keymap: Inheritance and Keymaps. -* parent process: Processes. -* parent, of extent: Extent Parents. -* parenthesis: Cons Cell Type. -* parenthesis depth: Parsing Expressions. -* parenthesis matching: Blinking. -* parenthesis syntax: Syntax Class Table. -* parse state: Parsing Expressions. -* parse-partial-sexp: Parsing Expressions. -* parse-sexp-ignore-comments: Parsing Expressions. -* parsing: Syntax Tables. -* partial files: Partial Files. -* passwd-echo: Reading a Password. -* passwd-invert-frame-when-keyboard-grabbed: Reading a Password. -* passwords, reading: Reading a Password. -* PATH environment variable: Subprocess Creation. -* path-separator: System Environment. -* pausing: Waiting. -* peeking at input: Peeking and Discarding. -* percent symbol in modeline: Modeline Data. -* perform-replace: Search and Replace. -* performance analysis: Coverage Testing. -* permanent local variable: Creating Buffer-Local. -* permission: File Attributes. -* pipes: Asynchronous Processes. -* play-sound: Beeping. -* play-sound-file: Beeping. -* plist: Property Lists. -* plist, symbol: Symbol Properties. -* plist-get: Working With Normal Plists. -* plist-member: Working With Normal Plists. -* plist-put: Working With Normal Plists. -* plist-remprop: Working With Normal Plists. -* plist-to-alist: Converting Plists To/From Alists. -* plists-eq <1>: Other Plists. -* plists-eq: Working With Normal Plists. -* plists-equal <1>: Other Plists. -* plists-equal: Working With Normal Plists. -* point: Point. -* point excursion: Excursions. -* point in window: Window Point. -* point with narrowing: Point. -* point-marker: Creating Markers. -* point-max: Point. -* point-max-marker: Creating Markers. -* point-min: Point. -* point-min-marker: Creating Markers. -* pointer (mouse): Mouse Pointer. -* pointer-glyph-p: Glyph Types. -* pointer-image-instance-p: Image Instance Types. -* pop-global-mark: The Mark. -* pop-mark: The Mark. -* pop-to-buffer: Displaying Buffers. -* pop-up menu: Pop-Up Menus. -* pop-up-frame-function: Choosing Window. -* pop-up-frame-plist: Choosing Window. -* pop-up-frames: Choosing Window. -* pop-up-windows: Choosing Window. -* popup-buffer-menu: Pop-Up Menus. -* popup-dialog-box: Dialog Box Functions. -* popup-menu: Pop-Up Menus. -* popup-menu-titles: Pop-Up Menus. -* popup-menu-up-p: Pop-Up Menus. -* popup-menubar-menu: Pop-Up Menus. -* popup-mode-menu: Pop-Up Menus. -* pos-visible-in-window-p: Window Start. -* position (in buffer): Positions. -* position argument: Interactive Codes. -* position in window: Window Point. -* position of frame: Size and Position. -* position of window: Position of Window. -* positive infinity: Float Basics. -* posix-looking-at: POSIX Regexps. -* posix-search-backward: POSIX Regexps. -* posix-search-forward: POSIX Regexps. -* posix-string-match: POSIX Regexps. -* post-command-hook: Command Overview. -* post-gc-hook: Garbage Collection. -* pre-abbrev-expand-hook: Abbrev Expansion. -* pre-command-hook: Command Overview. -* pre-gc-hook: Garbage Collection. -* preceding-char: Near Point. -* precision of formatted numbers: Formatting Strings. -* predicates: Type Predicates. -* prefix argument: Prefix Command Arguments. -* prefix argument unreading: Peeking and Discarding. -* prefix command: Prefix Keys. -* prefix key: Prefix Keys. -* prefix-arg: Prefix Command Arguments. -* prefix-help-command: Help Functions. -* prefix-numeric-value: Prefix Command Arguments. -* preventing backtracking: Specification List. -* preventing prefix key: Key Lookup. -* previous complete subexpression: Parsing Expressions. -* previous-extent: Finding Extents. -* previous-frame: Finding All Frames. -* previous-history-element: Minibuffer Misc. -* previous-matching-history-element: Minibuffer Misc. -* previous-property-change: Property Search. -* previous-single-property-change: Property Search. -* previous-window: Cyclic Window Ordering. -* primitive: What Is a Function. -* primitive type: Lisp Data Types. -* primitive types: Primitive Types. -* primitive-undo: Undo. -* prin1: Output Functions. -* prin1-to-string: Output Functions. -* princ: Output Functions. -* print: Output Functions. -* print example: Output Streams. -* print name cell: Symbol Components. -* print-escape-newlines: Output Variables. -* print-gensym: Output Variables. -* print-help-return-message: Help Functions. -* print-length: Output Variables. -* print-level: Output Variables. -* print-readably <1>: Output Variables. -* print-readably: Printing in Edebug. -* print-string-length: Output Variables. -* printed representation: Printed Representation. -* printed representation for characters: Character Type. -* printing: Streams Intro. -* printing (Edebug): Printing in Edebug. -* printing circular structures: Printing in Edebug. -* printing floating-point numbers: Output Variables. -* printing limits: Output Variables. -* printing notation: Printing Notation. -* printing readably: Output Variables. -* printing uninterned symbols: Output Variables. -* priority of an extent: Intro to Extents. -* process: Processes. -* process filter: Filter Functions. -* process input: Input to Processes. -* process output: Output from Processes. -* process sentinel: Sentinels. -* process signals: Signals to Processes. -* process window size: Process Window Size. -* process-buffer: Process Buffers. -* process-command: Process Information. -* process-connection-type: Asynchronous Processes. -* process-environment: System Environment. -* process-event-p: Event Predicates. -* process-exit-status: Process Information. -* process-filter: Filter Functions. -* process-id: Process Information. -* process-kill-without-query: Deleting Processes. -* process-kill-without-query-p: Process Information. -* process-list: Process Information. -* process-mark: Process Buffers. -* process-name: Process Information. -* process-send-eof: Input to Processes. -* process-send-region: Input to Processes. -* process-send-string: Input to Processes. -* process-sentinel: Sentinels. -* process-status: Process Information. -* process-tty-name: Process Information. -* processp: Processes. -* profile.el: Compilation Tips. -* profiling: Compilation Tips. -* prog1: Sequencing. -* prog2: Sequencing. -* progn: Sequencing. -* program arguments: Subprocess Creation. -* program directories: Subprocess Creation. -* programmed completion: Programmed Completion. -* programming types: Programming Types. -* properties of strings: String Properties. -* properties of text: Text Properties. -* property list: Property Lists. -* property list cell (symbol): Symbol Components. -* property list, symbol: Symbol Properties. -* property lists vs association lists: Plists and Alists. -* property of an extent: Extent Properties. -* protected forms: Cleanups. -* provide: Named Features. -* providing features: Named Features. -* PTYs: Asynchronous Processes. -* punctuation character: Syntax Class Table. -* pure storage: Pure Storage. -* pure-bytes-used: Pure Storage. -* purecopy: Pure Storage. -* purify-flag: Pure Storage. -* push-mark: The Mark. -* put: Symbol Plists. -* put-char-table: Working With Char Tables. -* put-database: Working With a Database. -* put-range-table: Working With Range Tables. -* put-text-property: Changing Properties. -* putf: Other Plists. -* puthash: Working With Hash Tables. -* query-replace-history: Minibuffer History. -* query-replace-map <1>: Standard Keymaps. -* query-replace-map: Search and Replace. -* querying the user: Yes-or-No Queries. -* question mark in character constant: Character Type. -* quietly-read-abbrev-file: Abbrev Files. -* quit-flag: Quitting. -* quit-process: Signals to Processes. -* quitting: Quitting. -* quitting from infinite loop: Infinite Loops. -* quote: Quoting. -* quote character: Parsing Expressions. -* quoted character input: Quoted Character Input. -* quoted-insert suppression: Changing Key Bindings. -* quoting: Quoting. -* quoting characters in printing: Output Functions. -* quoting using apostrophe: Quoting. -* raise-frame: Raising and Lowering. -* raising a frame: Raising and Lowering. -* random: Random Numbers. -* random numbers: Random Numbers. -* range table type: Range Table Type. -* Range Tables: Range Tables. -* range-table-p: Range Tables. -* rassoc: Association Lists. -* rassq: Association Lists. -* raw prefix argument: Prefix Command Arguments. -* raw prefix argument usage: Interactive Codes. -* re-search-backward: Regexp Search. -* re-search-forward: Regexp Search. -* read: Input Functions. -* read command name: Interactive Call. -* read syntax: Printed Representation. -* read syntax for characters: Character Type. -* read-buffer: High-Level Completion. -* read-char: Reading One Event. -* read-command: High-Level Completion. -* read-expression-history: Minibuffer History. -* read-expression-map: Standard Keymaps. -* read-file-name: Reading File Names. -* read-from-minibuffer: Text from Minibuffer. -* read-from-string: Input Functions. -* read-key-sequence: Key Sequence Input. -* read-minibuffer: Object from Minibuffer. -* read-only buffer: Read Only Buffers. -* read-only buffers in interactive: Using Interactive. -* read-passwd: Reading a Password. -* read-quoted-char: Quoted Character Input. -* read-quoted-char quitting: Quitting. -* read-shell-command-map: Standard Keymaps. -* read-string: Text from Minibuffer. -* read-variable: High-Level Completion. -* reading: Streams Intro. -* reading (Edebug): Reading in Edebug. -* reading interactive arguments: Interactive Codes. -* reading symbols: Creating Symbols. -* rearrangement of lists: Rearrangement. -* rebinding: Changing Key Bindings. -* receiving ToolTalk messages: Receiving Messages. -* recent-auto-save-p: Auto-Saving. -* recent-keys: Recording Input. -* recent-keys-ring-size: Recording Input. -* recenter: Vertical Scrolling. -* record command history: Interactive Call. -* recursion: Iteration. -* recursion-depth: Recursive Editing. -* recursive command loop: Recursive Editing. -* recursive editing level: Recursive Editing. -* recursive evaluation: Intro Eval. -* recursive-edit: Recursive Editing. -* redo: Undo. -* redraw-display: Refresh Screen. -* redraw-frame: Refresh Screen. -* redraw-modeline: Modeline Format. -* refresh display: Refresh Screen. -* regexp: Regular Expressions. -* regexp alternative: Syntax of Regexps. -* regexp grouping: Syntax of Regexps. -* regexp searching: Regexp Search. -* regexp-history: Minibuffer History. -* regexp-quote: Syntax of Regexps. -* regexps used standardly in editing: Standard Regexps. -* region argument: Interactive Codes. -* region, the: The Region. -* region-active-p: The Region. -* region-beginning: The Region. -* region-end: The Region. -* region-exists-p: The Region. -* register-alist: Registers. -* register-ccl-program: Calling CCL. -* register-tooltalk-pattern: Elisp Interface for Receiving Messages. -* registers: Registers. -* regular expression: Regular Expressions. -* regular expression searching: Regexp Search. -* reindent-then-newline-and-indent: Mode-Specific Indent. -* relabel-menu-item: Modifying Menus. -* relative file name: Relative File Names. -* remainder: Arithmetic Operations. -* remassoc: Association Lists. -* remassq: Association Lists. -* remhash: Working With Hash Tables. -* remove-database: Working With a Database. -* remove-face-property: Face Properties. -* remove-glyph-property: Glyph Properties. -* remove-hook: Hooks. -* remove-range-table: Working With Range Tables. -* remove-specifier: Other Specification Functions. -* remove-text-properties: Changing Properties. -* remrassoc: Association Lists. -* remrassq: Association Lists. -* rename-auto-save-file: Auto-Saving. -* rename-buffer: Buffer Names. -* rename-file: Changing File Attributes. -* renaming files: Changing File Attributes. -* repeated loading: Repeated Loading. -* replace bindings: Changing Key Bindings. -* replace characters: Substitution. -* replace-buffer-in-windows: Displaying Buffers. -* replace-match: Replacing Match. -* replacement: Search and Replace. -* repositioning format arguments: Formatting Strings. -* require: Named Features. -* require-final-newline: Saving Buffers. -* requiring features: Named Features. -* reset-char-table: Working With Char Tables. -* resize redisplay: Size and Position. -* rest arguments: Argument List. -* restriction (in a buffer): Narrowing. -* resume (cf. no-redraw-on-reenter): Refresh Screen. -* return: Character Type. -* return-tooltalk-message: Elisp Interface for Sending Messages. -* reveal-annotation: Annotation Properties. -* reverse: Building Lists. -* reversing a list: Rearrangement. -* revert-buffer: Reverting. -* revert-buffer-function: Reverting. -* revert-buffer-insert-file-contents-function: Reverting. -* right-margin-width: Margin Primitives. -* right-toolbar: Specifying the Toolbar. -* right-toolbar-visible-p: Other Toolbar Variables. -* right-toolbar-width: Other Toolbar Variables. -* rm: Changing File Attributes. -* round: Numeric Conversions. -* rounding in conversions: Numeric Conversions. -* rounding without conversion: Rounding Operations. -* rplaca: Modifying Lists. -* rplacd: Modifying Lists. -* run time stack: Internals of Debugger. -* run-emacs-from-temacs: Building XEmacs. -* run-hooks: Hooks. -* runnable temacs: Building XEmacs. -* same-window-buffer-names: Choosing Window. -* same-window-regexps: Choosing Window. -* save-abbrevs: Abbrev Files. -* save-buffer: Saving Buffers. -* save-current-buffer: Excursions. -* save-excursion: Excursions. -* save-excursion (Edebug): Edebug Display Update. -* save-match-data: Saving Match Data. -* save-restriction: Narrowing. -* save-selected-frame: Input Focus. -* save-selected-window <1>: Excursions. -* save-selected-window: Selecting Windows. -* save-some-buffers: Saving Buffers. -* save-window-excursion: Window Configurations. -* saving text properties: Saving Properties. -* saving window information: Window Configurations. -* scan-lists: Parsing Expressions. -* scan-sexps: Parsing Expressions. -* scope: Variable Scoping. -* screen layout: Window Configuration Type. -* scroll-conservatively: Vertical Scrolling. -* scroll-down: Vertical Scrolling. -* scroll-left: Horizontal Scrolling. -* scroll-other-window: Vertical Scrolling. -* scroll-right: Horizontal Scrolling. -* scroll-step: Vertical Scrolling. -* scroll-up: Vertical Scrolling. -* scrollbar-pointer-glyph: Mouse Pointer. -* scrollbars: Scrollbars. -* scrolling vertically: Vertical Scrolling. -* search-backward: String Search. -* search-failed: String Search. -* search-forward: String Search. -* searching: Searching and Matching. -* searching and case: Searching and Case. -* searching for regexp: Regexp Search. -* second: List Elements. -* select-console: The Selected Console and Device. -* select-device: The Selected Console and Device. -* select-frame: Input Focus. -* select-frame-hook: Frame Hooks. -* select-window: Selecting Windows. -* selected frame: Input Focus. -* selected window: Basic Windows. -* selected-console: The Selected Console and Device. -* selected-device: The Selected Console and Device. -* selected-frame: Input Focus. -* selected-window: Selecting Windows. -* selecting a buffer: Current Buffer. -* selecting windows: Selecting Windows. -* selection (for X windows): X Selections. -* selection-pointer-glyph: Mouse Pointer. -* selective display: Selective Display. -* selective-display: Selective Display. -* selective-display-ellipses: Selective Display. -* self-evaluating form: Self-Evaluating Forms. -* self-insert-and-exit: Minibuffer Misc. -* self-insert-command: Commands for Insertion. -* self-insert-command override: Changing Key Bindings. -* self-insert-command, minor modes: Keymaps and Minor Modes. -* self-insertion: Commands for Insertion. -* send-string-to-terminal: Terminal Output. -* send-tooltalk-message: Elisp Interface for Sending Messages. -* sending signals: Signals to Processes. -* sending ToolTalk messages: Sending Messages. -* sentence-end: Standard Regexps. -* sentinel: Sentinels. -* sequence: Sequences Arrays Vectors. -* sequence length: Sequence Functions. -* sequencep: Sequence Functions. -* set: Setting Variables. -* set-annotation-action: Annotation Properties. -* set-annotation-data: Annotation Properties. -* set-annotation-down-glyph: Annotation Properties. -* set-annotation-face: Annotation Properties. -* set-annotation-glyph: Annotation Properties. -* set-annotation-layout: Annotation Properties. -* set-annotation-menu: Annotation Properties. -* set-auto-mode: Auto Major Mode. -* set-buffer: Current Buffer. -* set-buffer-auto-saved: Auto-Saving. -* set-buffer-major-mode: Auto Major Mode. -* set-buffer-menubar: Menubar. -* set-buffer-modified-p: Buffer Modification. -* set-case-syntax: Case Tables. -* set-case-syntax-delims: Case Tables. -* set-case-syntax-pair: Case Tables. -* set-case-table: Case Tables. -* set-category-table: Category Tables. -* set-charset-ccl-program: Charset Property Functions. -* set-coding-category-system: Detection of Textual Encoding. -* set-coding-priority-list: Detection of Textual Encoding. -* set-console-type-image-conversion-list: Image Instantiator Conversion. -* set-default: Default Value. -* set-default-file-modes: Changing File Attributes. -* set-default-toolbar-position: Specifying the Toolbar. -* set-device-baud-rate <1>: Terminal Output. -* set-device-baud-rate: Console and Device I/O. -* set-extent-begin-glyph: Extent Properties. -* set-extent-begin-glyph-layout: Extent Properties. -* set-extent-end-glyph: Extent Properties. -* set-extent-end-glyph-layout: Extent Properties. -* set-extent-endpoints: Extent Endpoints. -* set-extent-face: Extent Properties. -* set-extent-initial-redisplay-function: Extent Properties. -* set-extent-keymap: Extent Properties. -* set-extent-mouse-face: Extent Properties. -* set-extent-parent: Extent Parents. -* set-extent-priority: Extent Properties. -* set-extent-properties: Extent Properties. -* set-extent-property: Extent Properties. -* set-face-background: Face Convenience Functions. -* set-face-background-pixmap: Face Convenience Functions. -* set-face-font: Face Convenience Functions. -* set-face-foreground: Face Convenience Functions. -* set-face-property: Face Properties. -* set-face-underline-p: Face Convenience Functions. -* set-file-modes: Changing File Attributes. -* set-frame-configuration: Frame Configurations. -* set-frame-pointer: Mouse Pointer. -* set-frame-position: Size and Position. -* set-frame-properties: Property Access. -* set-frame-property: Property Access. -* set-frame-size: Size and Position. -* set-glyph-baseline: Glyph Convenience Functions. -* set-glyph-contrib-p: Glyph Convenience Functions. -* set-glyph-face: Glyph Convenience Functions. -* set-glyph-image: Glyph Convenience Functions. -* set-glyph-property: Glyph Properties. -* set-input-mode: Input Modes. -* set-keymap-default-binding: Inheritance and Keymaps. -* set-keymap-name: Creating Keymaps. -* set-keymap-parents: Inheritance and Keymaps. -* set-keymap-prompt: Other Keymap Functions. -* set-left-margin: Margins. -* set-mark: The Mark. -* set-marker: Changing Markers. -* set-match-data: Entire Match Data. -* set-menubar: Menubar. -* set-menubar-dirty-flag: Menubar. -* set-process-buffer: Process Buffers. -* set-process-filter: Filter Functions. -* set-process-sentinel: Sentinels. -* set-process-window-size: Process Window Size. -* set-recent-keys-ring-size: Recording Input. -* set-register: Registers. -* set-right-margin: Margins. -* set-specifier: Adding Specifications. -* set-standard-case-table: Case Tables. -* set-syntax-table: Syntax Table Functions. -* set-text-properties: Changing Properties. -* set-tooltalk-message-attribute: Elisp Interface for Sending Messages. -* set-visited-file-modtime: Modification Time. -* set-visited-file-name: Buffer File Name. -* set-weak-list-list: Weak Lists. -* set-window-buffer: Buffers and Windows. -* set-window-buffer-dedicated: Choosing Window. -* set-window-configuration: Window Configurations. -* set-window-dedicated-p: Choosing Window. -* set-window-hscroll: Horizontal Scrolling. -* set-window-point: Window Point. -* set-window-start: Window Start. -* setcar: Setcar. -* setcdr: Setcdr. -* setenv: System Environment. -* setplist: Symbol Plists. -* setprv: System Environment. -* setq: Setting Variables. -* setq-default: Default Value. -* sets: Sets And Lists. -* setting modes of files: Changing File Attributes. -* setting-constant: Constant Variables. -* seventh: List Elements. -* sexp motion: List Motion. -* shadowing of variables: Local Variables. -* shallow binding: Impl of Scope. -* shared-lisp-mode-map: Standard Keymaps. -* Shell mode modeline-format: Modeline Data. -* shell-command-history: Minibuffer History. -* shrink-window: Resizing Windows. -* shrink-window-horizontally: Resizing Windows. -* shrink-window-pixels: Resizing Windows. -* side effect: Intro Eval. -* signal: Signaling Errors. -* signal-error: Signaling Errors. -* signal-process: Signals to Processes. -* signaling errors: Signaling Errors. -* signals: Signals to Processes. -* sin: Math Functions. -* single-key-description: Describing Characters. -* sinh: Math Functions. -* sit-for: Waiting. -* site-init.el: Building XEmacs. -* site-load.el: Building XEmacs. -* site-run-file: Init File. -* site-start.el: Start-up Summary. -* sixth: List Elements. -* size of frame: Size and Position. -* size of window: Size of Window. -* skip-chars-backward: Skipping Characters. -* skip-chars-forward: Skipping Characters. -* skip-syntax-backward: Motion and Syntax. -* skip-syntax-forward: Motion and Syntax. -* skipping characters: Skipping Characters. -* skipping comments: Parsing Expressions. -* sleep-for: Waiting. -* Snarf-documentation: Accessing Documentation. -* sort: Rearrangement. -* sort-columns: Sorting. -* sort-fields: Sorting. -* sort-lines: Sorting. -* sort-numeric-fields: Sorting. -* sort-pages: Sorting. -* sort-paragraphs: Sorting. -* sort-regexp-fields: Sorting. -* sort-subr: Sorting. -* sorting lists: Rearrangement. -* sorting text: Sorting. -* sound: Beeping. -* sound-alist: Beeping. -* special: Major Mode Conventions. -* special form descriptions: A Sample Function Description. -* special form evaluation: Special Forms. -* special forms: Primitive Function Type. -* special forms (Edebug): Instrumenting. -* special forms for control structures: Control Structures. -* special-display-buffer-names: Choosing Window. -* special-display-frame-plist: Choosing Window. -* special-display-function: Choosing Window. -* special-display-popup-frame: Choosing Window. -* special-display-regexps: Choosing Window. -* specification (in a specifier): Specifiers In-Depth. -* specifier: Specifiers. -* specifier type: Specifier Type. -* specifier, domain: Specifiers In-Depth. -* specifier, fallback: Specifier Instancing. -* specifier, inst-list: Specifiers In-Depth. -* specifier, inst-pair: Specifiers In-Depth. -* specifier, instance: Specifiers In-Depth. -* specifier, instancing: Specifiers In-Depth. -* specifier, instantiator: Specifiers In-Depth. -* specifier, locale: Specifiers In-Depth. -* specifier, specification: Specifiers In-Depth. -* specifier, tag: Specifiers In-Depth. -* specifier, tag set: Specifiers In-Depth. -* specifier-fallback: Retrieving Specifications. -* specifier-instance: Specifier Instancing Functions. -* specifier-instance-from-inst-list: Specifier Instancing Functions. -* specifier-locale-type-from-locale: Other Specification Functions. -* specifier-spec-list: Retrieving Specifications. -* specifier-specs: Retrieving Specifications. -* specifier-tag-list: Specifier Tag Functions. -* specifier-tag-predicate: Specifier Tag Functions. -* specifier-type: Specifier Types. -* specifierp: Specifiers. -* speedups: Compilation Tips. -* splicing (with backquote): Backquote. -* split-height-threshold: Choosing Window. -* split-line: Commands for Insertion. -* split-path: Regexp Search. -* split-string: Regexp Search. -* split-window: Splitting Windows. -* split-window-horizontally: Splitting Windows. -* split-window-vertically: Splitting Windows. -* splitting windows: Splitting Windows. -* sqrt: Math Functions. -* stable sort: Rearrangement. -* standard regexps used in editing: Standard Regexps. -* standard-case-table: Case Tables. -* standard-category-table: Category Tables. -* standard-input: Input Functions. -* standard-output: Output Variables. -* standard-syntax-table: Standard Syntax Tables. -* standards of coding style: Tips. -* start up of XEmacs: Start-up Summary. -* start-process: Asynchronous Processes. -* start-process-shell-command: Asynchronous Processes. -* startup.el: Start-up Summary. -* stop points: Using Edebug. -* stop-process: Signals to Processes. -* stopping an infinite loop: Infinite Loops. -* stopping on events: Global Break Condition. -* store-match-data: Entire Match Data. -* stream (for printing): Output Streams. -* stream (for reading): Input Streams. -* string: Creating Strings. -* string equality: Text Comparison. -* string in keymap: Key Lookup. -* string input stream: Input Streams. -* string length: Sequence Functions. -* string length, maximum when printing: Output Variables. -* string properties: String Properties. -* string search: String Search. -* string to character: String Conversion. -* string to number: String Conversion. -* string to object: Input Functions. -* string, writing a doc string: Documentation Basics. -* string-equal: Text Comparison. -* string-lessp: Text Comparison. -* string-match: Regexp Search. -* string-modified-tick: Modifying Strings. -* string-to-char: String Conversion. -* string-to-int: String Conversion. -* string-to-number: String Conversion. -* string<: Text Comparison. -* string=: Text Comparison. -* stringp: Predicates for Strings. -* strings: Strings and Characters. -* strings, formatting them: Formatting Strings. -* strings, modifying: Modifying Strings. -* string quote: Syntax Class Table. -* subprocess: Processes. -* subr: What Is a Function. -* subrp: What Is a Function. -* subsidiary-coding-system: Basic Coding System Functions. -* subst-char-in-region: Substitution. -* substitute-command-keys: Keys in Documentation. -* substitute-in-file-name: File Name Expansion. -* substitute-key-definition: Changing Key Bindings. -* substituting keys in documentation: Keys in Documentation. -* substring: Creating Strings. -* subwindow type: Subwindow Type. -* subwindow-image-instance-p: Image Instance Types. -* subwindowp: Subwindows. -* suppress-keymap: Changing Key Bindings. -* suspend (cf. no-redraw-on-reenter): Refresh Screen. -* suspend evaluation: Recursive Editing. -* suspend-emacs: Suspending XEmacs. -* suspend-hook: Suspending XEmacs. -* suspend-resume-hook: Suspending XEmacs. -* suspending XEmacs: Suspending XEmacs. -* switch-to-buffer: Displaying Buffers. -* switch-to-buffer-other-window: Displaying Buffers. -* switches on command line: Command Line Arguments. -* switching to a buffer: Displaying Buffers. -* symbol: Symbols. -* symbol components: Symbol Components. -* symbol equality: Creating Symbols. -* symbol evaluation: Symbol Forms. -* symbol function indirection: Function Indirection. -* symbol in keymap: Key Lookup. -* symbol name hashing: Creating Symbols. -* symbol-function: Function Cells. -* symbol-name: Creating Symbols. -* symbol-plist: Symbol Plists. -* symbol-value: Accessing Variables. -* symbolp: Symbols. -* symbol constituent: Syntax Class Table. -* synchronous subprocess: Synchronous Processes. -* syntax classes: Syntax Descriptors. -* syntax descriptor: Syntax Descriptors. -* syntax error (Edebug): Backtracking. -* syntax flags: Syntax Flags. -* syntax for characters: Character Type. -* syntax table: Syntax Tables. -* syntax table example: Example Major Modes. -* syntax table internals: Syntax Table Internals. -* syntax tables in modes: Major Mode Conventions. -* syntax-table: Syntax Table Functions. -* syntax-table-p: Syntax Basics. -* system-configuration: System Environment. -* system-name: System Environment. -* system-type: System Environment. -* t: Constant Variables. -* t and truth: nil and t. -* t input stream: Input Streams. -* t output stream: Output Streams. -* tab: Character Type. -* tab deletion: Deletion. -* tab-stop-list: Indent Tabs. -* tab-to-tab-stop: Indent Tabs. -* tab-width: Usual Display. -* tabs stops for indentation: Indent Tabs. -* tag (in a specifier): Specifiers In-Depth. -* tag on run time stack: Catch and Throw. -* tag set (in a specifier): Specifiers In-Depth. -* tan: Math Functions. -* tanh: Math Functions. -* TCP: Network. -* temacs: Building XEmacs. -* temp-buffer-show-function: Temporary Displays. -* temp-directory: Unique File Names. -* tenth: List Elements. -* TERM environment variable: Terminal-Specific. -* term-file-prefix: Terminal-Specific. -* term-setup-hook: Terminal-Specific. -* Termcap: Terminal-Specific. -* terminal frame <1>: Frames. -* terminal frame: Basic Windows. -* terminal input: Terminal Input. -* terminal input modes: Input Modes. -* terminal output: Terminal Output. -* terminal-device: Console Types and Device Classes. -* terminal-specific initialization: Terminal-Specific. -* terminate keyboard macro: Peeking and Discarding. -* termscript file: Terminal Output. -* terpri: Output Functions. -* testing types: Type Predicates. -* text: Text. -* text files and binary files: Files and MS-DOS. -* text insertion: Insertion. -* text parsing: Syntax Tables. -* text properties: Text Properties. -* text properties in files: Saving Properties. -* text-char-description: Describing Characters. -* text-image-instance-p: Image Instance Types. -* text-mode-abbrev-table: Standard Abbrev Tables. -* text-mode-map: Standard Keymaps. -* text-mode-syntax-table: Standard Syntax Tables. -* text-pointer-glyph: Mouse Pointer. -* text-properties-at: Examining Properties. -* text-property-any: Property Search. -* text-property-not-all: Property Search. -* third: List Elements. -* this-command: Command Loop Info. -* this-command-keys: Command Loop Info. -* throw: Catch and Throw. -* throw example: Recursive Editing. -* tiled windows: Basic Windows. -* timeout-event-p: Event Predicates. -* timing programs: Compilation Tips. -* tips: Tips. -* toggle-read-only: Read Only Buffers. -* toolbar: Toolbar. -* toolbar button type: Toolbar Button Type. -* toolbar-buttons-captioned-p: Other Toolbar Variables. -* toolbar-make-button-list: Toolbar Descriptor Format. -* toolbar-map <1>: Standard Keymaps. -* toolbar-map: Active Keymaps. -* toolbar-pointer-glyph: Mouse Pointer. -* toolbar-specifier-p <1>: Specifier Types. -* toolbar-specifier-p: Specifying the Toolbar. -* ToolTalk: ToolTalk Support. -* ToolTalk message: Sending Messages. -* ToolTalk pattern: Receiving Messages. -* top-level: Recursive Editing. -* top-level form: Loading. -* top-toolbar: Specifying the Toolbar. -* top-toolbar-height: Other Toolbar Variables. -* top-toolbar-visible-p: Other Toolbar Variables. -* tq-close: Transaction Queues. -* tq-create: Transaction Queues. -* tq-enqueue: Transaction Queues. -* tracing: Tracing. -* transaction queue: Transaction Queues. -* transcendental functions: Math Functions. -* translate-region: Substitution. -* translating input events: Translating Input. -* transpose-regions: Transposition. -* trim-versions-without-asking: Numbered Backups. -* true: nil and t. -* truename (of file): Truenames. -* truncate: Numeric Conversions. -* truncate-lines: Truncation. -* truncate-partial-width-windows: Truncation. -* truncation-glyph: Redisplay Glyphs. -* truth value: nil and t. -* try-completion: Basic Completion. -* two's complement: Integer Basics. -* type: Lisp Data Types. -* type checking: Type Predicates. -* type predicates: Type Predicates. -* type-of: Type Predicates. -* unbinding keys: Key Binding Commands. -* undefined: Functions for Key Lookup. -* undefined in keymap: Key Lookup. -* undefined key: Keymap Terminology. -* undo avoidance: Substitution. -* undo-boundary: Undo. -* undo-limit: Maintaining Undo. -* undo-strong-limit: Maintaining Undo. -* unexec: Building XEmacs. -* unhandled-file-name-directory: Magic File Names. -* unintern: Creating Symbols. -* uninterned symbol: Creating Symbols. -* uninterned symbols, printing: Output Variables. -* unique extents: Duplicable Extents. -* universal-argument: Prefix Command Arguments. -* unload-feature: Unloading. -* unloading: Unloading. -* unlock-buffer: File Locks. -* unmap-frame-hook: Frame Hooks. -* unread-command-event: Peeking and Discarding. -* unread-command-events: Peeking and Discarding. -* unreading: Input Streams. -* unregister-tooltalk-pattern: Elisp Interface for Receiving Messages. -* unwind-protect: Cleanups. -* unwinding: Cleanups. -* up-list: List Motion. -* upcase: Character Case. -* upcase-region: Case Changes. -* upcase-word: Case Changes. -* update display: Refresh Screen. -* update-directory-autoloads: Autoload. -* update-file-autoloads: Autoload. -* upper case: Character Case. -* upper case key sequence: Key Sequence Input. -* use-global-map: Active Keymaps. -* use-hard-newlines: Filling. -* use-left-overflow: Margin Primitives. -* use-local-map: Active Keymaps. -* use-right-overflow: Margin Primitives. -* user name completion subroutines: User Name Completion. -* user option: Defining Variables. -* user-defined error: Error Symbols. -* user-full-name: User Identification. -* user-home-directory: User Identification. -* user-login-name: User Identification. -* user-mail-address: User Identification. -* user-name-all-completions: User Name Completion. -* user-name-completion: User Name Completion. -* user-name-completion-1: User Name Completion. -* user-real-login-name: User Identification. -* user-real-uid: User Identification. -* user-uid: User Identification. -* user-variable-p: Defining Variables. -* user-variable-p example: High-Level Completion. -* valid-char-table-type-p: Char Table Types. -* valid-char-table-value-p: Working With Char Tables. -* valid-device-class-p: Console Types and Device Classes. -* valid-device-type-p: Console Types and Device Classes. -* valid-glyph-type-p: Glyph Types. -* valid-image-instance-type-p: Image Instance Types. -* valid-image-instantiator-format-p: Image Specifiers. -* valid-inst-list-p: Specifier Validation Functions. -* valid-instantiator-p: Specifier Validation Functions. -* valid-plist-p: Property Lists. -* valid-spec-list-p: Specifier Validation Functions. -* valid-specifier-domain-p: Specifier Validation Functions. -* valid-specifier-locale-p: Specifier Validation Functions. -* valid-specifier-locale-type-p: Specifier Validation Functions. -* valid-specifier-tag-p <1>: Specifier Validation Functions. -* valid-specifier-tag-p: Specifier Tag Functions. -* valid-specifier-tag-set-p: Specifier Tag Functions. -* valid-specifier-type-p: Specifier Validation Functions. -* value cell: Symbol Components. -* value of expression: Evaluation. -* values: Eval. -* variable: Variables. -* variable aliases: Variable Aliases. -* variable definition: Defining Variables. -* variable descriptions: A Sample Variable Description. -* variable limit error: Local Variables. -* variable-alias: Variable Aliases. -* variable-documentation: Documentation Basics. -* variable-obsoleteness-doc: Obsoleteness. -* variables, buffer-local: Buffer-Local Variables. -* variables, indirect: Variable Aliases. -* vc-mode: Modeline Variables. -* vconcat: Vector Functions. -* vector <1>: Vector Functions. -* vector: Vectors. -* vector evaluation: Self-Evaluating Forms. -* vector length: Sequence Functions. -* vectorp: Vector Functions. -* verify-visited-file-modtime: Modification Time. -* version number (in file name): File Name Components. -* version-control: Numbered Backups. -* vertical scrolling: Vertical Scrolling. -* vertical tab: Character Type. -* vertical-motion: Screen Lines. -* vertical-motion-pixels: Screen Lines. -* view-file: Visiting Functions. -* view-mode-map: Standard Keymaps. -* view-register: Registers. -* visible frame: Visibility of Frames. -* visible-bell: Beeping. -* visible-frame-list: Finding All Frames. -* visited file: Buffer File Name. -* visited file mode: Auto Major Mode. -* visited-file-modtime: Modification Time. -* visiting files: Visiting Files. -* void function: Function Indirection. -* void function cell: Function Cells. -* void variable: Void Variables. -* void-function: Function Cells. -* void-variable: Void Variables. -* waiting: Waiting. -* waiting for command key input: Peeking and Discarding. -* waiting-for-user-input-p: Sentinels. -* wakeup: Subprocess Creation. -* walk-windows: Cyclic Window Ordering. -* weak hash table: Weak Hash Tables. -* weak list: Weak Lists. -* weak list type: Weak List Type. -* weak-list-list: Weak Lists. -* weak-list-p: Weak Lists. -* weak-list-type: Weak Lists. -* where-is-internal: Scanning Keymaps. -* while: Iteration. -* whitespace: Character Type. -* whitespace character: Syntax Class Table. -* widen: Narrowing. -* widening: Narrowing. -* window: Basic Windows. -* window configuration (Edebug): Edebug Display Update. -* window configurations: Window Configurations. -* window excursions: Excursions. -* window ordering, cyclic: Cyclic Window Ordering. -* window point: Window Point. -* window position <1>: Position of Window. -* window position: Window Point. -* window resizing: Resizing Windows. -* window size: Size of Window. -* window size, changing: Resizing Windows. -* window splitting: Splitting Windows. -* window system types: Window-System Types. -* window top line: Window Start. -* window-buffer: Buffers and Windows. -* window-configuration-p: Window Configurations. -* window-dedicated-p: Choosing Window. -* window-displayed-text-pixel-height: Size of Window. -* window-end: Window Start. -* window-frame: Frames and Windows. -* window-height: Size of Window. -* window-highest-p: Position of Window. -* window-hscroll: Horizontal Scrolling. -* window-left-margin-pixel-width: Margin Primitives. -* window-live-p: Deleting Windows. -* window-lowest-p: Position of Window. -* window-min-height: Resizing Windows. -* window-min-width: Resizing Windows. -* window-minibuffer-p: Minibuffer Misc. -* window-pixel-edges: Position of Window. -* window-pixel-height: Size of Window. -* window-pixel-width: Size of Window. -* window-point: Window Point. -* window-right-margin-pixel-width: Margin Primitives. -* window-setup-hook: Terminal-Specific. -* window-size-change-functions: Resizing Windows. -* window-start: Window Start. -* window-system objects: Faces and Window-System Objects. -* window-text-area-pixel-edges: Position of Window. -* window-text-area-pixel-height: Size of Window. -* window-text-area-pixel-width: Size of Window. -* window-width: Size of Window. -* windowp: Basic Windows. -* windows, controlling precisely: Buffers and Windows. -* with-current-buffer: Excursions. -* with-output-to-temp-buffer: Temporary Displays. -* with-selected-frame: Input Focus. -* with-temp-file: Excursions. -* word search: String Search. -* word-search-backward: String Search. -* word-search-forward: String Search. -* words-include-escapes: Word Motion. -* word constituent: Syntax Class Table. -* write-abbrev-file: Abbrev Files. -* write-char: Output Functions. -* write-contents-hooks: Saving Buffers. -* write-file: Saving Buffers. -* write-file-hooks: Saving Buffers. -* write-region: Writing to Files. -* write-region-annotate-functions: Saving Properties. -* writing a documentation string: Documentation Basics. -* wrong-number-of-arguments: Argument List. -* wrong-type-argument: Type Predicates. -* X: X-Windows. -* X resource type: X Resource Type. -* X window frame: Frames. -* x-allow-sendevents: X Miscellaneous. -* x-bitmap-file-path <1>: X Miscellaneous. -* x-bitmap-file-path: Image Specifiers. -* x-debug-events: X Miscellaneous. -* x-debug-mode: X Miscellaneous. -* x-disown-selection: X Selections. -* x-display-visual-class: Server Data. -* x-emacs-application-class: Resources. -* x-find-larger-font: Font Instance Size. -* x-find-smaller-font: Font Instance Size. -* x-font-size: Font Instance Size. -* x-get-cutbuffer: X Selections. -* x-get-resource: Resources. -* x-get-selection: X Selections. -* x-grab-keyboard: Grabs. -* x-grab-pointer: Grabs. -* x-library-search-path: X Miscellaneous. -* x-make-font-bold: Font Instance Characteristics. -* x-make-font-bold-italic: Font Instance Characteristics. -* x-make-font-italic: Font Instance Characteristics. -* x-make-font-unbold: Font Instance Characteristics. -* x-make-font-unitalic: Font Instance Characteristics. -* x-own-selection: X Selections. -* x-put-resource: Resources. -* x-server-vendor: Server Data. -* x-server-version: Server Data. -* x-set-frame-icon-pixmap: Frame Titles. -* x-store-cutbuffer: X Selections. -* x-ungrab-keyboard: Grabs. -* x-ungrab-pointer: Grabs. -* x-valid-keysym-name-p: X Miscellaneous. -* x-window-id: X Miscellaneous. -* X-Windows: X-Windows. -* XEmacs event standard notation: Describing Characters. -* xpm-color-symbols: Image Specifiers. -* y-or-n-p: Yes-or-No Queries. -* y-or-n-p-maybe-dialog-box: Yes-or-No Queries. -* yank: Yank Commands. -* yank suppression: Changing Key Bindings. -* yank-pop: Yank Commands. -* yes-or-no questions: Yes-or-No Queries. -* yes-or-no-p: Yes-or-No Queries. -* yes-or-no-p-dialog-box: Yes-or-No Queries. -* yes-or-no-p-maybe-dialog-box: Yes-or-No Queries. -* zero-length extent: Extent Endpoints. -* zerop: Predicates on Numbers. -* zmacs-activate-region: The Region. -* zmacs-activate-region-hook: The Region. -* zmacs-deactivate-region: The Region. -* zmacs-deactivate-region-hook: The Region. -* zmacs-region-stays: The Region. -* zmacs-regions: The Region. -* zmacs-update-region: The Region. -* zmacs-update-region-hook: The Region. -* | in regexp: Syntax of Regexps. +* CCL Syntax:: CCL program syntax in BNF notation. +* CCL Statements:: Semantics of CCL statements. +* CCL Expressions:: Operators and expressions in CCL. +* Calling CCL:: Running CCL programs. +* CCL Examples:: The encoding functions for Big5 and KOI-8. + + +File: lispref.info, Node: CCL Syntax, Next: CCL Statements, Up: CCL + +CCL Syntax +---------- + + The full syntax of a CCL program in BNF notation: + +CCL_PROGRAM := + (BUFFER_MAGNIFICATION + CCL_MAIN_BLOCK + [ CCL_EOF_BLOCK ]) + +BUFFER_MAGNIFICATION := integer +CCL_MAIN_BLOCK := CCL_BLOCK +CCL_EOF_BLOCK := CCL_BLOCK + +CCL_BLOCK := + STATEMENT | (STATEMENT [STATEMENT ...]) +STATEMENT := + SET | IF | BRANCH | LOOP | REPEAT | BREAK | READ | WRITE + | CALL | END + +SET := + (REG = EXPRESSION) + | (REG ASSIGNMENT_OPERATOR EXPRESSION) + | integer + +EXPRESSION := ARG | (EXPRESSION OPERATOR ARG) + +IF := (if EXPRESSION CCL_BLOCK [CCL_BLOCK]) +BRANCH := (branch EXPRESSION CCL_BLOCK [CCL_BLOCK ...]) +LOOP := (loop STATEMENT [STATEMENT ...]) +BREAK := (break) +REPEAT := + (repeat) + | (write-repeat [REG | integer | string]) + | (write-read-repeat REG [integer | ARRAY]) +READ := + (read REG ...) + | (read-if (REG OPERATOR ARG) CCL_BLOCK CCL_BLOCK) + | (read-branch REG CCL_BLOCK [CCL_BLOCK ...]) +WRITE := + (write REG ...) + | (write EXPRESSION) + | (write integer) | (write string) | (write REG ARRAY) + | string +CALL := (call ccl-program-name) +END := (end) + +REG := r0 | r1 | r2 | r3 | r4 | r5 | r6 | r7 +ARG := REG | integer +OPERATOR := + + | - | * | / | % | & | '|' | ^ | << | >> | <8 | >8 | // + | < | > | == | <= | >= | != | de-sjis | en-sjis +ASSIGNMENT_OPERATOR := + += | -= | *= | /= | %= | &= | '|=' | ^= | <<= | >>= +ARRAY := '[' integer ... ']' + + +File: lispref.info, Node: CCL Statements, Next: CCL Expressions, Prev: CCL Syntax, Up: CCL + +CCL Statements +-------------- + + The Emacs Code Conversion Language provides the following statement +types: "set", "if", "branch", "loop", "repeat", "break", "read", +"write", "call", and "end". + +Set statement: +============== + + The "set" statement has three variants with the syntaxes `(REG = +EXPRESSION)', `(REG ASSIGNMENT_OPERATOR EXPRESSION)', and `INTEGER'. +The assignment operator variation of the "set" statement works the same +way as the corresponding C expression statement does. The assignment +operators are `+=', `-=', `*=', `/=', `%=', `&=', `|=', `^=', `<<=', +and `>>=', and they have the same meanings as in C. A "naked integer" +INTEGER is equivalent to a SET statement of the form `(r0 = INTEGER)'. + +I/O statements: +=============== + + The "read" statement takes one or more registers as arguments. It +reads one byte (a C char) from the input into each register in turn. + + The "write" takes several forms. In the form `(write REG ...)' it +takes one or more registers as arguments and writes each in turn to the +output. The integer in a register (interpreted as an Emchar) is +encoded to multibyte form (ie, Bufbytes) and written to the current +output buffer. If it is less than 256, it is written as is. The forms +`(write EXPRESSION)' and `(write INTEGER)' are treated analogously. +The form `(write STRING)' writes the constant string to the output. A +"naked string" `STRING' is equivalent to the statement `(write +STRING)'. The form `(write REG ARRAY)' writes the REGth element of the +ARRAY to the output. + +Conditional statements: +======================= + + The "if" statement takes an EXPRESSION, a CCL BLOCK, and an optional +SECOND CCL BLOCK as arguments. If the EXPRESSION evaluates to +non-zero, the first CCL BLOCK is executed. Otherwise, if there is a +SECOND CCL BLOCK, it is executed. + + The "read-if" variant of the "if" statement takes an EXPRESSION, a +CCL BLOCK, and an optional SECOND CCL BLOCK as arguments. The +EXPRESSION must have the form `(REG OPERATOR OPERAND)' (where OPERAND is +a register or an integer). The `read-if' statement first reads from +the input into the first register operand in the EXPRESSION, then +conditionally executes a CCL block just as the `if' statement does. + + The "branch" statement takes an EXPRESSION and one or more CCL +blocks as arguments. The CCL blocks are treated as a zero-indexed +array, and the `branch' statement uses the EXPRESSION as the index of +the CCL block to execute. Null CCL blocks may be used as no-ops, +continuing execution with the statement following the `branch' +statement in the containing CCL block. Out-of-range values for the +EXPRESSION are also treated as no-ops. + + The "read-branch" variant of the "branch" statement takes an +REGISTER, a CCL BLOCK, and an optional SECOND CCL BLOCK as arguments. +The `read-branch' statement first reads from the input into the +REGISTER, then conditionally executes a CCL block just as the `branch' +statement does. + +Loop control statements: +======================== + + The "loop" statement creates a block with an implied jump from the +end of the block back to its head. The loop is exited on a `break' +statement, and continued without executing the tail by a `repeat' +statement. + + The "break" statement, written `(break)', terminates the current +loop and continues with the next statement in the current block. + + The "repeat" statement has three variants, `repeat', `write-repeat', +and `write-read-repeat'. Each continues the current loop from its +head, possibly after performing I/O. `repeat' takes no arguments and +does no I/O before jumping. `write-repeat' takes a single argument (a +register, an integer, or a string), writes it to the output, then jumps. +`write-read-repeat' takes one or two arguments. The first must be a +register. The second may be an integer or an array; if absent, it is +implicitly set to the first (register) argument. `write-read-repeat' +writes its second argument to the output, then reads from the input +into the register, and finally jumps. See the `write' and `read' +statements for the semantics of the I/O operations for each type of +argument. + +Other control statements: +========================= + + The "call" statement, written `(call CCL-PROGRAM-NAME)', executes a +CCL program as a subroutine. It does not return a value to the caller, +but can modify the register status. + + The "end" statement, written `(end)', terminates the CCL program +successfully, and returns to caller (which may be a CCL program). It +does not alter the status of the registers. + + +File: lispref.info, Node: CCL Expressions, Next: Calling CCL, Prev: CCL Statements, Up: CCL + +CCL Expressions +--------------- + + CCL, unlike Lisp, uses infix expressions. The simplest CCL +expressions consist of a single OPERAND, either a register (one of `r0', +..., `r0') or an integer. Complex expressions are lists of the form `( +EXPRESSION OPERATOR OPERAND )'. Unlike C, assignments are not +expressions. + + In the following table, X is the target resister for a "set". In +subexpressions, this is implicitly `r7'. This means that `>8', `//', +`de-sjis', and `en-sjis' cannot be used freely in subexpressions, since +they return parts of their values in `r7'. Y may be an expression, +register, or integer, while Z must be a register or an integer. + +Name Operator Code C-like Description +CCL_PLUS `+' 0x00 X = Y + Z +CCL_MINUS `-' 0x01 X = Y - Z +CCL_MUL `*' 0x02 X = Y * Z +CCL_DIV `/' 0x03 X = Y / Z +CCL_MOD `%' 0x04 X = Y % Z +CCL_AND `&' 0x05 X = Y & Z +CCL_OR `|' 0x06 X = Y | Z +CCL_XOR `^' 0x07 X = Y ^ Z +CCL_LSH `<<' 0x08 X = Y << Z +CCL_RSH `>>' 0x09 X = Y >> Z +CCL_LSH8 `<8' 0x0A X = (Y << 8) | Z +CCL_RSH8 `>8' 0x0B X = Y >> 8, r[7] = Y & 0xFF +CCL_DIVMOD `//' 0x0C X = Y / Z, r[7] = Y % Z +CCL_LS `<' 0x10 X = (X < Y) +CCL_GT `>' 0x11 X = (X > Y) +CCL_EQ `==' 0x12 X = (X == Y) +CCL_LE `<=' 0x13 X = (X <= Y) +CCL_GE `>=' 0x14 X = (X >= Y) +CCL_NE `!=' 0x15 X = (X != Y) +CCL_ENCODE_SJIS `en-sjis' 0x16 X = HIGHER_BYTE (SJIS (Y, Z)) + r[7] = LOWER_BYTE (SJIS (Y, Z) +CCL_DECODE_SJIS `de-sjis' 0x17 X = HIGHER_BYTE (DE-SJIS (Y, Z)) + r[7] = LOWER_BYTE (DE-SJIS (Y, Z)) + + The CCL operators are as in C, with the addition of CCL_LSH8, +CCL_RSH8, CCL_DIVMOD, CCL_ENCODE_SJIS, and CCL_DECODE_SJIS. The +CCL_ENCODE_SJIS and CCL_DECODE_SJIS treat their first and second bytes +as the high and low bytes of a two-byte character code. (SJIS stands +for Shift JIS, an encoding of Japanese characters used by Microsoft. +CCL_ENCODE_SJIS is a complicated transformation of the Japanese +standard JIS encoding to Shift JIS. CCL_DECODE_SJIS is its inverse.) +It is somewhat odd to represent the SJIS operations in infix form. + + +File: lispref.info, Node: Calling CCL, Next: CCL Examples, Prev: CCL Expressions, Up: CCL + +Calling CCL +----------- + + CCL programs are called automatically during Emacs buffer I/O when +the external representation has a coding system type of `shift-jis', +`big5', or `ccl'. The program is specified by the coding system (*note +Coding Systems::). You can also call CCL programs from other CCL +programs, and from Lisp using these functions: + + - Function: ccl-execute ccl-program status + Execute CCL-PROGRAM with registers initialized by STATUS. + CCL-PROGRAM is a vector of compiled CCL code created by + `ccl-compile'. It is an error for the program to try to execute a + CCL I/O command. STATUS must be a vector of nine values, + specifying the initial value for the R0, R1 .. R7 registers and + for the instruction counter IC. A `nil' value for a register + initializer causes the register to be set to 0. A `nil' value for + the IC initializer causes execution to start at the beginning of + the program. When the program is done, STATUS is modified (by + side-effect) to contain the ending values for the corresponding + registers and IC. + + - Function: ccl-execute-on-string ccl-program status str &optional + continue + Execute CCL-PROGRAM with initial STATUS on STRING. CCL-PROGRAM is + a vector of compiled CCL code created by `ccl-compile'. STATUS + must be a vector of nine values, specifying the initial value for + the R0, R1 .. R7 registers and for the instruction counter IC. A + `nil' value for a register initializer causes the register to be + set to 0. A `nil' value for the IC initializer causes execution + to start at the beginning of the program. An optional fourth + argument CONTINUE, if non-nil, causes the IC to remain on the + unsatisfied read operation if the program terminates due to + exhaustion of the input buffer. Otherwise the IC is set to the end + of the program. When the program is done, STATUS is modified (by + side-effect) to contain the ending values for the corresponding + registers and IC. Returns the resulting string. + + To call a CCL program from another CCL program, it must first be +registered: + + - Function: register-ccl-program name ccl-program + Register NAME for CCL program PROGRAM in `ccl-program-table'. + PROGRAM should be the compiled form of a CCL program, or nil. + Return index number of the registered CCL program. + + Information about the processor time used by the CCL interpreter can +be obtained using these functions: + + - Function: ccl-elapsed-time + Returns the elapsed processor time of the CCL interpreter as cons + of user and system time, as floating point numbers measured in + seconds. If only one overall value can be determined, the return + value will be a cons of that value and 0. + + - Function: ccl-reset-elapsed-time + Resets the CCL interpreter's internal elapsed time registers. + + +File: lispref.info, Node: CCL Examples, Prev: Calling CCL, Up: CCL + +CCL Examples +------------ + + This section is not yet written. + + +File: lispref.info, Node: Category Tables, Prev: CCL, Up: MULE + +Category Tables +=============== + + A category table is a type of char table used for keeping track of +categories. Categories are used for classifying characters for use in +regexps--you can refer to a category rather than having to use a +complicated [] expression (and category lookups are significantly +faster). + + There are 95 different categories available, one for each printable +character (including space) in the ASCII charset. Each category is +designated by one such character, called a "category designator". They +are specified in a regexp using the syntax `\cX', where X is a category +designator. (This is not yet implemented.) + + A category table specifies, for each character, the categories that +the character is in. Note that a character can be in more than one +category. More specifically, a category table maps from a character to +either the value `nil' (meaning the character is in no categories) or a +95-element bit vector, specifying for each of the 95 categories whether +the character is in that category. + + Special Lisp functions are provided that abstract this, so you do not +have to directly manipulate bit vectors. + + - Function: category-table-p obj + This function returns `t' if ARG is a category table. + + - Function: category-table &optional buffer + This function returns the current category table. This is the one + specified by the current buffer, or by BUFFER if it is non-`nil'. + + - Function: standard-category-table + This function returns the standard category table. This is the + one used for new buffers. + + - Function: copy-category-table &optional table + This function constructs a new category table and return it. It + is a copy of the TABLE, which defaults to the standard category + table. + + - Function: set-category-table table &optional buffer + This function selects a new category table for BUFFER. One + argument, a category table. BUFFER defaults to the current buffer + if omitted. + + - Function: category-designator-p obj + This function returns `t' if ARG is a category designator (a char + in the range `' '' to `'~''). + + - Function: category-table-value-p obj + This function returns `t' if ARG is a category table value. Valid + values are `nil' or a bit vector of size 95. + + +File: lispref.info, Node: Tips, Next: Building XEmacs and Object Allocation, Prev: MULE, Up: Top + +Tips and Standards +****************** + + This chapter describes no additional features of XEmacs Lisp. +Instead it gives advice on making effective use of the features +described in the previous chapters. + +* Menu: +* Style Tips:: Writing clean and robust programs. +* Compilation Tips:: Making compiled code run fast. +* Documentation Tips:: Writing readable documentation strings. +* Comment Tips:: Conventions for writing comments. +* Library Headers:: Standard headers for library packages. diff --git a/info/lispref.info-45 b/info/lispref.info-45 index f6e4355..3a84e99 100644 --- a/info/lispref.info-45 +++ b/info/lispref.info-45 @@ -50,6 +50,701 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Style Tips, Next: Compilation Tips, Up: Tips + +Writing Clean Lisp Programs +=========================== + + Here are some tips for avoiding common errors in writing Lisp code +intended for widespread use: + + * Since all global variables share the same name space, and all + functions share another name space, you should choose a short word + to distinguish your program from other Lisp programs. Then take + care to begin the names of all global variables, constants, and + functions with the chosen prefix. This helps avoid name conflicts. + + This recommendation applies even to names for traditional Lisp + primitives that are not primitives in XEmacs Lisp--even to `cadr'. + Believe it or not, there is more than one plausible way to define + `cadr'. Play it safe; append your name prefix to produce a name + like `foo-cadr' or `mylib-cadr' instead. + + If you write a function that you think ought to be added to Emacs + under a certain name, such as `twiddle-files', don't call it by + that name in your program. Call it `mylib-twiddle-files' in your + program, and send mail to `bug-gnu-emacs@prep.ai.mit.edu' + suggesting we add it to Emacs. If and when we do, we can change + the name easily enough. + + If one prefix is insufficient, your package may use two or three + alternative common prefixes, so long as they make sense. + + Separate the prefix from the rest of the symbol name with a hyphen, + `-'. This will be consistent with XEmacs itself and with most + Emacs Lisp programs. + + * It is often useful to put a call to `provide' in each separate + library program, at least if there is more than one entry point to + the program. + + * If a file requires certain other library programs to be loaded + beforehand, then the comments at the beginning of the file should + say so. Also, use `require' to make sure they are loaded. + + * If one file FOO uses a macro defined in another file BAR, FOO + should contain this expression before the first use of the macro: + + (eval-when-compile (require 'BAR)) + + (And BAR should contain `(provide 'BAR)', to make the `require' + work.) This will cause BAR to be loaded when you byte-compile + FOO. Otherwise, you risk compiling FOO without the necessary + macro loaded, and that would produce compiled code that won't work + right. *Note Compiling Macros::. + + Using `eval-when-compile' avoids loading BAR when the compiled + version of FOO is _used_. + + * If you define a major mode, make sure to run a hook variable using + `run-hooks', just as the existing major modes do. *Note Hooks::. + + * If the purpose of a function is to tell you whether a certain + condition is true or false, give the function a name that ends in + `p'. If the name is one word, add just `p'; if the name is + multiple words, add `-p'. Examples are `framep' and + `frame-live-p'. + + * If a user option variable records a true-or-false condition, give + it a name that ends in `-flag'. + + * Please do not define `C-c LETTER' as a key in your major modes. + These sequences are reserved for users; they are the *only* + sequences reserved for users, so we cannot do without them. + + Instead, define sequences consisting of `C-c' followed by a + non-letter. These sequences are reserved for major modes. + + Changing all the major modes in Emacs 18 so they would follow this + convention was a lot of work. Abandoning this convention would + make that work go to waste, and inconvenience users. + + * Sequences consisting of `C-c' followed by `{', `}', `<', `>', `:' + or `;' are also reserved for major modes. + + * Sequences consisting of `C-c' followed by any other punctuation + character are allocated for minor modes. Using them in a major + mode is not absolutely prohibited, but if you do that, the major + mode binding may be shadowed from time to time by minor modes. + + * You should not bind `C-h' following any prefix character (including + `C-c'). If you don't bind `C-h', it is automatically available as + a help character for listing the subcommands of the prefix + character. + + * You should not bind a key sequence ending in except following + another . (That is, it is ok to bind a sequence ending in + ` '.) + + The reason for this rule is that a non-prefix binding for in + any context prevents recognition of escape sequences as function + keys in that context. + + * Applications should not bind mouse events based on button 1 with + the shift key held down. These events include `S-mouse-1', + `M-S-mouse-1', `C-S-mouse-1', and so on. They are reserved for + users. + + * Modes should redefine `mouse-2' as a command to follow some sort of + reference in the text of a buffer, if users usually would not want + to alter the text in that buffer by hand. Modes such as Dired, + Info, Compilation, and Occur redefine it in this way. + + * When a package provides a modification of ordinary Emacs behavior, + it is good to include a command to enable and disable the feature, + Provide a command named `WHATEVER-mode' which turns the feature on + or off, and make it autoload (*note Autoload::). Design the + package so that simply loading it has no visible effect--that + should not enable the feature. Users will request the feature by + invoking the command. + + * It is a bad idea to define aliases for the Emacs primitives. Use + the standard names instead. + + * Redefining an Emacs primitive is an even worse idea. It may do + the right thing for a particular program, but there is no telling + what other programs might break as a result. + + * If a file does replace any of the functions or library programs of + standard XEmacs, prominent comments at the beginning of the file + should say which functions are replaced, and how the behavior of + the replacements differs from that of the originals. + + * Please keep the names of your XEmacs Lisp source files to 13 + characters or less. This way, if the files are compiled, the + compiled files' names will be 14 characters or less, which is + short enough to fit on all kinds of Unix systems. + + * Don't use `next-line' or `previous-line' in programs; nearly + always, `forward-line' is more convenient as well as more + predictable and robust. *Note Text Lines::. + + * Don't call functions that set the mark, unless setting the mark is + one of the intended features of your program. The mark is a + user-level feature, so it is incorrect to change the mark except + to supply a value for the user's benefit. *Note The Mark::. + + In particular, don't use these functions: + + * `beginning-of-buffer', `end-of-buffer' + + * `replace-string', `replace-regexp' + + If you just want to move point, or replace a certain string, + without any of the other features intended for interactive users, + you can replace these functions with one or two lines of simple + Lisp code. + + * Use lists rather than vectors, except when there is a particular + reason to use a vector. Lisp has more facilities for manipulating + lists than for vectors, and working with lists is usually more + convenient. + + Vectors are advantageous for tables that are substantial in size + and are accessed in random order (not searched front to back), + provided there is no need to insert or delete elements (only lists + allow that). + + * The recommended way to print a message in the echo area is with + the `message' function, not `princ'. *Note The Echo Area::. + + * When you encounter an error condition, call the function `error' + (or `signal'). The function `error' does not return. *Note + Signaling Errors::. + + Do not use `message', `throw', `sleep-for', or `beep' to report + errors. + + * An error message should start with a capital letter but should not + end with a period. + + * Try to avoid using recursive edits. Instead, do what the Rmail `e' + command does: use a new local keymap that contains one command + defined to switch back to the old local keymap. Or do what the + `edit-options' command does: switch to another buffer and let the + user switch back at will. *Note Recursive Editing::. + + * In some other systems there is a convention of choosing variable + names that begin and end with `*'. We don't use that convention + in Emacs Lisp, so please don't use it in your programs. (Emacs + uses such names only for program-generated buffers.) The users + will find Emacs more coherent if all libraries use the same + conventions. + + * Indent each function with `C-M-q' (`indent-sexp') using the + default indentation parameters. + + * Don't make a habit of putting close-parentheses on lines by + themselves; Lisp programmers find this disconcerting. Once in a + while, when there is a sequence of many consecutive + close-parentheses, it may make sense to split them in one or two + significant places. + + * Please put a copyright notice on the file if you give copies to + anyone. Use the same lines that appear at the top of the Lisp + files in XEmacs itself. If you have not signed papers to assign + the copyright to the Foundation, then place your name in the + copyright notice in place of the Foundation's name. + + +File: lispref.info, Node: Compilation Tips, Next: Documentation Tips, Prev: Style Tips, Up: Tips + +Tips for Making Compiled Code Fast +================================== + + Here are ways of improving the execution speed of byte-compiled Lisp +programs. + + * Use the `profile' library to profile your program. See the file + `profile.el' for instructions. + + * Use iteration rather than recursion whenever possible. Function + calls are slow in XEmacs Lisp even when a compiled function is + calling another compiled function. + + * Using the primitive list-searching functions `memq', `member', + `assq', or `assoc' is even faster than explicit iteration. It may + be worth rearranging a data structure so that one of these + primitive search functions can be used. + + * Certain built-in functions are handled specially in byte-compiled + code, avoiding the need for an ordinary function call. It is a + good idea to use these functions rather than alternatives. To see + whether a function is handled specially by the compiler, examine + its `byte-compile' property. If the property is non-`nil', then + the function is handled specially. + + For example, the following input will show you that `aref' is + compiled specially (*note Array Functions::) while `elt' is not + (*note Sequence Functions::): + + (get 'aref 'byte-compile) + => byte-compile-two-args + + (get 'elt 'byte-compile) + => nil + + * If calling a small function accounts for a substantial part of + your program's running time, make the function inline. This + eliminates the function call overhead. Since making a function + inline reduces the flexibility of changing the program, don't do + it unless it gives a noticeable speedup in something slow enough + that users care about the speed. *Note Inline Functions::. + + +File: lispref.info, Node: Documentation Tips, Next: Comment Tips, Prev: Compilation Tips, Up: Tips + +Tips for Documentation Strings +============================== + + Here are some tips for the writing of documentation strings. + + * Every command, function, or variable intended for users to know + about should have a documentation string. + + * An internal variable or subroutine of a Lisp program might as well + have a documentation string. In earlier Emacs versions, you could + save space by using a comment instead of a documentation string, + but that is no longer the case. + + * The first line of the documentation string should consist of one + or two complete sentences that stand on their own as a summary. + `M-x apropos' displays just the first line, and if it doesn't + stand on its own, the result looks bad. In particular, start the + first line with a capital letter and end with a period. + + The documentation string can have additional lines that expand on + the details of how to use the function or variable. The + additional lines should be made up of complete sentences also, but + they may be filled if that looks good. + + * For consistency, phrase the verb in the first sentence of a + documentation string as an infinitive with "to" omitted. For + instance, use "Return the cons of A and B." in preference to + "Returns the cons of A and B." Usually it looks good to do + likewise for the rest of the first paragraph. Subsequent + paragraphs usually look better if they have proper subjects. + + * Write documentation strings in the active voice, not the passive, + and in the present tense, not the future. For instance, use + "Return a list containing A and B." instead of "A list containing + A and B will be returned." + + * Avoid using the word "cause" (or its equivalents) unnecessarily. + Instead of, "Cause Emacs to display text in boldface," write just + "Display text in boldface." + + * Do not start or end a documentation string with whitespace. + + * Format the documentation string so that it fits in an Emacs window + on an 80-column screen. It is a good idea for most lines to be no + wider than 60 characters. The first line can be wider if + necessary to fit the information that ought to be there. + + However, rather than simply filling the entire documentation + string, you can make it much more readable by choosing line breaks + with care. Use blank lines between topics if the documentation + string is long. + + * *Do not* indent subsequent lines of a documentation string so that + the text is lined up in the source code with the text of the first + line. This looks nice in the source code, but looks bizarre when + users view the documentation. Remember that the indentation + before the starting double-quote is not part of the string! + + * A variable's documentation string should start with `*' if the + variable is one that users would often want to set interactively. + If the value is a long list, or a function, or if the variable + would be set only in init files, then don't start the + documentation string with `*'. *Note Defining Variables::. + + * The documentation string for a variable that is a yes-or-no flag + should start with words such as "Non-nil means...", to make it + clear that all non-`nil' values are equivalent and indicate + explicitly what `nil' and non-`nil' mean. + + * When a function's documentation string mentions the value of an + argument of the function, use the argument name in capital letters + as if it were a name for that value. Thus, the documentation + string of the function `/' refers to its second argument as + `DIVISOR', because the actual argument name is `divisor'. + + Also use all caps for meta-syntactic variables, such as when you + show the decomposition of a list or vector into subunits, some of + which may vary. + + * When a documentation string refers to a Lisp symbol, write it as it + would be printed (which usually means in lower case), with + single-quotes around it. For example: `lambda'. There are two + exceptions: write t and nil without single-quotes. (In this + manual, we normally do use single-quotes for those symbols.) + + * Don't write key sequences directly in documentation strings. + Instead, use the `\\[...]' construct to stand for them. For + example, instead of writing `C-f', write `\\[forward-char]'. When + Emacs displays the documentation string, it substitutes whatever + key is currently bound to `forward-char'. (This is normally `C-f', + but it may be some other character if the user has moved key + bindings.) *Note Keys in Documentation::. + + * In documentation strings for a major mode, you will want to refer + to the key bindings of that mode's local map, rather than global + ones. Therefore, use the construct `\\<...>' once in the + documentation string to specify which key map to use. Do this + before the first use of `\\[...]'. The text inside the `\\<...>' + should be the name of the variable containing the local keymap for + the major mode. + + It is not practical to use `\\[...]' very many times, because + display of the documentation string will become slow. So use this + to describe the most important commands in your major mode, and + then use `\\{...}' to display the rest of the mode's keymap. + + +File: lispref.info, Node: Comment Tips, Next: Library Headers, Prev: Documentation Tips, Up: Tips + +Tips on Writing Comments +======================== + + We recommend these conventions for where to put comments and how to +indent them: + +`;' + Comments that start with a single semicolon, `;', should all be + aligned to the same column on the right of the source code. Such + comments usually explain how the code on the same line does its + job. In Lisp mode and related modes, the `M-;' + (`indent-for-comment') command automatically inserts such a `;' in + the right place, or aligns such a comment if it is already present. + + This and following examples are taken from the Emacs sources. + + (setq base-version-list ; there was a base + (assoc (substring fn 0 start-vn) ; version to which + file-version-assoc-list)) ; this looks like + ; a subversion + +`;;' + Comments that start with two semicolons, `;;', should be aligned to + the same level of indentation as the code. Such comments usually + describe the purpose of the following lines or the state of the + program at that point. For example: + + (prog1 (setq auto-fill-function + ... + ... + ;; update modeline + (redraw-modeline))) + + Every function that has no documentation string (because it is use + only internally within the package it belongs to), should have + instead a two-semicolon comment right before the function, + explaining what the function does and how to call it properly. + Explain precisely what each argument means and how the function + interprets its possible values. + +`;;;' + Comments that start with three semicolons, `;;;', should start at + the left margin. Such comments are used outside function + definitions to make general statements explaining the design + principles of the program. For example: + + ;;; This Lisp code is run in XEmacs + ;;; when it is to operate as a server + ;;; for other processes. + + Another use for triple-semicolon comments is for commenting out + lines within a function. We use triple-semicolons for this + precisely so that they remain at the left margin. + + (defun foo (a) + ;;; This is no longer necessary. + ;;; (force-mode-line-update) + (message "Finished with %s" a)) + +`;;;;' + Comments that start with four semicolons, `;;;;', should be aligned + to the left margin and are used for headings of major sections of a + program. For example: + + ;;;; The kill ring + +The indentation commands of the Lisp modes in XEmacs, such as `M-;' +(`indent-for-comment') and (`lisp-indent-line') automatically +indent comments according to these conventions, depending on the number +of semicolons. *Note Manipulating Comments: (emacs)Comments. + + +File: lispref.info, Node: Library Headers, Prev: Comment Tips, Up: Tips + +Conventional Headers for XEmacs Libraries +========================================= + + XEmacs has conventions for using special comments in Lisp libraries +to divide them into sections and give information such as who wrote +them. This section explains these conventions. First, an example: + + ;;; lisp-mnt.el --- minor mode for Emacs Lisp maintainers + + ;; Copyright (C) 1992 Free Software Foundation, Inc. + + ;; Author: Eric S. Raymond + ;; Maintainer: Eric S. Raymond + ;; Created: 14 Jul 1992 + ;; Version: 1.2 + ;; Keywords: docs + + ;; This file is part of XEmacs. + COPYING PERMISSIONS... + + The very first line should have this format: + + ;;; FILENAME --- DESCRIPTION + +The description should be complete in one line. + + After the copyright notice come several "header comment" lines, each +beginning with `;; HEADER-NAME:'. Here is a table of the conventional +possibilities for HEADER-NAME: + +`Author' + This line states the name and net address of at least the principal + author of the library. + + If there are multiple authors, you can list them on continuation + lines led by `;;' and a tab character, like this: + + ;; Author: Ashwin Ram + ;; Dave Sill + ;; Dave Brennan + ;; Eric Raymond + +`Maintainer' + This line should contain a single name/address as in the Author + line, or an address only, or the string `FSF'. If there is no + maintainer line, the person(s) in the Author field are presumed to + be the maintainers. The example above is mildly bogus because the + maintainer line is redundant. + + The idea behind the `Author' and `Maintainer' lines is to make + possible a Lisp function to "send mail to the maintainer" without + having to mine the name out by hand. + + Be sure to surround the network address with `<...>' if you + include the person's full name as well as the network address. + +`Created' + This optional line gives the original creation date of the file. + For historical interest only. + +`Version' + If you wish to record version numbers for the individual Lisp + program, put them in this line. + +`Adapted-By' + In this header line, place the name of the person who adapted the + library for installation (to make it fit the style conventions, for + example). + +`Keywords' + This line lists keywords for the `finder-by-keyword' help command. + This field is important; it's how people will find your package + when they're looking for things by topic area. To separate the + keywords, you can use spaces, commas, or both. + + Just about every Lisp library ought to have the `Author' and +`Keywords' header comment lines. Use the others if they are +appropriate. You can also put in header lines with other header +names--they have no standard meanings, so they can't do any harm. + + We use additional stylized comments to subdivide the contents of the +library file. Here is a table of them: + +`;;; Commentary:' + This begins introductory comments that explain how the library + works. It should come right after the copying permissions. + +`;;; Change log:' + This begins change log information stored in the library file (if + you store the change history there). For most of the Lisp files + distributed with XEmacs, the change history is kept in the file + `ChangeLog' and not in the source file at all; these files do not + have a `;;; Change log:' line. + +`;;; Code:' + This begins the actual code of the program. + +`;;; FILENAME ends here' + This is the "footer line"; it appears at the very end of the file. + Its purpose is to enable people to detect truncated versions of + the file from the lack of a footer line. + + +File: lispref.info, Node: Building XEmacs and Object Allocation, Next: Standard Errors, Prev: Tips, Up: Top + +Building XEmacs; Allocation of Objects +************************************** + + This chapter describes how the runnable XEmacs executable is dumped +with the preloaded Lisp libraries in it and how storage is allocated. + + There is an entire separate document, the `XEmacs Internals Manual', +devoted to the internals of XEmacs from the perspective of the C +programmer. It contains much more detailed information about the build +process, the allocation and garbage-collection process, and other +aspects related to the internals of XEmacs. + +* Menu: + +* Building XEmacs:: How to preload Lisp libraries into XEmacs. +* Pure Storage:: A kludge to make preloaded Lisp functions sharable. +* Garbage Collection:: Reclaiming space for Lisp objects no longer used. + + +File: lispref.info, Node: Building XEmacs, Next: Pure Storage, Up: Building XEmacs and Object Allocation + +Building XEmacs +=============== + + This section explains the steps involved in building the XEmacs +executable. You don't have to know this material to build and install +XEmacs, since the makefiles do all these things automatically. This +information is pertinent to XEmacs maintenance. + + The `XEmacs Internals Manual' contains more information about this. + + Compilation of the C source files in the `src' directory produces an +executable file called `temacs', also called a "bare impure XEmacs". +It contains the XEmacs Lisp interpreter and I/O routines, but not the +editing commands. + + Before XEmacs is actually usable, a number of Lisp files need to be +loaded. These define all the editing commands, plus most of the startup +code and many very basic Lisp primitives. This is accomplished by +loading the file `loadup.el', which in turn loads all of the other +standardly-loaded Lisp files. + + It takes a substantial time to load the standard Lisp files. +Luckily, you don't have to do this each time you run XEmacs; `temacs' +can dump out an executable program called `xemacs' that has these files +preloaded. `xemacs' starts more quickly because it does not need to +load the files. This is the XEmacs executable that is normally +installed. + + To create `xemacs', use the command `temacs -batch -l loadup dump'. +The purpose of `-batch' here is to tell `temacs' to run in +non-interactive, command-line mode. (`temacs' can _only_ run in this +fashion. Part of the code required to initialize frames and faces is +in Lisp, and must be loaded before XEmacs is able to create any frames.) +The argument `dump' tells `loadup.el' to dump a new executable named +`xemacs'. + + The dumping process is highly system-specific, and some operating +systems don't support dumping. On those systems, you must start XEmacs +with the `temacs -batch -l loadup run-temacs' command each time you use +it. This takes a substantial time, but since you need to start Emacs +once a day at most--or once a week if you never log out--the extra time +is not too severe a problem. (In older versions of Emacs, you started +Emacs from `temacs' using `temacs -l loadup'.) + + You are free to start XEmacs directly from `temacs' if you want, +even if there is already a dumped `xemacs'. Normally you wouldn't want +to do that; but the Makefiles do this when you rebuild XEmacs using +`make all-elc', which builds XEmacs and simultaneously compiles any +out-of-date Lisp files. (You need `xemacs' in order to compile Lisp +files. However, you also need the compiled Lisp files in order to dump +out `xemacs'. If both of these are missing or corrupted, you are out +of luck unless you're able to bootstrap `xemacs' from `temacs'. Note +that `make all-elc' actually loads the alternative loadup file +`loadup-el.el', which works like `loadup.el' but disables the +pure-copying process and forces XEmacs to ignore any compiled Lisp +files even if they exist.) + + You can specify additional files to preload by writing a library +named `site-load.el' that loads them. You may need to increase the +value of `PURESIZE', in `src/puresize.h', to make room for the +additional files. You should _not_ modify this file directly, however; +instead, use the `--puresize' configuration option. (If you run out of +pure space while dumping `xemacs', you will be told how much pure space +you actually will need.) However, the advantage of preloading +additional files decreases as machines get faster. On modern machines, +it is often not advisable, especially if the Lisp code is on a file +system local to the machine running XEmacs. + + You can specify other Lisp expressions to execute just before dumping +by putting them in a library named `site-init.el'. However, if they +might alter the behavior that users expect from an ordinary unmodified +XEmacs, it is better to put them in `default.el', so that users can +override them if they wish. *Note Start-up Summary::. + + Before `loadup.el' dumps the new executable, it finds the +documentation strings for primitive and preloaded functions (and +variables) in the file where they are stored, by calling +`Snarf-documentation' (*note Accessing Documentation::). These strings +were moved out of the `xemacs' executable to make it smaller. *Note +Documentation Basics::. + + - Function: dump-emacs to-file from-file + This function dumps the current state of XEmacs into an executable + file TO-FILE. It takes symbols from FROM-FILE (this is normally + the executable file `temacs'). + + If you use this function in an XEmacs that was already dumped, you + must set `command-line-processed' to `nil' first for good results. + *Note Command Line Arguments::. + + - Function: run-emacs-from-temacs &rest args + This is the function that implements the `run-temacs' command-line + argument. It is called from `loadup.el' as appropriate. You + should most emphatically _not_ call this yourself; it will + reinitialize your XEmacs process and you'll be sorry. + + - Command: emacs-version + This function returns a string describing the version of XEmacs + that is running. It is useful to include this string in bug + reports. + + (emacs-version) + => "XEmacs 20.1 [Lucid] (i586-unknown-linux2.0.29) + of Mon Apr 7 1997 on altair.xemacs.org" + + Called interactively, the function prints the same information in + the echo area. + + - Variable: emacs-build-time + The value of this variable is the time at which XEmacs was built + at the local site. + + emacs-build-time "Mon Apr 7 20:28:52 1997" + => + + - Variable: emacs-version + The value of this variable is the version of Emacs being run. It + is a string, e.g. `"20.1 XEmacs Lucid"'. + + The following two variables did not exist before FSF GNU Emacs +version 19.23 and XEmacs version 19.10, which reduces their usefulness +at present, but we hope they will be convenient in the future. + + - Variable: emacs-major-version + The major version number of Emacs, as an integer. For XEmacs + version 20.1, the value is 20. + + - Variable: emacs-minor-version + The minor version number of Emacs, as an integer. For XEmacs + version 20.1, the value is 1. + + File: lispref.info, Node: Pure Storage, Next: Garbage Collection, Prev: Building XEmacs, Up: Building XEmacs and Object Allocation Pure Storage @@ -505,812 +1200,3 @@ mathematical functions. `"Arithmetic underflow error"' *Note Math Functions::. - -File: lispref.info, Node: Standard Buffer-Local Variables, Next: Standard Keymaps, Prev: Standard Errors, Up: Top - -Buffer-Local Variables -********************** - - The table below lists the general-purpose Emacs variables that are -automatically local (when set) in each buffer. Many Lisp packages -define such variables for their internal use; we don't list them here. - -`abbrev-mode' - *note Abbrevs:: - -`auto-fill-function' - *note Auto Filling:: - -`buffer-auto-save-file-name' - *note Auto-Saving:: - -`buffer-backed-up' - *note Backup Files:: - -`buffer-display-table' - *note Display Tables:: - -`buffer-file-format' - *note Format Conversion:: - -`buffer-file-name' - *note Buffer File Name:: - -`buffer-file-number' - *note Buffer File Name:: - -`buffer-file-truename' - *note Buffer File Name:: - -`buffer-file-type' - *note Files and MS-DOS:: - -`buffer-invisibility-spec' - *note Invisible Text:: - -`buffer-offer-save' - *note Saving Buffers:: - -`buffer-read-only' - *note Read Only Buffers:: - -`buffer-saved-size' - *note Point:: - -`buffer-undo-list' - *note Undo:: - -`cache-long-line-scans' - *note Text Lines:: - -`case-fold-search' - *note Searching and Case:: - -`ctl-arrow' - *note Usual Display:: - -`comment-column' - *note Comments: (emacs)Comments. - -`default-directory' - *note System Environment:: - -`defun-prompt-regexp' - *note List Motion:: - -`fill-column' - *note Auto Filling:: - -`goal-column' - *note Moving Point: (emacs)Moving Point. - -`left-margin' - *note Indentation:: - -`local-abbrev-table' - *note Abbrevs:: - -`local-write-file-hooks' - *note Saving Buffers:: - -`major-mode' - *note Mode Help:: - -`mark-active' - *note The Mark:: - -`mark-ring' - *note The Mark:: - -`minor-modes' - *note Minor Modes:: - -`modeline-format' - *note Modeline Data:: - -`modeline-buffer-identification' - *note Modeline Variables:: - -`modeline-format' - *note Modeline Data:: - -`modeline-modified' - *note Modeline Variables:: - -`modeline-process' - *note Modeline Variables:: - -`mode-name' - *note Modeline Variables:: - -`overwrite-mode' - *note Insertion:: - -`paragraph-separate' - *note Standard Regexps:: - -`paragraph-start' - *note Standard Regexps:: - -`point-before-scroll' - Used for communication between mouse commands and scroll-bar - commands. - -`require-final-newline' - *note Insertion:: - -`selective-display' - *note Selective Display:: - -`selective-display-ellipses' - *note Selective Display:: - -`tab-width' - *note Usual Display:: - -`truncate-lines' - *note Truncation:: - -`vc-mode' - *note Modeline Variables:: - - -File: lispref.info, Node: Standard Keymaps, Next: Standard Hooks, Prev: Standard Buffer-Local Variables, Up: Top - -Standard Keymaps -**************** - - The following symbols are used as the names for various keymaps. -Some of these exist when XEmacs is first started, others are loaded -only when their respective mode is used. This is not an exhaustive -list. - - Almost all of these maps are used as local maps. Indeed, of the -modes that presently exist, only Vip mode and Terminal mode ever change -the global keymap. - -`bookmark-map' - A keymap containing bindings to bookmark functions. - -`Buffer-menu-mode-map' - A keymap used by Buffer Menu mode. - -`c++-mode-map' - A keymap used by C++ mode. - -`c-mode-map' - A keymap used by C mode. A sparse keymap used by C mode. - -`command-history-map' - A keymap used by Command History mode. - -`ctl-x-4-map' - A keymap for subcommands of the prefix `C-x 4'. - -`ctl-x-5-map' - A keymap for subcommands of the prefix `C-x 5'. - -`ctl-x-map' - A keymap for `C-x' commands. - -`debugger-mode-map' - A keymap used by Debugger mode. - -`dired-mode-map' - A keymap for `dired-mode' buffers. - -`edit-abbrevs-map' - A keymap used in `edit-abbrevs'. - -`edit-tab-stops-map' - A keymap used in `edit-tab-stops'. - -`electric-buffer-menu-mode-map' - A keymap used by Electric Buffer Menu mode. - -`electric-history-map' - A keymap used by Electric Command History mode. - -`emacs-lisp-mode-map' - A keymap used by Emacs Lisp mode. - -`help-map' - A keymap for characters following the Help key. - -`Helper-help-map' - A keymap used by the help utility package. - It has the same keymap in its value cell and in its function cell. - -`Info-edit-map' - A keymap used by the `e' command of Info. - -`Info-mode-map' - A keymap containing Info commands. - -`isearch-mode-map' - A keymap that defines the characters you can type within - incremental search. - -`itimer-edit-map' - A keymap used when in Itimer Edit mode. - -`lisp-interaction-mode-map' - A keymap used by Lisp mode. - -`lisp-mode-map' - A keymap used by Lisp mode. - - A keymap for minibuffer input with completion. - -`minibuffer-local-isearch-map' - A keymap for editing isearch strings in the minibuffer. - -`minibuffer-local-map' - Default keymap to use when reading from the minibuffer. - -`minibuffer-local-must-match-map' - A keymap for minibuffer input with completion, for exact match. - -`mode-specific-map' - The keymap for characters following `C-c'. Note, this is in the - global map. This map is not actually mode specific: its name was - chosen to be informative for the user in `C-h b' - (`display-bindings'), where it describes the main use of the `C-c' - prefix key. - -`modeline-map' - The keymap consulted for mouse-clicks on the modeline of a window. - -`objc-mode-map' - A keymap used in Objective C mode as a local map. - -`occur-mode-map' - A local keymap used by Occur mode. - -`overriding-local-map' - A keymap that overrides all other local keymaps. - -`query-replace-map' - A local keymap used for responses in `query-replace' and related - commands; also for `y-or-n-p' and `map-y-or-n-p'. The functions - that use this map do not support prefix keys; they look up one - event at a time. - -`read-expression-map' - The minibuffer keymap used for reading Lisp expressions. - -`read-shell-command-map' - The minibuffer keymap used by shell-command and related commands. - -`shared-lisp-mode-map' - A keymap for commands shared by all sorts of Lisp modes. - -`text-mode-map' - A keymap used by Text mode. - -`toolbar-map' - The keymap consulted for mouse-clicks over a toolbar. - -`view-mode-map' - A keymap used by View mode. - - -File: lispref.info, Node: Standard Hooks, Next: Index, Prev: Standard Keymaps, Up: Top - -Standard Hooks -************** - - The following is a list of hook variables that let you provide -functions to be called from within Emacs on suitable occasions. - - Most of these variables have names ending with `-hook'. They are -"normal hooks", run by means of `run-hooks'. The value of such a hook -is a list of functions. The recommended way to put a new function on -such a hook is to call `add-hook'. *Note Hooks::, for more information -about using hooks. - - The variables whose names end in `-function' have single functions -as their values. Usually there is a specific reason why the variable is -not a normal hook, such as the need to pass arguments to the function. -(In older Emacs versions, some of these variables had names ending in -`-hook' even though they were not normal hooks.) - - The variables whose names end in `-hooks' or `-functions' have lists -of functions as their values, but these functions are called in a -special way (they are passed arguments, or else their values are used). - -`activate-menubar-hook' - -`activate-popup-menu-hook' - -`ad-definition-hooks' - -`adaptive-fill-function' - -`add-log-current-defun-function' - -`after-change-functions' - -`after-delete-annotation-hook' - -`after-init-hook' - -`after-insert-file-functions' - -`after-revert-hook' - -`after-save-hook' - -`after-set-visited-file-name-hooks' - -`after-write-file-hooks' - -`auto-fill-function' - -`auto-save-hook' - -`before-change-functions' - -`before-delete-annotation-hook' - -`before-init-hook' - -`before-revert-hook' - -`blink-paren-function' - -`buffers-menu-switch-to-buffer-function' - -`c++-mode-hook' - -`c-delete-function' - -`c-mode-common-hook' - -`c-mode-hook' - -`c-special-indent-hook' - -`calendar-load-hook' - -`change-major-mode-hook' - -`command-history-hook' - -`comment-indent-function' - -`compilation-buffer-name-function' - -`compilation-exit-message-function' - -`compilation-finish-function' - -`compilation-parse-errors-function' - -`compilation-mode-hook' - -`create-console-hook' - -`create-device-hook' - -`create-frame-hook' - -`dabbrev-friend-buffer-function' - -`dabbrev-select-buffers-function' - -`delete-console-hook' - -`delete-device-hook' - -`delete-frame-hook' - -`deselect-frame-hook' - -`diary-display-hook' - -`diary-hook' - -`dired-after-readin-hook' - -`dired-before-readin-hook' - -`dired-load-hook' - -`dired-mode-hook' - -`disabled-command-hook' - -`display-buffer-function' - -`ediff-after-setup-control-frame-hook' - -`ediff-after-setup-windows-hook' - -`ediff-before-setup-control-frame-hook' - -`ediff-before-setup-windows-hook' - -`ediff-brief-help-message-function' - -`ediff-cleanup-hook' - -`ediff-control-frame-position-function' - -`ediff-display-help-hook' - -`ediff-focus-on-regexp-matches-function' - -`ediff-forward-word-function' - -`ediff-hide-regexp-matches-function' - -`ediff-keymap-setup-hook' - -`ediff-load-hook' - -`ediff-long-help-message-function' - -`ediff-make-wide-display-function' - -`ediff-merge-split-window-function' - -`ediff-meta-action-function' - -`ediff-meta-redraw-function' - -`ediff-mode-hook' - -`ediff-prepare-buffer-hook' - -`ediff-quit-hook' - -`ediff-registry-setup-hook' - -`ediff-select-hook' - -`ediff-session-action-function' - -`ediff-session-group-setup-hook' - -`ediff-setup-diff-regions-function' - -`ediff-show-registry-hook' - -`ediff-show-session-group-hook' - -`ediff-skip-diff-region-function' - -`ediff-split-window-function' - -`ediff-startup-hook' - -`ediff-suspend-hook' - -`ediff-toggle-read-only-function' - -`ediff-unselect-hook' - -`ediff-window-setup-function' - -`edit-picture-hook' - -`electric-buffer-menu-mode-hook' - -`electric-command-history-hook' - -`electric-help-mode-hook' - -`emacs-lisp-mode-hook' - -`fill-paragraph-function' - -`find-file-hooks' - -`find-file-not-found-hooks' - -`first-change-hook' - -`font-lock-after-fontify-buffer-hook' - -`font-lock-beginning-of-syntax-function' - -`font-lock-mode-hook' - -`fume-found-function-hook' - -`fume-list-mode-hook' - -`fume-rescan-buffer-hook' - -`fume-sort-function' - -`gnus-startup-hook' - -`hack-local-variables-hook' - -`highlight-headers-follow-url-function' - -`hyper-apropos-mode-hook' - -`indent-line-function' - -`indent-mim-hook' - -`indent-region-function' - -`initial-calendar-window-hook' - -`isearch-mode-end-hook' - -`isearch-mode-hook' - -`java-mode-hook' - -`kill-buffer-hook' - -`kill-buffer-query-functions' - -`kill-emacs-hook' - -`kill-emacs-query-functions' - -`kill-hooks' - -`LaTeX-mode-hook' - -`latex-mode-hook' - -`ledit-mode-hook' - -`lisp-indent-function' - -`lisp-interaction-mode-hook' - -`lisp-mode-hook' - -`list-diary-entries-hook' - -`load-read-function' - -`log-message-filter-function' - -`m2-mode-hook' - -`mail-citation-hook' - -`mail-mode-hook' - -`mail-setup-hook' - -`make-annotation-hook' - -`makefile-mode-hook' - -`map-frame-hook' - -`mark-diary-entries-hook' - -`medit-mode-hook' - -`menu-no-selection-hook' - -`mh-compose-letter-hook' - -`mh-folder-mode-hook' - -`mh-letter-mode-hook' - -`mim-mode-hook' - -`minibuffer-exit-hook' - -`minibuffer-setup-hook' - -`mode-motion-hook' - -`mouse-enter-frame-hook' - -`mouse-leave-frame-hook' - -`mouse-track-cleanup-hook' - -`mouse-track-click-hook' - -`mouse-track-down-hook' - -`mouse-track-drag-hook' - -`mouse-track-drag-up-hook' - -`mouse-track-up-hook' - -`mouse-yank-function' - -`news-mode-hook' - -`news-reply-mode-hook' - -`news-setup-hook' - -`nongregorian-diary-listing-hook' - -`nongregorian-diary-marking-hook' - -`nroff-mode-hook' - -`objc-mode-hook' - -`outline-mode-hook' - -`perl-mode-hook' - -`plain-TeX-mode-hook' - -`post-command-hook' - -`post-gc-hook' - -`pre-abbrev-expand-hook' - -`pre-command-hook' - -`pre-display-buffer-function' - -`pre-gc-hook' - -`pre-idle-hook' - -`print-diary-entries-hook' - -`prolog-mode-hook' - -`protect-innocence-hook' - -`remove-message-hook' - -`revert-buffer-function' - -`revert-buffer-insert-contents-function' - -`rmail-edit-mode-hook' - -`rmail-mode-hook' - -`rmail-retry-setup-hook' - -`rmail-summary-mode-hook' - -`scheme-indent-hook' - -`scheme-mode-hook' - -`scribe-mode-hook' - -`select-frame-hook' - -`send-mail-function' - -`shell-mode-hook' - -`shell-set-directory-error-hook' - -`special-display-function' - -`suspend-hook' - -`suspend-resume-hook' - -`temp-buffer-show-function' - -`term-setup-hook' - -`terminal-mode-hook' - -`terminal-mode-break-hook' - -`TeX-mode-hook' - -`tex-mode-hook' - -`text-mode-hook' - -`today-visible-calendar-hook' - -`today-invisible-calendar-hook' - -`tooltalk-message-handler-hook' - -`tooltalk-pattern-handler-hook' - -`tooltalk-unprocessed-message-hook' - -`unmap-frame-hook' - -`vc-checkin-hook' - -`vc-checkout-writable-buffer-hook' - -`vc-log-after-operation-hook' - -`vc-make-buffer-writable-hook' - -`view-hook' - -`vm-arrived-message-hook' - -`vm-arrived-messages-hook' - -`vm-chop-full-name-function' - -`vm-display-buffer-hook' - -`vm-edit-message-hook' - -`vm-forward-message-hook' - -`vm-iconify-frame-hook' - -`vm-inhibit-write-file-hook' - -`vm-key-functions' - -`vm-mail-hook' - -`vm-mail-mode-hook' - -`vm-menu-setup-hook' - -`vm-mode-hook' - -`vm-quit-hook' - -`vm-rename-current-buffer-function' - -`vm-reply-hook' - -`vm-resend-bounced-message-hook' - -`vm-resend-message-hook' - -`vm-retrieved-spooled-mail-hook' - -`vm-select-message-hook' - -`vm-select-new-message-hook' - -`vm-select-unread-message-hook' - -`vm-send-digest-hook' - -`vm-summary-mode-hook' - -`vm-summary-pointer-update-hook' - -`vm-summary-redo-hook' - -`vm-summary-update-hook' - -`vm-undisplay-buffer-hook' - -`vm-visit-folder-hook' - -`window-setup-hook' - -`write-contents-hooks' - -`write-file-data-hooks' - -`write-file-hooks' - -`write-region-annotate-functions' - -`x-lost-selection-hooks' - -`x-sent-selection-hooks' - -`zmacs-activate-region-hook' - -`zmacs-deactivate-region-hook' - -`zmacs-update-region-hook' diff --git a/info/lispref.info-46 b/info/lispref.info-46 index 11acac1..7a6e6ca 100644 --- a/info/lispref.info-46 +++ b/info/lispref.info-46 @@ -50,3415 +50,811 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  -File: lispref.info, Node: Index, Prev: Standard Hooks, Up: Top - -Index -***** - -* Menu: - -* " in printing: Output Functions. -* " in strings: String Type. -* #$: Docs and Compilation. -* #@COUNT: Docs and Compilation. -* $ in display: Truncation. -* $ in regexp: Syntax of Regexps. -* %: Arithmetic Operations. -* % in format: Formatting Strings. -* & in replacement: Replacing Match. -* &define (Edebug): Specification List. -* ¬ (Edebug): Specification List. -* &optional: Argument List. -* &optional (Edebug): Specification List. -* &or (Edebug): Specification List. -* &rest: Argument List. -* &rest (Edebug): Specification List. -* ' for quoting: Quoting. -* ( in regexp: Syntax of Regexps. -* (...) in lists: Cons Cell Type. -* ) in regexp: Syntax of Regexps. -* *: Arithmetic Operations. -* * in interactive: Using Interactive. -* * in regexp: Syntax of Regexps. -* *? in regexp: Syntax of Regexps. -* *PQfn: Unimplemented libpq Functions. -* *PQoidStatus: Unimplemented libpq Functions. -* *PQsetdb: Unimplemented libpq Functions. -* *PQsetdbLogin: Unimplemented libpq Functions. -* *scratch*: Auto Major Mode. -* +: Arithmetic Operations. -* + in regexp: Syntax of Regexps. -* +? in regexp: Syntax of Regexps. -* , (with Backquote): Backquote. -* ,@ (with Backquote): Backquote. -* -: Arithmetic Operations. -* . in lists: Dotted Pair Notation. -* . in regexp: Syntax of Regexps. -* .emacs: Init File. -* .emacs customization: Major Mode Conventions. -* /: Arithmetic Operations. -* /=: Comparison of Numbers. -* 1+: Arithmetic Operations. -* 1-: Arithmetic Operations. -* ; in comment: Comments. -* <: Comparison of Numbers. -* <=: Comparison of Numbers. -* : Functions for Key Lookup. -* =: Comparison of Numbers. -* >: Comparison of Numbers. -* >=: Comparison of Numbers. -* ? in character constant: Character Type. -* ? in regexp: Syntax of Regexps. -* @ in interactive: Using Interactive. -* [ in regexp: Syntax of Regexps. -* [...] (Edebug): Specification List. -* \ in character constant: Character Type. -* \ in display: Truncation. -* \ in printing: Output Functions. -* \ in regexp: Syntax of Regexps. -* \ in replacement: Replacing Match. -* \ in strings: String Type. -* \ in symbols: Symbol Type. -* \' in regexp: Syntax of Regexps. -* \(?: in regexp: Syntax of Regexps. -* \< in regexp: Syntax of Regexps. -* \= in regexp: Syntax of Regexps. -* \> in regexp: Syntax of Regexps. -* \` in regexp: Syntax of Regexps. -* \a: Character Type. -* \b: Character Type. -* \B in regexp: Syntax of Regexps. -* \b in regexp: Syntax of Regexps. -* \e: Character Type. -* \f: Character Type. -* \n: Character Type. -* \n in print: Output Variables. -* \N in replacement: Replacing Match. -* \r: Character Type. -* \S in regexp: Syntax of Regexps. -* \s in regexp: Syntax of Regexps. -* \t: Character Type. -* \v: Character Type. -* \W in regexp: Syntax of Regexps. -* \w in regexp: Syntax of Regexps. -* \{n,m\} in regexp: Syntax of Regexps. -* ] in regexp: Syntax of Regexps. -* ^ in regexp: Syntax of Regexps. -* _ in interactive: Using Interactive. -* `: Backquote. -* ` (Edebug): Debugging Backquote. -* ` (list substitution): Backquote. -* abbrev: Abbrevs. -* abbrev table: Abbrevs. -* abbrev tables in modes: Major Mode Conventions. -* abbrev-all-caps: Abbrev Expansion. -* abbrev-expansion: Abbrev Expansion. -* abbrev-file-name: Abbrev Files. -* abbrev-mode: Abbrev Mode. -* abbrev-prefix-mark: Abbrev Expansion. -* abbrev-start-location: Abbrev Expansion. -* abbrev-start-location-buffer: Abbrev Expansion. -* abbrev-symbol: Abbrev Expansion. -* abbrev-table-name-list: Abbrev Tables. -* abbreviate-file-name: Directory Names. -* abbrevs-changed: Abbrev Files. -* abort-recursive-edit: Recursive Editing. -* aborting: Recursive Editing. -* abs: Arithmetic Operations. -* absolute file name: Relative File Names. -* accelerate-menu: Menu Accelerator Functions. -* accept-process-output: Accepting Output. -* accessibility of a file: Testing Accessibility. -* accessible portion (of a buffer): Narrowing. -* accessible-keymaps: Scanning Keymaps. -* acos: Math Functions. -* acosh: Math Functions. -* activate-menubar-hook: Menubar. -* activate-popup-menu-hook: Pop-Up Menus. -* active display table: Active Display Table. -* active keymap: Active Keymaps. -* active-minibuffer-window: Minibuffer Misc. -* add-abbrev: Defining Abbrevs. -* add-hook: Hooks. -* add-menu: Modifying Menus. -* add-menu-button: Modifying Menus. -* add-menu-item: Modifying Menus. -* add-name-to-file: Changing File Attributes. -* add-spec-list-to-specifier: Adding Specifications. -* add-spec-to-specifier: Adding Specifications. -* add-submenu: Modifying Menus. -* add-text-properties: Changing Properties. -* add-timeout: Timers. -* add-to-list: Setting Variables. -* add-tooltalk-message-arg: Elisp Interface for Sending Messages. -* add-tooltalk-pattern-arg: Elisp Interface for Receiving Messages. -* add-tooltalk-pattern-attribute: Elisp Interface for Receiving Messages. -* address field of register: Cons Cell Type. -* after-change-function: Change Hooks. -* after-change-functions: Change Hooks. -* after-find-file: Subroutines of Visiting. -* after-init-hook: Init File. -* after-insert-file-functions: Saving Properties. -* after-load-alist: Hooks for Loading. -* after-revert-hook: Reverting. -* after-save-hook: Saving Buffers. -* aliases, for variables: Variable Aliases. -* alist: Association Lists. -* alist-to-plist: Converting Plists To/From Alists. -* all-annotations: Locating Annotations. -* all-completions: Basic Completion. -* and: Combining Conditions. -* annotation: Annotations. -* annotation hooks: Annotation Hooks. -* annotation-action: Annotation Properties. -* annotation-data: Annotation Properties. -* annotation-down-glyph: Annotation Properties. -* annotation-face: Annotation Properties. -* annotation-glyph: Annotation Properties. -* annotation-layout: Annotation Properties. -* annotation-list: Locating Annotations. -* annotation-menu: Annotation Properties. -* annotation-side: Annotation Properties. -* annotation-visible: Annotation Properties. -* annotation-width: Annotation Properties. -* annotationp: Annotation Primitives. -* annotations-at: Locating Annotations. -* annotations-in-region: Locating Annotations. -* anonymous function: Anonymous Functions. -* anonymous lambda expressions (Edebug): Instrumenting. -* apostrophe for quoting: Quoting. -* append: Building Lists. -* append-to-file: Writing to Files. -* apply: Calling Functions. -* apply, and debugging: Internals of Debugger. -* apropos: Help Functions. -* aref: Array Functions. -* argument binding: Argument List. -* argument descriptors: Using Interactive. -* argument evaluation form: Using Interactive. -* argument prompt: Using Interactive. -* arguments, reading: Minibuffers. -* arith-error example: Handling Errors. -* arith-error in division: Arithmetic Operations. -* arithmetic shift: Bitwise Operations. -* array: Arrays. -* array elements: Array Functions. -* arrayp: Array Functions. -* ASCII character codes: Character Type. -* aset: Array Functions. -* ash: Bitwise Operations. -* asin: Math Functions. -* asinh: Math Functions. -* ask-user-about-lock: File Locks. -* ask-user-about-supersession-threat: Modification Time. -* asking the user questions: Yes-or-No Queries. -* assoc: Association Lists. -* association list: Association Lists. -* assq: Association Lists. -* asynchronous subprocess: Asynchronous Processes. -* atan: Math Functions. -* atanh: Math Functions. -* atom <1>: List-related Predicates. -* atom: Cons Cell Type. -* atomic extent: Atomic Extents. -* atoms: List-related Predicates. -* attributes of text: Text Properties. -* Auto Fill mode: Auto Filling. -* auto-fill-function: Auto Filling. -* auto-lower-frame: Raising and Lowering. -* auto-mode-alist: Auto Major Mode. -* auto-raise-frame: Raising and Lowering. -* auto-save-default: Auto-Saving. -* auto-save-file-format: Format Conversion. -* auto-save-file-name-p: Auto-Saving. -* auto-save-hook: Auto-Saving. -* auto-save-interval: Auto-Saving. -* auto-save-list-file-name: Auto-Saving. -* auto-save-mode: Auto-Saving. -* auto-save-timeout: Auto-Saving. -* auto-save-visited-file-name: Auto-Saving. -* auto-saving: Auto-Saving. -* autoload <1>: Domain Specification. -* autoload: Autoload. -* autoload errors: Autoload. -* automatically buffer-local: Intro to Buffer-Local. -* available fonts: Font Instance Names. -* back-to-indentation: Motion by Indent. -* background pixmap: Merging Faces. -* backquote (Edebug): Debugging Backquote. -* backquote (list substitution): Backquote. -* backslash in character constant: Character Type. -* backslash in strings: String Type. -* backslash in symbols: Symbol Type. -* backspace: Character Type. -* backtrace: Internals of Debugger. -* backtrace-debug: Internals of Debugger. -* backtrace-frame: Internals of Debugger. -* backtracking: Backtracking. -* backup file: Backup Files. -* backup files, how to make them: Rename or Copy. -* backup-buffer: Making Backups. -* backup-by-copying: Rename or Copy. -* backup-by-copying-when-linked: Rename or Copy. -* backup-by-copying-when-mismatch: Rename or Copy. -* backup-enable-predicate: Making Backups. -* backup-file-name-p: Backup Names. -* backup-inhibited: Making Backups. -* backward-char: Character Motion. -* backward-delete-char-untabify: Deletion. -* backward-list: List Motion. -* backward-prefix-chars: Motion and Syntax. -* backward-sexp: List Motion. -* backward-to-indentation: Motion by Indent. -* backward-word: Word Motion. -* balancing parentheses: Blinking. -* barf-if-buffer-read-only: Read Only Buffers. -* base buffer: Indirect Buffers. -* base64: Transformations. -* base64-decode-region: Transformations. -* base64-decode-string: Transformations. -* base64-encode-region: Transformations. -* base64-encode-string: Transformations. -* batch mode: Batch Mode. -* batch-byte-compile: Compilation Functions. -* batch-byte-recompile-directory: Compilation Functions. -* beep: Beeping. -* beeping: Beeping. -* before point, insertion: Insertion. -* before-change-function: Change Hooks. -* before-change-functions: Change Hooks. -* before-init-hook: Init File. -* before-revert-hook: Reverting. -* beginning of line: Text Lines. -* beginning of line in regexp: Syntax of Regexps. -* beginning-of-buffer: Buffer End Motion. -* beginning-of-defun: List Motion. -* beginning-of-line: Text Lines. -* bell: Beeping. -* bell character: Character Type. -* bell-volume: Beeping. -* binary files and text files: Files and MS-DOS. -* binary-process-input: MS-DOS Subprocesses. -* binary-process-output: MS-DOS Subprocesses. -* bind-text-domain: Level 3 Primitives. -* binding arguments: Argument List. -* binding local variables: Local Variables. -* binding of a key: Keymap Terminology. -* bit vector: Bit Vectors. -* bit vector length: Sequence Functions. -* bit-vector: Bit Vector Functions. -* bit-vector-p: Bit Vector Functions. -* bitp: Bit Vector Functions. -* bitwise and: Bitwise Operations. -* bitwise exclusive or: Bitwise Operations. -* bitwise not: Bitwise Operations. -* bitwise or: Bitwise Operations. -* blink-matching-open: Blinking. -* blink-matching-paren: Blinking. -* blink-matching-paren-delay: Blinking. -* blink-matching-paren-distance: Blinking. -* blink-paren-function: Blinking. -* blink-paren-hook: Blinking. -* blinking: Blinking. -* bobp: Near Point. -* body of function: Lambda Components. -* bold: Font Instance Characteristics. -* bolp: Near Point. -* bookmark-map: Standard Keymaps. -* boolean: nil and t. -* boolean-specifier-p: Specifier Types. -* bootstrapping XEmacs from temacs: Building XEmacs. -* bottom-gutter: Specifying a Gutter. -* bottom-gutter-height: Other Gutter Variables. -* bottom-gutter-visible-p: Other Gutter Variables. -* bottom-toolbar: Specifying the Toolbar. -* bottom-toolbar-height: Other Toolbar Variables. -* bottom-toolbar-visible-p: Other Toolbar Variables. -* boundp: Void Variables. -* box diagrams, for lists: Cons Cell Type. -* box representation for lists: Lists as Boxes. -* break: Debugger. -* breakpoints: Breakpoints. -* bucket (in obarray): Creating Symbols. -* buffer: Buffers. -* buffer contents: Text. -* buffer file name: Buffer File Name. -* buffer input stream: Input Streams. -* buffer list: The Buffer List. -* buffer modification: Buffer Modification. -* buffer names: Buffer Names. -* buffer output stream: Output Streams. -* buffer text notation: Buffer Text Notation. -* buffer, read-only: Read Only Buffers. -* buffer-auto-save-file-name: Auto-Saving. -* buffer-backed-up: Making Backups. -* buffer-base-buffer: Indirect Buffers. -* buffer-disable-undo: Maintaining Undo. -* buffer-enable-undo: Maintaining Undo. -* buffer-end: Point. -* buffer-file-format: Format Conversion. -* buffer-file-name: Buffer File Name. -* buffer-file-number: Buffer File Name. -* buffer-file-truename: Buffer File Name. -* buffer-file-type: Files and MS-DOS. -* buffer-flush-undo: Maintaining Undo. -* buffer-glyph-p: Glyph Types. -* buffer-indirect-children: Indirect Buffers. -* buffer-invisibility-spec: Invisible Text. -* buffer-list: The Buffer List. -* buffer-live-p: Killing Buffers. -* buffer-local variables: Buffer-Local Variables. -* buffer-local variables in modes: Major Mode Conventions. -* buffer-local-variables: Creating Buffer-Local. -* Buffer-menu-mode-map: Standard Keymaps. -* buffer-modified-p: Buffer Modification. -* buffer-modified-tick: Buffer Modification. -* buffer-name: Buffer Names. -* buffer-offer-save <1>: Killing Buffers. -* buffer-offer-save: Saving Buffers. -* buffer-read-only: Read Only Buffers. -* buffer-saved-size <1>: Point. -* buffer-saved-size: Auto-Saving. -* buffer-size: Point. -* buffer-string: Buffer Contents. -* buffer-substring: Buffer Contents. -* buffer-undo-list: Undo. -* bufferp: Buffer Basics. -* buffers menu: Buffers Menu. -* buffers, controlled in windows: Buffers and Windows. -* buffers, creating: Creating Buffers. -* buffers, killing: Killing Buffers. -* buffers-menu-filter: Menu Filters. -* buffers-menu-max-size: Buffers Menu. -* buffers-menu-switch-to-buffer-function: Buffers Menu. -* building lists: Building Lists. -* building XEmacs: Building XEmacs. -* built-in function: What Is a Function. -* bury-buffer: The Buffer List. -* busy-pointer-glyph: Mouse Pointer. -* button-event-p: Event Predicates. -* button-press-event-p: Event Predicates. -* button-release-event-p: Event Predicates. -* bvconcat: Bit Vector Functions. -* byte-code <1>: Compilation Functions. -* byte-code: Byte Compilation. -* byte-code function: Compiled-Function Objects. -* byte-code interpreter: Compilation Functions. -* byte-compile: Compilation Functions. -* byte-compile-dynamic: Dynamic Loading. -* byte-compile-dynamic-docstrings: Docs and Compilation. -* byte-compile-file: Compilation Functions. -* byte-compiling macros: Compiling Macros. -* byte-compiling require: Named Features. -* byte-recompile-directory: Compilation Functions. -* byte-recompile-directory-ignore-errors-p: Compilation Functions. -* bytes: Strings and Characters. -* c++-mode-map: Standard Keymaps. -* C-c: Prefix Keys. -* C-g: Quitting. -* C-h: Prefix Keys. -* C-M-x: Instrumenting. -* c-mode-abbrev-table: Standard Abbrev Tables. -* c-mode-map: Standard Keymaps. -* c-mode-syntax-table: Standard Syntax Tables. -* C-q: Flow Control. -* C-s: Flow Control. -* C-x: Prefix Keys. -* C-x 4: Prefix Keys. -* C-x 5: Prefix Keys. -* C-x a: Prefix Keys. -* C-x n: Prefix Keys. -* C-x r: Prefix Keys. -* caaaar: List Elements. -* caaadr: List Elements. -* caaar: List Elements. -* caadar: List Elements. -* caaddr: List Elements. -* caadr: List Elements. -* caar: List Elements. -* cadaar: List Elements. -* cadadr: List Elements. -* cadar: List Elements. -* caddar: List Elements. -* cadddr: List Elements. -* caddr: List Elements. -* cadr: List Elements. -* call stack: Internals of Debugger. -* call-interactively: Interactive Call. -* call-process: Synchronous Processes. -* call-process-region: Synchronous Processes. -* calling a function: Calling Functions. -* cancel-debug-on-entry: Function Debugging. -* canonicalize-inst-list: Adding Specifications. -* canonicalize-inst-pair: Adding Specifications. -* canonicalize-lax-plist: Working With Lax Plists. -* canonicalize-plist: Working With Normal Plists. -* canonicalize-spec: Adding Specifications. -* canonicalize-spec-list: Adding Specifications. -* canonicalize-tag-set: Specifier Tag Functions. -* capitalization: Character Case. -* capitalize: Character Case. -* capitalize-region: Case Changes. -* capitalize-word: Case Changes. -* car: List Elements. -* car-safe: List Elements. -* case changes: Case Changes. -* case in replacements: Replacing Match. -* case-fold-search: Searching and Case. -* case-replace: Searching and Case. -* case-table-p: Case Tables. -* catch: Catch and Throw. -* category-designator-p: Category Tables. -* category-table: Category Tables. -* category-table-p: Category Tables. -* category-table-value-p: Category Tables. -* CBREAK: Flow Control. -* ccl-elapsed-time: Calling CCL. -* ccl-execute: Calling CCL. -* ccl-execute-on-string: Calling CCL. -* ccl-reset-elapsed-time: Calling CCL. -* cdaaar: List Elements. -* cdaadr: List Elements. -* cdaar: List Elements. -* cdadar: List Elements. -* cdaddr: List Elements. -* cdadr: List Elements. -* cdar: List Elements. -* cddaar: List Elements. -* cddadr: List Elements. -* cddar: List Elements. -* cdddar: List Elements. -* cddddr: List Elements. -* cdddr: List Elements. -* cddr: List Elements. -* CDE dt: CDE dt. -* cdr: List Elements. -* cdr-safe: List Elements. -* ceiling: Numeric Conversions. -* centering point: Vertical Scrolling. -* cerror: Signaling Errors. -* change hooks: Change Hooks. -* change-major-mode-hook: Major Mode Conventions. -* changing key bindings: Changing Key Bindings. -* changing to another buffer: Current Buffer. -* changing window size: Resizing Windows. -* char table type: Char Table Type. -* char-after: Near Point. -* char-before: Near Point. -* char-charset: MULE Characters. -* char-equal: Text Comparison. -* char-int: Character Codes. -* char-int confoundance disease: Character Type. -* char-int-p: Character Codes. -* char-octet: MULE Characters. -* char-or-char-int-p: Character Codes. -* char-or-string-p: Predicates for Strings. -* char-syntax: Syntax Table Functions. -* char-table-p: Char Tables. -* char-table-type: Char Table Types. -* char-table-type-list: Char Table Types. -* char-to-string: String Conversion. -* char=: Text Comparison. -* character arrays: Strings and Characters. -* character case: Character Case. -* character descriptor: Character Descriptors. -* character insertion: Commands for Insertion. -* character printing: Describing Characters. -* character set (in regexp): Syntax of Regexps. -* character to string: String Conversion. -* character-to-event: Converting Events. -* characteristics of font instances: Font Instance Characteristics. -* characterp: Predicates for Characters. -* characters: Strings and Characters. -* characters for interactive codes: Interactive Codes. -* character quote: Syntax Class Table. -* charset type: Charset Type. -* charset-ccl-program: Charset Property Functions. -* charset-chars: Charset Property Functions. -* charset-columns: Charset Property Functions. -* charset-dimension: Charset Property Functions. -* charset-direction: Charset Property Functions. -* charset-doc-string: Charset Property Functions. -* charset-final: Charset Property Functions. -* charset-from-attributes: Basic Charset Functions. -* charset-graphic: Charset Property Functions. -* charset-list: Basic Charset Functions. -* charset-name: Charset Property Functions. -* charset-property: Charset Property Functions. -* charset-registry: Charset Property Functions. -* charset-reverse-direction-charset: Basic Charset Functions. -* charsetp: Charsets. -* check-argument-type: Signaling Errors. -* check-gutter-button-syntax: Gutter Descriptor Format. -* check-toolbar-button-syntax: Toolbar Descriptor Format. -* check-valid-char-table-value: Working With Char Tables. -* check-valid-inst-list: Specifier Validation Functions. -* check-valid-instantiator: Specifier Validation Functions. -* check-valid-plist: Property Lists. -* check-valid-spec-list: Specifier Validation Functions. -* child process: Processes. -* children, of extent: Extent Parents. -* CL note--allocate more storage: Garbage Collection. -* CL note--case of letters: Symbol Type. -* CL note--default optional arg: Argument List. -* CL note--integers vrs eq: Comparison of Numbers. -* CL note--lack union, set: Sets And Lists. -* CL note--only throw in Emacs: Catch and Throw. -* CL note--rplaca vrs setcar: Modifying Lists. -* CL note--set local: Setting Variables. -* CL note--special forms compared: Special Forms. -* CL note--special variables: Variable Scoping. -* CL note--symbol in obarrays: Creating Symbols. -* cl-read: Reading in Edebug. -* cl-specs.el: Instrumenting. -* cl.el (Edebug): Instrumenting. -* cleanup forms: Cleanups. -* clear-abbrev-table: Abbrev Tables. -* clear-message: The Echo Area. -* clear-range-table: Working With Range Tables. -* clear-visited-file-modtime: Modification Time. -* close parenthesis: Blinking. -* close-database: Connecting to a Database. -* close parenthesis character: Syntax Class Table. -* closures not available: Extent. -* clrhash: Working With Hash Tables. -* codes, interactive, description of: Interactive Codes. -* coding standards: Tips. -* coding system type: Coding System Type. -* coding-category-list: Detection of Textual Encoding. -* coding-category-system: Detection of Textual Encoding. -* coding-priority-list: Detection of Textual Encoding. -* coding-system-base: Basic Coding System Functions. -* coding-system-doc-string: Coding System Property Functions. -* coding-system-list: Basic Coding System Functions. -* coding-system-name: Basic Coding System Functions. -* coding-system-p: Coding Systems. -* coding-system-property: Coding System Property Functions. -* coding-system-type: Coding System Property Functions. -* color instance type: Color Instance Type. -* color instances: Color Instances. -* color-instance-name: Color Instance Properties. -* color-instance-p: Color Instances. -* color-instance-rgb-components: Color Instance Properties. -* color-name: Color Convenience Functions. -* color-pixmap-image-instance-p: Image Instance Types. -* color-rgb-components: Color Convenience Functions. -* color-specifier-p <1>: Color Specifiers. -* color-specifier-p: Specifier Types. -* colorize-image-instance: Image Instance Functions. -* colors: Colors. -* columns: Columns. -* command: What Is a Function. -* command descriptions: A Sample Function Description. -* command history: Command History. -* command in keymap: Key Lookup. -* command line arguments: Command Line Arguments. -* command line options: Command Line Arguments. -* command loop: Command Loop. -* command loop, recursive: Recursive Editing. -* command-debug-status: Internals of Debugger. -* command-execute: Interactive Call. -* command-history: Command History. -* command-history-map: Standard Keymaps. -* command-line: Command Line Arguments. -* command-line-args: Command Line Arguments. -* command-line-functions: Command Line Arguments. -* command-line-processed: Command Line Arguments. -* command-switch-alist: Command Line Arguments. -* commandp: Interactive Call. -* commandp example: High-Level Completion. -* commands, defining: Defining Commands. -* comment syntax: Syntax Class Table. -* comments: Comments. -* comment ender: Syntax Class Table. -* comment starter: Syntax Class Table. -* Common Lisp: Lisp History. -* Common Lisp (Edebug): Instrumenting. -* compare-buffer-substrings: Comparing Text. -* comparing buffer text: Comparing Text. -* comparison of modification time: Modification Time. -* compilation: Byte Compilation. -* compilation functions: Compilation Functions. -* compile-defun: Compilation Functions. -* compiled function: Compiled-Function Objects. -* compiled-function-arglist: Compiled-Function Objects. -* compiled-function-constants: Compiled-Function Objects. -* compiled-function-doc-string: Compiled-Function Objects. -* compiled-function-domain: Compiled-Function Objects. -* compiled-function-instructions: Compiled-Function Objects. -* compiled-function-interactive: Compiled-Function Objects. -* compiled-function-p: What Is a Function. -* compiled-function-stack-size: Compiled-Function Objects. -* complete key: Keymap Terminology. -* completing-read: Minibuffer Completion. -* completion: Completion. -* completion, file name: File Name Completion. -* completion, user name: User Name Completion. -* completion-auto-help: Completion Commands. -* completion-ignore-case: Basic Completion. -* completion-ignored-extensions: File Name Completion. -* complex arguments: Minibuffers. -* complex command: Command History. -* complex-buffers-menu-p: Buffers Menu. -* compose-region: Composite Characters. -* composite-char-string: Composite Characters. -* concat: Creating Strings. -* concatenating lists: Rearrangement. -* concatenating strings: Creating Strings. -* cond: Conditionals. -* condition name: Error Symbols. -* condition-case: Handling Errors. -* conditional evaluation: Conditionals. -* cons: Building Lists. -* cons cell as box: Lists as Boxes. -* cons cells: Building Lists. -* consing: Building Lists. -* console-device-list: Basic Console Functions. -* console-disable-input: Console and Device I/O. -* console-enable-input: Console and Device I/O. -* console-list: Basic Console Functions. -* console-live-p: Connecting to a Console or Device. -* console-type-image-conversion-list: Image Instantiator Conversion. -* consolep: Consoles and Devices. -* consoles: Consoles and Devices. -* consp: List-related Predicates. -* continuation lines: Truncation. -* continuation-glyph: Redisplay Glyphs. -* continue-process: Signals to Processes. -* control character printing: Describing Characters. -* control characters: Character Type. -* control characters in display: Usual Display. -* control characters, reading: Quoted Character Input. -* control structures: Control Structures. -* control-arrow-glyph: Redisplay Glyphs. -* Control-X-prefix: Prefix Keys. -* conventions for writing minor modes: Minor Mode Conventions. -* conversion of image instantiators: Image Instantiator Conversion. -* conversion of strings: String Conversion. -* copy-alist: Association Lists. -* copy-category-table: Category Tables. -* copy-coding-system: Basic Coding System Functions. -* copy-event: Working With Events. -* copy-extent: Detached Extents. -* copy-face: Basic Face Functions. -* copy-file: Changing File Attributes. -* copy-hash-table: Introduction to Hash Tables. -* copy-keymap: Creating Keymaps. -* copy-marker: Creating Markers. -* copy-range-table: Introduction to Range Tables. -* copy-region-as-kill: Kill Functions. -* copy-sequence: Sequence Functions. -* copy-specifier: Other Specification Functions. -* copy-syntax-table: Syntax Table Functions. -* copying alists: Association Lists. -* copying bit vectors: Bit Vector Functions. -* copying files: Changing File Attributes. -* copying lists: Building Lists. -* copying sequences: Sequence Functions. -* copying strings: Creating Strings. -* copying vectors: Vector Functions. -* cos: Math Functions. -* cosh: Math Functions. -* count-lines: Text Lines. -* count-loop: A Sample Function Description. -* counting columns: Columns. -* coverage testing: Coverage Testing. -* create-device-hook: Connecting to a Console or Device. -* create-file-buffer: Subroutines of Visiting. -* create-frame-hook: Frame Hooks. -* create-tooltalk-message: Elisp Interface for Sending Messages. -* create-tooltalk-pattern: Elisp Interface for Receiving Messages. -* creating buffers: Creating Buffers. -* creating keymaps: Creating Keymaps. -* ctl-arrow: Usual Display. -* ctl-x-4-map <1>: Standard Keymaps. -* ctl-x-4-map: Prefix Keys. -* ctl-x-5-map <1>: Standard Keymaps. -* ctl-x-5-map: Prefix Keys. -* ctl-x-map <1>: Standard Keymaps. -* ctl-x-map: Prefix Keys. -* cube-root: Math Functions. -* current binding: Local Variables. -* current buffer: Current Buffer. -* current buffer excursion: Excursions. -* current buffer mark: The Mark. -* current buffer point and mark (Edebug): Edebug Display Update. -* current buffer position: Point. -* current command: Command Loop Info. -* current stack frame: Using Debugger. -* current-buffer: Current Buffer. -* current-case-table: Case Tables. -* current-column: Columns. -* current-fill-column: Margins. -* current-frame-configuration: Frame Configurations. -* current-global-map: Active Keymaps. -* current-indentation: Primitive Indent. -* current-input-mode: Input Modes. -* current-justification: Filling. -* current-keymaps: Active Keymaps. -* current-kill: Low-Level Kill Ring. -* current-left-margin: Margins. -* current-local-map: Active Keymaps. -* current-menubar: Menubar. -* current-message: The Echo Area. -* current-minor-mode-maps: Active Keymaps. -* current-mouse-event: Command Loop Info. -* current-prefix-arg: Prefix Command Arguments. -* current-time: Time of Day. -* current-time-string: Time of Day. -* current-time-zone: Time of Day. -* current-window-configuration: Window Configurations. -* cursor (mouse): Mouse Pointer. -* cursor-in-echo-area: The Echo Area. -* cust-print: Printing in Edebug. -* cut buffer: X Selections. -* cyclic ordering of windows: Cyclic Window Ordering. -* data type: Lisp Data Types. -* data-directory: Accessing Documentation. -* database: Databases. -* database type: Database Type. -* database-file-name: Other Database Functions. -* database-last-error: Other Database Functions. -* database-live-p: Connecting to a Database. -* database-subtype: Other Database Functions. -* database-type: Other Database Functions. -* databasep: Databases. -* deallocate-event: Working With Events. -* debug: Invoking the Debugger. -* debug-allocation: Garbage Collection. -* debug-allocation-backtrace: Garbage Collection. -* debug-ignored-errors: Error Debugging. -* debug-on-entry: Function Debugging. -* debug-on-error: Error Debugging. -* debug-on-error use: Processing of Errors. -* debug-on-next-call: Internals of Debugger. -* debug-on-quit: Infinite Loops. -* debug-on-signal: Error Debugging. -* debug-on-signal use: Handling Errors. -* debugger <1>: Internals of Debugger. -* debugger: Debugger. -* debugger command list: Debugger Commands. -* debugger-mode-map: Standard Keymaps. -* debugging errors: Error Debugging. -* debugging specific functions: Function Debugging. -* decode-big5-char: Big5 and Shift-JIS Functions. -* decode-coding-region: Encoding and Decoding Text. -* decode-shift-jis-char: Big5 and Shift-JIS Functions. -* decode-time: Time Conversion. -* decoding file formats: Format Conversion. -* decompose-region: Composite Characters. -* decrement field of register: Cons Cell Type. -* dedicated window: Choosing Window. -* deep binding: Impl of Scope. -* def-edebug-spec: Instrumenting Macro Calls. -* defalias: Defining Functions. -* default argument string: Interactive Codes. -* default init file: Init File. -* default value: Default Value. -* default-abbrev-mode: Abbrev Mode. -* default-boundp: Default Value. -* default-buffer-file-type: Files and MS-DOS. -* default-case-fold-search: Searching and Case. -* default-ctl-arrow: Usual Display. -* default-deselect-frame-hook: Raising and Lowering. -* default-directory: File Name Expansion. -* default-file-modes: Changing File Attributes. -* default-fill-column: Margins. -* default-frame-name: Frame Name. -* default-frame-plist: Initial Properties. -* default-gutter: Specifying a Gutter. -* default-gutter-height: Other Gutter Variables. -* default-gutter-position: Specifying a Gutter. -* default-gutter-visible-p: Other Gutter Variables. -* default-gutter-width: Other Gutter Variables. -* default-justification: Filling. -* default-major-mode: Auto Major Mode. -* default-menubar: Menubar. -* default-minibuffer-frame: Minibuffers and Frames. -* default-modeline-format: Modeline Variables. -* default-popup-menu: Pop-Up Menus. -* default-select-frame-hook: Raising and Lowering. -* default-text-properties: Examining Properties. -* default-toolbar: Specifying the Toolbar. -* default-toolbar-height: Other Toolbar Variables. -* default-toolbar-position: Specifying the Toolbar. -* default-toolbar-visible-p: Other Toolbar Variables. -* default-toolbar-width: Other Toolbar Variables. -* default-truncate-lines: Truncation. -* default-value: Default Value. -* default-x-device: Resources. -* default.el: Start-up Summary. -* defconst <1>: Domain Specification. -* defconst: Defining Variables. -* defcustom: Variable Definitions. -* defgroup: Group Definitions. -* define-abbrev: Defining Abbrevs. -* define-abbrev-table: Abbrev Tables. -* define-derived-mode: Derived Modes. -* define-error: Error Symbols. -* define-function: Defining Functions. -* define-key: Changing Key Bindings. -* define-logical-name: Changing File Attributes. -* define-obsolete-function-alias: Obsoleteness. -* define-obsolete-variable-alias: Obsoleteness. -* define-prefix-command: Prefix Keys. -* define-specifier-tag: Specifier Tag Functions. -* defining a function: Defining Functions. -* defining commands: Defining Commands. -* defining-kbd-macro: Keyboard Macros. -* definition of a symbol: Definitions. -* defmacro: Defining Macros. -* defsubst: Inline Functions. -* defun: Defining Functions. -* defun-prompt-regexp: List Motion. -* defvar <1>: Domain Specification. -* defvar: Defining Variables. -* defvaralias: Variable Aliases. -* deiconify-frame: Visibility of Frames. -* delete: Sets And Lists. -* delete previous char: Deletion. -* delete-annotation: Annotation Primitives. -* delete-auto-save-file-if-necessary: Auto-Saving. -* delete-auto-save-files: Auto-Saving. -* delete-backward-char: Deletion. -* delete-blank-lines: User-Level Deletion. -* delete-char: Deletion. -* delete-device: Connecting to a Console or Device. -* delete-device-hook: Connecting to a Console or Device. -* delete-directory: Create/Delete Dirs. -* delete-exited-processes: Deleting Processes. -* delete-extent: Creating and Modifying Extents. -* delete-file: Changing File Attributes. -* delete-frame: Deleting Frames. -* delete-frame-hook: Frame Hooks. -* delete-horizontal-space: User-Level Deletion. -* delete-indentation: User-Level Deletion. -* delete-menu-item: Modifying Menus. -* delete-old-versions: Numbered Backups. -* delete-other-windows: Deleting Windows. -* delete-process: Deleting Processes. -* delete-region: Deletion. -* delete-to-left-margin: Margins. -* delete-window: Deleting Windows. -* delete-windows-on: Deleting Windows. -* deleting files: Changing File Attributes. -* deleting processes: Deleting Processes. -* deleting whitespace: User-Level Deletion. -* deleting windows: Deleting Windows. -* deletion of elements: Sets And Lists. -* deletion of frames: Deleting Frames. -* deletion vs killing: Deletion. -* delq: Sets And Lists. -* demibold: Font Instance Characteristics. -* describe-bindings: Scanning Keymaps. -* describe-bindings-internal: Scanning Keymaps. -* describe-buffer-case-table: Case Tables. -* describe-mode: Mode Help. -* describe-prefix-bindings: Help Functions. -* describe-tooltalk-message: Elisp Interface for Receiving Messages. -* description for interactive codes: Interactive Codes. -* description format: Format of Descriptions. -* deselect-frame-hook: Frame Hooks. -* destroy-tooltalk-message: Elisp Interface for Sending Messages. -* destroy-tooltalk-pattern: Elisp Interface for Receiving Messages. -* destructive-alist-to-plist: Converting Plists To/From Alists. -* destructive-plist-to-alist: Converting Plists To/From Alists. -* detach-extent: Detached Extents. -* detached extent: Detached Extents. -* detect-coding-region: Detection of Textual Encoding. -* device-baud-rate <1>: Terminal Output. -* device-baud-rate: Console and Device I/O. -* device-class: Console Types and Device Classes. -* device-frame-list <1>: Basic Device Functions. -* device-frame-list: Finding All Frames. -* device-list: Basic Device Functions. -* device-live-p: Connecting to a Console or Device. -* device-matches-specifier-tag-set-p: Specifier Tag Functions. -* device-matching-specifier-tag-list: Specifier Tag Functions. -* device-or-frame-p: Basic Device Functions. -* device-or-frame-type: Console Types and Device Classes. -* device-type: Console Types and Device Classes. -* device-x-display: Connecting to a Console or Device. -* devicep: Consoles and Devices. -* devices: Consoles and Devices. -* dgettext: Level 3 Primitives. -* diagrams, boxed, for lists: Cons Cell Type. -* dialog box: Dialog Boxes. -* digit-argument: Prefix Command Arguments. -* ding: Beeping. -* directory name: Directory Names. -* directory name abbreviation: Directory Names. -* directory part (of file name): File Name Components. -* directory-abbrev-alist: Directory Names. -* directory-file-name: Directory Names. -* directory-files: Contents of Directories. -* directory-oriented functions: Contents of Directories. -* dired-kept-versions: Numbered Backups. -* dired-mode-map: Standard Keymaps. -* disable undo: Maintaining Undo. -* disable-command: Disabling Commands. -* disable-menu-item: Modifying Menus. -* disable-timeout: Timers. -* disabled: Disabling Commands. -* disabled command: Disabling Commands. -* disabled-command-hook: Disabling Commands. -* disassemble: Disassembly. -* disassembled byte-code: Disassembly. -* discard input: Peeking and Discarding. -* discard-input: Peeking and Discarding. -* dispatch-event: Dispatching an Event. -* dispatching an event: Dispatching an Event. -* display columns: Size and Position. -* display lines: Size and Position. -* display order: Extent Endpoints. -* display table: Display Tables. -* display update: Refresh Screen. -* display-buffer: Choosing Window. -* display-buffer-function: Choosing Window. -* display-completion-list: Completion Commands. -* display-error: Processing of Errors. -* display-message: The Echo Area. -* display-warning: Warnings. -* display-warning-minimum-level: Warnings. -* display-warning-suppressed-classes: Warnings. -* displaying a buffer: Displaying Buffers. -* do-auto-save: Auto-Saving. -* DOC (documentation) file: Documentation Basics. -* doc-directory: Accessing Documentation. -* documentation: Accessing Documentation. -* documentation conventions: Documentation Basics. -* documentation for major mode: Mode Help. -* documentation notation: Evaluation Notation. -* documentation of function: Function Documentation. -* documentation strings: Documentation. -* documentation, keys in: Keys in Documentation. -* documentation-property: Accessing Documentation. -* domain: Level 3 Primitives. -* domain (in a specifier): Specifiers In-Depth. -* domain-of: Level 3 Primitives. -* dotted lists (Edebug): Specification List. -* dotted pair notation: Dotted Pair Notation. -* double-quote in strings: String Type. -* down-list: List Motion. -* downcase: Character Case. -* downcase-region: Case Changes. -* downcase-word: Case Changes. -* downcasing in lookup-key: Key Sequence Input. -* drag: Drag Interface. -* drag and drop: Drag and Drop. -* Drag API: Drag Interface. -* dribble file: Recording Input. -* drop: Drop Interface. -* Drop API: Drop Interface. -* dump-emacs: Building XEmacs. -* duplicable extent: Duplicable Extents. -* dynamic loading of documentation: Docs and Compilation. -* dynamic loading of functions: Dynamic Loading. -* dynamic scoping: Variable Scoping. -* echo area: The Echo Area. -* echo-keystrokes <1>: The Echo Area. -* echo-keystrokes: Command Loop Info. -* edebug: Embedded Breakpoints. -* Edebug: Edebug. -* Edebug execution modes: Edebug Execution Modes. -* Edebug mode: Edebug. -* Edebug specification list: Specification List. -* edebug-`: Debugging Backquote. -* edebug-all-defs <1>: Edebug Options. -* edebug-all-defs: Instrumenting. -* edebug-all-forms <1>: Edebug Options. -* edebug-all-forms: Instrumenting. -* edebug-continue-kbd-macro: Edebug Options. -* edebug-display-freq-count: Coverage Testing. -* edebug-eval-top-level-form: Instrumenting. -* edebug-global-break-condition <1>: Edebug Options. -* edebug-global-break-condition: Global Break Condition. -* edebug-initial-mode: Edebug Options. -* edebug-on-error <1>: Edebug Options. -* edebug-on-error: Trapping Errors. -* edebug-on-quit <1>: Edebug Options. -* edebug-on-quit: Trapping Errors. -* edebug-print-circle <1>: Edebug Options. -* edebug-print-circle: Printing in Edebug. -* edebug-print-length <1>: Edebug Options. -* edebug-print-length: Printing in Edebug. -* edebug-print-level <1>: Edebug Options. -* edebug-print-level: Printing in Edebug. -* edebug-print-trace-after <1>: Edebug Options. -* edebug-print-trace-after: Tracing. -* edebug-print-trace-before <1>: Edebug Options. -* edebug-print-trace-before: Tracing. -* edebug-save-displayed-buffer-points <1>: Edebug Options. -* edebug-save-displayed-buffer-points: Edebug Display Update. -* edebug-save-windows <1>: Edebug Options. -* edebug-save-windows: Edebug Display Update. -* edebug-set-global-break-condition: Global Break Condition. -* edebug-setup-hook: Edebug Options. -* edebug-test-coverage: Edebug Options. -* edebug-trace <1>: Edebug Options. -* edebug-trace: Tracing. -* edebug-tracing: Tracing. -* edebug-unwrap: Specification List. -* edebug-unwrap-results <1>: Edebug Options. -* edebug-unwrap-results: Debugging Backquote. -* edit-abbrevs-map: Standard Keymaps. -* edit-and-eval-command: Object from Minibuffer. -* edit-menu-filter: Menu Filters. -* edit-tab-stops-map: Standard Keymaps. -* editing types: Editing Types. -* editor command loop: Command Loop. -* eighth: List Elements. -* electric-buffer-menu-mode-map: Standard Keymaps. -* electric-future-map: A Sample Variable Description. -* electric-history-map: Standard Keymaps. -* element (of list): Lists. -* elements of sequences: Sequence Functions. -* elt: Sequence Functions. -* emacs-build-time: Building XEmacs. -* emacs-lisp-mode-map: Standard Keymaps. -* emacs-lisp-mode-syntax-table: Standard Syntax Tables. -* emacs-major-version: Building XEmacs. -* emacs-minor-version: Building XEmacs. -* emacs-pid: System Environment. -* emacs-version: Building XEmacs. -* EMACSLOADPATH environment variable: How Programs Do Loading. -* embedded breakpoints: Embedded Breakpoints. -* empty list: Cons Cell Type. -* enable-command: Disabling Commands. -* enable-flow-control: Flow Control. -* enable-flow-control-on: Flow Control. -* enable-local-eval: Auto Major Mode. -* enable-local-variables: Auto Major Mode. -* enable-menu-item: Modifying Menus. -* enable-recursive-minibuffers: Minibuffer Misc. -* encode-big5-char: Big5 and Shift-JIS Functions. -* encode-coding-region: Encoding and Decoding Text. -* encode-shift-jis-char: Big5 and Shift-JIS Functions. -* encode-time: Time Conversion. -* encoding file formats: Format Conversion. -* end of buffer marker: Creating Markers. -* end-of-buffer: Buffer End Motion. -* end-of-defun: List Motion. -* end-of-file: Input Functions. -* end-of-line: Text Lines. -* enlarge-window: Resizing Windows. -* enlarge-window-horizontally: Resizing Windows. -* enlarge-window-pixels: Resizing Windows. -* enqueue-eval-event: Reading One Event. -* environment: Intro Eval. -* environment variable access: System Environment. -* environment variables, subprocesses: Subprocess Creation. -* eobp: Near Point. -* eolp: Near Point. -* eq: Equality Predicates. -* equal: Equality Predicates. -* equality: Equality Predicates. -* erase-buffer: Deletion. -* error: Signaling Errors. -* error cleanup: Cleanups. -* error debugging: Error Debugging. -* error display: The Echo Area. -* error handler: Handling Errors. -* error in debug: Invoking the Debugger. -* error message notation: Error Messages. -* error name: Error Symbols. -* error symbol: Error Symbols. -* error-conditions: Error Symbols. -* error-message-string: Processing of Errors. -* errors: Errors. -* esc-map: Prefix Keys. -* ESC-prefix: Prefix Keys. -* escape <1>: Syntax Class Table. -* escape: Character Type. -* escape characters: Output Variables. -* escape characters in printing: Output Functions. -* escape sequence: Character Type. -* eval: Eval. -* eval, and debugging: Internals of Debugger. -* eval-and-compile: Eval During Compile. -* eval-buffer: Eval. -* eval-current-buffer (Edebug): Instrumenting. -* eval-defun (Edebug): Instrumenting. -* eval-event-p: Event Predicates. -* eval-expression (Edebug): Instrumenting. -* eval-minibuffer: Object from Minibuffer. -* eval-region: Eval. -* eval-region (Edebug): Instrumenting. -* eval-when-compile: Eval During Compile. -* evaluated expression argument: Interactive Codes. -* evaluation: Evaluation. -* evaluation error: Local Variables. -* evaluation list (Edebug): Eval List. -* evaluation notation: Evaluation Notation. -* evaluation of buffer contents: Eval. -* event printing: Describing Characters. -* event-buffer: Window-Level Event Position Info. -* event-button: Accessing Other Event Info. -* event-closest-point: Event Text Position Info. -* event-device: Accessing Other Event Info. -* event-frame: Frame-Level Event Position Info. -* event-function: Accessing Other Event Info. -* event-glyph-extent: Event Glyph Position Info. -* event-glyph-x-pixel: Event Glyph Position Info. -* event-glyph-y-pixel: Event Glyph Position Info. -* event-key: Accessing Other Event Info. -* event-live-p: Event Predicates. -* event-matches-key-specifier-p: Key Sequences. -* event-modifier-bits: Accessing Other Event Info. -* event-modifiers: Accessing Other Event Info. -* event-object: Accessing Other Event Info. -* event-over-border-p: Other Event Position Info. -* event-over-glyph-p: Event Glyph Position Info. -* event-over-modeline-p: Event Text Position Info. -* event-over-text-area-p: Event Text Position Info. -* event-over-toolbar-p: Event Toolbar Position Info. -* event-point: Event Text Position Info. -* event-process: Accessing Other Event Info. -* event-timestamp: Accessing Other Event Info. -* event-to-character: Converting Events. -* event-toolbar-button: Event Toolbar Position Info. -* event-type: Event Contents. -* event-window: Window-Level Event Position Info. -* event-window-x-pixel: Window-Level Event Position Info. -* event-window-y-pixel: Window-Level Event Position Info. -* event-x: Event Text Position Info. -* event-x-pixel: Frame-Level Event Position Info. -* event-y: Event Text Position Info. -* event-y-pixel: Frame-Level Event Position Info. -* eventp: Events. -* events: Events. -* events-to-keys: Converting Events. -* examining windows: Buffers and Windows. -* examples of using interactive: Interactive Examples. -* exchange-point-and-mark: The Mark. -* excursion: Excursions. -* exec-directory: Subprocess Creation. -* exec-path: Subprocess Creation. -* execute program: Subprocess Creation. -* execute with prefix argument: Interactive Call. -* execute-extended-command: Interactive Call. -* execute-kbd-macro: Keyboard Macros. -* executing-macro: Keyboard Macros. -* execution speed: Compilation Tips. -* exit: Recursive Editing. -* exit recursive editing: Recursive Editing. -* exit-minibuffer: Minibuffer Misc. -* exit-recursive-edit: Recursive Editing. -* exiting XEmacs: Getting Out. -* exp: Math Functions. -* expand-abbrev: Abbrev Expansion. -* expand-file-name: File Name Expansion. -* expansion of file names: File Name Expansion. -* expansion of macros: Expansion. -* expression: Intro Eval. -* expression prefix: Syntax Class Table. -* expt: Math Functions. -* extended-command-history: Minibuffer History. -* extent <1>: Extents. -* extent: Variable Scoping. -* extent children: Extent Parents. -* extent end position: Extent Endpoints. -* extent endpoint: Extent Endpoints. -* extent order: Extent Endpoints. -* extent parent: Extent Parents. -* extent priority: Intro to Extents. -* extent property: Extent Properties. -* extent replica: Duplicable Extents. -* extent start position: Extent Endpoints. -* extent, duplicable: Duplicable Extents. -* extent, unique: Duplicable Extents. -* extent-at: Finding Extents. -* extent-begin-glyph: Extent Properties. -* extent-begin-glyph-layout: Extent Properties. -* extent-children: Extent Parents. -* extent-descendants: Extent Parents. -* extent-detached-p: Detached Extents. -* extent-end-glyph: Extent Properties. -* extent-end-glyph-layout: Extent Properties. -* extent-end-position: Extent Endpoints. -* extent-face: Extent Properties. -* extent-in-region-p: Mapping Over Extents. -* extent-keymap: Extent Properties. -* extent-length: Extent Endpoints. -* extent-list: Finding Extents. -* extent-live-p: Creating and Modifying Extents. -* extent-mouse-face: Extent Properties. -* extent-object: Creating and Modifying Extents. -* extent-parent: Extent Parents. -* extent-priority: Extent Properties. -* extent-properties: Extent Properties. -* extent-property: Extent Properties. -* extent-start-position: Extent Endpoints. -* extentp: Extents. -* extents, locating: Finding Extents. -* extents, mapping: Mapping Over Extents. -* face type: Face Type. -* face-background: Face Convenience Functions. -* face-background-instance: Face Convenience Functions. -* face-background-pixmap: Face Convenience Functions. -* face-background-pixmap-instance: Face Convenience Functions. -* face-boolean-specifier-p: Specifier Types. -* face-differs-from-default-p: Other Face Display Functions. -* face-equal: Other Face Display Functions. -* face-font: Face Convenience Functions. -* face-font-instance: Face Convenience Functions. -* face-font-name: Face Convenience Functions. -* face-foreground: Face Convenience Functions. -* face-foreground-instance: Face Convenience Functions. -* face-list: Basic Face Functions. -* face-property: Face Properties. -* face-property-instance: Face Properties. -* face-underline-p: Face Convenience Functions. -* facep: Basic Face Functions. -* faces: Faces and Window-System Objects. -* fallback (in a specifier): Specifier Instancing. -* false: nil and t. -* fboundp: Function Cells. -* fceiling: Rounding Operations. -* featurep: Named Features. -* features: Named Features. -* fetch-bytecode: Dynamic Loading. -* ffloor: Rounding Operations. -* field width: Formatting Strings. -* fifth: List Elements. -* file accessibility: Testing Accessibility. -* file age: Testing Accessibility. -* file attributes: File Attributes. -* file format conversion: Format Conversion. -* file hard link: Changing File Attributes. -* file locks: File Locks. -* file mode specification error: Auto Major Mode. -* file modes and MS-DOS: Changing File Attributes. -* file modification time: Testing Accessibility. -* file name completion subroutines: File Name Completion. -* file name of buffer: Buffer File Name. -* file name of directory: Directory Names. -* file names: File Names. -* file names in directory: Contents of Directories. -* file open error: Subroutines of Visiting. -* file symbolic links: Kinds of Files. -* file types on MS-DOS: Files and MS-DOS. -* file with multiple names: Changing File Attributes. -* file-accessible-directory-p: Testing Accessibility. -* file-already-exists: Changing File Attributes. -* file-attributes: File Attributes. -* file-directory-p: Kinds of Files. -* file-error: How Programs Do Loading. -* file-executable-p: Testing Accessibility. -* file-exists-p: Testing Accessibility. -* file-local-copy: Magic File Names. -* file-locked: File Locks. -* file-locked-p: File Locks. -* file-menu-filter: Menu Filters. -* file-modes: File Attributes. -* file-name-absolute-p: Relative File Names. -* file-name-all-completions: File Name Completion. -* file-name-as-directory: Directory Names. -* file-name-buffer-file-type-alist: Files and MS-DOS. -* file-name-completion: File Name Completion. -* file-name-directory: File Name Components. -* file-name-history: Minibuffer History. -* file-name-nondirectory: File Name Components. -* file-name-sans-extension: File Name Components. -* file-name-sans-versions: File Name Components. -* file-newer-than-file-p: Testing Accessibility. -* file-newest-backup: Backup Names. -* file-nlinks: File Attributes. -* file-ownership-preserved-p: Testing Accessibility. -* file-precious-flag: Saving Buffers. -* file-readable-p: Testing Accessibility. -* file-regular-p: Kinds of Files. -* file-relative-name: File Name Expansion. -* file-supersession: Modification Time. -* file-symlink-p: Kinds of Files. -* file-truename: Truenames. -* file-writable-p: Testing Accessibility. -* fill-column: Margins. -* fill-individual-paragraphs: Filling. -* fill-individual-varying-indent: Filling. -* fill-paragraph: Filling. -* fill-paragraph-function: Filling. -* fill-prefix: Margins. -* fill-region: Filling. -* fill-region-as-paragraph: Filling. -* fillarray: Array Functions. -* filling a paragraph: Filling. -* filling, automatic: Auto Filling. -* filling, explicit: Filling. -* filter function: Filter Functions. -* find-backup-file-name: Backup Names. -* find-buffer-file-type: Files and MS-DOS. -* find-charset: Basic Charset Functions. -* find-charset-region: MULE Characters. -* find-charset-string: MULE Characters. -* find-coding-system: Basic Coding System Functions. -* find-file: Visiting Functions. -* find-file-binary: Files and MS-DOS. -* find-file-hooks: Visiting Functions. -* find-file-name-handler: Magic File Names. -* find-file-noselect: Visiting Functions. -* find-file-not-found-hooks: Visiting Functions. -* find-file-other-window: Visiting Functions. -* find-file-read-only: Visiting Functions. -* find-file-text: Files and MS-DOS. -* find-menu-item: Modifying Menus. -* finding files: Visiting Files. -* finding windows: Selecting Windows. -* first: List Elements. -* first-change-hook: Change Hooks. -* fixup-whitespace: User-Level Deletion. -* float: Numeric Conversions. -* float-output-format: Output Variables. -* floating-point numbers, printing: Output Variables. -* floatp: Predicates on Numbers. -* floor: Numeric Conversions. -* flow control characters: Flow Control. -* flush input: Peeking and Discarding. -* fmakunbound: Function Cells. -* focus-frame: Input Focus. -* following-char: Near Point. -* font instance characteristics: Font Instance Characteristics. -* font instance name: Font Instance Names. -* font instance size: Font Instance Size. -* font instance type: Font Instance Type. -* font-instance-name: Font Instance Names. -* font-instance-p: Font Instances. -* font-instance-properties: Font Instance Characteristics. -* font-instance-truename: Font Instance Names. -* font-name: Font Convenience Functions. -* font-properties: Font Convenience Functions. -* font-specifier-p <1>: Font Specifiers. -* font-specifier-p: Specifier Types. -* font-truename: Font Convenience Functions. -* fonts <1>: Fonts. -* fonts: Some Terms. -* fonts available: Font Instance Names. -* foo: A Sample Function Description. -* for: Argument Evaluation. -* force-cursor-redisplay: Refresh Screen. -* force-highlight-extent: Extents and Events. -* forcing redisplay: Waiting. -* format: Formatting Strings. -* format definition: Format Conversion. -* format of keymaps: Format of Keymaps. -* format of menus: Menu Format. -* format of the menubar: Menubar Format. -* format precision: Formatting Strings. -* format specification: Formatting Strings. -* format-alist: Format Conversion. -* format-buffers-menu-line: Buffers Menu. -* format-find-file: Format Conversion. -* format-insert-file: Format Conversion. -* format-time-string: Time Conversion. -* format-write-file: Format Conversion. -* formatting strings: Formatting Strings. -* formfeed: Character Type. -* forms: Intro Eval. -* forward-char: Character Motion. -* forward-comment: Parsing Expressions. -* forward-line: Text Lines. -* forward-list: List Motion. -* forward-sexp: List Motion. -* forward-to-indentation: Motion by Indent. -* forward-word: Word Motion. -* fourth: List Elements. -* frame: Frames. -* frame configuration: Frame Configurations. -* frame hooks: Frame Hooks. -* frame name: Frame Name. -* frame of terminal: Basic Windows. -* frame position: Size and Position. -* frame size: Size and Position. -* frame visibility: Visibility of Frames. -* frame-device: Basic Device Functions. -* frame-height: Size and Position. -* frame-icon-title-format: Frame Titles. -* frame-iconified-p: Visibility of Frames. -* frame-list: Finding All Frames. -* frame-live-p: Deleting Frames. -* frame-name: Frame Name. -* frame-pixel-height: Size and Position. -* frame-pixel-width: Size and Position. -* frame-properties: Property Access. -* frame-property: Property Access. -* frame-root-window: Frames and Windows. -* frame-selected-window: Frames and Windows. -* frame-title-format: Frame Titles. -* frame-top-window: Frames and Windows. -* frame-totally-visible-p: Visibility of Frames. -* frame-visible-p: Visibility of Frames. -* frame-width: Size and Position. -* framep: Frames. -* free list: Garbage Collection. -* frequency counts: Coverage Testing. -* fround: Rounding Operations. -* fset: Function Cells. -* ftp-login: Cleanups. -* ftruncate: Rounding Operations. -* funcall: Calling Functions. -* funcall, and debugging: Internals of Debugger. -* function <1>: Anonymous Functions. -* function: What Is a Function. -* function call: Function Forms. -* function call debugging: Function Debugging. -* function cell: Symbol Components. -* function cell in autoload: Autoload. -* function definition: Function Names. -* function descriptions: A Sample Function Description. -* function form evaluation: Function Forms. -* function input stream: Input Streams. -* function invocation: Calling Functions. -* function name: Function Names. -* function output stream: Output Streams. -* function quoting: Anonymous Functions. -* function-interactive: Using Interactive. -* function-key-map: Translating Input. -* function-obsoleteness-doc: Obsoleteness. -* functionals: Calling Functions. -* functions in modes: Major Mode Conventions. -* functions, making them interactive: Defining Commands. -* Fundamental mode: Major Modes. -* fundamental-mode: Auto Major Mode. -* fundamental-mode-abbrev-table: Standard Abbrev Tables. -* garbage collector: Garbage Collection. -* garbage-collect: Garbage Collection. -* gc-cons-threshold: Garbage Collection. -* gc-message: Garbage Collection. -* gc-pointer-glyph <1>: Garbage Collection. -* gc-pointer-glyph: Mouse Pointer. -* generate-new-buffer: Creating Buffers. -* generate-new-buffer-name: Buffer Names. -* generic-specifier-p: Specifier Types. -* get: Object Plists. -* get-buffer: Buffer Names. -* get-buffer-create: Creating Buffers. -* get-buffer-process: Process Buffers. -* get-buffer-window: Buffers and Windows. -* get-char-property: Examining Properties. -* get-char-table: Working With Char Tables. -* get-charset: Basic Charset Functions. -* get-coding-system: Basic Coding System Functions. -* get-database: Working With a Database. -* get-file-buffer: Buffer File Name. -* get-largest-window: Selecting Windows. -* get-lru-window: Selecting Windows. -* get-process: Process Information. -* get-range-char-table: Working With Char Tables. -* get-range-table: Working With Range Tables. -* get-register: Registers. -* get-text-property: Examining Properties. -* get-tooltalk-message-attribute: Elisp Interface for Sending Messages. -* getenv: System Environment. -* getf: Other Plists. -* gethash: Working With Hash Tables. -* gettext: Level 3 Primitives. -* global binding: Local Variables. -* global break condition: Global Break Condition. -* global keymap: Active Keymaps. -* global mark ring: The Mark. -* global variable: Global Variables. -* global-abbrev-table: Standard Abbrev Tables. -* global-key-binding: Functions for Key Lookup. -* global-map: Active Keymaps. -* global-mark-ring: The Mark. -* global-mode-string: Modeline Variables. -* global-popup-menu: Pop-Up Menus. -* global-set-key: Key Binding Commands. -* global-unset-key: Key Binding Commands. -* glyph type: Glyph Type. -* glyph-ascent: Glyph Dimensions. -* glyph-baseline: Glyph Convenience Functions. -* glyph-baseline-instance: Glyph Convenience Functions. -* glyph-contrib-p: Glyph Convenience Functions. -* glyph-contrib-p-instance: Glyph Convenience Functions. -* glyph-descent: Glyph Dimensions. -* glyph-face: Glyph Convenience Functions. -* glyph-height: Glyph Dimensions. -* glyph-image: Glyph Convenience Functions. -* glyph-image-instance: Glyph Convenience Functions. -* glyph-property: Glyph Properties. -* glyph-property-instance: Glyph Properties. -* glyph-type: Glyph Types. -* glyph-type-list: Glyph Types. -* glyph-width: Glyph Dimensions. -* glyphp: Glyphs. -* glyphs: Glyphs. -* goto-char: Character Motion. -* goto-line: Text Lines. -* gutter: Gutter. -* gutter-buttons-captioned-p: Other Gutter Variables. -* gutter-make-button-list: Gutter Descriptor Format. -* gutter-specifier-p: Specifying a Gutter. -* hack-local-variables: Auto Major Mode. -* handling errors: Handling Errors. -* hash notation: Printed Representation. -* hash table: Hash Tables. -* hash table type: Hash Table Type. -* hash table, weak: Weak Hash Tables. -* hash-table-count: Introduction to Hash Tables. -* hash-table-p: Hash Tables. -* hash-table-rehash-size: Introduction to Hash Tables. -* hash-table-rehash-threshold: Introduction to Hash Tables. -* hash-table-size: Introduction to Hash Tables. -* hash-table-test: Introduction to Hash Tables. -* hash-table-weakness: Introduction to Hash Tables. -* hashing: Creating Symbols. -* header comments: Library Headers. -* help for major mode: Mode Help. -* help-char: Help Functions. -* help-command: Help Functions. -* help-form: Help Functions. -* help-map <1>: Standard Keymaps. -* help-map: Help Functions. -* Helper-describe-bindings: Help Functions. -* Helper-help: Help Functions. -* Helper-help-map: Standard Keymaps. -* hide-annotation: Annotation Properties. -* highlight-extent: Extents and Events. -* history list: Minibuffer History. -* history of commands: Command History. -* HOME environment variable: Subprocess Creation. -* hooks: Hooks. -* hooks for loading: Hooks for Loading. -* hooks for text changes: Change Hooks. -* horizontal position: Columns. -* horizontal scrolling: Horizontal Scrolling. -* hscroll-glyph: Redisplay Glyphs. -* icon-glyph-p: Glyph Types. -* iconified frame: Visibility of Frames. -* iconify-frame: Visibility of Frames. -* identity: Calling Functions. -* IEEE floating point: Float Basics. -* if: Conditionals. -* ignore: Calling Functions. -* ignored-local-variables: Auto Major Mode. -* image instance type: Image Instance Type. -* image instance types: Image Instance Types. -* image instances: Image Instances. -* image instantiator conversion: Image Instantiator Conversion. -* image specifiers: Image Specifiers. -* image-instance-background: Image Instance Functions. -* image-instance-depth: Image Instance Functions. -* image-instance-file-name: Image Instance Functions. -* image-instance-foreground: Image Instance Functions. -* image-instance-height: Image Instance Functions. -* image-instance-hotspot-x: Image Instance Functions. -* image-instance-hotspot-y: Image Instance Functions. -* image-instance-mask-file-name: Image Instance Functions. -* image-instance-name: Image Instance Functions. -* image-instance-p: Image Instances. -* image-instance-string: Image Instance Functions. -* image-instance-type: Image Instance Types. -* image-instance-type-list: Image Instance Types. -* image-instance-width: Image Instance Functions. -* image-instantiator-format-list: Image Specifiers. -* image-specifier-p <1>: Image Specifiers. -* image-specifier-p: Specifier Types. -* implicit progn: Sequencing. -* inc: Simple Macro. -* indent-according-to-mode: Mode-Specific Indent. -* indent-code-rigidly: Region Indent. -* indent-for-tab-command: Mode-Specific Indent. -* indent-line-function: Mode-Specific Indent. -* indent-region: Region Indent. -* indent-region-function: Region Indent. -* indent-relative: Relative Indent. -* indent-relative-maybe: Relative Indent. -* indent-rigidly: Region Indent. -* indent-tabs-mode: Primitive Indent. -* indent-to: Primitive Indent. -* indent-to-left-margin: Margins. -* indentation: Indentation. -* indenting with parentheses: Parsing Expressions. -* indirect buffers: Indirect Buffers. -* indirect specifications: Specification List. -* indirect variables: Variable Aliases. -* indirect-function: Function Indirection. -* indirect-variable: Variable Aliases. -* indirection: Function Indirection. -* infinite loops: Infinite Loops. -* infinite recursion: Local Variables. -* infinity: Float Basics. -* Info-edit-map: Standard Keymaps. -* Info-minibuffer-history: Minibuffer History. -* Info-mode-map: Standard Keymaps. -* inherit: Syntax Class Table. -* inheriting a keymap's bindings: Inheritance and Keymaps. -* inhibit-default-init: Init File. -* inhibit-file-name-handlers: Magic File Names. -* inhibit-file-name-operation: Magic File Names. -* inhibit-quit: Quitting. -* inhibit-read-only: Read Only Buffers. -* inhibit-startup-echo-area-message: Start-up Summary. -* inhibit-startup-message: Start-up Summary. -* init file: Init File. -* initial-frame-plist: Initial Properties. -* initial-gutter-spec: Other Gutter Variables. -* initial-major-mode: Auto Major Mode. -* initial-toolbar-spec: Other Toolbar Variables. -* initialization: Start-up Summary. -* inline functions: Inline Functions. -* innermost containing parentheses: Parsing Expressions. -* input events: Events. -* input focus: Input Focus. -* input modes: Input Modes. -* input stream: Input Streams. -* input-pending-p: Peeking and Discarding. -* insert: Insertion. -* insert-abbrev-table-description: Abbrev Tables. -* insert-before-markers: Insertion. -* insert-buffer: Commands for Insertion. -* insert-buffer-substring: Insertion. -* insert-char: Insertion. -* insert-default-directory: Reading File Names. -* insert-directory: Contents of Directories. -* insert-directory-program: Contents of Directories. -* insert-extent: Detached Extents. -* insert-file-contents: Reading from Files. -* insert-register: Registers. -* insert-string: Insertion. -* inserting killed text: Yank Commands. -* insertion before point: Insertion. -* insertion of text: Insertion. -* inside comment: Parsing Expressions. -* inside margin: Annotation Basics. -* inside string: Parsing Expressions. -* inst-list (in a specifier): Specifiers In-Depth. -* inst-pair (in a specifier): Specifiers In-Depth. -* installation-directory: System Environment. -* instance (in a specifier): Specifiers In-Depth. -* instancing (in a specifier): Specifiers In-Depth. -* instantiator (in a specifier): Specifiers In-Depth. -* int-char: Character Codes. -* int-to-string: String Conversion. -* integer to decimal: String Conversion. -* integer to hexadecimal: Formatting Strings. -* integer to octal: Formatting Strings. -* integer to string: String Conversion. -* integer-char-or-marker-p: Predicates on Markers. -* integer-or-char-p: Predicates for Characters. -* integer-or-marker-p: Predicates on Markers. -* integer-specifier-p: Specifier Types. -* integerp: Predicates on Numbers. -* integers: Numbers. -* interactive: Using Interactive. -* interactive call: Interactive Call. -* interactive code description: Interactive Codes. -* interactive commands (Edebug): Instrumenting. -* interactive completion: Interactive Codes. -* interactive function: Defining Commands. -* interactive, examples of using: Interactive Examples. -* interactive-p: Interactive Call. -* intern: Creating Symbols. -* intern-soft: Creating Symbols. -* internal-doc-file-name: Accessing Documentation. -* interning: Creating Symbols. -* interpreter: Evaluation. -* interpreter-mode-alist: Auto Major Mode. -* interprogram-cut-function: Low-Level Kill Ring. -* interprogram-paste-function: Low-Level Kill Ring. -* interrupt-process: Signals to Processes. -* invalid function: Function Indirection. -* invalid prefix key error: Changing Key Bindings. -* invalid-function: Function Indirection. -* invalid-read-syntax: Printed Representation. -* invalid-regexp: Syntax of Regexps. -* invert-face: Other Face Display Functions. -* invisible frame: Visibility of Frames. -* invisible text: Invisible Text. -* invisible-text-glyph: Redisplay Glyphs. -* invocation-directory: System Environment. -* invocation-name: System Environment. -* isearch-mode-map: Standard Keymaps. -* ISO Latin 1: Case Tables. -* ISO Latin-1 characters (input): Translating Input. -* iso-syntax: Case Tables. -* iso-transl: Translating Input. -* italic: Font Instance Characteristics. -* iteration: Iteration. -* itimer-edit-map: Standard Keymaps. -* joining lists: Rearrangement. -* just-one-space: User-Level Deletion. -* justify-current-line: Filling. -* kept-new-versions: Numbered Backups. -* kept-old-versions: Numbered Backups. -* key: Keymap Terminology. -* key binding: Keymap Terminology. -* key lookup: Key Lookup. -* key sequence: Key Sequence Input. -* key sequence error: Changing Key Bindings. -* key sequence input: Key Sequence Input. -* key sequences: Key Sequences. -* key translation function: Translating Input. -* key-binding: Functions for Key Lookup. -* key-description: Describing Characters. -* key-press-event-p: Event Predicates. -* key-translation-map: Translating Input. -* keyboard macro execution: Interactive Call. -* keyboard macro termination: Beeping. -* keyboard macros: Keyboard Macros. -* keyboard macros (Edebug): Edebug Execution Modes. -* keyboard menu accelerators: Menu Accelerators. -* keyboard-quit: Quitting. -* keymap: Keymaps. -* keymap entry: Key Lookup. -* keymap format: Format of Keymaps. -* keymap in keymap: Key Lookup. -* keymap inheritance: Inheritance and Keymaps. -* keymap parent: Inheritance and Keymaps. -* keymap-default-binding: Inheritance and Keymaps. -* keymap-fullness: Scanning Keymaps. -* keymap-name: Creating Keymaps. -* keymap-parents: Inheritance and Keymaps. -* keymap-prompt: Other Keymap Functions. -* keymapp: Format of Keymaps. -* keymaps in modes: Major Mode Conventions. -* keys in documentation strings: Keys in Documentation. -* keystroke: Keymap Terminology. -* keystroke command: What Is a Function. -* keywordp: Specification List. -* kill command repetition: Command Loop Info. -* kill ring: The Kill Ring. -* kill-all-local-variables: Creating Buffer-Local. -* kill-append: Low-Level Kill Ring. -* kill-buffer: Killing Buffers. -* kill-buffer-hook: Killing Buffers. -* kill-buffer-query-functions: Killing Buffers. -* kill-emacs: Killing XEmacs. -* kill-emacs-hook: Killing XEmacs. -* kill-emacs-query-functions: Killing XEmacs. -* kill-local-variable: Creating Buffer-Local. -* kill-new: Low-Level Kill Ring. -* kill-process: Signals to Processes. -* kill-region: Kill Functions. -* kill-ring: Internals of Kill Ring. -* kill-ring-max: Internals of Kill Ring. -* kill-ring-yank-pointer: Internals of Kill Ring. -* killing buffers: Killing Buffers. -* killing XEmacs: Killing XEmacs. -* lambda expression: Lambda Expressions. -* lambda expression in hook: Hooks. -* lambda in debug: Invoking the Debugger. -* lambda in keymap: Key Lookup. -* lambda list: Lambda Components. -* lambda-list (Edebug): Specification List. -* lambda-list-keywordp: Specification List. -* last-abbrev: Abbrev Expansion. -* last-abbrev-location: Abbrev Expansion. -* last-abbrev-text: Abbrev Expansion. -* last-command: Command Loop Info. -* last-command-char: Command Loop Info. -* last-command-event: Command Loop Info. -* last-input-char: Peeking and Discarding. -* last-input-event: Peeking and Discarding. -* last-kbd-macro: Keyboard Macros. -* Latin-1 character set (input): Translating Input. -* lax-plist-get: Working With Lax Plists. -* lax-plist-member: Working With Lax Plists. -* lax-plist-put: Working With Lax Plists. -* lax-plist-remprop: Working With Lax Plists. -* lax-plists-eq: Working With Lax Plists. -* lax-plists-equal: Working With Lax Plists. -* layout policy: Annotation Basics. -* layout types: Annotation Basics. -* lazy loading: Dynamic Loading. -* LDAP: LDAP Support. -* ldap-close: Opening and Closing a LDAP Connection. -* ldap-default-base: LDAP Variables. -* ldap-default-host: LDAP Variables. -* ldap-default-port: LDAP Variables. -* ldap-host: The LDAP Lisp Object. -* ldap-host-parameters-alist: LDAP Variables. -* ldap-live-p: The LDAP Lisp Object. -* ldap-open: Opening and Closing a LDAP Connection. -* ldap-search: The High-Level LDAP API. -* ldap-search-internal: Searching on a LDAP Server (Low-level). -* ldapp: The LDAP Lisp Object. -* left-gutter: Specifying a Gutter. -* left-gutter-visible-p: Other Gutter Variables. -* left-gutter-width: Other Gutter Variables. -* left-margin: Margins. -* left-margin-width: Margin Primitives. -* left-toolbar: Specifying the Toolbar. -* left-toolbar-visible-p: Other Toolbar Variables. -* left-toolbar-width: Other Toolbar Variables. -* length: Sequence Functions. -* let: Local Variables. -* let*: Local Variables. -* let-specifier: Adding Specifications. -* lexical binding (Edebug): Edebug Eval. -* lexical comparison: Text Comparison. -* library: Loading. -* library compilation: Compilation Functions. -* library header comments: Library Headers. -* line wrapping: Truncation. -* lines: Text Lines. -* lines in region: Text Lines. -* linking files: Changing File Attributes. -* Lisp debugger: Debugger. -* Lisp expression motion: List Motion. -* Lisp history: Lisp History. -* Lisp library: Loading. -* Lisp nesting error: Eval. -* Lisp object: Lisp Data Types. -* Lisp printer: Output Functions. -* Lisp reader: Streams Intro. -* lisp-interaction-mode-map: Standard Keymaps. -* lisp-mode-abbrev-table: Standard Abbrev Tables. -* lisp-mode-map: Standard Keymaps. -* lisp-mode.el: Example Major Modes. -* list <1>: Building Lists. -* list: Lists. -* list elements: List Elements. -* list form evaluation: Classifying Lists. -* list in keymap: Key Lookup. -* list length: Sequence Functions. -* list motion: List Motion. -* list structure: Cons Cells. -* list-buffers: The Buffer List. -* list-buffers-directory: Buffer File Name. -* list-fonts: Font Instance Names. -* list-processes: Process Information. -* listp: List-related Predicates. -* lists and cons cells: Cons Cells. -* lists as sets: Sets And Lists. -* lists represented as boxes: Lists as Boxes. -* literal evaluation: Self-Evaluating Forms. -* lmessage: The Echo Area. -* ln: Changing File Attributes. -* load: How Programs Do Loading. -* load error with require: Named Features. -* load errors: How Programs Do Loading. -* load-average: System Environment. -* load-default-sounds: Beeping. -* load-history: Unloading. -* load-ignore-elc-files: How Programs Do Loading. -* load-in-progress: How Programs Do Loading. -* load-path: How Programs Do Loading. -* load-read-function: How Programs Do Loading. -* load-sound-file: Beeping. -* load-warn-when-source-newer: How Programs Do Loading. -* load-warn-when-source-only: How Programs Do Loading. -* loading: Loading. -* loading hooks: Hooks for Loading. -* loadup.el: Building XEmacs. -* local binding: Local Variables. -* local keymap: Active Keymaps. -* local variables: Local Variables. -* local-abbrev-table: Standard Abbrev Tables. -* local-key-binding: Functions for Key Lookup. -* local-set-key: Key Binding Commands. -* local-unset-key: Key Binding Commands. -* local-variable-p: Creating Buffer-Local. -* local-write-file-hooks: Saving Buffers. -* locale (in a specifier): Specifiers In-Depth. -* locate-file: How Programs Do Loading. -* locate-file-clear-hashing: How Programs Do Loading. -* lock-buffer: File Locks. -* log: Math Functions. -* log-message-ignore-labels: The Echo Area. -* log-message-ignore-regexps: The Echo Area. -* log-message-max-size: The Echo Area. -* log-warning-minimum-level: Warnings. -* log-warning-suppressed-classes: Warnings. -* log10: Math Functions. -* logand: Bitwise Operations. -* logb: Float Basics. -* logical and: Bitwise Operations. -* logical exclusive or: Bitwise Operations. -* logical inclusive or: Bitwise Operations. -* logical not: Bitwise Operations. -* logical shift: Bitwise Operations. -* logior: Bitwise Operations. -* lognot: Bitwise Operations. -* logxor: Bitwise Operations. -* looking-at: Regexp Search. -* lookup-key: Functions for Key Lookup. -* loops, infinite: Infinite Loops. -* lower case: Character Case. -* lower-frame: Raising and Lowering. -* lowering a frame: Raising and Lowering. -* lsh: Bitwise Operations. -* lwarn: Warnings. -* M-x: Interactive Call. -* Maclisp: Lisp History. -* macro: What Is a Function. -* macro argument evaluation: Argument Evaluation. -* macro call: Expansion. -* macro call evaluation: Macro Forms. -* macro compilation: Compilation Functions. -* macro descriptions: A Sample Function Description. -* macro expansion: Expansion. -* macroexpand: Expansion. -* macros: Macros. -* magic file names: Magic File Names. -* mail-host-address: System Environment. -* major mode: Major Modes. -* major mode hook: Major Mode Conventions. -* major mode keymap: Active Keymaps. -* major-mode: Mode Help. -* make-abbrev-table: Abbrev Tables. -* make-annotation: Annotation Primitives. -* make-auto-save-file-name: Auto-Saving. -* make-backup-file-name: Backup Names. -* make-backup-files: Making Backups. -* make-bit-vector: Bit Vector Functions. -* make-byte-code: Compiled-Function Objects. -* make-char: MULE Characters. -* make-char-table: Working With Char Tables. -* make-charset: Basic Charset Functions. -* make-coding-system: Basic Coding System Functions. -* make-composite-char: Composite Characters. -* make-device: Connecting to a Console or Device. -* make-directory: Create/Delete Dirs. -* make-display-table: Display Table Format. -* make-event: Working With Events. -* make-extent: Creating and Modifying Extents. -* make-face: Basic Face Functions. -* make-file-part: Creating a Partial File. -* make-font-instance: Font Instances. -* make-frame: Creating Frames. -* make-frame-invisible: Visibility of Frames. -* make-frame-visible: Visibility of Frames. -* make-glyph: Creating Glyphs. -* make-glyph-internal: Creating Glyphs. -* make-hash-table: Introduction to Hash Tables. -* make-icon-glyph: Creating Glyphs. -* make-image-instance: Image Instance Functions. -* make-image-specifier: Image Specifiers. -* make-indirect-buffer: Indirect Buffers. -* make-keymap: Creating Keymaps. -* make-list: Building Lists. -* make-local-hook: Hooks. -* make-local-variable: Creating Buffer-Local. -* make-marker: Creating Markers. -* make-obsolete: Obsoleteness. -* make-obsolete-variable: Obsoleteness. -* make-pointer-glyph: Creating Glyphs. -* make-range-table: Introduction to Range Tables. -* make-reverse-direction-charset: Basic Charset Functions. -* make-sparse-keymap: Creating Keymaps. -* make-specifier: Creating Specifiers. -* make-specifier-and-init: Creating Specifiers. -* make-string: Creating Strings. -* make-symbol: Creating Symbols. -* make-symbolic-link: Changing File Attributes. -* make-syntax-table: Syntax Table Functions. -* make-temp-name: Unique File Names. -* make-tooltalk-message: Elisp Interface for Sending Messages. -* make-tooltalk-pattern: Elisp Interface for Receiving Messages. -* make-tty-device: Connecting to a Console or Device. -* make-variable-buffer-local: Creating Buffer-Local. -* make-vector: Vector Functions. -* make-weak-list: Weak Lists. -* make-x-device: Connecting to a Console or Device. -* makunbound: Void Variables. -* Manual-page-minibuffer-history: Minibuffer History. -* map-char-table: Working With Char Tables. -* map-database: Working With a Database. -* map-extent-children: Mapping Over Extents. -* map-extents: Mapping Over Extents. -* map-frame-hook: Frame Hooks. -* map-keymap: Scanning Keymaps. -* map-range-table: Working With Range Tables. -* map-specifier: Other Specification Functions. -* map-y-or-n-p: Multiple Queries. -* mapatoms: Creating Symbols. -* mapcar: Mapping Functions. -* mapcar-extents: Mapping Over Extents. -* mapconcat: Mapping Functions. -* maphash: Working With Hash Tables. -* mapping functions: Mapping Functions. -* margin: Annotation Basics. -* margin width: Margin Primitives. -* mark: The Mark. -* mark excursion: Excursions. -* mark ring: The Mark. -* mark, the: The Mark. -* mark-marker: The Mark. -* mark-ring: The Mark. -* mark-ring-max: The Mark. -* marker argument: Interactive Codes. -* marker garbage collection: Overview of Markers. -* marker input stream: Input Streams. -* marker output stream: Output Streams. -* marker relocation: Overview of Markers. -* marker-buffer: Information from Markers. -* marker-position: Information from Markers. -* markerp: Predicates on Markers. -* markers: Markers. -* markers as numbers: Overview of Markers. -* markers vs. extents: Overview of Markers. -* match data: Match Data. -* match-beginning: Simple Match Data. -* match-data: Entire Match Data. -* match-end: Simple Match Data. -* match-string: Simple Match Data. -* mathematical functions: Math Functions. -* max: Comparison of Numbers. -* max-lisp-eval-depth: Eval. -* max-specpdl-size: Local Variables. -* md5: Transformations. -* MD5 digests: Transformations. -* member: Sets And Lists. -* membership in a list: Sets And Lists. -* memory allocation: Garbage Collection. -* memory-limit: Garbage Collection. -* memq: Sets And Lists. -* menu: Menus. -* menu accelerators: Menu Accelerators. -* menu filters: Menu Filters. -* menu format: Menu Format. -* menu-accelerator-enabled: Menu Accelerator Functions. -* menu-accelerator-map: Menu Accelerator Functions. -* menu-accelerator-modifiers: Menu Accelerator Functions. -* menu-accelerator-prefix: Menu Accelerator Functions. -* menu-no-selection-hook: Menubar. -* menubar: Menubar. -* menubar format: Menubar Format. -* menubar-configuration: Menu Format. -* menubar-pointer-glyph: Mouse Pointer. -* menubar-show-keybindings: Menubar. -* message: The Echo Area. -* meta character printing: Describing Characters. -* meta-prefix-char: Functions for Key Lookup. -* min: Comparison of Numbers. -* minibuffer: Minibuffers. -* minibuffer history: Minibuffer History. -* minibuffer input: Recursive Editing. -* minibuffer window: Cyclic Window Ordering. -* minibuffer-complete: Completion Commands. -* minibuffer-complete-and-exit: Completion Commands. -* minibuffer-complete-word: Completion Commands. -* minibuffer-completion-confirm: Completion Commands. -* minibuffer-completion-help: Completion Commands. -* minibuffer-completion-predicate: Completion Commands. -* minibuffer-completion-table: Completion Commands. -* minibuffer-depth: Minibuffer Misc. -* minibuffer-exit-hook: Minibuffer Misc. -* minibuffer-frame-plist: Initial Properties. -* minibuffer-help-form: Minibuffer Misc. -* minibuffer-history: Minibuffer History. -* minibuffer-local-completion-map <1>: Standard Keymaps. -* minibuffer-local-completion-map: Completion Commands. -* minibuffer-local-isearch-map: Standard Keymaps. -* minibuffer-local-map <1>: Standard Keymaps. -* minibuffer-local-map: Text from Minibuffer. -* minibuffer-local-must-match-map <1>: Standard Keymaps. -* minibuffer-local-must-match-map: Completion Commands. -* minibuffer-prompt: Minibuffer Misc. -* minibuffer-prompt-width: Minibuffer Misc. -* minibuffer-scroll-window: Minibuffer Misc. -* minibuffer-setup-hook: Minibuffer Misc. -* minibuffer-window: Minibuffer Misc. -* minibuffer-window-active-p: Minibuffer Misc. -* minimum window size: Resizing Windows. -* minor mode: Minor Modes. -* minor mode conventions: Minor Mode Conventions. -* minor-mode-alist: Modeline Variables. -* minor-mode-key-binding: Functions for Key Lookup. -* minor-mode-map-alist: Active Keymaps. -* misc-user-event-p: Event Predicates. -* mod: Arithmetic Operations. -* mode: Modes. -* mode help: Mode Help. -* mode hook: Major Mode Conventions. -* mode loading: Major Mode Conventions. -* mode variable: Minor Mode Conventions. -* mode-class property: Major Mode Conventions. -* mode-name: Modeline Variables. -* mode-popup-menu: Pop-Up Menus. -* mode-specific-map <1>: Standard Keymaps. -* mode-specific-map: Prefix Keys. -* modeline: Modeline Format. -* modeline construct: Modeline Data. -* modeline-buffer-identification: Modeline Variables. -* modeline-format: Modeline Data. -* modeline-map <1>: Standard Keymaps. -* modeline-map: Active Keymaps. -* modeline-modified: Modeline Variables. -* modeline-pointer-glyph: Mouse Pointer. -* modeline-process: Modeline Variables. -* modification flag (of buffer): Buffer Modification. -* modification of lists: Rearrangement. -* modification time, comparison of: Modification Time. -* modify-syntax-entry: Syntax Table Functions. -* modulus: Arithmetic Operations. -* momentary-string-display: Temporary Displays. -* mono-pixmap-image-instance-p: Image Instance Types. -* motion-event-p: Event Predicates. -* mouse cursor: Mouse Pointer. -* mouse pointer: Mouse Pointer. -* mouse-event-p: Event Predicates. -* mouse-grabbed-buffer: Active Keymaps. -* mouse-highlight-priority: Extents and Events. -* move-marker: Changing Markers. -* move-to-column: Columns. -* move-to-left-margin: Margins. -* move-to-window-line: Screen Lines. -* MS-DOS and file modes: Changing File Attributes. -* MS-DOS file types: Files and MS-DOS. -* MSWindows OLE: MSWindows OLE. -* multilingual string formatting: Formatting Strings. -* multiple windows: Basic Windows. -* named function: Function Names. -* NaN: Float Basics. -* narrow-to-page: Narrowing. -* narrow-to-region: Narrowing. -* narrowing: Narrowing. -* natnum-specifier-p: Specifier Types. -* natnump: Predicates on Numbers. -* natural numbers: Predicates on Numbers. -* nconc: Rearrangement. -* negative infinity: Float Basics. -* negative-argument: Prefix Command Arguments. -* network connection: Network. -* new file message: Subroutines of Visiting. -* newline <1>: Commands for Insertion. -* newline: Character Type. -* newline and Auto Fill mode: Commands for Insertion. -* newline in print: Output Functions. -* newline in strings: String Type. -* newline-and-indent: Mode-Specific Indent. -* next input: Peeking and Discarding. -* next-command-event: Reading One Event. -* next-event: Reading One Event. -* next-extent: Finding Extents. -* next-frame: Finding All Frames. -* next-history-element: Minibuffer Misc. -* next-matching-history-element: Minibuffer Misc. -* next-property-change: Property Search. -* next-screen-context-lines: Vertical Scrolling. -* next-single-property-change: Property Search. -* next-window: Cyclic Window Ordering. -* nil: Constant Variables. -* nil and lists: Cons Cells. -* nil in keymap: Key Lookup. -* nil in lists: Cons Cell Type. -* nil input stream: Input Streams. -* nil output stream: Output Streams. -* nil, uses of: nil and t. -* ninth: List Elements. -* nlistp: List-related Predicates. -* no-catch: Catch and Throw. -* no-redraw-on-reenter: Refresh Screen. -* nondirectory part (of file name): File Name Components. -* noninteractive: Batch Mode. -* noninteractive use: Batch Mode. -* nonlocal exits: Nonlocal Exits. -* nonprinting characters, reading: Quoted Character Input. -* nontext-pointer-glyph: Mouse Pointer. -* normal-mode: Auto Major Mode. -* not: Combining Conditions. -* not-modified: Buffer Modification. -* nothing-image-instance-p: Image Instance Types. -* nreverse: Rearrangement. -* nth: List Elements. -* nthcdr: List Elements. -* null: List-related Predicates. -* number equality: Comparison of Numbers. -* number-char-or-marker-p: Predicates on Markers. -* number-or-marker-p: Predicates on Markers. -* number-to-string: String Conversion. -* numberp: Predicates on Numbers. -* numbers: Numbers. -* numeric prefix: Formatting Strings. -* numeric prefix argument: Prefix Command Arguments. -* numeric prefix argument usage: Interactive Codes. -* obarray: Creating Symbols. -* obarray in completion: Basic Completion. -* objc-mode-map: Standard Keymaps. -* object: Lisp Data Types. -* object to string: Output Functions. -* object-plist: Object Plists. -* oblique: Font Instance Characteristics. -* obsolete buffer: Modification Time. -* occur-mode-map: Standard Keymaps. -* octal character code: Character Type. -* octal character input: Quoted Character Input. -* octal-escape-glyph: Redisplay Glyphs. -* OffiX DND: OffiX DND. -* old-eq: Equality Predicates. -* one-window-p: Splitting Windows. -* only-global-abbrevs: Defining Abbrevs. -* open-database: Connecting to a Database. -* open-dribble-file: Recording Input. -* open-network-stream: Network. -* open-termscript: Terminal Output. -* open parenthesis character: Syntax Class Table. -* operating system environment: System Environment. -* option descriptions: A Sample Variable Description. -* optional arguments: Argument List. -* options on command line: Command Line Arguments. -* or: Combining Conditions. -* order of extents: Extent Endpoints. -* ordering of windows, cyclic: Cyclic Window Ordering. -* other-buffer: The Buffer List. -* other-window: Cyclic Window Ordering. -* other-window-scroll-buffer: Vertical Scrolling. -* Outline mode: Substitution. -* output from processes: Output from Processes. -* output stream: Output Streams. -* outside margin: Annotation Basics. -* overflow: Integer Basics. -* overlay arrow: Overlay Arrow. -* overlay-arrow-position: Overlay Arrow. -* overlay-arrow-string: Overlay Arrow. -* overriding-local-map <1>: Standard Keymaps. -* overriding-local-map: Active Keymaps. -* overriding-terminal-local-map: Active Keymaps. -* overwrite-mode: Commands for Insertion. -* padding: Formatting Strings. -* page-delimiter: Standard Regexps. -* paired delimiter: Syntax Class Table. -* paragraph-separate: Standard Regexps. -* paragraph-start: Standard Regexps. -* parent of a keymap: Inheritance and Keymaps. -* parent process: Processes. -* parent, of extent: Extent Parents. -* parenthesis: Cons Cell Type. -* parenthesis depth: Parsing Expressions. -* parenthesis matching: Blinking. -* parenthesis syntax: Syntax Class Table. -* parse state: Parsing Expressions. -* parse-partial-sexp: Parsing Expressions. -* parse-sexp-ignore-comments: Parsing Expressions. -* parsing: Syntax Tables. -* partial files: Partial Files. -* passwd-echo: Reading a Password. -* passwd-invert-frame-when-keyboard-grabbed: Reading a Password. -* passwords, reading: Reading a Password. -* PATH environment variable: Subprocess Creation. -* path-separator: System Environment. -* pausing: Waiting. -* peeking at input: Peeking and Discarding. -* percent symbol in modeline: Modeline Data. -* perform-replace: Search and Replace. -* performance analysis: Coverage Testing. -* permanent local variable: Creating Buffer-Local. -* permission: File Attributes. -* pg-coding-system: libpq Lisp Variables. -* pg:authtype: libpq Lisp Variables. -* pg:client-encoding: libpq Lisp Variables. -* pg:cost-heap: libpq Lisp Variables. -* pg:cost-index: libpq Lisp Variables. -* pg:database: libpq Lisp Variables. -* pg:date-style: libpq Lisp Variables. -* pg:geqo: libpq Lisp Variables. -* pg:host: libpq Lisp Variables. -* pg:options: libpq Lisp Variables. -* pg:port: libpq Lisp Variables. -* pg:realm: libpq Lisp Variables. -* pg:tty: libpq Lisp Variables. -* pg:tz: libpq Lisp Variables. -* pg:user: libpq Lisp Variables. -* pgres::polling-active: libpq Lisp Symbols and DataTypes. -* pgres::polling-failed: libpq Lisp Symbols and DataTypes. -* pgres::polling-ok: libpq Lisp Symbols and DataTypes. -* pgres::polling-reading: libpq Lisp Symbols and DataTypes. -* pgres::polling-writing: libpq Lisp Symbols and DataTypes. -* pipes: Asynchronous Processes. -* play-sound: Beeping. -* play-sound-file: Beeping. -* plist: Property Lists. -* plist, symbol: Symbol Properties. -* plist-get: Working With Normal Plists. -* plist-member: Working With Normal Plists. -* plist-put: Working With Normal Plists. -* plist-remprop: Working With Normal Plists. -* plist-to-alist: Converting Plists To/From Alists. -* plists-eq <1>: Other Plists. -* plists-eq: Working With Normal Plists. -* plists-equal <1>: Other Plists. -* plists-equal: Working With Normal Plists. -* point: Point. -* point excursion: Excursions. -* point in window: Window Point. -* point with narrowing: Point. -* point-marker: Creating Markers. -* point-max: Point. -* point-max-marker: Creating Markers. -* point-min: Point. -* point-min-marker: Creating Markers. -* pointer (mouse): Mouse Pointer. -* pointer-glyph-p: Glyph Types. -* pointer-image-instance-p: Image Instance Types. -* pop-global-mark: The Mark. -* pop-mark: The Mark. -* pop-to-buffer: Displaying Buffers. -* pop-up menu: Pop-Up Menus. -* pop-up-frame-function: Choosing Window. -* pop-up-frame-plist: Choosing Window. -* pop-up-frames: Choosing Window. -* pop-up-windows: Choosing Window. -* popup-buffer-menu: Pop-Up Menus. -* popup-dialog-box: Dialog Box Functions. -* popup-menu: Pop-Up Menus. -* popup-menu-titles: Pop-Up Menus. -* popup-menu-up-p: Pop-Up Menus. -* popup-menubar-menu: Pop-Up Menus. -* popup-mode-menu: Pop-Up Menus. -* pos-visible-in-window-p: Window Start. -* position (in buffer): Positions. -* position argument: Interactive Codes. -* position in window: Window Point. -* position of frame: Size and Position. -* position of window: Position of Window. -* positive infinity: Float Basics. -* posix-looking-at: POSIX Regexps. -* posix-search-backward: POSIX Regexps. -* posix-search-forward: POSIX Regexps. -* posix-string-match: POSIX Regexps. -* post-command-hook: Command Overview. -* post-gc-hook: Garbage Collection. -* PostgreSQL: PostgreSQL Support. -* pq-binary-tuples: libpq Lisp Symbols and DataTypes. -* pq-clear: Other libpq Functions. -* pq-client-encoding: Other libpq Functions. -* pq-cmd-status: libpq Lisp Symbols and DataTypes. -* pq-cmd-tuples: libpq Lisp Symbols and DataTypes. -* pq-conn-defaults: Other libpq Functions. -* pq-connect-poll: Asynchronous Interface Functions. -* pq-connect-start: Asynchronous Interface Functions. -* pq-connectdb: Synchronous Interface Functions. -* pq-consume-input: Asynchronous Interface Functions. -* pq-env-2-encoding: Other libpq Functions. -* pq-exec: Synchronous Interface Functions. -* pq-finish: Other libpq Functions. -* pq-flush: Asynchronous Interface Functions. -* pq-fmod: libpq Lisp Symbols and DataTypes. -* pq-fname: libpq Lisp Symbols and DataTypes. -* pq-fnumber: libpq Lisp Symbols and DataTypes. -* pq-fsize: libpq Lisp Symbols and DataTypes. -* pq-ftype: libpq Lisp Symbols and DataTypes. -* pq-get-is-null: libpq Lisp Symbols and DataTypes. -* pq-get-length: libpq Lisp Symbols and DataTypes. -* pq-get-result: Asynchronous Interface Functions. -* pq-get-value: libpq Lisp Symbols and DataTypes. -* pq-is-busy: Asynchronous Interface Functions. -* pq-is-nonblocking: Asynchronous Interface Functions. -* pq-lo-close: Unimplemented libpq Functions. -* pq-lo-creat: Unimplemented libpq Functions. -* pq-lo-export: Large Object Support. -* pq-lo-import: Large Object Support. -* pq-lo-lseek: Unimplemented libpq Functions. -* pq-lo-open: Unimplemented libpq Functions. -* pq-lo-read: Unimplemented libpq Functions. -* pq-lo-tell: Unimplemented libpq Functions. -* pq-lo-unlink: Unimplemented libpq Functions. -* pq-lo-write: Unimplemented libpq Functions. -* pq-make-empty-pgresult: libpq Lisp Symbols and DataTypes. -* pq-nfields: libpq Lisp Symbols and DataTypes. -* pq-notifies: Synchronous Interface Functions. -* pq-ntuples: libpq Lisp Symbols and DataTypes. -* pq-oid-value: libpq Lisp Symbols and DataTypes. -* pq-pgconn: libpq Lisp Symbols and DataTypes. -* pq-res-status: libpq Lisp Symbols and DataTypes. -* pq-reset: Synchronous Interface Functions. -* pq-reset-cancel: Asynchronous Interface Functions. -* pq-reset-poll: Asynchronous Interface Functions. -* pq-reset-start: Asynchronous Interface Functions. -* pq-result-error-message: libpq Lisp Symbols and DataTypes. -* pq-result-status: libpq Lisp Symbols and DataTypes. -* pq-send-query: Asynchronous Interface Functions. -* pq-set-client-encoding: Other libpq Functions. -* pq-set-nonblocking: Asynchronous Interface Functions. -* PQdisplayTuples: Unimplemented libpq Functions. -* PQmblen: Unimplemented libpq Functions. -* PQprint: Unimplemented libpq Functions. -* PQprintTuples: Unimplemented libpq Functions. -* PQsetenv: Synchronous Interface Functions. -* PQsetenvAbort: Asynchronous Interface Functions. -* PQsetenvPoll: Asynchronous Interface Functions. -* PQsetenvStart: Asynchronous Interface Functions. -* PQsocket: Unimplemented libpq Functions. -* PQtrace: Unimplemented libpq Functions. -* PQuntrace: Unimplemented libpq Functions. -* pre-abbrev-expand-hook: Abbrev Expansion. -* pre-command-hook: Command Overview. -* pre-gc-hook: Garbage Collection. -* preceding-char: Near Point. -* precision of formatted numbers: Formatting Strings. -* predicates: Type Predicates. -* prefix argument: Prefix Command Arguments. -* prefix argument unreading: Peeking and Discarding. -* prefix command: Prefix Keys. -* prefix key: Prefix Keys. -* prefix-arg: Prefix Command Arguments. -* prefix-help-command: Help Functions. -* prefix-numeric-value: Prefix Command Arguments. -* preventing backtracking: Specification List. -* preventing prefix key: Key Lookup. -* previous complete subexpression: Parsing Expressions. -* previous-extent: Finding Extents. -* previous-frame: Finding All Frames. -* previous-history-element: Minibuffer Misc. -* previous-matching-history-element: Minibuffer Misc. -* previous-property-change: Property Search. -* previous-single-property-change: Property Search. -* previous-window: Cyclic Window Ordering. -* primitive: What Is a Function. -* primitive type: Lisp Data Types. -* primitive types: Primitive Types. -* primitive-undo: Undo. -* prin1: Output Functions. -* prin1-to-string: Output Functions. -* princ: Output Functions. -* print: Output Functions. -* print example: Output Streams. -* print name cell: Symbol Components. -* print-escape-newlines: Output Variables. -* print-gensym: Output Variables. -* print-help-return-message: Help Functions. -* print-length: Output Variables. -* print-level: Output Variables. -* print-readably <1>: Output Variables. -* print-readably: Printing in Edebug. -* print-string-length: Output Variables. -* printed representation: Printed Representation. -* printed representation for characters: Character Type. -* printing: Streams Intro. -* printing (Edebug): Printing in Edebug. -* printing circular structures: Printing in Edebug. -* printing floating-point numbers: Output Variables. -* printing limits: Output Variables. -* printing notation: Printing Notation. -* printing readably: Output Variables. -* printing uninterned symbols: Output Variables. -* priority of an extent: Intro to Extents. -* process: Processes. -* process filter: Filter Functions. -* process input: Input to Processes. -* process output: Output from Processes. -* process sentinel: Sentinels. -* process signals: Signals to Processes. -* process window size: Process Window Size. -* process-buffer: Process Buffers. -* process-command: Process Information. -* process-connection-type: Asynchronous Processes. -* process-environment: System Environment. -* process-event-p: Event Predicates. -* process-exit-status: Process Information. -* process-filter: Filter Functions. -* process-id: Process Information. -* process-kill-without-query: Deleting Processes. -* process-kill-without-query-p: Process Information. -* process-list: Process Information. -* process-mark: Process Buffers. -* process-name: Process Information. -* process-send-eof: Input to Processes. -* process-send-region: Input to Processes. -* process-send-string: Input to Processes. -* process-sentinel: Sentinels. -* process-status: Process Information. -* process-tty-name: Process Information. -* processp: Processes. -* profile.el: Compilation Tips. -* profiling: Compilation Tips. -* prog1: Sequencing. -* prog2: Sequencing. -* progn: Sequencing. -* program arguments: Subprocess Creation. -* program directories: Subprocess Creation. -* programmed completion: Programmed Completion. -* programming types: Programming Types. -* properties of strings: String Properties. -* properties of text: Text Properties. -* property list: Property Lists. -* property list cell (symbol): Symbol Components. -* property list, symbol: Symbol Properties. -* property lists vs association lists: Plists and Alists. -* property of an extent: Extent Properties. -* protected forms: Cleanups. -* provide: Named Features. -* providing features: Named Features. -* PTYs: Asynchronous Processes. -* punctuation character: Syntax Class Table. -* pure storage: Pure Storage. -* pure-bytes-used: Pure Storage. -* purecopy: Pure Storage. -* purify-flag: Pure Storage. -* push-mark: The Mark. -* put: Object Plists. -* put-char-table: Working With Char Tables. -* put-database: Working With a Database. -* put-range-table: Working With Range Tables. -* put-text-property: Changing Properties. -* putf: Other Plists. -* puthash: Working With Hash Tables. -* query-replace-history: Minibuffer History. -* query-replace-map <1>: Standard Keymaps. -* query-replace-map: Search and Replace. -* querying the user: Yes-or-No Queries. -* question mark in character constant: Character Type. -* quietly-read-abbrev-file: Abbrev Files. -* quit-flag: Quitting. -* quit-process: Signals to Processes. -* quitting: Quitting. -* quitting from infinite loop: Infinite Loops. -* quote: Quoting. -* quote character: Parsing Expressions. -* quoted character input: Quoted Character Input. -* quoted-insert suppression: Changing Key Bindings. -* quoting: Quoting. -* quoting characters in printing: Output Functions. -* quoting using apostrophe: Quoting. -* raise-frame: Raising and Lowering. -* raising a frame: Raising and Lowering. -* random: Random Numbers. -* random numbers: Random Numbers. -* range table type: Range Table Type. -* Range Tables: Range Tables. -* range-table-p: Range Tables. -* rassoc: Association Lists. -* rassq: Association Lists. -* raw prefix argument: Prefix Command Arguments. -* raw prefix argument usage: Interactive Codes. -* re-search-backward: Regexp Search. -* re-search-forward: Regexp Search. -* read: Input Functions. -* read command name: Interactive Call. -* read syntax: Printed Representation. -* read syntax for characters: Character Type. -* read-buffer: High-Level Completion. -* read-char: Reading One Event. -* read-command: High-Level Completion. -* read-expression: Object from Minibuffer. -* read-expression-history: Minibuffer History. -* read-expression-map: Standard Keymaps. -* read-file-name: Reading File Names. -* read-from-minibuffer: Text from Minibuffer. -* read-from-string: Input Functions. -* read-key-sequence: Key Sequence Input. -* read-minibuffer: Object from Minibuffer. -* read-only buffer: Read Only Buffers. -* read-only buffers in interactive: Using Interactive. -* read-passwd: Reading a Password. -* read-quoted-char: Quoted Character Input. -* read-quoted-char quitting: Quitting. -* read-shell-command-map: Standard Keymaps. -* read-string: Text from Minibuffer. -* read-variable: High-Level Completion. -* reading: Streams Intro. -* reading (Edebug): Reading in Edebug. -* reading interactive arguments: Interactive Codes. -* reading symbols: Creating Symbols. -* rearrangement of lists: Rearrangement. -* rebinding: Changing Key Bindings. -* receiving ToolTalk messages: Receiving Messages. -* recent-auto-save-p: Auto-Saving. -* recent-keys: Recording Input. -* recent-keys-ring-size: Recording Input. -* recenter: Vertical Scrolling. -* record command history: Interactive Call. -* recursion: Iteration. -* recursion-depth: Recursive Editing. -* recursive command loop: Recursive Editing. -* recursive editing level: Recursive Editing. -* recursive evaluation: Intro Eval. -* recursive-edit: Recursive Editing. -* redo: Undo. -* redraw-display: Refresh Screen. -* redraw-frame: Refresh Screen. -* redraw-modeline: Modeline Format. -* refresh display: Refresh Screen. -* regexp: Regular Expressions. -* regexp alternative: Syntax of Regexps. -* regexp grouping: Syntax of Regexps. -* regexp searching: Regexp Search. -* regexp-history: Minibuffer History. -* regexp-quote: Syntax of Regexps. -* regexps used standardly in editing: Standard Regexps. -* region argument: Interactive Codes. -* region, the: The Region. -* region-active-p: The Region. -* region-beginning: The Region. -* region-end: The Region. -* region-exists-p: The Region. -* register-alist: Registers. -* register-ccl-program: Calling CCL. -* register-tooltalk-pattern: Elisp Interface for Receiving Messages. -* registers: Registers. -* regular expression: Regular Expressions. -* regular expression searching: Regexp Search. -* reindent-then-newline-and-indent: Mode-Specific Indent. -* relabel-menu-item: Modifying Menus. -* relative file name: Relative File Names. -* remainder: Arithmetic Operations. -* remassoc: Association Lists. -* remassq: Association Lists. -* remhash: Working With Hash Tables. -* remove-database: Working With a Database. -* remove-face-property: Face Properties. -* remove-glyph-property: Glyph Properties. -* remove-hook: Hooks. -* remove-range-table: Working With Range Tables. -* remove-specifier: Other Specification Functions. -* remove-text-properties: Changing Properties. -* remprop: Object Plists. -* remrassoc: Association Lists. -* remrassq: Association Lists. -* rename-auto-save-file: Auto-Saving. -* rename-buffer: Buffer Names. -* rename-file: Changing File Attributes. -* renaming files: Changing File Attributes. -* repeated loading: Repeated Loading. -* replace bindings: Changing Key Bindings. -* replace characters: Substitution. -* replace-buffer-in-windows: Displaying Buffers. -* replace-match: Replacing Match. -* replacement: Search and Replace. -* repositioning format arguments: Formatting Strings. -* require: Named Features. -* require-final-newline: Saving Buffers. -* requiring features: Named Features. -* reset-char-table: Working With Char Tables. -* resize redisplay: Size and Position. -* rest arguments: Argument List. -* restriction (in a buffer): Narrowing. -* resume (cf. no-redraw-on-reenter): Refresh Screen. -* return: Character Type. -* return-tooltalk-message: Elisp Interface for Sending Messages. -* reveal-annotation: Annotation Properties. -* reverse: Building Lists. -* reversing a list: Rearrangement. -* revert-buffer: Reverting. -* revert-buffer-function: Reverting. -* revert-buffer-insert-file-contents-function: Reverting. -* right-gutter: Specifying a Gutter. -* right-gutter-visible-p: Other Gutter Variables. -* right-gutter-width: Other Gutter Variables. -* right-margin-width: Margin Primitives. -* right-toolbar: Specifying the Toolbar. -* right-toolbar-visible-p: Other Toolbar Variables. -* right-toolbar-width: Other Toolbar Variables. -* rm: Changing File Attributes. -* round: Numeric Conversions. -* rounding in conversions: Numeric Conversions. -* rounding without conversion: Rounding Operations. -* rplaca: Modifying Lists. -* rplacd: Modifying Lists. -* run time stack: Internals of Debugger. -* run-emacs-from-temacs: Building XEmacs. -* run-hooks: Hooks. -* runnable temacs: Building XEmacs. -* same-window-buffer-names: Choosing Window. -* same-window-regexps: Choosing Window. -* save-abbrevs: Abbrev Files. -* save-buffer: Saving Buffers. -* save-current-buffer: Excursions. -* save-excursion: Excursions. -* save-excursion (Edebug): Edebug Display Update. -* save-match-data: Saving Match Data. -* save-restriction: Narrowing. -* save-selected-frame: Input Focus. -* save-selected-window <1>: Excursions. -* save-selected-window: Selecting Windows. -* save-some-buffers: Saving Buffers. -* save-window-excursion: Window Configurations. -* saving text properties: Saving Properties. -* saving window information: Window Configurations. -* scan-lists: Parsing Expressions. -* scan-sexps: Parsing Expressions. -* scope: Variable Scoping. -* screen layout: Window Configuration Type. -* scroll-conservatively: Vertical Scrolling. -* scroll-down: Vertical Scrolling. -* scroll-left: Horizontal Scrolling. -* scroll-other-window: Vertical Scrolling. -* scroll-right: Horizontal Scrolling. -* scroll-step: Vertical Scrolling. -* scroll-up: Vertical Scrolling. -* scrollbar-pointer-glyph: Mouse Pointer. -* scrollbars: Scrollbars. -* scrolling vertically: Vertical Scrolling. -* search-backward: String Search. -* search-failed: String Search. -* search-forward: String Search. -* searching: Searching and Matching. -* searching and case: Searching and Case. -* searching for regexp: Regexp Search. -* second: List Elements. -* select-console: The Selected Console and Device. -* select-device: The Selected Console and Device. -* select-frame: Input Focus. -* select-frame-hook: Frame Hooks. -* select-window: Selecting Windows. -* selected frame: Input Focus. -* selected window: Basic Windows. -* selected-console: The Selected Console and Device. -* selected-device: The Selected Console and Device. -* selected-frame: Input Focus. -* selected-window: Selecting Windows. -* selecting a buffer: Current Buffer. -* selecting windows: Selecting Windows. -* selection (for X windows): X Selections. -* selection-pointer-glyph: Mouse Pointer. -* selective display: Selective Display. -* selective-display: Selective Display. -* selective-display-ellipses: Selective Display. -* self-evaluating form: Self-Evaluating Forms. -* self-insert-and-exit: Minibuffer Misc. -* self-insert-command: Commands for Insertion. -* self-insert-command override: Changing Key Bindings. -* self-insert-command, minor modes: Keymaps and Minor Modes. -* self-insertion: Commands for Insertion. -* send-string-to-terminal: Terminal Output. -* send-tooltalk-message: Elisp Interface for Sending Messages. -* sending signals: Signals to Processes. -* sending ToolTalk messages: Sending Messages. -* sentence-end: Standard Regexps. -* sentinel: Sentinels. -* sequence: Sequences Arrays Vectors. -* sequence length: Sequence Functions. -* sequencep: Sequence Functions. -* set: Setting Variables. -* set-annotation-action: Annotation Properties. -* set-annotation-data: Annotation Properties. -* set-annotation-down-glyph: Annotation Properties. -* set-annotation-face: Annotation Properties. -* set-annotation-glyph: Annotation Properties. -* set-annotation-layout: Annotation Properties. -* set-annotation-menu: Annotation Properties. -* set-auto-mode: Auto Major Mode. -* set-buffer: Current Buffer. -* set-buffer-auto-saved: Auto-Saving. -* set-buffer-major-mode: Auto Major Mode. -* set-buffer-menubar: Menubar. -* set-buffer-modified-p: Buffer Modification. -* set-case-syntax: Case Tables. -* set-case-syntax-delims: Case Tables. -* set-case-syntax-pair: Case Tables. -* set-case-table: Case Tables. -* set-category-table: Category Tables. -* set-charset-ccl-program: Charset Property Functions. -* set-coding-category-system: Detection of Textual Encoding. -* set-coding-priority-list: Detection of Textual Encoding. -* set-console-type-image-conversion-list: Image Instantiator Conversion. -* set-default: Default Value. -* set-default-file-modes: Changing File Attributes. -* set-default-gutter-position: Specifying a Gutter. -* set-default-toolbar-position: Specifying the Toolbar. -* set-device-baud-rate <1>: Terminal Output. -* set-device-baud-rate: Console and Device I/O. -* set-extent-begin-glyph: Extent Properties. -* set-extent-begin-glyph-layout: Extent Properties. -* set-extent-end-glyph: Extent Properties. -* set-extent-end-glyph-layout: Extent Properties. -* set-extent-endpoints: Extent Endpoints. -* set-extent-face: Extent Properties. -* set-extent-initial-redisplay-function: Extent Properties. -* set-extent-keymap: Extent Properties. -* set-extent-mouse-face: Extent Properties. -* set-extent-parent: Extent Parents. -* set-extent-priority: Extent Properties. -* set-extent-properties: Extent Properties. -* set-extent-property: Extent Properties. -* set-face-background: Face Convenience Functions. -* set-face-background-pixmap: Face Convenience Functions. -* set-face-font: Face Convenience Functions. -* set-face-foreground: Face Convenience Functions. -* set-face-property: Face Properties. -* set-face-underline-p: Face Convenience Functions. -* set-file-modes: Changing File Attributes. -* set-frame-configuration: Frame Configurations. -* set-frame-pointer: Mouse Pointer. -* set-frame-position: Size and Position. -* set-frame-properties: Property Access. -* set-frame-property: Property Access. -* set-frame-size: Size and Position. -* set-glyph-baseline: Glyph Convenience Functions. -* set-glyph-contrib-p: Glyph Convenience Functions. -* set-glyph-face: Glyph Convenience Functions. -* set-glyph-image: Glyph Convenience Functions. -* set-glyph-property: Glyph Properties. -* set-input-mode: Input Modes. -* set-keymap-default-binding: Inheritance and Keymaps. -* set-keymap-name: Creating Keymaps. -* set-keymap-parents: Inheritance and Keymaps. -* set-keymap-prompt: Other Keymap Functions. -* set-left-margin: Margins. -* set-mark: The Mark. -* set-marker: Changing Markers. -* set-match-data: Entire Match Data. -* set-menubar: Menubar. -* set-menubar-dirty-flag: Menubar. -* set-process-buffer: Process Buffers. -* set-process-filter: Filter Functions. -* set-process-sentinel: Sentinels. -* set-process-window-size: Process Window Size. -* set-recent-keys-ring-size: Recording Input. -* set-register: Registers. -* set-right-margin: Margins. -* set-specifier: Adding Specifications. -* set-standard-case-table: Case Tables. -* set-syntax-table: Syntax Table Functions. -* set-text-properties: Changing Properties. -* set-tooltalk-message-attribute: Elisp Interface for Sending Messages. -* set-visited-file-modtime: Modification Time. -* set-visited-file-name: Buffer File Name. -* set-weak-list-list: Weak Lists. -* set-window-buffer: Buffers and Windows. -* set-window-buffer-dedicated: Choosing Window. -* set-window-configuration: Window Configurations. -* set-window-dedicated-p: Choosing Window. -* set-window-hscroll: Horizontal Scrolling. -* set-window-point: Window Point. -* set-window-start: Window Start. -* setcar: Setcar. -* setcdr: Setcdr. -* setenv: System Environment. -* setplist: Object Plists. -* setprv: System Environment. -* setq: Setting Variables. -* setq-default: Default Value. -* sets: Sets And Lists. -* setting modes of files: Changing File Attributes. -* setting-constant: Constant Variables. -* seventh: List Elements. -* sexp motion: List Motion. -* shadowing of variables: Local Variables. -* shallow binding: Impl of Scope. -* shared-lisp-mode-map: Standard Keymaps. -* Shell mode modeline-format: Modeline Data. -* shell-command-history: Minibuffer History. -* shrink-window: Resizing Windows. -* shrink-window-horizontally: Resizing Windows. -* shrink-window-pixels: Resizing Windows. -* side effect: Intro Eval. -* signal: Signaling Errors. -* signal-error: Signaling Errors. -* signal-process: Signals to Processes. -* signaling errors: Signaling Errors. -* signals: Signals to Processes. -* sin: Math Functions. -* single-key-description: Describing Characters. -* sinh: Math Functions. -* sit-for: Waiting. -* site-init.el: Building XEmacs. -* site-load.el: Building XEmacs. -* site-run-file: Init File. -* site-start.el: Start-up Summary. -* sixth: List Elements. -* size of frame: Size and Position. -* size of window: Size of Window. -* skip-chars-backward: Skipping Characters. -* skip-chars-forward: Skipping Characters. -* skip-syntax-backward: Motion and Syntax. -* skip-syntax-forward: Motion and Syntax. -* skipping characters: Skipping Characters. -* skipping comments: Parsing Expressions. -* sleep-for: Waiting. -* Snarf-documentation: Accessing Documentation. -* sort: Rearrangement. -* sort-columns: Sorting. -* sort-fields: Sorting. -* sort-lines: Sorting. -* sort-numeric-fields: Sorting. -* sort-pages: Sorting. -* sort-paragraphs: Sorting. -* sort-regexp-fields: Sorting. -* sort-subr: Sorting. -* sorting lists: Rearrangement. -* sorting text: Sorting. -* sound: Beeping. -* sound-alist: Beeping. -* special: Major Mode Conventions. -* special form descriptions: A Sample Function Description. -* special form evaluation: Special Forms. -* special forms: Primitive Function Type. -* special forms (Edebug): Instrumenting. -* special forms for control structures: Control Structures. -* special-display-buffer-names: Choosing Window. -* special-display-frame-plist: Choosing Window. -* special-display-function: Choosing Window. -* special-display-popup-frame: Choosing Window. -* special-display-regexps: Choosing Window. -* specification (in a specifier): Specifiers In-Depth. -* specifier: Specifiers. -* specifier type: Specifier Type. -* specifier, domain: Specifiers In-Depth. -* specifier, fallback: Specifier Instancing. -* specifier, inst-list: Specifiers In-Depth. -* specifier, inst-pair: Specifiers In-Depth. -* specifier, instance: Specifiers In-Depth. -* specifier, instancing: Specifiers In-Depth. -* specifier, instantiator: Specifiers In-Depth. -* specifier, locale: Specifiers In-Depth. -* specifier, specification: Specifiers In-Depth. -* specifier, tag: Specifiers In-Depth. -* specifier, tag set: Specifiers In-Depth. -* specifier-fallback: Retrieving Specifications. -* specifier-instance: Specifier Instancing Functions. -* specifier-instance-from-inst-list: Specifier Instancing Functions. -* specifier-locale-type-from-locale: Other Specification Functions. -* specifier-spec-list: Retrieving Specifications. -* specifier-specs: Retrieving Specifications. -* specifier-tag-list: Specifier Tag Functions. -* specifier-tag-predicate: Specifier Tag Functions. -* specifier-type: Specifier Types. -* specifierp: Specifiers. -* speedups: Compilation Tips. -* splicing (with backquote): Backquote. -* split-height-threshold: Choosing Window. -* split-line: Commands for Insertion. -* split-path: Regexp Search. -* split-string: Regexp Search. -* split-window: Splitting Windows. -* split-window-horizontally: Splitting Windows. -* split-window-vertically: Splitting Windows. -* splitting windows: Splitting Windows. -* sqrt: Math Functions. -* stable sort: Rearrangement. -* standard regexps used in editing: Standard Regexps. -* standard-case-table: Case Tables. -* standard-category-table: Category Tables. -* standard-input: Input Functions. -* standard-output: Output Variables. -* standard-syntax-table: Standard Syntax Tables. -* standards of coding style: Tips. -* start up of XEmacs: Start-up Summary. -* start-process: Asynchronous Processes. -* start-process-shell-command: Asynchronous Processes. -* startup.el: Start-up Summary. -* stop points: Using Edebug. -* stop-process: Signals to Processes. -* stopping an infinite loop: Infinite Loops. -* stopping on events: Global Break Condition. -* store-match-data: Entire Match Data. -* stream (for printing): Output Streams. -* stream (for reading): Input Streams. -* string: Creating Strings. -* string equality: Text Comparison. -* string in keymap: Key Lookup. -* string input stream: Input Streams. -* string length: Sequence Functions. -* string length, maximum when printing: Output Variables. -* string properties: String Properties. -* string search: String Search. -* string to character: String Conversion. -* string to number: String Conversion. -* string to object: Input Functions. -* string, writing a doc string: Documentation Basics. -* string-equal: Text Comparison. -* string-lessp: Text Comparison. -* string-match: Regexp Search. -* string-modified-tick: Modifying Strings. -* string-to-char: String Conversion. -* string-to-int: String Conversion. -* string-to-number: String Conversion. -* string<: Text Comparison. -* string=: Text Comparison. -* stringp: Predicates for Strings. -* strings: Strings and Characters. -* strings, formatting them: Formatting Strings. -* strings, modifying: Modifying Strings. -* string quote: Syntax Class Table. -* subprocess: Processes. -* subr: What Is a Function. -* subrp: What Is a Function. -* subsidiary-coding-system: Basic Coding System Functions. -* subst-char-in-region: Substitution. -* substitute-command-keys: Keys in Documentation. -* substitute-in-file-name: File Name Expansion. -* substitute-key-definition: Changing Key Bindings. -* substituting keys in documentation: Keys in Documentation. -* substring: Creating Strings. -* subwindow type: Subwindow Type. -* subwindow-image-instance-p: Image Instance Types. -* subwindowp: Subwindows. -* suppress-keymap: Changing Key Bindings. -* suspend (cf. no-redraw-on-reenter): Refresh Screen. -* suspend evaluation: Recursive Editing. -* suspend-emacs: Suspending XEmacs. -* suspend-hook: Suspending XEmacs. -* suspend-resume-hook: Suspending XEmacs. -* suspending XEmacs: Suspending XEmacs. -* switch-to-buffer: Displaying Buffers. -* switch-to-buffer-other-window: Displaying Buffers. -* switches on command line: Command Line Arguments. -* switching to a buffer: Displaying Buffers. -* symbol: Symbols. -* symbol components: Symbol Components. -* symbol equality: Creating Symbols. -* symbol evaluation: Symbol Forms. -* symbol function indirection: Function Indirection. -* symbol in keymap: Key Lookup. -* symbol name hashing: Creating Symbols. -* symbol-function: Function Cells. -* symbol-name: Creating Symbols. -* symbol-plist: Object Plists. -* symbol-value: Accessing Variables. -* symbolp: Symbols. -* symbol constituent: Syntax Class Table. -* synchronous subprocess: Synchronous Processes. -* syntax classes: Syntax Descriptors. -* syntax descriptor: Syntax Descriptors. -* syntax error (Edebug): Backtracking. -* syntax flags: Syntax Flags. -* syntax for characters: Character Type. -* syntax table: Syntax Tables. -* syntax table example: Example Major Modes. -* syntax table internals: Syntax Table Internals. -* syntax tables in modes: Major Mode Conventions. -* syntax-table: Syntax Table Functions. -* syntax-table-p: Syntax Basics. -* system-configuration: System Environment. -* system-name: System Environment. -* system-type: System Environment. -* t: Constant Variables. -* t and truth: nil and t. -* t input stream: Input Streams. -* t output stream: Output Streams. -* tab: Character Type. -* tab deletion: Deletion. -* tab-stop-list: Indent Tabs. -* tab-to-tab-stop: Indent Tabs. -* tab-width: Usual Display. -* tabs stops for indentation: Indent Tabs. -* tag (in a specifier): Specifiers In-Depth. -* tag on run time stack: Catch and Throw. -* tag set (in a specifier): Specifiers In-Depth. -* tan: Math Functions. -* tanh: Math Functions. -* TCP: Network. -* temacs: Building XEmacs. -* temp-buffer-show-function: Temporary Displays. -* temp-directory: Unique File Names. -* tenth: List Elements. -* TERM environment variable: Terminal-Specific. -* term-file-prefix: Terminal-Specific. -* term-setup-hook: Terminal-Specific. -* Termcap: Terminal-Specific. -* terminal frame <1>: Frames. -* terminal frame: Basic Windows. -* terminal input: Terminal Input. -* terminal input modes: Input Modes. -* terminal output: Terminal Output. -* terminal-device: Console Types and Device Classes. -* terminal-specific initialization: Terminal-Specific. -* terminate keyboard macro: Peeking and Discarding. -* termscript file: Terminal Output. -* terpri: Output Functions. -* testing types: Type Predicates. -* text: Text. -* text files and binary files: Files and MS-DOS. -* text insertion: Insertion. -* text parsing: Syntax Tables. -* text properties: Text Properties. -* text properties in files: Saving Properties. -* text-char-description: Describing Characters. -* text-image-instance-p: Image Instance Types. -* text-mode-abbrev-table: Standard Abbrev Tables. -* text-mode-map: Standard Keymaps. -* text-mode-syntax-table: Standard Syntax Tables. -* text-pointer-glyph: Mouse Pointer. -* text-properties-at: Examining Properties. -* text-property-any: Property Search. -* text-property-not-all: Property Search. -* third: List Elements. -* this-command: Command Loop Info. -* this-command-keys: Command Loop Info. -* throw: Catch and Throw. -* throw example: Recursive Editing. -* tiled windows: Basic Windows. -* timeout-event-p: Event Predicates. -* timing programs: Compilation Tips. -* tips: Tips. -* toggle-read-only: Read Only Buffers. -* toolbar: Toolbar. -* toolbar button type: Toolbar Button Type. -* toolbar-buttons-captioned-p: Other Toolbar Variables. -* toolbar-make-button-list: Toolbar Descriptor Format. -* toolbar-map <1>: Standard Keymaps. -* toolbar-map: Active Keymaps. -* toolbar-pointer-glyph: Mouse Pointer. -* toolbar-specifier-p <1>: Specifier Types. -* toolbar-specifier-p: Specifying the Toolbar. -* ToolTalk: ToolTalk Support. -* ToolTalk message: Sending Messages. -* ToolTalk pattern: Receiving Messages. -* top-gutter: Specifying a Gutter. -* top-gutter-height: Other Gutter Variables. -* top-gutter-visible-p: Other Gutter Variables. -* top-level: Recursive Editing. -* top-level form: Loading. -* top-toolbar: Specifying the Toolbar. -* top-toolbar-height: Other Toolbar Variables. -* top-toolbar-visible-p: Other Toolbar Variables. -* tq-close: Transaction Queues. -* tq-create: Transaction Queues. -* tq-enqueue: Transaction Queues. -* tracing: Tracing. -* transaction queue: Transaction Queues. -* transcendental functions: Math Functions. -* translate-region: Substitution. -* translating input events: Translating Input. -* transpose-regions: Transposition. -* true: nil and t. -* truename (of file): Truenames. -* truncate: Numeric Conversions. -* truncate-lines: Truncation. -* truncate-partial-width-windows: Truncation. -* truncation-glyph: Redisplay Glyphs. -* truth value: nil and t. -* try-completion: Basic Completion. -* two's complement: Integer Basics. -* type: Lisp Data Types. -* type checking: Type Predicates. -* type predicates: Type Predicates. -* type-of: Type Predicates. -* unbinding keys: Key Binding Commands. -* undefined: Functions for Key Lookup. -* undefined in keymap: Key Lookup. -* undefined key: Keymap Terminology. -* undo avoidance: Substitution. -* undo-boundary: Undo. -* undo-limit: Maintaining Undo. -* undo-strong-limit: Maintaining Undo. -* unexec: Building XEmacs. -* unhandled-file-name-directory: Magic File Names. -* unintern: Creating Symbols. -* uninterned symbol: Creating Symbols. -* uninterned symbols, printing: Output Variables. -* unique extents: Duplicable Extents. -* universal-argument: Prefix Command Arguments. -* unload-feature: Unloading. -* unloading: Unloading. -* unlock-buffer: File Locks. -* unmap-frame-hook: Frame Hooks. -* unread-command-event: Peeking and Discarding. -* unread-command-events: Peeking and Discarding. -* unreading: Input Streams. -* unregister-tooltalk-pattern: Elisp Interface for Receiving Messages. -* unwind-protect: Cleanups. -* unwinding: Cleanups. -* up-list: List Motion. -* upcase: Character Case. -* upcase-region: Case Changes. -* upcase-word: Case Changes. -* update display: Refresh Screen. -* update-directory-autoloads: Autoload. -* update-file-autoloads: Autoload. -* upper case: Character Case. -* upper case key sequence: Key Sequence Input. -* use-global-map: Active Keymaps. -* use-hard-newlines: Filling. -* use-left-overflow: Margin Primitives. -* use-local-map: Active Keymaps. -* use-right-overflow: Margin Primitives. -* user name completion subroutines: User Name Completion. -* user option: Defining Variables. -* user-defined error: Error Symbols. -* user-full-name: User Identification. -* user-home-directory: User Identification. -* user-login-name: User Identification. -* user-mail-address: User Identification. -* user-name-all-completions: User Name Completion. -* user-name-completion: User Name Completion. -* user-name-completion-1: User Name Completion. -* user-real-login-name: User Identification. -* user-real-uid: User Identification. -* user-uid: User Identification. -* user-variable-p: Defining Variables. -* user-variable-p example: High-Level Completion. -* valid-char-table-type-p: Char Table Types. -* valid-char-table-value-p: Working With Char Tables. -* valid-device-class-p: Console Types and Device Classes. -* valid-device-type-p: Console Types and Device Classes. -* valid-glyph-type-p: Glyph Types. -* valid-image-instance-type-p: Image Instance Types. -* valid-image-instantiator-format-p: Image Specifiers. -* valid-inst-list-p: Specifier Validation Functions. -* valid-instantiator-p: Specifier Validation Functions. -* valid-plist-p: Property Lists. -* valid-spec-list-p: Specifier Validation Functions. -* valid-specifier-domain-p: Specifier Validation Functions. -* valid-specifier-locale-p: Specifier Validation Functions. -* valid-specifier-locale-type-p: Specifier Validation Functions. -* valid-specifier-tag-p <1>: Specifier Validation Functions. -* valid-specifier-tag-p: Specifier Tag Functions. -* valid-specifier-tag-set-p: Specifier Tag Functions. -* valid-specifier-type-p: Specifier Validation Functions. -* value cell: Symbol Components. -* value of expression: Evaluation. -* values: Eval. -* variable: Variables. -* variable aliases: Variable Aliases. -* variable definition: Defining Variables. -* variable descriptions: A Sample Variable Description. -* variable limit error: Local Variables. -* variable-alias: Variable Aliases. -* variable-documentation: Documentation Basics. -* variable-obsoleteness-doc: Obsoleteness. -* variables, buffer-local: Buffer-Local Variables. -* variables, indirect: Variable Aliases. -* vc-mode: Modeline Variables. -* vconcat: Vector Functions. -* vector <1>: Vector Functions. -* vector: Vectors. -* vector evaluation: Self-Evaluating Forms. -* vector length: Sequence Functions. -* vectorp: Vector Functions. -* verify-visited-file-modtime: Modification Time. -* version number (in file name): File Name Components. -* version-control: Numbered Backups. -* vertical scrolling: Vertical Scrolling. -* vertical tab: Character Type. -* vertical-motion: Screen Lines. -* vertical-motion-pixels: Screen Lines. -* view-file: Visiting Functions. -* view-mode-map: Standard Keymaps. -* view-register: Registers. -* visible frame: Visibility of Frames. -* visible-bell: Beeping. -* visible-frame-list: Finding All Frames. -* visited file: Buffer File Name. -* visited file mode: Auto Major Mode. -* visited-file-modtime: Modification Time. -* visiting files: Visiting Files. -* void function: Function Indirection. -* void function cell: Function Cells. -* void variable: Void Variables. -* void-function: Function Cells. -* void-variable: Void Variables. -* waiting: Waiting. -* waiting for command key input: Peeking and Discarding. -* waiting-for-user-input-p: Sentinels. -* wakeup: Subprocess Creation. -* walk-windows: Cyclic Window Ordering. -* weak hash table: Weak Hash Tables. -* weak list: Weak Lists. -* weak list type: Weak List Type. -* weak-list-list: Weak Lists. -* weak-list-p: Weak Lists. -* weak-list-type: Weak Lists. -* where-is-internal: Scanning Keymaps. -* while: Iteration. -* whitespace: Character Type. -* whitespace character: Syntax Class Table. -* widen: Narrowing. -* widening: Narrowing. -* window: Basic Windows. -* window configuration (Edebug): Edebug Display Update. -* window configurations: Window Configurations. -* window excursions: Excursions. -* window ordering, cyclic: Cyclic Window Ordering. -* window point: Window Point. -* window position <1>: Position of Window. -* window position: Window Point. -* window resizing: Resizing Windows. -* window size: Size of Window. -* window size, changing: Resizing Windows. -* window splitting: Splitting Windows. -* window system types: Window-System Types. -* window top line: Window Start. -* window-buffer: Buffers and Windows. -* window-configuration-p: Window Configurations. -* window-dedicated-p: Choosing Window. -* window-displayed-text-pixel-height: Size of Window. -* window-end: Window Start. -* window-frame: Frames and Windows. -* window-height: Size of Window. -* window-highest-p: Position of Window. -* window-hscroll: Horizontal Scrolling. -* window-left-margin-pixel-width: Margin Primitives. -* window-live-p: Deleting Windows. -* window-lowest-p: Position of Window. -* window-min-height: Resizing Windows. -* window-min-width: Resizing Windows. -* window-minibuffer-p: Minibuffer Misc. -* window-pixel-edges: Position of Window. -* window-pixel-height: Size of Window. -* window-pixel-width: Size of Window. -* window-point: Window Point. -* window-right-margin-pixel-width: Margin Primitives. -* window-setup-hook: Terminal-Specific. -* window-size-change-functions: Resizing Windows. -* window-start: Window Start. -* window-system objects: Faces and Window-System Objects. -* window-text-area-pixel-edges: Position of Window. -* window-text-area-pixel-height: Size of Window. -* window-text-area-pixel-width: Size of Window. -* window-width: Size of Window. -* windowp: Basic Windows. -* windows, controlling precisely: Buffers and Windows. -* with-current-buffer: Excursions. -* with-output-to-temp-buffer: Temporary Displays. -* with-selected-frame: Input Focus. -* with-temp-file: Excursions. -* word search: String Search. -* word-search-backward: String Search. -* word-search-forward: String Search. -* words-include-escapes: Word Motion. -* word constituent: Syntax Class Table. -* write-abbrev-file: Abbrev Files. -* write-char: Output Functions. -* write-contents-hooks: Saving Buffers. -* write-file: Saving Buffers. -* write-file-hooks: Saving Buffers. -* write-region: Writing to Files. -* write-region-annotate-functions: Saving Properties. -* writing a documentation string: Documentation Basics. -* wrong-number-of-arguments: Argument List. -* wrong-type-argument: Type Predicates. -* X: X-Windows. -* X resource type: X Resource Type. -* X window frame: Frames. -* x-allow-sendevents: X Miscellaneous. -* x-bitmap-file-path <1>: X Miscellaneous. -* x-bitmap-file-path: Image Specifiers. -* x-debug-events: X Miscellaneous. -* x-debug-mode: X Miscellaneous. -* x-disown-selection: X Selections. -* x-display-visual-class: Server Data. -* x-emacs-application-class: Resources. -* x-find-larger-font: Font Instance Size. -* x-find-smaller-font: Font Instance Size. -* x-font-size: Font Instance Size. -* x-get-cutbuffer: X Selections. -* x-get-resource: Resources. -* x-get-selection: X Selections. -* x-grab-keyboard: Grabs. -* x-grab-pointer: Grabs. -* x-library-search-path: X Miscellaneous. -* x-make-font-bold: Font Instance Characteristics. -* x-make-font-bold-italic: Font Instance Characteristics. -* x-make-font-italic: Font Instance Characteristics. -* x-make-font-unbold: Font Instance Characteristics. -* x-make-font-unitalic: Font Instance Characteristics. -* x-own-selection: X Selections. -* x-put-resource: Resources. -* x-server-vendor: Server Data. -* x-server-version: Server Data. -* x-set-frame-icon-pixmap: Frame Titles. -* x-store-cutbuffer: X Selections. -* x-ungrab-keyboard: Grabs. -* x-ungrab-pointer: Grabs. -* x-valid-keysym-name-p: X Miscellaneous. -* x-window-id: X Miscellaneous. -* X-Windows: X-Windows. -* XEmacs event standard notation: Describing Characters. -* xpm-color-symbols: Image Specifiers. -* y-or-n-p: Yes-or-No Queries. -* y-or-n-p-maybe-dialog-box: Yes-or-No Queries. -* yank: Yank Commands. -* yank suppression: Changing Key Bindings. -* yank-pop: Yank Commands. -* yes-or-no questions: Yes-or-No Queries. -* yes-or-no-p: Yes-or-No Queries. -* yes-or-no-p-dialog-box: Yes-or-No Queries. -* yes-or-no-p-maybe-dialog-box: Yes-or-No Queries. -* zero-length extent: Extent Endpoints. -* zerop: Predicates on Numbers. -* zmacs-activate-region: The Region. -* zmacs-activate-region-hook: The Region. -* zmacs-deactivate-region: The Region. -* zmacs-deactivate-region-hook: The Region. -* zmacs-region-stays: The Region. -* zmacs-regions: The Region. -* zmacs-update-region: The Region. -* zmacs-update-region-hook: The Region. -* | in regexp: Syntax of Regexps. +File: lispref.info, Node: Standard Buffer-Local Variables, Next: Standard Keymaps, Prev: Standard Errors, Up: Top +Buffer-Local Variables +********************** + The table below lists the general-purpose Emacs variables that are +automatically local (when set) in each buffer. Many Lisp packages +define such variables for their internal use; we don't list them here. + +`abbrev-mode' + *note Abbrevs:: + +`auto-fill-function' + *note Auto Filling:: + +`buffer-auto-save-file-name' + *note Auto-Saving:: + +`buffer-backed-up' + *note Backup Files:: + +`buffer-display-table' + *note Display Tables:: + +`buffer-file-format' + *note Format Conversion:: + +`buffer-file-name' + *note Buffer File Name:: + +`buffer-file-number' + *note Buffer File Name:: + +`buffer-file-truename' + *note Buffer File Name:: + +`buffer-file-type' + *note Files and MS-DOS:: + +`buffer-invisibility-spec' + *note Invisible Text:: + +`buffer-offer-save' + *note Saving Buffers:: + +`buffer-read-only' + *note Read Only Buffers:: + +`buffer-saved-size' + *note Point:: + +`buffer-undo-list' + *note Undo:: + +`cache-long-line-scans' + *note Text Lines:: + +`case-fold-search' + *note Searching and Case:: + +`ctl-arrow' + *note Usual Display:: + +`comment-column' + *note Comments: (emacs)Comments. + +`default-directory' + *note System Environment:: + +`defun-prompt-regexp' + *note List Motion:: + +`fill-column' + *note Auto Filling:: + +`goal-column' + *note Moving Point: (emacs)Moving Point. + +`left-margin' + *note Indentation:: + +`local-abbrev-table' + *note Abbrevs:: + +`local-write-file-hooks' + *note Saving Buffers:: + +`major-mode' + *note Mode Help:: + +`mark-active' + *note The Mark:: + +`mark-ring' + *note The Mark:: + +`minor-modes' + *note Minor Modes:: + +`modeline-format' + *note Modeline Data:: + +`modeline-buffer-identification' + *note Modeline Variables:: + +`modeline-format' + *note Modeline Data:: + +`modeline-modified' + *note Modeline Variables:: + +`modeline-process' + *note Modeline Variables:: + +`mode-name' + *note Modeline Variables:: + +`overwrite-mode' + *note Insertion:: + +`paragraph-separate' + *note Standard Regexps:: + +`paragraph-start' + *note Standard Regexps:: + +`point-before-scroll' + Used for communication between mouse commands and scroll-bar + commands. + +`require-final-newline' + *note Insertion:: + +`selective-display' + *note Selective Display:: + +`selective-display-ellipses' + *note Selective Display:: + +`tab-width' + *note Usual Display:: + +`truncate-lines' + *note Truncation:: + +`vc-mode' + *note Modeline Variables:: + + +File: lispref.info, Node: Standard Keymaps, Next: Standard Hooks, Prev: Standard Buffer-Local Variables, Up: Top + +Standard Keymaps +**************** + + The following symbols are used as the names for various keymaps. +Some of these exist when XEmacs is first started, others are loaded +only when their respective mode is used. This is not an exhaustive +list. + + Almost all of these maps are used as local maps. Indeed, of the +modes that presently exist, only Vip mode and Terminal mode ever change +the global keymap. + +`bookmark-map' + A keymap containing bindings to bookmark functions. + +`Buffer-menu-mode-map' + A keymap used by Buffer Menu mode. + +`c++-mode-map' + A keymap used by C++ mode. + +`c-mode-map' + A keymap used by C mode. A sparse keymap used by C mode. + +`command-history-map' + A keymap used by Command History mode. + +`ctl-x-4-map' + A keymap for subcommands of the prefix `C-x 4'. + +`ctl-x-5-map' + A keymap for subcommands of the prefix `C-x 5'. + +`ctl-x-map' + A keymap for `C-x' commands. + +`debugger-mode-map' + A keymap used by Debugger mode. + +`dired-mode-map' + A keymap for `dired-mode' buffers. + +`edit-abbrevs-map' + A keymap used in `edit-abbrevs'. + +`edit-tab-stops-map' + A keymap used in `edit-tab-stops'. + +`electric-buffer-menu-mode-map' + A keymap used by Electric Buffer Menu mode. + +`electric-history-map' + A keymap used by Electric Command History mode. + +`emacs-lisp-mode-map' + A keymap used by Emacs Lisp mode. + +`help-map' + A keymap for characters following the Help key. + +`Helper-help-map' + A keymap used by the help utility package. + It has the same keymap in its value cell and in its function cell. + +`Info-edit-map' + A keymap used by the `e' command of Info. + +`Info-mode-map' + A keymap containing Info commands. + +`isearch-mode-map' + A keymap that defines the characters you can type within + incremental search. + +`itimer-edit-map' + A keymap used when in Itimer Edit mode. + +`lisp-interaction-mode-map' + A keymap used by Lisp mode. + +`lisp-mode-map' + A keymap used by Lisp mode. + + A keymap for minibuffer input with completion. + +`minibuffer-local-isearch-map' + A keymap for editing isearch strings in the minibuffer. + +`minibuffer-local-map' + Default keymap to use when reading from the minibuffer. + +`minibuffer-local-must-match-map' + A keymap for minibuffer input with completion, for exact match. + +`mode-specific-map' + The keymap for characters following `C-c'. Note, this is in the + global map. This map is not actually mode specific: its name was + chosen to be informative for the user in `C-h b' + (`display-bindings'), where it describes the main use of the `C-c' + prefix key. + +`modeline-map' + The keymap consulted for mouse-clicks on the modeline of a window. + +`objc-mode-map' + A keymap used in Objective C mode as a local map. + +`occur-mode-map' + A local keymap used by Occur mode. + +`overriding-local-map' + A keymap that overrides all other local keymaps. + +`query-replace-map' + A local keymap used for responses in `query-replace' and related + commands; also for `y-or-n-p' and `map-y-or-n-p'. The functions + that use this map do not support prefix keys; they look up one + event at a time. + +`read-expression-map' + The minibuffer keymap used for reading Lisp expressions. + +`read-shell-command-map' + The minibuffer keymap used by shell-command and related commands. + +`shared-lisp-mode-map' + A keymap for commands shared by all sorts of Lisp modes. + +`text-mode-map' + A keymap used by Text mode. + +`toolbar-map' + The keymap consulted for mouse-clicks over a toolbar. + +`view-mode-map' + A keymap used by View mode. + + +File: lispref.info, Node: Standard Hooks, Next: Index, Prev: Standard Keymaps, Up: Top + +Standard Hooks +************** + + The following is a list of hook variables that let you provide +functions to be called from within Emacs on suitable occasions. + + Most of these variables have names ending with `-hook'. They are +"normal hooks", run by means of `run-hooks'. The value of such a hook +is a list of functions. The recommended way to put a new function on +such a hook is to call `add-hook'. *Note Hooks::, for more information +about using hooks. + + The variables whose names end in `-function' have single functions +as their values. Usually there is a specific reason why the variable is +not a normal hook, such as the need to pass arguments to the function. +(In older Emacs versions, some of these variables had names ending in +`-hook' even though they were not normal hooks.) + + The variables whose names end in `-hooks' or `-functions' have lists +of functions as their values, but these functions are called in a +special way (they are passed arguments, or else their values are used). + +`activate-menubar-hook' + +`activate-popup-menu-hook' + +`ad-definition-hooks' + +`adaptive-fill-function' + +`add-log-current-defun-function' + +`after-change-functions' + +`after-delete-annotation-hook' + +`after-init-hook' + +`after-insert-file-functions' + +`after-revert-hook' + +`after-save-hook' + +`after-set-visited-file-name-hooks' + +`after-write-file-hooks' + +`auto-fill-function' + +`auto-save-hook' + +`before-change-functions' + +`before-delete-annotation-hook' + +`before-init-hook' + +`before-revert-hook' + +`blink-paren-function' + +`buffers-menu-switch-to-buffer-function' + +`c++-mode-hook' + +`c-delete-function' + +`c-mode-common-hook' + +`c-mode-hook' + +`c-special-indent-hook' + +`calendar-load-hook' + +`change-major-mode-hook' + +`command-history-hook' + +`comment-indent-function' + +`compilation-buffer-name-function' + +`compilation-exit-message-function' + +`compilation-finish-function' + +`compilation-parse-errors-function' + +`compilation-mode-hook' + +`create-console-hook' + +`create-device-hook' + +`create-frame-hook' + +`dabbrev-friend-buffer-function' + +`dabbrev-select-buffers-function' + +`delete-console-hook' + +`delete-device-hook' + +`delete-frame-hook' + +`deselect-frame-hook' + +`diary-display-hook' + +`diary-hook' + +`dired-after-readin-hook' + +`dired-before-readin-hook' + +`dired-load-hook' + +`dired-mode-hook' + +`disabled-command-hook' + +`display-buffer-function' + +`ediff-after-setup-control-frame-hook' + +`ediff-after-setup-windows-hook' + +`ediff-before-setup-control-frame-hook' + +`ediff-before-setup-windows-hook' + +`ediff-brief-help-message-function' + +`ediff-cleanup-hook' + +`ediff-control-frame-position-function' + +`ediff-display-help-hook' + +`ediff-focus-on-regexp-matches-function' + +`ediff-forward-word-function' + +`ediff-hide-regexp-matches-function' + +`ediff-keymap-setup-hook' + +`ediff-load-hook' + +`ediff-long-help-message-function' + +`ediff-make-wide-display-function' + +`ediff-merge-split-window-function' + +`ediff-meta-action-function' + +`ediff-meta-redraw-function' + +`ediff-mode-hook' + +`ediff-prepare-buffer-hook' + +`ediff-quit-hook' + +`ediff-registry-setup-hook' + +`ediff-select-hook' + +`ediff-session-action-function' + +`ediff-session-group-setup-hook' + +`ediff-setup-diff-regions-function' + +`ediff-show-registry-hook' + +`ediff-show-session-group-hook' + +`ediff-skip-diff-region-function' + +`ediff-split-window-function' + +`ediff-startup-hook' + +`ediff-suspend-hook' + +`ediff-toggle-read-only-function' + +`ediff-unselect-hook' + +`ediff-window-setup-function' + +`edit-picture-hook' + +`electric-buffer-menu-mode-hook' + +`electric-command-history-hook' + +`electric-help-mode-hook' + +`emacs-lisp-mode-hook' + +`fill-paragraph-function' + +`find-file-hooks' + +`find-file-not-found-hooks' + +`first-change-hook' + +`font-lock-after-fontify-buffer-hook' + +`font-lock-beginning-of-syntax-function' + +`font-lock-mode-hook' + +`fume-found-function-hook' + +`fume-list-mode-hook' + +`fume-rescan-buffer-hook' + +`fume-sort-function' + +`gnus-startup-hook' + +`hack-local-variables-hook' + +`highlight-headers-follow-url-function' + +`hyper-apropos-mode-hook' + +`indent-line-function' + +`indent-mim-hook' + +`indent-region-function' + +`initial-calendar-window-hook' + +`isearch-mode-end-hook' + +`isearch-mode-hook' + +`java-mode-hook' + +`kill-buffer-hook' + +`kill-buffer-query-functions' + +`kill-emacs-hook' + +`kill-emacs-query-functions' + +`kill-hooks' + +`LaTeX-mode-hook' + +`latex-mode-hook' + +`ledit-mode-hook' + +`lisp-indent-function' + +`lisp-interaction-mode-hook' + +`lisp-mode-hook' + +`list-diary-entries-hook' + +`load-read-function' + +`log-message-filter-function' + +`m2-mode-hook' + +`mail-citation-hook' + +`mail-mode-hook' + +`mail-setup-hook' + +`make-annotation-hook' + +`makefile-mode-hook' + +`map-frame-hook' + +`mark-diary-entries-hook' + +`medit-mode-hook' + +`menu-no-selection-hook' + +`mh-compose-letter-hook' + +`mh-folder-mode-hook' + +`mh-letter-mode-hook' + +`mim-mode-hook' + +`minibuffer-exit-hook' + +`minibuffer-setup-hook' + +`mode-motion-hook' + +`mouse-enter-frame-hook' + +`mouse-leave-frame-hook' + +`mouse-track-cleanup-hook' + +`mouse-track-click-hook' + +`mouse-track-down-hook' + +`mouse-track-drag-hook' + +`mouse-track-drag-up-hook' + +`mouse-track-up-hook' + +`mouse-yank-function' + +`news-mode-hook' + +`news-reply-mode-hook' + +`news-setup-hook' + +`nongregorian-diary-listing-hook' + +`nongregorian-diary-marking-hook' + +`nroff-mode-hook' + +`objc-mode-hook' + +`outline-mode-hook' + +`perl-mode-hook' + +`plain-TeX-mode-hook' + +`post-command-hook' + +`post-gc-hook' + +`pre-abbrev-expand-hook' + +`pre-command-hook' + +`pre-display-buffer-function' + +`pre-gc-hook' + +`pre-idle-hook' + +`print-diary-entries-hook' + +`prolog-mode-hook' + +`protect-innocence-hook' + +`remove-message-hook' + +`revert-buffer-function' + +`revert-buffer-insert-contents-function' + +`rmail-edit-mode-hook' + +`rmail-mode-hook' + +`rmail-retry-setup-hook' + +`rmail-summary-mode-hook' + +`scheme-indent-hook' + +`scheme-mode-hook' + +`scribe-mode-hook' + +`select-frame-hook' + +`send-mail-function' + +`shell-mode-hook' + +`shell-set-directory-error-hook' + +`special-display-function' + +`suspend-hook' + +`suspend-resume-hook' + +`temp-buffer-show-function' + +`term-setup-hook' + +`terminal-mode-hook' + +`terminal-mode-break-hook' + +`TeX-mode-hook' + +`tex-mode-hook' + +`text-mode-hook' + +`today-visible-calendar-hook' + +`today-invisible-calendar-hook' + +`tooltalk-message-handler-hook' + +`tooltalk-pattern-handler-hook' + +`tooltalk-unprocessed-message-hook' + +`unmap-frame-hook' + +`vc-checkin-hook' + +`vc-checkout-writable-buffer-hook' + +`vc-log-after-operation-hook' + +`vc-make-buffer-writable-hook' + +`view-hook' + +`vm-arrived-message-hook' + +`vm-arrived-messages-hook' + +`vm-chop-full-name-function' + +`vm-display-buffer-hook' + +`vm-edit-message-hook' + +`vm-forward-message-hook' + +`vm-iconify-frame-hook' + +`vm-inhibit-write-file-hook' + +`vm-key-functions' + +`vm-mail-hook' + +`vm-mail-mode-hook' + +`vm-menu-setup-hook' + +`vm-mode-hook' + +`vm-quit-hook' + +`vm-rename-current-buffer-function' + +`vm-reply-hook' + +`vm-resend-bounced-message-hook' + +`vm-resend-message-hook' + +`vm-retrieved-spooled-mail-hook' + +`vm-select-message-hook' + +`vm-select-new-message-hook' + +`vm-select-unread-message-hook' + +`vm-send-digest-hook' + +`vm-summary-mode-hook' + +`vm-summary-pointer-update-hook' + +`vm-summary-redo-hook' + +`vm-summary-update-hook' + +`vm-undisplay-buffer-hook' + +`vm-visit-folder-hook' + +`window-setup-hook' + +`write-contents-hooks' + +`write-file-data-hooks' + +`write-file-hooks' + +`write-region-annotate-functions' + +`x-lost-selection-hooks' + +`x-sent-selection-hooks' + +`zmacs-activate-region-hook' + +`zmacs-deactivate-region-hook' + +`zmacs-update-region-hook' diff --git a/info/lispref.info-5 b/info/lispref.info-5 index 9b6e82b..b423272 100644 --- a/info/lispref.info-5 +++ b/info/lispref.info-5 @@ -539,14 +539,14 @@ File: lispref.info, Node: String Properties, Next: Formatting Strings, Prev: String Properties ================= - Similar to symbols, extents, faces, and glyphs, you can attach + Just as with symbols, extents, faces, and glyphs, you can attach additional information to strings in the form of "string properties". These differ from text properties, which are logically attached to particular characters in the string. To attach a property to a string, use `put'. To retrieve a property from a string, use `get'. You can also use `remprop' to remove a -property from a string and `object-props' to retrieve a list of all the +property from a string and `object-plist' to retrieve a list of all the properties in a string.  diff --git a/info/lispref.info-7 b/info/lispref.info-7 index b24b1a9..2e16da4 100644 --- a/info/lispref.info-7 +++ b/info/lispref.info-7 @@ -853,17 +853,17 @@ File: lispref.info, Node: Symbol Properties, Prev: Creating Symbols, Up: Symb Symbol Properties ================= - A "property list" ("plist" for short) is a list of paired elements -stored in the property list cell of a symbol. Each of the pairs + A "property list" ("plist" for short) is a list of paired elements, +often stored in the property list cell of a symbol. Each of the pairs associates a property name (usually a symbol) with a property or value. Property lists are generally used to record information about a symbol, such as its documentation as a variable, the name of the file where it was defined, or perhaps even the grammatical class of the symbol (representing a word) in a language-understanding system. - Many objects other than symbols can have property lists associated -with them, and XEmacs provides a full complement of functions for -working with property lists. *Note Property Lists::. + Some objects which are not symbols also have property lists +associated with them, and XEmacs provides a full complement of +functions for working with property lists. *Note Property Lists::. The property names and values in a property list can be any Lisp objects, but the names are usually symbols. They are compared using @@ -879,11 +879,11 @@ the other two elements are the corresponding values. * Plists and Alists:: Comparison of the advantages of property lists and association lists. -* Symbol Plists:: Functions to access symbols' property lists. +* Object Plists:: Functions to access objects' property lists. * Other Plists:: Accessing property lists stored elsewhere.  -File: lispref.info, Node: Plists and Alists, Next: Symbol Plists, Up: Symbol Properties +File: lispref.info, Node: Plists and Alists, Next: Object Plists, Up: Symbol Properties Property Lists and Association Lists ------------------------------------ @@ -916,14 +916,22 @@ are pushed on the front of the list and later discarded; this is not possible with a property list.  -File: lispref.info, Node: Symbol Plists, Next: Other Plists, Prev: Plists and Alists, Up: Symbol Properties +File: lispref.info, Node: Object Plists, Next: Other Plists, Prev: Plists and Alists, Up: Symbol Properties -Property List Functions for Symbols +Property List Functions for Objects ----------------------------------- + Once upon a time, only symbols had property lists. Now, several +other object types, including strings, extents, faces and glyphs also +have property lists. + - Function: symbol-plist symbol This function returns the property list of SYMBOL. + - Function: object-plist object + This function returns the property list of OBJECT. If OBJECT is a + symbol, this is identical to `symbol-plist'. + - Function: setplist symbol plist This function sets SYMBOL's property list to PLIST. Normally, PLIST should be a well-formed property list, but this is not @@ -937,21 +945,22 @@ Property List Functions for Symbols For symbols in special obarrays, which are not used for ordinary purposes, it may make sense to use the property list cell in a nonstandard fashion; in fact, the abbrev mechanism does so (*note - Abbrevs::). + Abbrevs::). But generally, its use is discouraged. Use `put' + instead. `setplist' can only be used with symbols, not other + object types. - - Function: get symbol property + - Function: get object property &optional default This function finds the value of the property named PROPERTY in - SYMBOL's property list. If there is no such property, `nil' is - returned. Thus, there is no distinction between a value of `nil' - and the absence of the property. + OBJECT's property list. If there is no such property, `default' + (which itself defaults to `nil') is returned. - The name PROPERTY is compared with the existing property names - using `eq', so any object is a legitimate property. + PROPERTY is compared with the existing properties using `eq', so + any object is a legitimate property. See `put' for an example. - - Function: put symbol property value - This function puts VALUE onto SYMBOL's property list under the + - Function: put object property value + This function puts VALUE onto OBJECT's property list under the property name PROPERTY, replacing any previous property value. The `put' function returns VALUE. @@ -961,14 +970,24 @@ Property List Functions for Symbols => (a buzzing little bug) (get 'fly 'verb) => transitive - (symbol-plist 'fly) + (object-plist 'fly) => (verb transitive noun (a buzzing little bug)) + - Function: remprop object property + This function removes the entry for PROPERTY from the property + list of OBJECT. It returns `t' if the property was indeed found + and removed, or `nil' if there was no such property. (This + function was probably omitted from Emacs originally because, since + `get' did not allow a DEFAULT, it was very difficult to + distinguish between a missing property and a property whose value + was `nil'; thus, setting a property to `nil' was close enough to + `remprop' for most purposes.) +  -File: lispref.info, Node: Other Plists, Prev: Symbol Plists, Up: Symbol Properties +File: lispref.info, Node: Other Plists, Prev: Object Plists, Up: Symbol Properties -Property Lists Outside Symbols ------------------------------- +Property Lists Not Associated with Objects +------------------------------------------ These functions are useful for manipulating property lists that are stored in places other than symbols: @@ -1245,40 +1264,3 @@ starting with "all other types" which are self-evaluating forms. * Autoloading:: Functions set up to load files containing their real definitions. - -File: lispref.info, Node: Self-Evaluating Forms, Next: Symbol Forms, Up: Forms - -Self-Evaluating Forms ---------------------- - - A "self-evaluating form" is any form that is not a list or symbol. -Self-evaluating forms evaluate to themselves: the result of evaluation -is the same object that was evaluated. Thus, the number 25 evaluates to -25, and the string `"foo"' evaluates to the string `"foo"'. Likewise, -evaluation of a vector does not cause evaluation of the elements of the -vector--it returns the same vector with its contents unchanged. - - '123 ; An object, shown without evaluation. - => 123 - 123 ; Evaluated as usual--result is the same. - => 123 - (eval '123) ; Evaluated "by hand"--result is the same. - => 123 - (eval (eval '123)) ; Evaluating twice changes nothing. - => 123 - - It is common to write numbers, characters, strings, and even vectors -in Lisp code, taking advantage of the fact that they self-evaluate. -However, it is quite unusual to do this for types that lack a read -syntax, because there's no way to write them textually. It is possible -to construct Lisp expressions containing these types by means of a Lisp -program. Here is an example: - - ;; Build an expression containing a buffer object. - (setq buffer (list 'print (current-buffer))) - => (print #) - ;; Evaluate it. - (eval buffer) - -| # - => # - diff --git a/info/lispref.info-8 b/info/lispref.info-8 index 445d0fc..e9ddbe6 100644 --- a/info/lispref.info-8 +++ b/info/lispref.info-8 @@ -50,6 +50,43 @@ may be included in a translation approved by the Free Software Foundation instead of in the original English.  +File: lispref.info, Node: Self-Evaluating Forms, Next: Symbol Forms, Up: Forms + +Self-Evaluating Forms +--------------------- + + A "self-evaluating form" is any form that is not a list or symbol. +Self-evaluating forms evaluate to themselves: the result of evaluation +is the same object that was evaluated. Thus, the number 25 evaluates to +25, and the string `"foo"' evaluates to the string `"foo"'. Likewise, +evaluation of a vector does not cause evaluation of the elements of the +vector--it returns the same vector with its contents unchanged. + + '123 ; An object, shown without evaluation. + => 123 + 123 ; Evaluated as usual--result is the same. + => 123 + (eval '123) ; Evaluated "by hand"--result is the same. + => 123 + (eval (eval '123)) ; Evaluating twice changes nothing. + => 123 + + It is common to write numbers, characters, strings, and even vectors +in Lisp code, taking advantage of the fact that they self-evaluate. +However, it is quite unusual to do this for types that lack a read +syntax, because there's no way to write them textually. It is possible +to construct Lisp expressions containing these types by means of a Lisp +program. Here is an example: + + ;; Build an expression containing a buffer object. + (setq buffer (list 'print (current-buffer))) + => (print #) + ;; Evaluate it. + (eval buffer) + -| # + => # + + File: lispref.info, Node: Symbol Forms, Next: Classifying Lists, Prev: Self-Evaluating Forms, Up: Forms Symbol Forms diff --git a/info/xemacs-faq.info b/info/xemacs-faq.info index 246c340..3b7ffdf 100644 --- a/info/xemacs-faq.info +++ b/info/xemacs-faq.info @@ -9,256 +9,257 @@ END-INFO-DIR-ENTRY  Indirect: xemacs-faq.info-1: 205 -xemacs-faq.info-2: 50061 -xemacs-faq.info-3: 99308 -xemacs-faq.info-4: 149302 -xemacs-faq.info-5: 196381 +xemacs-faq.info-2: 50086 +xemacs-faq.info-3: 99259 +xemacs-faq.info-4: 149253 +xemacs-faq.info-5: 196332  Tag Table: (Indirect) Node: Top205 -Node: Introduction16631 -Node: Q1.0.120034 -Node: Q1.0.220570 -Node: Q1.0.321065 -Node: Q1.0.421327 -Node: Q1.0.522777 -Node: Q1.0.623466 -Node: Q1.0.724472 -Node: Q1.0.824721 -Node: Q1.0.924936 -Node: Q1.0.1025214 -Node: 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(NEW) + Current Events: * Q7.0.1:: What is new in 20.2? @@ -608,9 +611,8 @@ Q1.0.11: Is there a port of XEmacs to the Macintosh? ---------------------------------------------------- Yes, there is a port of XEmacs 19.14, tested on MacOS 7.6.1 and MacOS -8.5.1 by Pitts Jarvis (pjarvis@ispchannel.com). It's available at -http://my.ispchannel.com/~pjarvis/xemacs.html -(http://my.ispchannel.com/~pjarvis/xemacs.html). +8.5.1 by Pitts Jarvis . It's available at +`http://my.ispchannel.com/~pjarvis/xemacs.html'.  File: xemacs-faq.info, Node: Q1.0.12, Next: Q1.0.13, Prev: Q1.0.11, Up: Introduction diff --git a/info/xemacs-faq.info-2 b/info/xemacs-faq.info-2 index b07abd2..fca60a8 100644 --- a/info/xemacs-faq.info-2 +++ b/info/xemacs-faq.info-2 @@ -1095,8 +1095,6 @@ File: xemacs-faq.info, Node: Q2.1.24, Prev: Q2.1.23, Up: Installation Q2.1.24: XEmacs won't start without network. (NEW) --------------------------------------------------- - Q2.1.23: Movemail on Linux does not work for XEmacs 19.15 and later. - If XEmacs starts when you're on the network, but fails when you're not on the network, you may be missing a "localhost" entry in your `/etc/hosts' file. The file should contain an entry like: diff --git a/info/xemacs-faq.info-3 b/info/xemacs-faq.info-3 index 39539b8..653e239 100644 --- a/info/xemacs-faq.info-3 +++ b/info/xemacs-faq.info-3 @@ -414,12 +414,12 @@ Q3.2.6: Can I have pixmap backgrounds in XEmacs? edit-faces'. -3.3: The Modeline -================= -  File: xemacs-faq.info, Node: Q3.3.1, Next: Q3.3.2, Prev: Q3.2.6, Up: Customization +3.3: The Modeline +================= + Q3.3.1: How can I make the modeline go away? -------------------------------------------- diff --git a/info/xemacs-faq.info-5 b/info/xemacs-faq.info-5 index f5c6bcf..9007a77 100644 --- a/info/xemacs-faq.info-5 +++ b/info/xemacs-faq.info-5 @@ -755,6 +755,9 @@ Miscellaneous * Q6.3.2:: What are the differences between the various MS Windows emacsen? * Q6.3.3:: What is the porting team doing at the moment? +Troubleshooting: +* Q6.4.1:: XEmacs won't start on Windows. (NEW) +  File: xemacs-faq.info, Node: Q6.0.1, Next: Q6.0.2, Prev: MS Windows, Up: MS Windows @@ -1085,7 +1088,7 @@ Could you briefly explain the differences between them?  -File: xemacs-faq.info, Node: Q6.3.3, Prev: Q6.3.2, Up: MS Windows +File: xemacs-faq.info, Node: Q6.3.3, Next: Q6.4.1, Prev: Q6.3.2, Up: MS Windows Q6.3.3: What is the porting team doing at the moment? ----------------------------------------------------- @@ -1093,6 +1096,32 @@ Q6.3.3: What is the porting team doing at the moment? The porting team is continuing work on the MS Windows-specific code.  +File: xemacs-faq.info, Node: Q6.4.1, Prev: Q6.3.3, Up: MS Windows + +6.3: Troubleshooting +==================== + +Q6.4.1 XEmacs won't start on Windows. (NEW) +------------------------------------------- + + XEmacs relies on a process called "dumping" to generate a working +executable. Under MS-Windows this process effectively fixes the memory +addresses of information in the executable. When XEmacs starts up it +tries to reserve these memory addresses so that the dumping process can +be reversed - putting the information back at the correct addresses. +Unfortunately some .dlls (For instance the soundblaster driver) occupy +memory addresses that can conflict with those needed by the dumped +XEmacs executable. In this instance XEmacs will fail to start without +any explanation. Note that this is extremely machine specific. + + Work is being done on fixes for 21.1.* that will make more +intelligent guesses about which memory addresses will be free and so +this should cure the problem for most people. + + 21.2 implements "portable dumping" which will eliminate the problem +altogether. + + File: xemacs-faq.info, Node: Current Events, Prev: MS Windows, Up: Top 7 What the Future Holds diff --git a/info/xemacs.info b/info/xemacs.info index 10ff1ba..2aaa9bd 100644 --- a/info/xemacs.info +++ b/info/xemacs.info @@ -32,376 +32,385 @@ translation approved by the author instead of in the original English.  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+Node: Sunrise/Sunset639410 +Node: Lunar Phases642453 +Node: Other Calendars643838 +Node: Calendar Systems645325 +Node: To Other Calendar648436 +Node: From Other Calendar650427 +Node: Mayan Calendar652732 +Node: Diary655927 +Node: Diary Commands657676 +Node: Format of Diary File660982 +Node: Date Formats663852 +Node: Adding to Diary666426 +Node: Special Diary Entries668057 +Node: Calendar Customization673396 +Node: Calendar Customizing674258 +Node: Holiday Customizing677477 +Node: Date Display Format683945 +Node: Time Display Format684903 +Node: Daylight Savings686041 +Node: Diary Customizing689229 +Node: Hebrew/Islamic Entries693850 +Node: Fancy Diary Display697190 +Node: Included Diary Files699087 +Node: Sexp Diary Entries700068 +Node: Appt Customizing705158 +Node: Sorting706204 +Node: Shell711010 +Node: Single Shell712303 +Node: Interactive Shell713902 +Node: Shell Mode717667 +Node: Terminal emulator720158 +Node: Term Mode722467 +Node: Paging in Term723381 +Node: Narrowing724179 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Bell805206 +Node: Faces808637 +Node: Frame Components813479 +Node: X Resources813924 +Node: Geometry Resources815583 +Node: Iconic Resources818031 +Node: Resource List818503 +Node: Face Resources825010 +Node: Widgets828687 +Node: Menubar Resources829626 +Node: Quitting830559 +Node: Lossage833537 +Node: Stuck Recursive834181 +Node: Screen Garbled834887 +Node: Text Garbled836021 +Node: Unasked-for Search836660 +Node: Emergency Escape837445 +Node: Total Frustration839224 +Node: Bugs839855 +Node: Glossary849389 +Node: Manifesto881042 +Node: Key Index904518 +Node: Command Index930187 +Node: Variable Index972577 +Node: Concept Index988769  End Tag Table diff --git a/info/xemacs.info-1 b/info/xemacs.info-1 index e8495cf..95651c9 100644 --- a/info/xemacs.info-1 +++ b/info/xemacs.info-1 @@ -212,9 +212,13 @@ Using X Selections Registers -* RegPos:: Saving positions in registers. -* RegText:: Saving text in registers. -* RegRect:: Saving rectangles in registers. +* Position: RegPos. Saving positions in registers. +* Text: RegText. Saving text in registers. +* Rectangle: RegRect. Saving rectangles in registers. +* Configurations: RegConfig. Saving window configurations in registers. +* Files: RegFiles. File names in registers. +* Numbers: RegNumbers. Numbers in registers. +* Bookmarks:: Bookmarks are like registers, but persistent. Controlling the Display @@ -938,9 +942,22 @@ Window exchange information with the user. There is only one echo area per XEmacs frame. - * If you are running XEmacs under the X Window System, a menu bar at - the top of the frame makes shortcuts to several of the commands - available (*note Pull-down Menus::). + * If you are running XEmacs under a graphical windowing system, a + menu bar at the top of the frame makes shortcuts to several of the + commands available (*note Pull-down Menus::). + + * If you are running XEmacs under a graphical windowing system, a + toolbar at the top of the frame, just under the menu bar if it + exists, provides "one-touch" shortcuts to several commands. (Not + yet documented.) + + * If you are running XEmacs under a graphical windowing system, a + gutter at the top (under the toolbar) and/or bottom of the frame + provides advanced GUI facilities like tab controls for rapid + switching among related windows and progress bars for + time-consuming operations like downloads across the Internet. + Gutters are an experimental feature introduced in XEmacs version + 21.2. (Not yet documented.) You can subdivide the XEmacs frame into multiple text windows, and use each window for a different file (*note Windows::). Multiple XEmacs diff --git a/info/xemacs.info-10 b/info/xemacs.info-10 index 69739c6..f888910 100644 --- a/info/xemacs.info-10 +++ b/info/xemacs.info-10 @@ -30,6 +30,72 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Outline Format, Next: Outline Motion, Prev: Outline Mode, Up: Outline Mode + +Format of Outlines +.................. + + Outline mode assumes that the lines in the buffer are of two types: +"heading lines" and "body lines". A heading line represents a topic in +the outline. Heading lines start with one or more stars; the number of +stars determines the depth of the heading in the outline structure. +Thus, a heading line with one star is a major topic; all the heading +lines with two stars between it and the next one-star heading are its +subtopics; and so on. Any line that is not a heading line is a body +line. Body lines belong to the preceding heading line. Here is an +example: + + * Food + + This is the body, + which says something about the topic of food. + + ** Delicious Food + + This is the body of the second-level header. + + ** Distasteful Food + + This could have + a body too, with + several lines. + + *** Dormitory Food + + * Shelter + + A second first-level topic with its header line. + + A heading line together with all following body lines is called +collectively an "entry". A heading line together with all following +deeper heading lines and their body lines is called a "subtree". + + You can customize the criterion for distinguishing heading lines by +setting the variable `outline-regexp'. Any line whose beginning has a +match for this regexp is considered a heading line. Matches that start +within a line (not at the beginning) do not count. The length of the +matching text determines the level of the heading; longer matches make +a more deeply nested level. Thus, for example, if a text formatter has +commands `@chapter', `@section' and `@subsection' to divide the +document into chapters and sections, you can make those lines count as +heading lines by setting `outline-regexp' to +`"@chap\\|@\\(sub\\)*section"'. Note the trick: the two words +`chapter' and `section' are the same length, but by defining the regexp +to match only `chap' we ensure that the length of the text matched on a +chapter heading is shorter, so that Outline mode will know that +sections are contained in chapters. This works as long as no other +command starts with `@chap'. + + Outline mode makes a line invisible by changing the newline before it +into an ASCII Control-M (code 015). Most editing commands that work on +lines treat an invisible line as part of the previous line because, +strictly speaking, it is part of that line, since there is no longer a +newline in between. When you save the file in Outline mode, Control-M +characters are saved as newlines, so the invisible lines become ordinary +lines in the file. Saving does not change the visibility status of a +line inside Emacs. + + File: xemacs.info, Node: Outline Motion, Next: Outline Visibility, Prev: Outline Format, Up: Outline Mode Outline Motion Commands @@ -1083,153 +1149,3 @@ a symbol, SYMBOL the value is a number, `C-M-q' need not recalculate indentation for the following lines until the end of the list. - -File: xemacs.info, Node: C Indent, Prev: Lisp Indent, Up: Grinding - -Customizing C Indentation -------------------------- - - Two variables control which commands perform C indentation and when. - - If `c-auto-newline' is non-`nil', newlines are inserted both before -and after braces that you insert and after colons and semicolons. -Correct C indentation is done on all the lines that are made this way. - - If `c-tab-always-indent' is non-`nil', the command in C mode -does indentation only if point is at the left margin or within the -line's indentation. If there is non-whitespace to the left of point, - just inserts a tab character in the buffer. Normally, this -variable is `nil', and always reindents the current line. - - C does not have anything analogous to particular function names for -which special forms of indentation are desirable. However, it has a -different need for customization facilities: many different styles of C -indentation are in common use. - - There are six variables you can set to control the style that Emacs C -mode will use. - -`c-indent-level' - Indentation of C statements within surrounding block. The - surrounding block's indentation is the indentation of the line on - which the open-brace appears. - -`c-continued-statement-offset' - Extra indentation given to a substatement, such as the then-clause - of an `if' or body of a `while'. - -`c-brace-offset' - Extra indentation for lines that start with an open brace. - -`c-brace-imaginary-offset' - An open brace following other text is treated as if it were this - far to the right of the start of its line. - -`c-argdecl-indent' - Indentation level of declarations of C function arguments. - -`c-label-offset' - Extra indentation for a line that is a label, case, or default. - - The variable `c-indent-level' controls the indentation for C -statements with respect to the surrounding block. In the example: - - { - foo (); - -the difference in indentation between the lines is `c-indent-level'. -Its standard value is 2. - - If the open-brace beginning the compound statement is not at the -beginning of its line, the `c-indent-level' is added to the indentation -of the line, not the column of the open-brace. For example, - - if (losing) { - do_this (); - -One popular indentation style is that which results from setting -`c-indent-level' to 8 and putting open-braces at the end of a line in -this way. Another popular style prefers to put the open-brace on a -separate line. - - In fact, the value of the variable `c-brace-imaginary-offset' is -also added to the indentation of such a statement. Normally this -variable is zero. Think of this variable as the imaginary position of -the open brace, relative to the first non-blank character on the line. -By setting the variable to 4 and `c-indent-level' to 0, you can get -this style: - - if (x == y) { - do_it (); - } - - When `c-indent-level' is zero, the statements inside most braces -line up exactly under the open brace. An exception are braces in column -zero, like those surrounding a function's body. The statements inside -those braces are not placed at column zero. Instead, `c-brace-offset' -and `c-continued-statement-offset' (see below) are added to produce a -typical offset between brace levels, and the statements are indented -that far. - - `c-continued-statement-offset' controls the extra indentation for a -line that starts within a statement (but not within parentheses or -brackets). These lines are usually statements inside other statements, -like the then-clauses of `if' statements and the bodies of `while' -statements. The `c-continued-statement-offset' parameter determines -the difference in indentation between the two lines in: - - if (x == y) - do_it (); - -The default value for `c-continued-statement-offset' is 2. Some -popular indentation styles correspond to a value of zero for -`c-continued-statement-offset'. - - `c-brace-offset' is the extra indentation given to a line that -starts with an open-brace. Its standard value is zero; compare: - - if (x == y) - { - -with: - - if (x == y) - do_it (); - -If you set `c-brace-offset' to 4, the first example becomes: - - if (x == y) - { - - `c-argdecl-indent' controls the indentation of declarations of the -arguments of a C function. It is absolute: argument declarations -receive exactly `c-argdecl-indent' spaces. The standard value is 5 and -results in code like this: - - char * - index (string, char) - char *string; - int char; - - `c-label-offset' is the extra indentation given to a line that -contains a label, a case statement, or a `default:' statement. Its -standard value is -2 and results in code like this: - - switch (c) - { - case 'x': - -If `c-label-offset' were zero, the same code would be indented as: - - switch (c) - { - case 'x': - -This example assumes that the other variables above also have their -default values. - - Using the indentation style produced by the default settings of the -variables just discussed and putting open braces on separate lines -produces clear and readable files. For an example, look at any of the C -source files of XEmacs. - diff --git a/info/xemacs.info-11 b/info/xemacs.info-11 index 67dc490..e6173be 100644 --- a/info/xemacs.info-11 +++ b/info/xemacs.info-11 @@ -30,6 +30,156 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: C Indent, Prev: Lisp Indent, Up: Grinding + +Customizing C Indentation +------------------------- + + Two variables control which commands perform C indentation and when. + + If `c-auto-newline' is non-`nil', newlines are inserted both before +and after braces that you insert and after colons and semicolons. +Correct C indentation is done on all the lines that are made this way. + + If `c-tab-always-indent' is non-`nil', the command in C mode +does indentation only if point is at the left margin or within the +line's indentation. If there is non-whitespace to the left of point, + just inserts a tab character in the buffer. Normally, this +variable is `nil', and always reindents the current line. + + C does not have anything analogous to particular function names for +which special forms of indentation are desirable. However, it has a +different need for customization facilities: many different styles of C +indentation are in common use. + + There are six variables you can set to control the style that Emacs C +mode will use. + +`c-indent-level' + Indentation of C statements within surrounding block. The + surrounding block's indentation is the indentation of the line on + which the open-brace appears. + +`c-continued-statement-offset' + Extra indentation given to a substatement, such as the then-clause + of an `if' or body of a `while'. + +`c-brace-offset' + Extra indentation for lines that start with an open brace. + +`c-brace-imaginary-offset' + An open brace following other text is treated as if it were this + far to the right of the start of its line. + +`c-argdecl-indent' + Indentation level of declarations of C function arguments. + +`c-label-offset' + Extra indentation for a line that is a label, case, or default. + + The variable `c-indent-level' controls the indentation for C +statements with respect to the surrounding block. In the example: + + { + foo (); + +the difference in indentation between the lines is `c-indent-level'. +Its standard value is 2. + + If the open-brace beginning the compound statement is not at the +beginning of its line, the `c-indent-level' is added to the indentation +of the line, not the column of the open-brace. For example, + + if (losing) { + do_this (); + +One popular indentation style is that which results from setting +`c-indent-level' to 8 and putting open-braces at the end of a line in +this way. Another popular style prefers to put the open-brace on a +separate line. + + In fact, the value of the variable `c-brace-imaginary-offset' is +also added to the indentation of such a statement. Normally this +variable is zero. Think of this variable as the imaginary position of +the open brace, relative to the first non-blank character on the line. +By setting the variable to 4 and `c-indent-level' to 0, you can get +this style: + + if (x == y) { + do_it (); + } + + When `c-indent-level' is zero, the statements inside most braces +line up exactly under the open brace. An exception are braces in column +zero, like those surrounding a function's body. The statements inside +those braces are not placed at column zero. Instead, `c-brace-offset' +and `c-continued-statement-offset' (see below) are added to produce a +typical offset between brace levels, and the statements are indented +that far. + + `c-continued-statement-offset' controls the extra indentation for a +line that starts within a statement (but not within parentheses or +brackets). These lines are usually statements inside other statements, +like the then-clauses of `if' statements and the bodies of `while' +statements. The `c-continued-statement-offset' parameter determines +the difference in indentation between the two lines in: + + if (x == y) + do_it (); + +The default value for `c-continued-statement-offset' is 2. Some +popular indentation styles correspond to a value of zero for +`c-continued-statement-offset'. + + `c-brace-offset' is the extra indentation given to a line that +starts with an open-brace. Its standard value is zero; compare: + + if (x == y) + { + +with: + + if (x == y) + do_it (); + +If you set `c-brace-offset' to 4, the first example becomes: + + if (x == y) + { + + `c-argdecl-indent' controls the indentation of declarations of the +arguments of a C function. It is absolute: argument declarations +receive exactly `c-argdecl-indent' spaces. The standard value is 5 and +results in code like this: + + char * + index (string, char) + char *string; + int char; + + `c-label-offset' is the extra indentation given to a line that +contains a label, a case statement, or a `default:' statement. Its +standard value is -2 and results in code like this: + + switch (c) + { + case 'x': + +If `c-label-offset' were zero, the same code would be indented as: + + switch (c) + { + case 'x': + +This example assumes that the other variables above also have their +default values. + + Using the indentation style produced by the default settings of the +variables just discussed and putting open braces on separate lines +produces clear and readable files. For an example, look at any of the C +source files of XEmacs. + + File: xemacs.info, Node: Matching, Next: Comments, Prev: Grinding, Up: Programs Automatic Display of Matching Parentheses @@ -1046,138 +1196,3 @@ To turn off this feature, set the variable `fortran-electric-line-number' to `nil'. Then inserting line numbers is like inserting anything else. - -File: xemacs.info, Node: ForIndent Conv, Next: ForIndent Vars, Prev: ForIndent Num, Up: Fortran Indent - -Syntactic Conventions -..................... - - Fortran mode assumes that you follow certain conventions that -simplify the task of understanding a Fortran program well enough to -indent it properly: - - * Two nested `do' loops never share a `continue' statement. - - * The same character appears in column 5 of all continuation lines. - It is the value of the variable `fortran-continuation-char'. By - default, this character is `$'. - -If you fail to follow these conventions, the indentation commands may -indent some lines unaesthetically. However, a correct Fortran program -will retain its meaning when reindented even if the conventions are not -followed. - - -File: xemacs.info, Node: ForIndent Vars, Prev: ForIndent Conv, Up: Fortran Indent - -Variables for Fortran Indentation -................................. - - Several additional variables control how Fortran indentation works. - -`fortran-do-indent' - Extra indentation within each level of `do' statement (the default - is 3). - -`fortran-if-indent' - Extra indentation within each level of `if' statement (the default - is 3). - -`fortran-continuation-indent' - Extra indentation for bodies of continuation lines (the default is - 5). - -`fortran-check-all-num-for-matching-do' - If this is `nil', indentation assumes that each `do' statement - ends on a `continue' statement. Therefore, when computing - indentation for a statement other than `continue', it can save - time by not checking for a `do' statement ending there. If this - is non-`nil', indenting any numbered statement must check for a - `do' that ends there. The default is `nil'. - -`fortran-minimum-statement-indent' - Minimum indentation for Fortran statements. For standard Fortran, - this is 6. Statement bodies are always indented at least this - much. - - -File: xemacs.info, Node: Fortran Comments, Next: Fortran Columns, Prev: Fortran Indent, Up: Fortran - -Comments --------- - - The usual Emacs comment commands assume that a comment can follow a -line of code. In Fortran, the standard comment syntax requires an -entire line to be just a comment. Therefore, Fortran mode replaces the -standard Emacs comment commands and defines some new variables. - - Fortran mode can also handle a non-standard comment syntax where -comments start with `!' and can follow other text. Because only some -Fortran compilers accept this syntax, Fortran mode will not insert such -comments unless you have specified to do so in advance by setting the -variable `comment-start' to `"!"' (*note Variables::). - -`M-;' - Align comment or insert new comment (`fortran-comment-indent'). - -`C-x ;' - Applies to nonstandard `!' comments only. - -`C-c ;' - Turn all lines of the region into comments, or (with arg) turn - them back into real code (`fortran-comment-region'). - - `M-;' in Fortran mode is redefined as the command -`fortran-comment-indent'. Like the usual `M-;' command, it recognizes -an existing comment and aligns its text appropriately. If there is no -existing comment, a comment is inserted and aligned. - - Inserting and aligning comments is not the same in Fortran mode as in -other modes. When a new comment must be inserted, a full-line comment -is inserted if the current line is blank. On a non-blank line, a -non-standard `!' comment is inserted if you previously specified you -wanted to use them. Otherwise a full-line comment is inserted on a new -line before the current line. - - Non-standard `!' comments are aligned like comments in other -languages, but full-line comments are aligned differently. In a -standard full-line comment, the comment delimiter itself must always -appear in column zero. What can be aligned is the text within the -comment. You can choose from three styles of alignment by setting the -variable `fortran-comment-indent-style' to one of these values: - -`fixed' - The text is aligned at a fixed column, which is the value of - `fortran-comment-line-column'. This is the default. - -`relative' - The text is aligned as if it were a line of code, but with an - additional `fortran-comment-line-column' columns of indentation. - -`nil' - Text in full-line columns is not moved automatically. - - You can also specify the character to be used to indent within -full-line comments by setting the variable `fortran-comment-indent-char' -to the character you want to use. - - Fortran mode introduces two variables `comment-line-start' and -`comment-line-start-skip', which do for full-line comments what -`comment-start' and `comment-start-skip' do for ordinary text-following -comments. Normally these are set properly by Fortran mode, so you do -not need to change them. - - The normal Emacs comment command `C-x ;' has not been redefined. It -can therefore be used if you use `!' comments, but is useless in -Fortran mode otherwise. - - The command `C-c ;' (`fortran-comment-region') turns all the lines -of the region into comments by inserting the string `C$$$' at the front -of each one. With a numeric arg, the region is turned back into live -code by deleting `C$$$' from the front of each line. You can control -the string used for the comments by setting the variable -`fortran-comment-region'. Note that here we have an example of a -command and a variable with the same name; the two uses of the name -never conflict because in Lisp and in Emacs it is always clear from the -context which one is referred to. - diff --git a/info/xemacs.info-12 b/info/xemacs.info-12 index 39e5227..644ad3c 100644 --- a/info/xemacs.info-12 +++ b/info/xemacs.info-12 @@ -30,6 +30,141 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: ForIndent Conv, Next: ForIndent Vars, Prev: ForIndent Num, Up: Fortran Indent + +Syntactic Conventions +..................... + + Fortran mode assumes that you follow certain conventions that +simplify the task of understanding a Fortran program well enough to +indent it properly: + + * Two nested `do' loops never share a `continue' statement. + + * The same character appears in column 5 of all continuation lines. + It is the value of the variable `fortran-continuation-char'. By + default, this character is `$'. + +If you fail to follow these conventions, the indentation commands may +indent some lines unaesthetically. However, a correct Fortran program +will retain its meaning when reindented even if the conventions are not +followed. + + +File: xemacs.info, Node: ForIndent Vars, Prev: ForIndent Conv, Up: Fortran Indent + +Variables for Fortran Indentation +................................. + + Several additional variables control how Fortran indentation works. + +`fortran-do-indent' + Extra indentation within each level of `do' statement (the default + is 3). + +`fortran-if-indent' + Extra indentation within each level of `if' statement (the default + is 3). + +`fortran-continuation-indent' + Extra indentation for bodies of continuation lines (the default is + 5). + +`fortran-check-all-num-for-matching-do' + If this is `nil', indentation assumes that each `do' statement + ends on a `continue' statement. Therefore, when computing + indentation for a statement other than `continue', it can save + time by not checking for a `do' statement ending there. If this + is non-`nil', indenting any numbered statement must check for a + `do' that ends there. The default is `nil'. + +`fortran-minimum-statement-indent' + Minimum indentation for Fortran statements. For standard Fortran, + this is 6. Statement bodies are always indented at least this + much. + + +File: xemacs.info, Node: Fortran Comments, Next: Fortran Columns, Prev: Fortran Indent, Up: Fortran + +Comments +-------- + + The usual Emacs comment commands assume that a comment can follow a +line of code. In Fortran, the standard comment syntax requires an +entire line to be just a comment. Therefore, Fortran mode replaces the +standard Emacs comment commands and defines some new variables. + + Fortran mode can also handle a non-standard comment syntax where +comments start with `!' and can follow other text. Because only some +Fortran compilers accept this syntax, Fortran mode will not insert such +comments unless you have specified to do so in advance by setting the +variable `comment-start' to `"!"' (*note Variables::). + +`M-;' + Align comment or insert new comment (`fortran-comment-indent'). + +`C-x ;' + Applies to nonstandard `!' comments only. + +`C-c ;' + Turn all lines of the region into comments, or (with arg) turn + them back into real code (`fortran-comment-region'). + + `M-;' in Fortran mode is redefined as the command +`fortran-comment-indent'. Like the usual `M-;' command, it recognizes +an existing comment and aligns its text appropriately. If there is no +existing comment, a comment is inserted and aligned. + + Inserting and aligning comments is not the same in Fortran mode as in +other modes. When a new comment must be inserted, a full-line comment +is inserted if the current line is blank. On a non-blank line, a +non-standard `!' comment is inserted if you previously specified you +wanted to use them. Otherwise a full-line comment is inserted on a new +line before the current line. + + Non-standard `!' comments are aligned like comments in other +languages, but full-line comments are aligned differently. In a +standard full-line comment, the comment delimiter itself must always +appear in column zero. What can be aligned is the text within the +comment. You can choose from three styles of alignment by setting the +variable `fortran-comment-indent-style' to one of these values: + +`fixed' + The text is aligned at a fixed column, which is the value of + `fortran-comment-line-column'. This is the default. + +`relative' + The text is aligned as if it were a line of code, but with an + additional `fortran-comment-line-column' columns of indentation. + +`nil' + Text in full-line columns is not moved automatically. + + You can also specify the character to be used to indent within +full-line comments by setting the variable `fortran-comment-indent-char' +to the character you want to use. + + Fortran mode introduces two variables `comment-line-start' and +`comment-line-start-skip', which do for full-line comments what +`comment-start' and `comment-start-skip' do for ordinary text-following +comments. Normally these are set properly by Fortran mode, so you do +not need to change them. + + The normal Emacs comment command `C-x ;' has not been redefined. It +can therefore be used if you use `!' comments, but is useless in +Fortran mode otherwise. + + The command `C-c ;' (`fortran-comment-region') turns all the lines +of the region into comments by inserting the string `C$$$' at the front +of each one. With a numeric arg, the region is turned back into live +code by deleting `C$$$' from the front of each line. You can control +the string used for the comments by setting the variable +`fortran-comment-region'. Note that here we have an example of a +command and a variable with the same name; the two uses of the name +never conflict because in Lisp and in Emacs it is always clear from the +context which one is referred to. + + File: xemacs.info, Node: Fortran Columns, Next: Fortran Abbrev, Prev: Fortran Comments, Up: Fortran Columns @@ -1021,172 +1156,3 @@ it's best to exit XEmacs before upgrading an existing package. or changed packages. - -File: xemacs.info, Node: Building Packages, Prev: Using Packages, Up: Packages - - Source packages are available from the `packages/source-packages' -subdirectory of your favorite XEmacs distribution site. Alternatively, -they are available via CVS from `cvs.xemacs.org'. Look at -`http://cvs.xemacs.org' for instructions. - -Prerequisites for Building Source Packages ------------------------------------------- - - You must have GNU `cp', GNU `install' (or a BSD compatible `install' -program) GNU `make' (3.75 or later preferred), `makeinfo' (1.68 from -`texinfo-3.11' or later required), GNU `tar' and XEmacs 21.0. The -source packages will untar into a correct directory structure. At the -top level you must have `XEmacs.rules' and `package-compile.el'. These -files are available from the XEmacs FTP site from the same place you -obtained your source package distributions. - -What You Can Do With Source Packages ------------------------------------- - - NB: A global build operation doesn't exist yet as of 13 January -1998. - - Source packages are most useful for creating XEmacs package tarballs -for installation into your own XEmacs installations or for distributing -to others. - - Supported operations from `make' are: - -`clean' - Remove all built files except `auto-autoloads.el' and - `custom-load.el'. - -`distclean' - Remove XEmacs backups as well as the files deleted by `make clean'. - -`all' - Bytecompile all files, build and bytecompile byproduct files like - `auto-autoloads.el' and `custom-load.el'. Create info version of - TeXinfo documentation if present. - -`srckit' - Usually aliased to `make srckit-std'. This does a `make - distclean' and creates a package source tarball in the staging - directory. This is generally only of use for package maintainers. - -`binkit' - May be aliased to `binkit-sourceonly', `binkit-sourceinfo', - `binkit-sourcedata', or `binkit-sourcedatainfo'. `sourceonly' - indicates there is nothing to install in a data directory or info - directory. `sourceinfo' indicates that source and info files are - to be installed. `sourcedata' indicates that source and etc - (data) files are to be installed. `sourcedatainfo' indicates - source, etc (data), and info files are to be installed. A few - packages have needs beyond the basic templates so this is not yet - complete. - -`dist' - Runs the rules `srckit' followed by `binkit'. This is primarily - of use by XEmacs maintainers producing files for distribution. - - -File: xemacs.info, Node: Abbrevs, Next: Picture, Prev: Packages, Up: Top - -Abbrevs -******* - - An "abbrev" is a word which "expands" into some different text. -Abbrevs are defined by the user to expand in specific ways. For -example, you might define `foo' as an abbrev expanding to `find outer -otter'. With this abbrev defined, you would be able to get `find outer -otter ' into the buffer by typing `f o o '. - - Abbrevs expand only when Abbrev mode (a minor mode) is enabled. -Disabling Abbrev mode does not cause abbrev definitions to be discarded, -but they do not expand until Abbrev mode is enabled again. The command -`M-x abbrev-mode' toggles Abbrev mode; with a numeric argument, it -turns Abbrev mode on if the argument is positive, off otherwise. *Note -Minor Modes::. `abbrev-mode' is also a variable; Abbrev mode is on -when the variable is non-`nil'. The variable `abbrev-mode' -automatically becomes local to the current buffer when it is set. - - Abbrev definitions can be "mode-specific"--active only in one major -mode. Abbrevs can also have "global" definitions that are active in -all major modes. The same abbrev can have a global definition and -various mode-specific definitions for different major modes. A -mode-specific definition for the current major mode overrides a global -definition. - - You can define Abbrevs interactively during an editing session. You -can also save lists of abbrev definitions in files and reload them in -later sessions. Some users keep extensive lists of abbrevs that they -load in every session. - - A second kind of abbreviation facility is called the "dynamic -expansion". Dynamic abbrev expansion happens only when you give an -explicit command and the result of the expansion depends only on the -current contents of the buffer. *Note Dynamic Abbrevs::. - -* Menu: - -* Defining Abbrevs:: Defining an abbrev, so it will expand when typed. -* Expanding Abbrevs:: Controlling expansion: prefixes, canceling expansion. -* Editing Abbrevs:: Viewing or editing the entire list of defined abbrevs. -* Saving Abbrevs:: Saving the entire list of abbrevs for another session. -* Dynamic Abbrevs:: Abbreviations for words already in the buffer. - - -File: xemacs.info, Node: Defining Abbrevs, Next: Expanding Abbrevs, Prev: Abbrevs, Up: Abbrevs - -Defining Abbrevs -================ - -`C-x a g' - Define an abbrev to expand into some text before point - (`add-global-abbrev'). - -`C-x a l' - Similar, but define an abbrev available only in the current major - mode (`add-mode-abbrev'). - -`C-x a i g' - Define a word in the buffer as an abbrev - (`inverse-add-global-abbrev'). - -`C-x a i l' - Define a word in the buffer as a mode-specific abbrev - (`inverse-add-mode-abbrev'). - -`M-x kill-all-abbrevs' - After this command, no abbrev definitions remain in effect. - - The usual way to define an abbrev is to enter the text you want the -abbrev to expand to, position point after it, and type `C-x a g' -(`add-global-abbrev'). This reads the abbrev itself using the -minibuffer, and then defines it as an abbrev for one or more words -before point. Use a numeric argument to say how many words before point -should be taken as the expansion. For example, to define the abbrev -`foo' as in the example above, insert the text `find outer otter', then -type -`C-u 3 C-x a g f o o '. - - An argument of zero to `C-x a g' means to use the contents of the -region as the expansion of the abbrev being defined. - - The command `C-x a l' (`add-mode-abbrev') is similar, but defines a -mode-specific abbrev. Mode-specific abbrevs are active only in a -particular major mode. `C-x a l' defines an abbrev for the major mode -in effect at the time `C-x a l' is typed. The arguments work the same -way they do for `C-x a g'. - - If the text of an abbrev you want is already in the buffer instead of -the expansion, use command `C-x a i g' (`inverse-add-global-abbrev') -instead of `C-x a g', or use `C-x a i l' (`inverse-add-mode-abbrev') -instead of `C-x a l'. These commands are called "inverse" because they -invert the meaning of the argument found in the buffer and the argument -read using the minibuffer. - - To change the definition of an abbrev, just add the new definition. -You will be asked to confirm if the abbrev has a prior definition. To -remove an abbrev definition, give a negative argument to `C-x a g' or -`C-x a l'. You must choose the command to specify whether to kill a -global definition or a mode-specific definition for the current mode, -since those two definitions are independent for one abbrev. - - `M-x kill-all-abbrevs' removes all existing abbrev definitions. - diff --git a/info/xemacs.info-13 b/info/xemacs.info-13 index e14d1d6..11cb619 100644 --- a/info/xemacs.info-13 +++ b/info/xemacs.info-13 @@ -30,6 +30,175 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Building Packages, Prev: Using Packages, Up: Packages + + Source packages are available from the `packages/source-packages' +subdirectory of your favorite XEmacs distribution site. Alternatively, +they are available via CVS from `cvs.xemacs.org'. Look at +`http://cvs.xemacs.org' for instructions. + +Prerequisites for Building Source Packages +------------------------------------------ + + You must have GNU `cp', GNU `install' (or a BSD compatible `install' +program) GNU `make' (3.75 or later preferred), `makeinfo' (1.68 from +`texinfo-3.11' or later required), GNU `tar' and XEmacs 21.0. The +source packages will untar into a correct directory structure. At the +top level you must have `XEmacs.rules' and `package-compile.el'. These +files are available from the XEmacs FTP site from the same place you +obtained your source package distributions. + +What You Can Do With Source Packages +------------------------------------ + + NB: A global build operation doesn't exist yet as of 13 January +1998. + + Source packages are most useful for creating XEmacs package tarballs +for installation into your own XEmacs installations or for distributing +to others. + + Supported operations from `make' are: + +`clean' + Remove all built files except `auto-autoloads.el' and + `custom-load.el'. + +`distclean' + Remove XEmacs backups as well as the files deleted by `make clean'. + +`all' + Bytecompile all files, build and bytecompile byproduct files like + `auto-autoloads.el' and `custom-load.el'. Create info version of + TeXinfo documentation if present. + +`srckit' + Usually aliased to `make srckit-std'. This does a `make + distclean' and creates a package source tarball in the staging + directory. This is generally only of use for package maintainers. + +`binkit' + May be aliased to `binkit-sourceonly', `binkit-sourceinfo', + `binkit-sourcedata', or `binkit-sourcedatainfo'. `sourceonly' + indicates there is nothing to install in a data directory or info + directory. `sourceinfo' indicates that source and info files are + to be installed. `sourcedata' indicates that source and etc + (data) files are to be installed. `sourcedatainfo' indicates + source, etc (data), and info files are to be installed. A few + packages have needs beyond the basic templates so this is not yet + complete. + +`dist' + Runs the rules `srckit' followed by `binkit'. This is primarily + of use by XEmacs maintainers producing files for distribution. + + +File: xemacs.info, Node: Abbrevs, Next: Picture, Prev: Packages, Up: Top + +Abbrevs +******* + + An "abbrev" is a word which "expands" into some different text. +Abbrevs are defined by the user to expand in specific ways. For +example, you might define `foo' as an abbrev expanding to `find outer +otter'. With this abbrev defined, you would be able to get `find outer +otter ' into the buffer by typing `f o o '. + + Abbrevs expand only when Abbrev mode (a minor mode) is enabled. +Disabling Abbrev mode does not cause abbrev definitions to be discarded, +but they do not expand until Abbrev mode is enabled again. The command +`M-x abbrev-mode' toggles Abbrev mode; with a numeric argument, it +turns Abbrev mode on if the argument is positive, off otherwise. *Note +Minor Modes::. `abbrev-mode' is also a variable; Abbrev mode is on +when the variable is non-`nil'. The variable `abbrev-mode' +automatically becomes local to the current buffer when it is set. + + Abbrev definitions can be "mode-specific"--active only in one major +mode. Abbrevs can also have "global" definitions that are active in +all major modes. The same abbrev can have a global definition and +various mode-specific definitions for different major modes. A +mode-specific definition for the current major mode overrides a global +definition. + + You can define Abbrevs interactively during an editing session. You +can also save lists of abbrev definitions in files and reload them in +later sessions. Some users keep extensive lists of abbrevs that they +load in every session. + + A second kind of abbreviation facility is called the "dynamic +expansion". Dynamic abbrev expansion happens only when you give an +explicit command and the result of the expansion depends only on the +current contents of the buffer. *Note Dynamic Abbrevs::. + +* Menu: + +* Defining Abbrevs:: Defining an abbrev, so it will expand when typed. +* Expanding Abbrevs:: Controlling expansion: prefixes, canceling expansion. +* Editing Abbrevs:: Viewing or editing the entire list of defined abbrevs. +* Saving Abbrevs:: Saving the entire list of abbrevs for another session. +* Dynamic Abbrevs:: Abbreviations for words already in the buffer. + + +File: xemacs.info, Node: Defining Abbrevs, Next: Expanding Abbrevs, Prev: Abbrevs, Up: Abbrevs + +Defining Abbrevs +================ + +`C-x a g' + Define an abbrev to expand into some text before point + (`add-global-abbrev'). + +`C-x a l' + Similar, but define an abbrev available only in the current major + mode (`add-mode-abbrev'). + +`C-x a i g' + Define a word in the buffer as an abbrev + (`inverse-add-global-abbrev'). + +`C-x a i l' + Define a word in the buffer as a mode-specific abbrev + (`inverse-add-mode-abbrev'). + +`M-x kill-all-abbrevs' + After this command, no abbrev definitions remain in effect. + + The usual way to define an abbrev is to enter the text you want the +abbrev to expand to, position point after it, and type `C-x a g' +(`add-global-abbrev'). This reads the abbrev itself using the +minibuffer, and then defines it as an abbrev for one or more words +before point. Use a numeric argument to say how many words before point +should be taken as the expansion. For example, to define the abbrev +`foo' as in the example above, insert the text `find outer otter', then +type +`C-u 3 C-x a g f o o '. + + An argument of zero to `C-x a g' means to use the contents of the +region as the expansion of the abbrev being defined. + + The command `C-x a l' (`add-mode-abbrev') is similar, but defines a +mode-specific abbrev. Mode-specific abbrevs are active only in a +particular major mode. `C-x a l' defines an abbrev for the major mode +in effect at the time `C-x a l' is typed. The arguments work the same +way they do for `C-x a g'. + + If the text of an abbrev you want is already in the buffer instead of +the expansion, use command `C-x a i g' (`inverse-add-global-abbrev') +instead of `C-x a g', or use `C-x a i l' (`inverse-add-mode-abbrev') +instead of `C-x a l'. These commands are called "inverse" because they +invert the meaning of the argument found in the buffer and the argument +read using the minibuffer. + + To change the definition of an abbrev, just add the new definition. +You will be asked to confirm if the abbrev has a prior definition. To +remove an abbrev definition, give a negative argument to `C-x a g' or +`C-x a l'. You must choose the command to specify whether to kill a +global definition or a mode-specific definition for the current mode, +since those two definitions are independent for one abbrev. + + `M-x kill-all-abbrevs' removes all existing abbrev definitions. + + File: xemacs.info, Node: Expanding Abbrevs, Next: Editing Abbrevs, Prev: Defining Abbrevs, Up: Abbrevs Controlling Abbrev Expansion @@ -1058,190 +1227,3 @@ stores the previous point at the end of the mark ring. So, repeated use of this command moves point through all the old marks on the ring, one by one. - -File: xemacs.info, Node: General Calendar, Next: LaTeX Calendar, Prev: Mark and Region, Up: Calendar/Diary - -Miscellaneous Calendar Commands -------------------------------- - -`p d' - Display day-in-year (`calendar-print-day-of-year'). - -`?' - Briefly describe calendar commands (`describe-calendar-mode'). - -`C-c C-l' - Regenerate the calendar window (`redraw-calendar'). - -`SPC' - Scroll the next window (`scroll-other-window'). - -`q' - Exit from calendar (`exit-calendar'). - - If you want to know how many days have elapsed since the start of -the year, or the number of days remaining in the year, type the `p d' -command (`calendar-print-day-of-year'). This displays both of those -numbers in the echo area. - - To display a brief description of the calendar commands, type `?' -(`describe-calendar-mode'). For a fuller description, type `C-h m'. - - You can use `SPC' (`scroll-other-window') to scroll the other -window. This is handy when you display a list of holidays or diary -entries in another window. - - If the calendar window text gets corrupted, type `C-c C-l' -(`redraw-calendar') to redraw it. (This can only happen if you use -non-Calendar-mode editing commands.) - - In Calendar mode, you can use `SPC' (`scroll-other-window') to -scroll the other window. This is handy when you display a list of -holidays or diary entries in another window. - - To exit from the calendar, type `q' (`exit-calendar'). This buries -all buffers related to the calendar, selecting other buffers. (If a -frame contains a dedicated calendar window, exiting from the calendar -iconifies that frame.) - - -File: xemacs.info, Node: LaTeX Calendar, Next: Holidays, Prev: General Calendar, Up: Calendar/Diary - -LaTeX Calendar -============== - - The Calendar LaTeX commands produce a buffer of LaTeX code that -prints as a calendar. Depending on the command you use, the printed -calendar covers the day, week, month or year that point is in. - -`t m' - Generate a one-month calendar (`cal-tex-cursor-month'). - -`t M' - Generate a sideways-printing one-month calendar - (`cal-tex-cursor-month-landscape'). - -`t d' - Generate a one-day calendar (`cal-tex-cursor-day'). - -`t w 1' - Generate a one-page calendar for one week (`cal-tex-cursor-week'). - -`t w 2' - Generate a two-page calendar for one week (`cal-tex-cursor-week2'). - -`t w 3' - Generate an ISO-style calendar for one week - (`cal-tex-cursor-week-iso'). - -`t w 4' - Generate a calendar for one Monday-starting week - (`cal-tex-cursor-week-monday'). - -`t f w' - Generate a Filofax-style two-weeks-at-a-glance calendar - (`cal-tex-cursor-filofax-2week'). - -`t f W' - Generate a Filofax-style one-week-at-a-glance calendar - (`cal-tex-cursor-filofax-week'). - -`t y' - Generate a calendar for one year (`cal-tex-cursor-year'). - -`t Y' - Generate a sideways-printing calendar for one year - (`cal-tex-cursor-year-landscape'). - -`t f y' - Generate a Filofax-style calendar for one year - (`cal-tex-cursor-filofax-year'). - - Some of these commands print the calendar sideways (in "landscape -mode"), so it can be wider than it is long. Some of them use Filofax -paper size (3.75in x 6.75in). All of these commands accept a prefix -argument which specifies how many days, weeks, months or years to print -(starting always with the selected one). - - If the variable `cal-tex-holidays' is non-`nil' (the default), then -the printed calendars show the holidays in `calendar-holidays'. If the -variable `cal-tex-diary' is non-`nil' (the default is `nil'), diary -entries are included also (in weekly and monthly calendars only). - - -File: xemacs.info, Node: Holidays, Next: Sunrise/Sunset, Prev: LaTeX Calendar, Up: Calendar/Diary - -Holidays --------- - - The Emacs calendar knows about all major and many minor holidays, -and can display them. - -`h' - Display holidays for the selected date - (`calendar-cursor-holidays'). - -`Button2 Holidays' - Display any holidays for the date you click on. - -`x' - Mark holidays in the calendar window (`mark-calendar-holidays'). - -`u' - Unmark calendar window (`calendar-unmark'). - -`a' - List all holidays for the displayed three months in another window - (`list-calendar-holidays'). - -`M-x holidays' - List all holidays for three months around today's date in another - window. - -`M-x list-holidays' - List holidays in another window for a specified range of years. - - To see if any holidays fall on a given date, position point on that -date in the calendar window and use the `h' command. Alternatively, -click on that date with `Button2' and then choose `Holidays' from the -menu that appears. Either way, this displays the holidays for that -date, in the echo area if they fit there, otherwise in a separate -window. - - To view the distribution of holidays for all the dates shown in the -calendar, use the `x' command. This displays the dates that are -holidays in a different face (or places a `*' after these dates, if -display with multiple faces is not available). The command applies both -to the currently visible months and to other months that subsequently -become visible by scrolling. To turn marking off and erase the current -marks, type `u', which also erases any diary marks (*note Diary::). - - To get even more detailed information, use the `a' command, which -displays a separate buffer containing a list of all holidays in the -current three-month range. You can use in the calendar window to -scroll that list. - - The command `M-x holidays' displays the list of holidays for the -current month and the preceding and succeeding months; this works even -if you don't have a calendar window. If you want the list of holidays -centered around a different month, use `C-u M-x holidays', which -prompts for the month and year. - - The holidays known to Emacs include United States holidays and the -major Christian, Jewish, and Islamic holidays; also the solstices and -equinoxes. - - The command `M-x list-holidays' displays the list of holidays for a -range of years. This function asks you for the starting and stopping -years, and allows you to choose all the holidays or one of several -categories of holidays. You can use this command even if you don't have -a calendar window. - - The dates used by Emacs for holidays are based on _current -practice_, not historical fact. Historically, for instance, the start -of daylight savings time and even its existence have varied from year to -year, but present United States law mandates that daylight savings time -begins on the first Sunday in April. When the daylight savings rules -are set up for the United States, Emacs always uses the present -definition, even though it is wrong for some prior years. - diff --git a/info/xemacs.info-14 b/info/xemacs.info-14 index 0a7da91..828a37c 100644 --- a/info/xemacs.info-14 +++ b/info/xemacs.info-14 @@ -30,6 +30,193 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: General Calendar, Next: LaTeX Calendar, Prev: Mark and Region, Up: Calendar/Diary + +Miscellaneous Calendar Commands +------------------------------- + +`p d' + Display day-in-year (`calendar-print-day-of-year'). + +`?' + Briefly describe calendar commands (`describe-calendar-mode'). + +`C-c C-l' + Regenerate the calendar window (`redraw-calendar'). + +`SPC' + Scroll the next window (`scroll-other-window'). + +`q' + Exit from calendar (`exit-calendar'). + + If you want to know how many days have elapsed since the start of +the year, or the number of days remaining in the year, type the `p d' +command (`calendar-print-day-of-year'). This displays both of those +numbers in the echo area. + + To display a brief description of the calendar commands, type `?' +(`describe-calendar-mode'). For a fuller description, type `C-h m'. + + You can use `SPC' (`scroll-other-window') to scroll the other +window. This is handy when you display a list of holidays or diary +entries in another window. + + If the calendar window text gets corrupted, type `C-c C-l' +(`redraw-calendar') to redraw it. (This can only happen if you use +non-Calendar-mode editing commands.) + + In Calendar mode, you can use `SPC' (`scroll-other-window') to +scroll the other window. This is handy when you display a list of +holidays or diary entries in another window. + + To exit from the calendar, type `q' (`exit-calendar'). This buries +all buffers related to the calendar, selecting other buffers. (If a +frame contains a dedicated calendar window, exiting from the calendar +iconifies that frame.) + + +File: xemacs.info, Node: LaTeX Calendar, Next: Holidays, Prev: General Calendar, Up: Calendar/Diary + +LaTeX Calendar +============== + + The Calendar LaTeX commands produce a buffer of LaTeX code that +prints as a calendar. Depending on the command you use, the printed +calendar covers the day, week, month or year that point is in. + +`t m' + Generate a one-month calendar (`cal-tex-cursor-month'). + +`t M' + Generate a sideways-printing one-month calendar + (`cal-tex-cursor-month-landscape'). + +`t d' + Generate a one-day calendar (`cal-tex-cursor-day'). + +`t w 1' + Generate a one-page calendar for one week (`cal-tex-cursor-week'). + +`t w 2' + Generate a two-page calendar for one week (`cal-tex-cursor-week2'). + +`t w 3' + Generate an ISO-style calendar for one week + (`cal-tex-cursor-week-iso'). + +`t w 4' + Generate a calendar for one Monday-starting week + (`cal-tex-cursor-week-monday'). + +`t f w' + Generate a Filofax-style two-weeks-at-a-glance calendar + (`cal-tex-cursor-filofax-2week'). + +`t f W' + Generate a Filofax-style one-week-at-a-glance calendar + (`cal-tex-cursor-filofax-week'). + +`t y' + Generate a calendar for one year (`cal-tex-cursor-year'). + +`t Y' + Generate a sideways-printing calendar for one year + (`cal-tex-cursor-year-landscape'). + +`t f y' + Generate a Filofax-style calendar for one year + (`cal-tex-cursor-filofax-year'). + + Some of these commands print the calendar sideways (in "landscape +mode"), so it can be wider than it is long. Some of them use Filofax +paper size (3.75in x 6.75in). All of these commands accept a prefix +argument which specifies how many days, weeks, months or years to print +(starting always with the selected one). + + If the variable `cal-tex-holidays' is non-`nil' (the default), then +the printed calendars show the holidays in `calendar-holidays'. If the +variable `cal-tex-diary' is non-`nil' (the default is `nil'), diary +entries are included also (in weekly and monthly calendars only). + + +File: xemacs.info, Node: Holidays, Next: Sunrise/Sunset, Prev: LaTeX Calendar, Up: Calendar/Diary + +Holidays +-------- + + The Emacs calendar knows about all major and many minor holidays, +and can display them. + +`h' + Display holidays for the selected date + (`calendar-cursor-holidays'). + +`Button2 Holidays' + Display any holidays for the date you click on. + +`x' + Mark holidays in the calendar window (`mark-calendar-holidays'). + +`u' + Unmark calendar window (`calendar-unmark'). + +`a' + List all holidays for the displayed three months in another window + (`list-calendar-holidays'). + +`M-x holidays' + List all holidays for three months around today's date in another + window. + +`M-x list-holidays' + List holidays in another window for a specified range of years. + + To see if any holidays fall on a given date, position point on that +date in the calendar window and use the `h' command. Alternatively, +click on that date with `Button2' and then choose `Holidays' from the +menu that appears. Either way, this displays the holidays for that +date, in the echo area if they fit there, otherwise in a separate +window. + + To view the distribution of holidays for all the dates shown in the +calendar, use the `x' command. This displays the dates that are +holidays in a different face (or places a `*' after these dates, if +display with multiple faces is not available). The command applies both +to the currently visible months and to other months that subsequently +become visible by scrolling. To turn marking off and erase the current +marks, type `u', which also erases any diary marks (*note Diary::). + + To get even more detailed information, use the `a' command, which +displays a separate buffer containing a list of all holidays in the +current three-month range. You can use in the calendar window to +scroll that list. + + The command `M-x holidays' displays the list of holidays for the +current month and the preceding and succeeding months; this works even +if you don't have a calendar window. If you want the list of holidays +centered around a different month, use `C-u M-x holidays', which +prompts for the month and year. + + The holidays known to Emacs include United States holidays and the +major Christian, Jewish, and Islamic holidays; also the solstices and +equinoxes. + + The command `M-x list-holidays' displays the list of holidays for a +range of years. This function asks you for the starting and stopping +years, and allows you to choose all the holidays or one of several +categories of holidays. You can use this command even if you don't have +a calendar window. + + The dates used by Emacs for holidays are based on _current +practice_, not historical fact. Historically, for instance, the start +of daylight savings time and even its existence have varied from year to +year, but present United States law mandates that daylight savings time +begins on the first Sunday in April. When the daylight savings rules +are set up for the United States, Emacs always uses the present +definition, even though it is wrong for some prior years. + + File: xemacs.info, Node: Sunrise/Sunset, Next: Lunar Phases, Prev: Holidays, Up: Calendar/Diary Times of Sunrise and Sunset @@ -937,274 +1124,3 @@ terminal. A similar normal hook, `today-invisible-calendar-hook' is run if the current date is _not_ visible in the window. - -File: xemacs.info, Node: Holiday Customizing, Next: Date Display Format, Prev: Calendar Customizing, Up: Calendar Customization - -Customizing the Holidays -........................ - - Emacs knows about holidays defined by entries on one of several -lists. You can customize these lists of holidays to your own needs, -adding or deleting holidays. The lists of holidays that Emacs uses are -for general holidays (`general-holidays'), local holidays -(`local-holidays'), Christian holidays (`christian-holidays'), Hebrew -(Jewish) holidays (`hebrew-holidays'), Islamic (Moslem) holidays -(`islamic-holidays'), and other holidays (`other-holidays'). - - The general holidays are, by default, holidays common throughout the -United States. To eliminate these holidays, set `general-holidays' to -`nil'. - - There are no default local holidays (but sites may supply some). You -can set the variable `local-holidays' to any list of holidays, as -described below. - - By default, Emacs does not include all the holidays of the religions -that it knows, only those commonly found in secular calendars. For a -more extensive collection of religious holidays, you can set any (or -all) of the variables `all-christian-calendar-holidays', -`all-hebrew-calendar-holidays', or `all-islamic-calendar-holidays' to -`t'. If you want to eliminate the religious holidays, set any or all -of the corresponding variables `christian-holidays', `hebrew-holidays', -and `islamic-holidays' to `nil'. - - You can set the variable `other-holidays' to any list of holidays. -This list, normally empty, is intended for individual use. - - Each of the lists (`general-holidays', `local-holidays', -`christian-holidays', `hebrew-holidays', `islamic-holidays', and -`other-holidays') is a list of "holiday forms", each holiday form -describing a holiday (or sometimes a list of holidays). - - Here is a table of the possible kinds of holiday form. Day numbers -and month numbers count starting from 1, but "dayname" numbers count -Sunday as 0. The element STRING is always the name of the holiday, as -a string. - -`(holiday-fixed MONTH DAY STRING)' - A fixed date on the Gregorian calendar. MONTH and DAY are - numbers, STRING is the name of the holiday. - -`(holiday-float MONTH DAYNAME K STRING)' - The Kth DAYNAME in MONTH on the Gregorian calendar (DAYNAME=0 for - Sunday, and so on); negative K means count back from the end of - the month. STRING is the name of the holiday. - -`(holiday-hebrew MONTH DAY STRING)' - A fixed date on the Hebrew calendar. MONTH and DAY are numbers, - STRING is the name of the holiday. - -`(holiday-islamic MONTH DAY STRING)' - A fixed date on the Islamic calendar. MONTH and DAY are numbers, - STRING is the name of the holiday. - -`(holiday-julian MONTH DAY STRING)' - A fixed date on the Julian calendar. MONTH and DAY are numbers, - STRING is the name of the holiday. - -`(holiday-sexp SEXP STRING)' - A date calculated by the Lisp expression SEXP. The expression - should use the variable `year' to compute and return the date of a - holiday, or `nil' if the holiday doesn't happen this year. The - value of SEXP must represent the date as a list of the form - `(MONTH DAY YEAR)'. STRING is the name of the holiday. - -`(if CONDITION HOLIDAY-FORM &optional HOLIDAY-FORM)' - A holiday that happens only if CONDITION is true. - -`(FUNCTION [ARGS])' - A list of dates calculated by the function FUNCTION, called with - arguments ARGS. - - For example, suppose you want to add Bastille Day, celebrated in -France on July 14. You can do this by adding the following line to -your `.emacs' file: - - (setq other-holidays '((holiday-fixed 7 14 "Bastille Day"))) - -The holiday form `(holiday-fixed 7 14 "Bastille Day")' specifies the -fourteenth day of the seventh month (July). - - Many holidays occur on a specific day of the week, at a specific time -of month. Here is a holiday form describing Hurricane Supplication Day, -celebrated in the Virgin Islands on the fourth Monday in August: - - (holiday-float 8 1 4 "Hurricane Supplication Day") - -Here the 8 specifies August, the 1 specifies Monday (Sunday is 0, -Tuesday is 2, and so on), and the 4 specifies the fourth occurrence in -the month (1 specifies the first occurrence, 2 the second occurrence, --1 the last occurrence, -2 the second-to-last occurrence, and so on). - - You can specify holidays that occur on fixed days of the Hebrew, -Islamic, and Julian calendars too. For example, - - (setq other-holidays - '((holiday-hebrew 10 2 "Last day of Hanukkah") - (holiday-islamic 3 12 "Mohammed's Birthday") - (holiday-julian 4 2 "Jefferson's Birthday"))) - -adds the last day of Hanukkah (since the Hebrew months are numbered with -1 starting from Nisan), the Islamic feast celebrating Mohammed's -birthday (since the Islamic months are numbered from 1 starting with -Muharram), and Thomas Jefferson's birthday, which is 2 April 1743 on the -Julian calendar. - - To include a holiday conditionally, use either Emacs Lisp's `if' or -the `holiday-sexp' form. For example, American presidential elections -occur on the first Tuesday after the first Monday in November of years -divisible by 4: - - (holiday-sexp (if (= 0 (% year 4)) - (calendar-gregorian-from-absolute - (1+ (calendar-dayname-on-or-before - 1 (+ 6 (calendar-absolute-from-gregorian - (list 11 1 year)))))) - "US Presidential Election")) - -or - - (if (= 0 (% displayed-year 4)) - (fixed 11 - (extract-calendar-day - (calendar-gregorian-from-absolute - (1+ (calendar-dayname-on-or-before - 1 (+ 6 (calendar-absolute-from-gregorian - (list 11 1 displayed-year))))))) - "US Presidential Election")) - - Some holidays just don't fit into any of these forms because special -calculations are involved in their determination. In such cases you -must write a Lisp function to do the calculation. To include eclipses, -for example, add `(eclipses)' to `other-holidays' and write an Emacs -Lisp function `eclipses' that returns a (possibly empty) list of the -relevant Gregorian dates among the range visible in the calendar -window, with descriptive strings, like this: - - (((6 27 1991) "Lunar Eclipse") ((7 11 1991) "Solar Eclipse") ... ) - - -File: xemacs.info, Node: Date Display Format, Next: Time Display Format, Prev: Holiday Customizing, Up: Calendar Customization - -Date Display Format -................... - - You can customize the manner of displaying dates in the diary, in -mode lines, and in messages by setting `calendar-date-display-form'. -This variable holds a list of expressions that can involve the variables -`month', `day', and `year', which are all numbers in string form, and -`monthname' and `dayname', which are both alphabetic strings. In the -American style, the default value of this list is as follows: - - ((if dayname (concat dayname ", ")) monthname " " day ", " year) - -while in the European style this value is the default: - - ((if dayname (concat dayname ", ")) day " " monthname " " year) - - + The ISO standard date representation is this: - - (year "-" month "-" day) - -This specifies a typical American format: - - (month "/" day "/" (substring year -2)) - - -File: xemacs.info, Node: Time Display Format, Next: Daylight Savings, Prev: Date Display Format, Up: Calendar Customization - -Time Display Format -................... - - The calendar and diary by default display times of day in the -conventional American style with the hours from 1 through 12, minutes, -and either `am' or `pm'. If you prefer the European style, also known -in the US as military, in which the hours go from 00 to 23, you can -alter the variable `calendar-time-display-form'. This variable is a -list of expressions that can involve the variables `12-hours', -`24-hours', and `minutes', which are all numbers in string form, and -`am-pm' and `time-zone', which are both alphabetic strings. The -default value of `calendar-time-display-form' is as follows: - - (12-hours ":" minutes am-pm - (if time-zone " (") time-zone (if time-zone ")")) - -Here is a value that provides European style times: - - (24-hours ":" minutes - (if time-zone " (") time-zone (if time-zone ")")) - -gives military-style times like `21:07 (UT)' if time zone names are -defined, and times like `21:07' if they are not. - - -File: xemacs.info, Node: Daylight Savings, Next: Diary Customizing, Prev: Time Display Format, Up: Calendar Customization - -Daylight Savings Time -..................... - - Emacs understands the difference between standard time and daylight -savings time--the times given for sunrise, sunset, solstices, -equinoxes, and the phases of the moon take that into account. The rules -for daylight savings time vary from place to place and have also varied -historically from year to year. To do the job properly, Emacs needs to -know which rules to use. - - Some operating systems keep track of the rules that apply to the -place where you are; on these systems, Emacs gets the information it -needs from the system automatically. If some or all of this -information is missing, Emacs fills in the gaps with the rules -currently used in Cambridge, Massachusetts. If the resulting rules are -not what you want, you can tell Emacs the rules to use by setting -certain variables. - - If the default choice of rules is not appropriate for your location, -you can tell Emacs the rules to use by setting the variables -`calendar-daylight-savings-starts' and -`calendar-daylight-savings-ends'. Their values should be Lisp -expressions that refer to the variable `year', and evaluate to the -Gregorian date on which daylight savings time starts or (respectively) -ends, in the form of a list `(MONTH DAY YEAR)'. The values should be -`nil' if your area does not use daylight savings time. - - Emacs uses these expressions to determine the starting date of -daylight savings time for the holiday list and for correcting times of -day in the solar and lunar calculations. - - The values for Cambridge, Massachusetts are as follows: - - (calendar-nth-named-day 1 0 4 year) - (calendar-nth-named-day -1 0 10 year) - -That is, the first 0th day (Sunday) of the fourth month (April) in the -year specified by `year', and the last Sunday of the tenth month -(October) of that year. If daylight savings time were changed to start -on October 1, you would set `calendar-daylight-savings-starts' to this: - - (list 10 1 year) - - For a more complex example, suppose daylight savings time begins on -the first of Nisan on the Hebrew calendar. You should set -`calendar-daylight-savings-starts' to this value: - - (calendar-gregorian-from-absolute - (calendar-absolute-from-hebrew - (list 1 1 (+ year 3760)))) - -because Nisan is the first month in the Hebrew calendar and the Hebrew -year differs from the Gregorian year by 3760 at Nisan. - - If there is no daylight savings time at your location, or if you want -all times in standard time, set `calendar-daylight-savings-starts' and -`calendar-daylight-savings-ends' to `nil'. - - The variable `calendar-daylight-time-offset' specifies the -difference between daylight savings time and standard time, measured in -minutes. The value for Cambridge, Massachusetts is 60. - - The two variables `calendar-daylight-savings-starts-time' and -`calendar-daylight-savings-ends-time' specify the number of minutes -after midnight local time when the transition to and from daylight -savings time should occur. For Cambridge, Massachusetts both variables' -values are 120. - diff --git a/info/xemacs.info-15 b/info/xemacs.info-15 index bb5eb2c..cb56172 100644 --- a/info/xemacs.info-15 +++ b/info/xemacs.info-15 @@ -30,6 +30,277 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Holiday Customizing, Next: Date Display Format, Prev: Calendar Customizing, Up: Calendar Customization + +Customizing the Holidays +........................ + + Emacs knows about holidays defined by entries on one of several +lists. You can customize these lists of holidays to your own needs, +adding or deleting holidays. The lists of holidays that Emacs uses are +for general holidays (`general-holidays'), local holidays +(`local-holidays'), Christian holidays (`christian-holidays'), Hebrew +(Jewish) holidays (`hebrew-holidays'), Islamic (Moslem) holidays +(`islamic-holidays'), and other holidays (`other-holidays'). + + The general holidays are, by default, holidays common throughout the +United States. To eliminate these holidays, set `general-holidays' to +`nil'. + + There are no default local holidays (but sites may supply some). You +can set the variable `local-holidays' to any list of holidays, as +described below. + + By default, Emacs does not include all the holidays of the religions +that it knows, only those commonly found in secular calendars. For a +more extensive collection of religious holidays, you can set any (or +all) of the variables `all-christian-calendar-holidays', +`all-hebrew-calendar-holidays', or `all-islamic-calendar-holidays' to +`t'. If you want to eliminate the religious holidays, set any or all +of the corresponding variables `christian-holidays', `hebrew-holidays', +and `islamic-holidays' to `nil'. + + You can set the variable `other-holidays' to any list of holidays. +This list, normally empty, is intended for individual use. + + Each of the lists (`general-holidays', `local-holidays', +`christian-holidays', `hebrew-holidays', `islamic-holidays', and +`other-holidays') is a list of "holiday forms", each holiday form +describing a holiday (or sometimes a list of holidays). + + Here is a table of the possible kinds of holiday form. Day numbers +and month numbers count starting from 1, but "dayname" numbers count +Sunday as 0. The element STRING is always the name of the holiday, as +a string. + +`(holiday-fixed MONTH DAY STRING)' + A fixed date on the Gregorian calendar. MONTH and DAY are + numbers, STRING is the name of the holiday. + +`(holiday-float MONTH DAYNAME K STRING)' + The Kth DAYNAME in MONTH on the Gregorian calendar (DAYNAME=0 for + Sunday, and so on); negative K means count back from the end of + the month. STRING is the name of the holiday. + +`(holiday-hebrew MONTH DAY STRING)' + A fixed date on the Hebrew calendar. MONTH and DAY are numbers, + STRING is the name of the holiday. + +`(holiday-islamic MONTH DAY STRING)' + A fixed date on the Islamic calendar. MONTH and DAY are numbers, + STRING is the name of the holiday. + +`(holiday-julian MONTH DAY STRING)' + A fixed date on the Julian calendar. MONTH and DAY are numbers, + STRING is the name of the holiday. + +`(holiday-sexp SEXP STRING)' + A date calculated by the Lisp expression SEXP. The expression + should use the variable `year' to compute and return the date of a + holiday, or `nil' if the holiday doesn't happen this year. The + value of SEXP must represent the date as a list of the form + `(MONTH DAY YEAR)'. STRING is the name of the holiday. + +`(if CONDITION HOLIDAY-FORM &optional HOLIDAY-FORM)' + A holiday that happens only if CONDITION is true. + +`(FUNCTION [ARGS])' + A list of dates calculated by the function FUNCTION, called with + arguments ARGS. + + For example, suppose you want to add Bastille Day, celebrated in +France on July 14. You can do this by adding the following line to +your `.emacs' file: + + (setq other-holidays '((holiday-fixed 7 14 "Bastille Day"))) + +The holiday form `(holiday-fixed 7 14 "Bastille Day")' specifies the +fourteenth day of the seventh month (July). + + Many holidays occur on a specific day of the week, at a specific time +of month. Here is a holiday form describing Hurricane Supplication Day, +celebrated in the Virgin Islands on the fourth Monday in August: + + (holiday-float 8 1 4 "Hurricane Supplication Day") + +Here the 8 specifies August, the 1 specifies Monday (Sunday is 0, +Tuesday is 2, and so on), and the 4 specifies the fourth occurrence in +the month (1 specifies the first occurrence, 2 the second occurrence, +-1 the last occurrence, -2 the second-to-last occurrence, and so on). + + You can specify holidays that occur on fixed days of the Hebrew, +Islamic, and Julian calendars too. For example, + + (setq other-holidays + '((holiday-hebrew 10 2 "Last day of Hanukkah") + (holiday-islamic 3 12 "Mohammed's Birthday") + (holiday-julian 4 2 "Jefferson's Birthday"))) + +adds the last day of Hanukkah (since the Hebrew months are numbered with +1 starting from Nisan), the Islamic feast celebrating Mohammed's +birthday (since the Islamic months are numbered from 1 starting with +Muharram), and Thomas Jefferson's birthday, which is 2 April 1743 on the +Julian calendar. + + To include a holiday conditionally, use either Emacs Lisp's `if' or +the `holiday-sexp' form. For example, American presidential elections +occur on the first Tuesday after the first Monday in November of years +divisible by 4: + + (holiday-sexp (if (= 0 (% year 4)) + (calendar-gregorian-from-absolute + (1+ (calendar-dayname-on-or-before + 1 (+ 6 (calendar-absolute-from-gregorian + (list 11 1 year)))))) + "US Presidential Election")) + +or + + (if (= 0 (% displayed-year 4)) + (fixed 11 + (extract-calendar-day + (calendar-gregorian-from-absolute + (1+ (calendar-dayname-on-or-before + 1 (+ 6 (calendar-absolute-from-gregorian + (list 11 1 displayed-year))))))) + "US Presidential Election")) + + Some holidays just don't fit into any of these forms because special +calculations are involved in their determination. In such cases you +must write a Lisp function to do the calculation. To include eclipses, +for example, add `(eclipses)' to `other-holidays' and write an Emacs +Lisp function `eclipses' that returns a (possibly empty) list of the +relevant Gregorian dates among the range visible in the calendar +window, with descriptive strings, like this: + + (((6 27 1991) "Lunar Eclipse") ((7 11 1991) "Solar Eclipse") ... ) + + +File: xemacs.info, Node: Date Display Format, Next: Time Display Format, Prev: Holiday Customizing, Up: Calendar Customization + +Date Display Format +................... + + You can customize the manner of displaying dates in the diary, in +mode lines, and in messages by setting `calendar-date-display-form'. +This variable holds a list of expressions that can involve the variables +`month', `day', and `year', which are all numbers in string form, and +`monthname' and `dayname', which are both alphabetic strings. In the +American style, the default value of this list is as follows: + + ((if dayname (concat dayname ", ")) monthname " " day ", " year) + +while in the European style this value is the default: + + ((if dayname (concat dayname ", ")) day " " monthname " " year) + + + The ISO standard date representation is this: + + (year "-" month "-" day) + +This specifies a typical American format: + + (month "/" day "/" (substring year -2)) + + +File: xemacs.info, Node: Time Display Format, Next: Daylight Savings, Prev: Date Display Format, Up: Calendar Customization + +Time Display Format +................... + + The calendar and diary by default display times of day in the +conventional American style with the hours from 1 through 12, minutes, +and either `am' or `pm'. If you prefer the European style, also known +in the US as military, in which the hours go from 00 to 23, you can +alter the variable `calendar-time-display-form'. This variable is a +list of expressions that can involve the variables `12-hours', +`24-hours', and `minutes', which are all numbers in string form, and +`am-pm' and `time-zone', which are both alphabetic strings. The +default value of `calendar-time-display-form' is as follows: + + (12-hours ":" minutes am-pm + (if time-zone " (") time-zone (if time-zone ")")) + +Here is a value that provides European style times: + + (24-hours ":" minutes + (if time-zone " (") time-zone (if time-zone ")")) + +gives military-style times like `21:07 (UT)' if time zone names are +defined, and times like `21:07' if they are not. + + +File: xemacs.info, Node: Daylight Savings, Next: Diary Customizing, Prev: Time Display Format, Up: Calendar Customization + +Daylight Savings Time +..................... + + Emacs understands the difference between standard time and daylight +savings time--the times given for sunrise, sunset, solstices, +equinoxes, and the phases of the moon take that into account. The rules +for daylight savings time vary from place to place and have also varied +historically from year to year. To do the job properly, Emacs needs to +know which rules to use. + + Some operating systems keep track of the rules that apply to the +place where you are; on these systems, Emacs gets the information it +needs from the system automatically. If some or all of this +information is missing, Emacs fills in the gaps with the rules +currently used in Cambridge, Massachusetts. If the resulting rules are +not what you want, you can tell Emacs the rules to use by setting +certain variables. + + If the default choice of rules is not appropriate for your location, +you can tell Emacs the rules to use by setting the variables +`calendar-daylight-savings-starts' and +`calendar-daylight-savings-ends'. Their values should be Lisp +expressions that refer to the variable `year', and evaluate to the +Gregorian date on which daylight savings time starts or (respectively) +ends, in the form of a list `(MONTH DAY YEAR)'. The values should be +`nil' if your area does not use daylight savings time. + + Emacs uses these expressions to determine the starting date of +daylight savings time for the holiday list and for correcting times of +day in the solar and lunar calculations. + + The values for Cambridge, Massachusetts are as follows: + + (calendar-nth-named-day 1 0 4 year) + (calendar-nth-named-day -1 0 10 year) + +That is, the first 0th day (Sunday) of the fourth month (April) in the +year specified by `year', and the last Sunday of the tenth month +(October) of that year. If daylight savings time were changed to start +on October 1, you would set `calendar-daylight-savings-starts' to this: + + (list 10 1 year) + + For a more complex example, suppose daylight savings time begins on +the first of Nisan on the Hebrew calendar. You should set +`calendar-daylight-savings-starts' to this value: + + (calendar-gregorian-from-absolute + (calendar-absolute-from-hebrew + (list 1 1 (+ year 3760)))) + +because Nisan is the first month in the Hebrew calendar and the Hebrew +year differs from the Gregorian year by 3760 at Nisan. + + If there is no daylight savings time at your location, or if you want +all times in standard time, set `calendar-daylight-savings-starts' and +`calendar-daylight-savings-ends' to `nil'. + + The variable `calendar-daylight-time-offset' specifies the +difference between daylight savings time and standard time, measured in +minutes. The value for Cambridge, Massachusetts is 60. + + The two variables `calendar-daylight-savings-starts-time' and +`calendar-daylight-savings-ends-time' specify the number of minutes +after midnight local time when the transition to and from daylight +savings time should occur. For Cambridge, Massachusetts both variables' +values are 120. + + File: xemacs.info, Node: Diary Customizing, Next: Hebrew/Islamic Entries, Prev: Daylight Savings, Up: Calendar Customization Customizing the Diary @@ -930,246 +1201,3 @@ based on the value of the variable `lpr-switches'. Its value should be a list of strings, each string a switch starting with `-'. For example, the value could be `("-Pfoo")' to print on printer `foo'. - -File: xemacs.info, Node: Recursive Edit, Next: Dissociated Press, Prev: Hardcopy, Up: Top - -Recursive Editing Levels -======================== - - A "recursive edit" is a situation in which you are using XEmacs -commands to perform arbitrary editing while in the middle of another -XEmacs command. For example, when you type `C-r' inside a -`query-replace', you enter a recursive edit in which you can change the -current buffer. When you exit from the recursive edit, you go back to -the `query-replace'. - - "Exiting" a recursive edit means returning to the unfinished -command, which continues execution. For example, exiting the recursive -edit requested by `C-r' in `query-replace' causes query replacing to -resume. Exiting is done with `C-M-c' (`exit-recursive-edit'). - - You can also "abort" a recursive edit. This is like exiting, but -also quits the unfinished command immediately. Use the command `C-]' -(`abort-recursive-edit') for this. *Note Quitting::. - - The mode line shows you when you are in a recursive edit by -displaying square brackets around the parentheses that always surround -the major and minor mode names. Every window's mode line shows the -square brackets, since XEmacs as a whole, rather than any particular -buffer, is in a recursive edit. - - It is possible to be in recursive edits within recursive edits. For -example, after typing `C-r' in a `query-replace', you might type a -command that entered the debugger. In such a case, two or more sets of -square brackets appear in the mode line(s). Exiting the inner -recursive edit (here with the debugger `c' command) resumes the -query-replace command where it called the debugger. After the end of -the query-replace command, you would be able to exit the first -recursive edit. Aborting exits only one level of recursive edit; it -returns to the command level of the previous recursive edit. You can -then abort that one as well. - - The command `M-x top-level' aborts all levels of recursive edits, -returning immediately to the top level command reader. - - The text you edit inside the recursive edit need not be the same text -that you were editing at top level. If the command that invokes the -recursive edit selects a different buffer first, that is the buffer you -will edit recursively. You can switch buffers within the recursive edit -in the normal manner (as long as the buffer-switching keys have not been -rebound). While you could theoretically do the rest of your editing -inside the recursive edit, including visiting files, this could have -surprising effects (such as stack overflow) from time to time. It is -best if you always exit or abort a recursive edit when you no longer -need it. - - In general, XEmacs tries to avoid using recursive edits. It is -usually preferable to allow users to switch among the possible editing -modes in any order they like. With recursive edits, the only way to get -to another state is to go "back" to the state that the recursive edit -was invoked from. - - -File: xemacs.info, Node: Dissociated Press, Next: CONX, Prev: Recursive Edit, Up: Top - -Dissociated Press -================= - - `M-x dissociated-press' is a command for scrambling a file of text -either word by word or character by character. Starting from a buffer -of straight English, it produces extremely amusing output. The input -comes from the current XEmacs buffer. Dissociated Press writes its -output in a buffer named `*Dissociation*', and redisplays that buffer -after every couple of lines (approximately) to facilitate reading it. - - `dissociated-press' asks every so often whether to continue -operating. Answer `n' to stop it. You can also stop at any time by -typing `C-g'. The dissociation output remains in the `*Dissociation*' -buffer for you to copy elsewhere if you wish. - - Dissociated Press operates by jumping at random from one point in the -buffer to another. In order to produce plausible output rather than -gibberish, it insists on a certain amount of overlap between the end of -one run of consecutive words or characters and the start of the next. -That is, if it has just printed out `president' and then decides to -jump to a different point in the file, it might spot the `ent' in -`pentagon' and continue from there, producing `presidentagon'. Long -sample texts produce the best results. - - A positive argument to `M-x dissociated-press' tells it to operate -character by character, and specifies the number of overlap characters. -A negative argument tells it to operate word by word and specifies the -number of overlap words. In this mode, whole words are treated as the -elements to be permuted, rather than characters. No argument is -equivalent to an argument of two. For your againformation, the output -goes only into the buffer `*Dissociation*'. The buffer you start with -is not changed. - - Dissociated Press produces nearly the same results as a Markov chain -based on a frequency table constructed from the sample text. It is, -however, an independent, ignoriginal invention. Dissociated Press -techniquitously copies several consecutive characters from the sample -between random choices, whereas a Markov chain would choose randomly for -each word or character. This makes for more plausible sounding results -and runs faster. - - It is a mustatement that too much use of Dissociated Press can be a -developediment to your real work. Sometimes to the point of outragedy. -And keep dissociwords out of your documentation, if you want it to be -well userenced and properbose. Have fun. Your buggestions are welcome. - - -File: xemacs.info, Node: CONX, Next: Amusements, Prev: Dissociated Press, Up: Top - -CONX -==== - - Besides producing a file of scrambled text with Dissociated Press, -you can generate random sentences by using CONX. - -`M-x conx' - Generate random sentences in the `*conx*' buffer. - -`M-x conx-buffer' - Absorb the text in the current buffer into the `conx' database. - -`M-x conx-init' - Forget the current word-frequency tree. - -`M-x conx-load' - Load a `conx' database that has been previously saved with `M-x - conx-save'. - -`M-x conx-region' - Absorb the text in the current buffer into the `conx' database. - -`M-x conx-save' - Save the current `conx' database to a file for future retrieval. - - Copy text from a buffer using `M-x conx-buffer' or `M-x conx-region' -and then type `M-x conx'. Output is continuously generated until you -type <^G>. You can save the `conx' database to a file with `M-x -conx-save', which you can retrieve with `M-x conx-load'. To clear the -database, use `M-x conx-init'. - - -File: xemacs.info, Node: Amusements, Next: Emulation, Prev: CONX, Up: Top - -Other Amusements -================ - - If you are a little bit bored, you can try `M-x hanoi'. If you are -considerably bored, give it a numeric argument. If you are very, very -bored, try an argument of 9. Sit back and watch. - - When you are frustrated, try the famous Eliza program. Just do `M-x -doctor'. End each input by typing `RET' twice. - - When you are feeling strange, type `M-x yow'. - - -File: xemacs.info, Node: Emulation, Next: Customization, Prev: Amusements, Up: Top - -Emulation -========= - - XEmacs can be programmed to emulate (more or less) most other -editors. Standard facilities can emulate these: - -Viper (a vi emulator) - In XEmacs, Viper is the preferred emulation of vi within XEmacs. - Viper is designed to allow you to take advantage of the best - features of XEmacs while still doing your basic editing in a - familiar, vi-like fashion. Viper provides various different - levels of vi emulation, from a quite complete emulation that - allows almost no access to native XEmacs commands, to an "expert" - mode that combines the most useful vi commands with the most - useful XEmacs commands. - - To start Viper, put the command - - (viper-mode) - - in your `.emacs' file. - - Viper comes with a separate manual that is provided standard with - the XEmacs distribution. - -EDT (DEC VMS editor) - Turn on EDT emulation with `M-x edt-emulation-on'. `M-x - edt-emulation-off' restores normal Emacs command bindings. - - Most of the EDT emulation commands are keypad keys, and most - standard Emacs key bindings are still available. The EDT - emulation rebindings are done in the global keymap, so there is no - problem switching buffers or major modes while in EDT emulation. - -Gosling Emacs - Turn on emulation of Gosling Emacs (aka Unipress Emacs) with `M-x - set-gosmacs-bindings'. This redefines many keys, mostly on the - `C-x' and `ESC' prefixes, to work as they do in Gosmacs. `M-x - set-gnu-bindings' returns to normal XEmacs by rebinding the same - keys to the definitions they had at the time `M-x - set-gosmacs-bindings' was done. - - It is also possible to run Mocklisp code written for Gosling Emacs. - *Note Mocklisp::. - - -File: xemacs.info, Node: Customization, Next: Quitting, Prev: Emulation, Up: Top - -Customization -************* - - This chapter talks about various topics relevant to adapting the -behavior of Emacs in minor ways. - - All kinds of customization affect only the particular Emacs job that -you do them in. They are completely lost when you kill the Emacs job, -and have no effect on other Emacs jobs you may run at the same time or -later. The only way an Emacs job can affect anything outside of it is -by writing a file; in particular, the only way to make a customization -`permanent' is to put something in your `.emacs' file or other -appropriate file to do the customization in each session. *Note Init -File::. - -* Menu: - -* Minor Modes:: Each minor mode is one feature you can turn on - independently of any others. -* Variables:: Many Emacs commands examine Emacs variables - to decide what to do; by setting variables, - you can control their functioning. -* Keyboard Macros:: A keyboard macro records a sequence of keystrokes - to be replayed with a single command. -* Key Bindings:: The keymaps say what command each key runs. - By changing them, you can "redefine keys". -* Syntax:: The syntax table controls how words and expressions - are parsed. -* Init File:: How to write common customizations in the `.emacs' - file. -* Audible Bell:: Changing how Emacs sounds the bell. -* Faces:: Changing the fonts and colors of a region of text. -* X Resources:: X resources controlling various aspects of the - behavior of XEmacs. - diff --git a/info/xemacs.info-16 b/info/xemacs.info-16 index 8f34089..d9f4b8b 100644 --- a/info/xemacs.info-16 +++ b/info/xemacs.info-16 @@ -30,6 +30,251 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Recursive Edit, Next: Dissociated Press, Prev: Hardcopy, Up: Top + +Recursive Editing Levels +======================== + + A "recursive edit" is a situation in which you are using XEmacs +commands to perform arbitrary editing while in the middle of another +XEmacs command. For example, when you type `C-r' inside a +`query-replace', you enter a recursive edit in which you can change the +current buffer. When you exit from the recursive edit, you go back to +the `query-replace'. + + "Exiting" a recursive edit means returning to the unfinished +command, which continues execution. For example, exiting the recursive +edit requested by `C-r' in `query-replace' causes query replacing to +resume. Exiting is done with `C-M-c' (`exit-recursive-edit'). + + You can also "abort" a recursive edit. This is like exiting, but +also quits the unfinished command immediately. Use the command `C-]' +(`abort-recursive-edit') for this. *Note Quitting::. + + The mode line shows you when you are in a recursive edit by +displaying square brackets around the parentheses that always surround +the major and minor mode names. Every window's mode line shows the +square brackets, since XEmacs as a whole, rather than any particular +buffer, is in a recursive edit. + + It is possible to be in recursive edits within recursive edits. For +example, after typing `C-r' in a `query-replace', you might type a +command that entered the debugger. In such a case, two or more sets of +square brackets appear in the mode line(s). Exiting the inner +recursive edit (here with the debugger `c' command) resumes the +query-replace command where it called the debugger. After the end of +the query-replace command, you would be able to exit the first +recursive edit. Aborting exits only one level of recursive edit; it +returns to the command level of the previous recursive edit. You can +then abort that one as well. + + The command `M-x top-level' aborts all levels of recursive edits, +returning immediately to the top level command reader. + + The text you edit inside the recursive edit need not be the same text +that you were editing at top level. If the command that invokes the +recursive edit selects a different buffer first, that is the buffer you +will edit recursively. You can switch buffers within the recursive edit +in the normal manner (as long as the buffer-switching keys have not been +rebound). While you could theoretically do the rest of your editing +inside the recursive edit, including visiting files, this could have +surprising effects (such as stack overflow) from time to time. It is +best if you always exit or abort a recursive edit when you no longer +need it. + + In general, XEmacs tries to avoid using recursive edits. It is +usually preferable to allow users to switch among the possible editing +modes in any order they like. With recursive edits, the only way to get +to another state is to go "back" to the state that the recursive edit +was invoked from. + + +File: xemacs.info, Node: Dissociated Press, Next: CONX, Prev: Recursive Edit, Up: Top + +Dissociated Press +================= + + `M-x dissociated-press' is a command for scrambling a file of text +either word by word or character by character. Starting from a buffer +of straight English, it produces extremely amusing output. The input +comes from the current XEmacs buffer. Dissociated Press writes its +output in a buffer named `*Dissociation*', and redisplays that buffer +after every couple of lines (approximately) to facilitate reading it. + + `dissociated-press' asks every so often whether to continue +operating. Answer `n' to stop it. You can also stop at any time by +typing `C-g'. The dissociation output remains in the `*Dissociation*' +buffer for you to copy elsewhere if you wish. + + Dissociated Press operates by jumping at random from one point in the +buffer to another. In order to produce plausible output rather than +gibberish, it insists on a certain amount of overlap between the end of +one run of consecutive words or characters and the start of the next. +That is, if it has just printed out `president' and then decides to +jump to a different point in the file, it might spot the `ent' in +`pentagon' and continue from there, producing `presidentagon'. Long +sample texts produce the best results. + + A positive argument to `M-x dissociated-press' tells it to operate +character by character, and specifies the number of overlap characters. +A negative argument tells it to operate word by word and specifies the +number of overlap words. In this mode, whole words are treated as the +elements to be permuted, rather than characters. No argument is +equivalent to an argument of two. For your againformation, the output +goes only into the buffer `*Dissociation*'. The buffer you start with +is not changed. + + Dissociated Press produces nearly the same results as a Markov chain +based on a frequency table constructed from the sample text. It is, +however, an independent, ignoriginal invention. Dissociated Press +techniquitously copies several consecutive characters from the sample +between random choices, whereas a Markov chain would choose randomly for +each word or character. This makes for more plausible sounding results +and runs faster. + + It is a mustatement that too much use of Dissociated Press can be a +developediment to your real work. Sometimes to the point of outragedy. +And keep dissociwords out of your documentation, if you want it to be +well userenced and properbose. Have fun. Your buggestions are welcome. + + +File: xemacs.info, Node: CONX, Next: Amusements, Prev: Dissociated Press, Up: Top + +CONX +==== + + Besides producing a file of scrambled text with Dissociated Press, +you can generate random sentences by using CONX. + +`M-x conx' + Generate random sentences in the `*conx*' buffer. + +`M-x conx-buffer' + Absorb the text in the current buffer into the `conx' database. + +`M-x conx-init' + Forget the current word-frequency tree. + +`M-x conx-load' + Load a `conx' database that has been previously saved with `M-x + conx-save'. + +`M-x conx-region' + Absorb the text in the current buffer into the `conx' database. + +`M-x conx-save' + Save the current `conx' database to a file for future retrieval. + + Copy text from a buffer using `M-x conx-buffer' or `M-x conx-region' +and then type `M-x conx'. Output is continuously generated until you +type <^G>. You can save the `conx' database to a file with `M-x +conx-save', which you can retrieve with `M-x conx-load'. To clear the +database, use `M-x conx-init'. + + +File: xemacs.info, Node: Amusements, Next: Emulation, Prev: CONX, Up: Top + +Other Amusements +================ + + If you are a little bit bored, you can try `M-x hanoi'. If you are +considerably bored, give it a numeric argument. If you are very, very +bored, try an argument of 9. Sit back and watch. + + When you are frustrated, try the famous Eliza program. Just do `M-x +doctor'. End each input by typing `RET' twice. + + When you are feeling strange, type `M-x yow'. + + +File: xemacs.info, Node: Emulation, Next: Customization, Prev: Amusements, Up: Top + +Emulation +========= + + XEmacs can be programmed to emulate (more or less) most other +editors. Standard facilities can emulate these: + +Viper (a vi emulator) + In XEmacs, Viper is the preferred emulation of vi within XEmacs. + Viper is designed to allow you to take advantage of the best + features of XEmacs while still doing your basic editing in a + familiar, vi-like fashion. Viper provides various different + levels of vi emulation, from a quite complete emulation that + allows almost no access to native XEmacs commands, to an "expert" + mode that combines the most useful vi commands with the most + useful XEmacs commands. + + To start Viper, put the command + + (viper-mode) + + in your `.emacs' file. + + Viper comes with a separate manual that is provided standard with + the XEmacs distribution. + +EDT (DEC VMS editor) + Turn on EDT emulation with `M-x edt-emulation-on'. `M-x + edt-emulation-off' restores normal Emacs command bindings. + + Most of the EDT emulation commands are keypad keys, and most + standard Emacs key bindings are still available. The EDT + emulation rebindings are done in the global keymap, so there is no + problem switching buffers or major modes while in EDT emulation. + +Gosling Emacs + Turn on emulation of Gosling Emacs (aka Unipress Emacs) with `M-x + set-gosmacs-bindings'. This redefines many keys, mostly on the + `C-x' and `ESC' prefixes, to work as they do in Gosmacs. `M-x + set-gnu-bindings' returns to normal XEmacs by rebinding the same + keys to the definitions they had at the time `M-x + set-gosmacs-bindings' was done. + + It is also possible to run Mocklisp code written for Gosling Emacs. + *Note Mocklisp::. + + +File: xemacs.info, Node: Customization, Next: Quitting, Prev: Emulation, Up: Top + +Customization +************* + + This chapter talks about various topics relevant to adapting the +behavior of Emacs in minor ways. + + All kinds of customization affect only the particular Emacs job that +you do them in. They are completely lost when you kill the Emacs job, +and have no effect on other Emacs jobs you may run at the same time or +later. The only way an Emacs job can affect anything outside of it is +by writing a file; in particular, the only way to make a customization +`permanent' is to put something in your `.emacs' file or other +appropriate file to do the customization in each session. *Note Init +File::. + +* Menu: + +* Minor Modes:: Each minor mode is one feature you can turn on + independently of any others. +* Variables:: Many Emacs commands examine Emacs variables + to decide what to do; by setting variables, + you can control their functioning. +* Keyboard Macros:: A keyboard macro records a sequence of keystrokes + to be replayed with a single command. +* Key Bindings:: The keymaps say what command each key runs. + By changing them, you can "redefine keys". +* Syntax:: The syntax table controls how words and expressions + are parsed. +* Init File:: How to write common customizations in the `.emacs' + file. +* Audible Bell:: Changing how Emacs sounds the bell. +* Faces:: Changing the fonts and colors of a region of text. +* Frame Components:: Controlling the presence and positions of the + menubar, toolbars, and gutters. +* X Resources:: X resources controlling various aspects of the + behavior of XEmacs. + + File: xemacs.info, Node: Minor Modes, Next: Variables, Up: Customization Minor Modes @@ -897,285 +1142,3 @@ letters and hyphens. before it can be executed. This is done to protect beginners from surprises. - -File: xemacs.info, Node: Keymaps, Next: Rebinding, Up: Key Bindings - -Keymaps -------- - - The bindings between characters and command functions are recorded in -data structures called "keymaps". Emacs has many of these. One, the -"global" keymap, defines the meanings of the single-character keys that -are defined regardless of major mode. It is the value of the variable -`global-map'. - - Each major mode has another keymap, its "local keymap", which -contains overriding definitions for the single-character keys that are -redefined in that mode. Each buffer records which local keymap is -installed for it at any time, and the current buffer's local keymap is -the only one that directly affects command execution. The local keymaps -for Lisp mode, C mode, and many other major modes always exist even when -not in use. They are the values of the variables `lisp-mode-map', -`c-mode-map', and so on. For less frequently used major modes, the -local keymap is sometimes constructed only when the mode is used for the -first time in a session, to save space. - - There are local keymaps for the minibuffer, too; they contain various -completion and exit commands. - - * `minibuffer-local-map' is used for ordinary input (no completion). - - * `minibuffer-local-ns-map' is similar, except that exits just - like . This is used mainly for Mocklisp compatibility. - - * `minibuffer-local-completion-map' is for permissive completion. - - * `minibuffer-local-must-match-map' is for strict completion and for - cautious completion. - - * `repeat-complex-command-map' is for use in `C-x '. - - * `isearch-mode-map' contains the bindings of the special keys which - are bound in the pseudo-mode entered with `C-s' and `C-r'. - - Finally, each prefix key has a keymap which defines the key sequences -that start with it. For example, `ctl-x-map' is the keymap used for -characters following a `C-x'. - - * `ctl-x-map' is the variable name for the map used for characters - that follow `C-x'. - - * `help-map' is used for characters that follow `C-h'. - - * `esc-map' is for characters that follow . All Meta characters - are actually defined by this map. - - * `ctl-x-4-map' is for characters that follow `C-x 4'. - - * `mode-specific-map' is for characters that follow `C-c'. - - The definition of a prefix key is the keymap to use for looking up -the following character. Sometimes the definition is actually a Lisp -symbol whose function definition is the following character keymap. The -effect is the same, but it provides a command name for the prefix key -that you can use as a description of what the prefix key is for. Thus -the binding of `C-x' is the symbol `Ctl-X-Prefix', whose function -definition is the keymap for `C-x' commands, the value of `ctl-x-map'. - - Prefix key definitions can appear in either the global map or a -local map. The definitions of `C-c', `C-x', `C-h', and as prefix -keys appear in the global map, so these prefix keys are always -available. Major modes can locally redefine a key as a prefix by -putting a prefix key definition for it in the local map. - - A mode can also put a prefix definition of a global prefix character -such as `C-x' into its local map. This is how major modes override the -definitions of certain keys that start with `C-x'. This case is -special, because the local definition does not entirely replace the -global one. When both the global and local definitions of a key are -other keymaps, the next character is looked up in both keymaps, with -the local definition overriding the global one. The character after the -`C-x' is looked up in both the major mode's own keymap for redefined -`C-x' commands and in `ctl-x-map'. If the major mode's own keymap for -`C-x' commands contains `nil', the definition from the global keymap -for `C-x' commands is used. - - -File: xemacs.info, Node: Rebinding, Next: Disabling, Prev: Keymaps, Up: Key Bindings - -Changing Key Bindings ---------------------- - - You can redefine an Emacs key by changing its entry in a keymap. -You can change the global keymap, in which case the change is effective -in all major modes except those that have their own overriding local -definitions for the same key. Or you can change the current buffer's -local map, which affects all buffers using the same major mode. - -* Menu: - -* Interactive Rebinding:: Changing Key Bindings Interactively -* Programmatic Rebinding:: Changing Key Bindings Programmatically -* Key Bindings Using Strings:: Using Strings for Changing Key Bindings - - -File: xemacs.info, Node: Interactive Rebinding, Next: Programmatic Rebinding, Up: Rebinding - -Changing Key Bindings Interactively -................................... - -`M-x global-set-key KEY CMD ' - Defines KEY globally to run CMD. - -`M-x local-set-key KEYS CMD ' - Defines KEY locally (in the major mode now in effect) to run CMD. - -`M-x local-unset-key KEYS ' - Removes the local binding of KEY. - - CMD is a symbol naming an interactively-callable function. - - When called interactively, KEY is the next complete key sequence -that you type. When called as a function, KEY is a string, a vector of -events, or a vector of key-description lists as described in the -`define-key' function description. The binding goes in the current -buffer's local map, which is shared with other buffers in the same -major mode. - - The following example: - - M-x global-set-key C-f next-line - -redefines `C-f' to move down a line. The fact that CMD is read second -makes it serve as a kind of confirmation for KEY. - - These functions offer no way to specify a particular prefix keymap as -the one to redefine in, but that is not necessary, as you can include -prefixes in KEY. KEY is read by reading characters one by one until -they amount to a complete key (that is, not a prefix key). Thus, if -you type `C-f' for KEY, Emacs enters the minibuffer immediately to read -CMD. But if you type `C-x', another character is read; if that -character is `4', another character is read, and so on. For example, - - M-x global-set-key C-x 4 $ spell-other-window - -redefines `C-x 4 $' to run the (fictitious) command -`spell-other-window'. - - The most general way to modify a keymap is the function -`define-key', used in Lisp code (such as your `.emacs' file). -`define-key' takes three arguments: the keymap, the key to modify in -it, and the new definition. *Note Init File::, for an example. -`substitute-key-definition' is used similarly; it takes three -arguments, an old definition, a new definition, and a keymap, and -redefines in that keymap all keys that were previously defined with the -old definition to have the new definition instead. - - -File: xemacs.info, Node: Programmatic Rebinding, Next: Key Bindings Using Strings, Prev: Interactive Rebinding, Up: Rebinding - -Changing Key Bindings Programmatically -...................................... - - You can use the functions `global-set-key' and `define-key' to -rebind keys under program control. - -``(global-set-key KEYS CMD)'' - Defines KEYS globally to run CMD. - -``(define-key KEYMAP KEYS DEF)'' - Defines KEYS to run DEF in the keymap KEYMAP. - - KEYMAP is a keymap object. - - KEYS is the sequence of keystrokes to bind. - - DEF is anything that can be a key's definition: - - * `nil', meaning key is undefined in this keymap - - * A command, that is, a Lisp function suitable for interactive - calling - - * A string or key sequence vector, which is treated as a keyboard - macro - - * A keymap to define a prefix key - - * A symbol so that when the key is looked up, the symbol stands for - its function definition, which should at that time be one of the - above, or another symbol whose function definition is used, and so - on - - * A cons, `(string . defn)', meaning that DEFN is the definition - (DEFN should be a valid definition in its own right) - - * A cons, `(keymap . char)', meaning use the definition of CHAR in - map KEYMAP - - For backward compatibility, XEmacs allows you to specify key -sequences as strings. However, the preferred method is to use the -representations of key sequences as vectors of keystrokes. *Note -Keystrokes::, for more information about the rules for constructing key -sequences. - - Emacs allows you to abbreviate representations for key sequences in -most places where there is no ambiguity. Here are some rules for -abbreviation: - - * The keysym by itself is equivalent to a list of just that keysym, - i.e., `f1' is equivalent to `(f1)'. - - * A keystroke by itself is equivalent to a vector containing just - that keystroke, i.e., `(control a)' is equivalent to `[(control - a)]'. - - * You can use ASCII codes for keysyms that have them. i.e., `65' is - equivalent to `A'. (This is not so much an abbreviation as an - alternate representation.) - - Here are some examples of programmatically binding keys: - - - ;;; Bind `my-command' to - (global-set-key 'f1 'my-command) - - ;;; Bind `my-command' to Shift-f1 - (global-set-key '(shift f1) 'my-command) - - ;;; Bind `my-command' to C-c Shift-f1 - (global-set-key '[(control c) (shift f1)] 'my-command) - - ;;; Bind `my-command' to the middle mouse button. - (global-set-key 'button2 'my-command) - - ;;; Bind `my-command' to - ;;; in the keymap that is in force when you are running `dired'. - (define-key dired-mode-map '(meta control button3) 'my-command) - - -File: xemacs.info, Node: Key Bindings Using Strings, Prev: Programmatic Rebinding, Up: Rebinding - -Using Strings for Changing Key Bindings -....................................... - - For backward compatibility, you can still use strings to represent -key sequences. Thus you can use commands like the following: - - ;;; Bind `end-of-line' to C-f - (global-set-key "\C-f" 'end-of-line) - - Note, however, that in some cases you may be binding more than one -key sequence by using a single command. This situation can arise -because in ASCII, `C-i' and have the same representation. -Therefore, when Emacs sees: - - (global-set-key "\C-i" 'end-of-line) - - it is unclear whether the user intended to bind `C-i' or . The -solution XEmacs adopts is to bind both of these key sequences. - - After binding a command to two key sequences with a form like: - - (define-key global-map "\^X\^I" 'command-1) - - it is possible to redefine only one of those sequences like so: - - (define-key global-map [(control x) (control i)] 'command-2) - (define-key global-map [(control x) tab] 'command-3) - - This applies only when running under a window system. If you are -talking to Emacs through an ASCII-only channel, you do not get any of -these features. - - Here is a table of pairs of key sequences that behave in a similar -fashion: - - control h backspace - control l clear - control i tab - control m return - control j linefeed - control [ escape - control @ control space - diff --git a/info/xemacs.info-17 b/info/xemacs.info-17 index 24d4a3d..beafba4 100644 --- a/info/xemacs.info-17 +++ b/info/xemacs.info-17 @@ -30,6 +30,288 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Keymaps, Next: Rebinding, Up: Key Bindings + +Keymaps +------- + + The bindings between characters and command functions are recorded in +data structures called "keymaps". Emacs has many of these. One, the +"global" keymap, defines the meanings of the single-character keys that +are defined regardless of major mode. It is the value of the variable +`global-map'. + + Each major mode has another keymap, its "local keymap", which +contains overriding definitions for the single-character keys that are +redefined in that mode. Each buffer records which local keymap is +installed for it at any time, and the current buffer's local keymap is +the only one that directly affects command execution. The local keymaps +for Lisp mode, C mode, and many other major modes always exist even when +not in use. They are the values of the variables `lisp-mode-map', +`c-mode-map', and so on. For less frequently used major modes, the +local keymap is sometimes constructed only when the mode is used for the +first time in a session, to save space. + + There are local keymaps for the minibuffer, too; they contain various +completion and exit commands. + + * `minibuffer-local-map' is used for ordinary input (no completion). + + * `minibuffer-local-ns-map' is similar, except that exits just + like . This is used mainly for Mocklisp compatibility. + + * `minibuffer-local-completion-map' is for permissive completion. + + * `minibuffer-local-must-match-map' is for strict completion and for + cautious completion. + + * `repeat-complex-command-map' is for use in `C-x '. + + * `isearch-mode-map' contains the bindings of the special keys which + are bound in the pseudo-mode entered with `C-s' and `C-r'. + + Finally, each prefix key has a keymap which defines the key sequences +that start with it. For example, `ctl-x-map' is the keymap used for +characters following a `C-x'. + + * `ctl-x-map' is the variable name for the map used for characters + that follow `C-x'. + + * `help-map' is used for characters that follow `C-h'. + + * `esc-map' is for characters that follow . All Meta characters + are actually defined by this map. + + * `ctl-x-4-map' is for characters that follow `C-x 4'. + + * `mode-specific-map' is for characters that follow `C-c'. + + The definition of a prefix key is the keymap to use for looking up +the following character. Sometimes the definition is actually a Lisp +symbol whose function definition is the following character keymap. The +effect is the same, but it provides a command name for the prefix key +that you can use as a description of what the prefix key is for. Thus +the binding of `C-x' is the symbol `Ctl-X-Prefix', whose function +definition is the keymap for `C-x' commands, the value of `ctl-x-map'. + + Prefix key definitions can appear in either the global map or a +local map. The definitions of `C-c', `C-x', `C-h', and as prefix +keys appear in the global map, so these prefix keys are always +available. Major modes can locally redefine a key as a prefix by +putting a prefix key definition for it in the local map. + + A mode can also put a prefix definition of a global prefix character +such as `C-x' into its local map. This is how major modes override the +definitions of certain keys that start with `C-x'. This case is +special, because the local definition does not entirely replace the +global one. When both the global and local definitions of a key are +other keymaps, the next character is looked up in both keymaps, with +the local definition overriding the global one. The character after the +`C-x' is looked up in both the major mode's own keymap for redefined +`C-x' commands and in `ctl-x-map'. If the major mode's own keymap for +`C-x' commands contains `nil', the definition from the global keymap +for `C-x' commands is used. + + +File: xemacs.info, Node: Rebinding, Next: Disabling, Prev: Keymaps, Up: Key Bindings + +Changing Key Bindings +--------------------- + + You can redefine an Emacs key by changing its entry in a keymap. +You can change the global keymap, in which case the change is effective +in all major modes except those that have their own overriding local +definitions for the same key. Or you can change the current buffer's +local map, which affects all buffers using the same major mode. + +* Menu: + +* Interactive Rebinding:: Changing Key Bindings Interactively +* Programmatic Rebinding:: Changing Key Bindings Programmatically +* Key Bindings Using Strings:: Using Strings for Changing Key Bindings + + +File: xemacs.info, Node: Interactive Rebinding, Next: Programmatic Rebinding, Up: Rebinding + +Changing Key Bindings Interactively +................................... + +`M-x global-set-key KEY CMD ' + Defines KEY globally to run CMD. + +`M-x local-set-key KEYS CMD ' + Defines KEY locally (in the major mode now in effect) to run CMD. + +`M-x local-unset-key KEYS ' + Removes the local binding of KEY. + + CMD is a symbol naming an interactively-callable function. + + When called interactively, KEY is the next complete key sequence +that you type. When called as a function, KEY is a string, a vector of +events, or a vector of key-description lists as described in the +`define-key' function description. The binding goes in the current +buffer's local map, which is shared with other buffers in the same +major mode. + + The following example: + + M-x global-set-key C-f next-line + +redefines `C-f' to move down a line. The fact that CMD is read second +makes it serve as a kind of confirmation for KEY. + + These functions offer no way to specify a particular prefix keymap as +the one to redefine in, but that is not necessary, as you can include +prefixes in KEY. KEY is read by reading characters one by one until +they amount to a complete key (that is, not a prefix key). Thus, if +you type `C-f' for KEY, Emacs enters the minibuffer immediately to read +CMD. But if you type `C-x', another character is read; if that +character is `4', another character is read, and so on. For example, + + M-x global-set-key C-x 4 $ spell-other-window + +redefines `C-x 4 $' to run the (fictitious) command +`spell-other-window'. + + The most general way to modify a keymap is the function +`define-key', used in Lisp code (such as your `.emacs' file). +`define-key' takes three arguments: the keymap, the key to modify in +it, and the new definition. *Note Init File::, for an example. +`substitute-key-definition' is used similarly; it takes three +arguments, an old definition, a new definition, and a keymap, and +redefines in that keymap all keys that were previously defined with the +old definition to have the new definition instead. + + +File: xemacs.info, Node: Programmatic Rebinding, Next: Key Bindings Using Strings, Prev: Interactive Rebinding, Up: Rebinding + +Changing Key Bindings Programmatically +...................................... + + You can use the functions `global-set-key' and `define-key' to +rebind keys under program control. + +``(global-set-key KEYS CMD)'' + Defines KEYS globally to run CMD. + +``(define-key KEYMAP KEYS DEF)'' + Defines KEYS to run DEF in the keymap KEYMAP. + + KEYMAP is a keymap object. + + KEYS is the sequence of keystrokes to bind. + + DEF is anything that can be a key's definition: + + * `nil', meaning key is undefined in this keymap + + * A command, that is, a Lisp function suitable for interactive + calling + + * A string or key sequence vector, which is treated as a keyboard + macro + + * A keymap to define a prefix key + + * A symbol so that when the key is looked up, the symbol stands for + its function definition, which should at that time be one of the + above, or another symbol whose function definition is used, and so + on + + * A cons, `(string . defn)', meaning that DEFN is the definition + (DEFN should be a valid definition in its own right) + + * A cons, `(keymap . char)', meaning use the definition of CHAR in + map KEYMAP + + For backward compatibility, XEmacs allows you to specify key +sequences as strings. However, the preferred method is to use the +representations of key sequences as vectors of keystrokes. *Note +Keystrokes::, for more information about the rules for constructing key +sequences. + + Emacs allows you to abbreviate representations for key sequences in +most places where there is no ambiguity. Here are some rules for +abbreviation: + + * The keysym by itself is equivalent to a list of just that keysym, + i.e., `f1' is equivalent to `(f1)'. + + * A keystroke by itself is equivalent to a vector containing just + that keystroke, i.e., `(control a)' is equivalent to `[(control + a)]'. + + * You can use ASCII codes for keysyms that have them. i.e., `65' is + equivalent to `A'. (This is not so much an abbreviation as an + alternate representation.) + + Here are some examples of programmatically binding keys: + + + ;;; Bind `my-command' to + (global-set-key 'f1 'my-command) + + ;;; Bind `my-command' to Shift-f1 + (global-set-key '(shift f1) 'my-command) + + ;;; Bind `my-command' to C-c Shift-f1 + (global-set-key '[(control c) (shift f1)] 'my-command) + + ;;; Bind `my-command' to the middle mouse button. + (global-set-key 'button2 'my-command) + + ;;; Bind `my-command' to + ;;; in the keymap that is in force when you are running `dired'. + (define-key dired-mode-map '(meta control button3) 'my-command) + + +File: xemacs.info, Node: Key Bindings Using Strings, Prev: Programmatic Rebinding, Up: Rebinding + +Using Strings for Changing Key Bindings +....................................... + + For backward compatibility, you can still use strings to represent +key sequences. Thus you can use commands like the following: + + ;;; Bind `end-of-line' to C-f + (global-set-key "\C-f" 'end-of-line) + + Note, however, that in some cases you may be binding more than one +key sequence by using a single command. This situation can arise +because in ASCII, `C-i' and have the same representation. +Therefore, when Emacs sees: + + (global-set-key "\C-i" 'end-of-line) + + it is unclear whether the user intended to bind `C-i' or . The +solution XEmacs adopts is to bind both of these key sequences. + + After binding a command to two key sequences with a form like: + + (define-key global-map "\^X\^I" 'command-1) + + it is possible to redefine only one of those sequences like so: + + (define-key global-map [(control x) (control i)] 'command-2) + (define-key global-map [(control x) tab] 'command-3) + + This applies only when running under a window system. If you are +talking to Emacs through an ASCII-only channel, you do not get any of +these features. + + Here is a table of pairs of key sequences that behave in a similar +fashion: + + control h backspace + control l clear + control i tab + control m return + control j linefeed + control [ escape + control @ control space + + File: xemacs.info, Node: Disabling, Prev: Rebinding, Up: Key Bindings Disabling Commands @@ -603,7 +885,7 @@ kernel of Emacs uses. You type something other than `yes' or `no'  -File: xemacs.info, Node: Faces, Next: X Resources, Prev: Audible Bell, Up: Customization +File: xemacs.info, Node: Faces, Next: Frame Components, Prev: Audible Bell, Up: Customization Faces ===== @@ -720,7 +1002,20 @@ argument is provided, the face is changed only in that frame; otherwise, it is changed in all frames.  -File: xemacs.info, Node: X Resources, Prev: Faces, Up: Customization +File: xemacs.info, Node: Frame Components, Next: X Resources, Prev: Faces, Up: Customization + +Frame Components +================ + + You can control the presence and position of most frame components, +such as the menubar, toolbars, and gutters. + + This section is not written yet. Try the Lisp Reference Manual: +*Note Menubar: (lispref)Menubar, *Note Toolbar Intro: (lispref)Toolbar +Intro, and *Note Gutter Intro: (lispref)Gutter Intro. + + +File: xemacs.info, Node: X Resources, Prev: Frame Components, Up: Customization X Resources =========== @@ -985,301 +1280,3 @@ Resource List resources are used to initialize the variables `x-pointer-foreground-color' and `x-pointer-background-color'. - -File: xemacs.info, Node: Face Resources, Next: Widgets, Prev: Resource List, Up: X Resources - -Face Resources --------------- - - The attributes of faces are also per-frame. They can be specified as: - - Emacs.FACE_NAME.parameter: value - -or - - Emacs*FRAME_NAME.FACE_NAME.parameter: value - -Faces accept the following resources: - -`attributeFont' (class `AttributeFont'): font-name - The font of this face. - -`attributeForeground' (class `AttributeForeground'): color-name -`attributeBackground' (class `AttributeBackground'): color-name - The foreground and background colors of this face. - -`attributeBackgroundPixmap' (class `AttributeBackgroundPixmap'): file-name - The name of an XBM file (or XPM file, if your version of Emacs - supports XPM), to use as a background stipple. - -`attributeUnderline' (class `AttributeUnderline'): boolean - Whether text in this face should be underlined. - - All text is displayed in some face, defaulting to the face named -`default'. To set the font of normal text, use -`Emacs*default.attributeFont'. To set it in the frame named `fred', use -`Emacs*fred.default.attributeFont'. - - These are the names of the predefined faces: - -`default' - Everything inherits from this. - -`bold' - If this is not specified in the resource database, Emacs tries to - find a bold version of the font of the default face. - -`italic' - If this is not specified in the resource database, Emacs tries to - find an italic version of the font of the default face. - -`bold-italic' - If this is not specified in the resource database, Emacs tries to - find a bold-italic version of the font of the default face. - -`modeline' - This is the face that the modeline is displayed in. If not - specified in the resource database, it is determined from the - default face by reversing the foreground and background colors. - -`highlight' - This is the face that highlighted extents (for example, Info - cross-references and possible completions, when the mouse passes - over them) are displayed in. - -`left-margin' -`right-margin' - These are the faces that the left and right annotation margins are - displayed in. - -`zmacs-region' - This is the face that mouse selections are displayed in. - -`isearch' - This is the face that the matched text being searched for is - displayed in. - -`info-node' - This is the face of info menu items. If unspecified, it is copied - from `bold-italic'. - -`info-xref' - This is the face of info cross-references. If unspecified, it is - copied from `bold'. (Note that, when the mouse passes over a - cross-reference, the cross-reference's face is determined from a - combination of the `info-xref' and `highlight' faces.) - - Other packages might define their own faces; to see a list of all -faces, use any of the interactive face-manipulation commands such as -`set-face-font' and type `?' when you are prompted for the name of a -face. - - If the `bold', `italic', and `bold-italic' faces are not specified -in the resource database, then XEmacs attempts to derive them from the -font of the default face. It can only succeed at this if you have -specified the default font using the XLFD (X Logical Font Description) -format, which looks like - - *-courier-medium-r-*-*-*-120-*-*-*-*-*-* - -If you use any of the other, less strict font name formats, some of -which look like - - lucidasanstypewriter-12 - fixed - 9x13 - - then XEmacs won't be able to guess the names of the bold and italic -versions. All X fonts can be referred to via XLFD-style names, so you -should use those forms. See the man pages for `X(1)', `xlsfonts(1)', -and `xfontsel(1)'. - - -File: xemacs.info, Node: Widgets, Next: Menubar Resources, Prev: Face Resources, Up: X Resources - -Widgets -------- - - There are several structural widgets between the terminal EmacsFrame -widget and the top level ApplicationShell; the exact names and types of -these widgets change from release to release (for example, they changed -between 19.8 and 19.9, 19.9 and 19.10, and 19.10 and 19.12) and are -subject to further change in the future, so you should avoid mentioning -them in your resource database. The above-mentioned syntaxes should be -forward- compatible. As of 19.13, the exact widget hierarchy is as -follows: - - INVOCATION-NAME "shell" "container" FRAME-NAME - x-emacs-application-class "EmacsShell" "EmacsManager" "EmacsFrame" - - where INVOCATION-NAME is the terminal component of the name of the -XEmacs executable (usually `xemacs'), and `x-emacs-application-class' -is generally `Emacs'. - - -File: xemacs.info, Node: Menubar Resources, Prev: Widgets, Up: X Resources - -Menubar Resources ------------------ - - As the menubar is implemented as a widget which is not a part of -XEmacs proper, it does not use the fac" mechanism for specifying fonts -and colors: It uses whatever resources are appropriate to the type of -widget which is used to implement it. - - If Emacs was compiled to use only the Motif-lookalike menu widgets, -then one way to specify the font of the menubar would be - - Emacs*menubar*font: *-courier-medium-r-*-*-*-120-*-*-*-*-*-* - - If the Motif library is being used, then one would have to use - - Emacs*menubar*fontList: *-courier-medium-r-*-*-*-120-*-*-*-*-*-* - - because the Motif library uses the `fontList' resource name instead -of `font', which has subtly different semantics. - - The same is true of the scrollbars: They accept whichever resources -are appropriate for the toolkit in use. - - -File: xemacs.info, Node: Quitting, Next: Lossage, Prev: Customization, Up: Top - -Quitting and Aborting -===================== - -`C-g' - Quit. Cancel running or partially typed command. - -`C-]' - Abort innermost recursive editing level and cancel the command - which invoked it (`abort-recursive-edit'). - -`M-x top-level' - Abort all recursive editing levels that are currently executing. - -`C-x u' - Cancel an already-executed command, usually (`undo'). - - There are two ways of cancelling commands which are not finished -executing: "quitting" with `C-g', and "aborting" with `C-]' or `M-x -top-level'. Quitting is cancelling a partially typed command or one -which is already running. Aborting is getting out of a recursive -editing level and cancelling the command that invoked the recursive -edit. - - Quitting with `C-g' is used for getting rid of a partially typed -command or a numeric argument that you don't want. It also stops a -running command in the middle in a relatively safe way, so you can use -it if you accidentally start executing a command that takes a long -time. In particular, it is safe to quit out of killing; either your -text will ALL still be there, or it will ALL be in the kill ring (or -maybe both). Quitting an incremental search does special things -documented under searching; in general, it may take two successive -`C-g' characters to get out of a search. `C-g' works by setting the -variable `quit-flag' to `t' the instant `C-g' is typed; Emacs Lisp -checks this variable frequently and quits if it is non-`nil'. `C-g' is -only actually executed as a command if it is typed while Emacs is -waiting for input. - - If you quit twice in a row before the first `C-g' is recognized, you -activate the "emergency escape" feature and return to the shell. *Note -Emergency Escape::. - - You can use `C-]' (`abort-recursive-edit') to get out of a recursive -editing level and cancel the command which invoked it. Quitting with -`C-g' does not do this, and could not do this because it is used to -cancel a partially typed command within the recursive editing level. -Both operations are useful. For example, if you are in the Emacs -debugger (*note Lisp Debug::) and have typed `C-u 8' to enter a numeric -argument, you can cancel that argument with `C-g' and remain in the -debugger. - - The command `M-x top-level' is equivalent to "enough" `C-]' commands -to get you out of all the levels of recursive edits that you are in. -`C-]' only gets you out one level at a time, but `M-x top-level' goes -out all levels at once. Both `C-]' and `M-x top-level' are like all -other commands and unlike `C-g' in that they are effective only when -Emacs is ready for a command. `C-]' is an ordinary key and has its -meaning only because of its binding in the keymap. *Note Recursive -Edit::. - - `C-x u' (`undo') is not strictly speaking a way of cancelling a -command, but you can think of it as cancelling a command already -finished executing. *Note Undo::. - - -File: xemacs.info, Node: Lossage, Next: Bugs, Prev: Quitting, Up: Top - -Dealing With Emacs Trouble -========================== - - This section describes various conditions in which Emacs fails to -work, and how to recognize them and correct them. - -* Menu: - -* Stuck Recursive:: `[...]' in mode line around the parentheses. -* Screen Garbled:: Garbage on the screen. -* Text Garbled:: Garbage in the text. -* Unasked-for Search:: Spontaneous entry to incremental search. -* Emergency Escape:: Emergency escape--- - What to do if Emacs stops responding. -* Total Frustration:: When you are at your wits' end. - - -File: xemacs.info, Node: Stuck Recursive, Next: Screen Garbled, Prev: Lossage, Up: Lossage - -Recursive Editing Levels ------------------------- - - Recursive editing levels are important and useful features of Emacs, -but they can seem like malfunctions to the user who does not understand -them. - - If the mode line has square brackets `[...]' around the parentheses -that contain the names of the major and minor modes, you have entered a -recursive editing level. If you did not do this on purpose, or if you -don't understand what that means, you should just get out of the -recursive editing level. To do so, type `M-x top-level'. This is -called getting back to top level. *Note Recursive Edit::. - - -File: xemacs.info, Node: Screen Garbled, Next: Text Garbled, Prev: Stuck Recursive, Up: Lossage - -Garbage on the Screen ---------------------- - - If the data on the screen looks wrong, the first thing to do is see -whether the text is actually wrong. Type `C-l', to redisplay the -entire screen. If the text appears correct after this, the problem was -entirely in the previous screen update. - - Display updating problems often result from an incorrect termcap -entry for the terminal you are using. The file `etc/TERMS' in the Emacs -distribution gives the fixes for known problems of this sort. -`INSTALL' contains general advice for these problems in one of its -sections. Very likely there is simply insufficient padding for certain -display operations. To investigate the possibility that you have this -sort of problem, try Emacs on another terminal made by a different -manufacturer. If problems happen frequently on one kind of terminal but -not another kind, the real problem is likely to be a bad termcap entry, -though it could also be due to a bug in Emacs that appears for terminals -that have or lack specific features. - - -File: xemacs.info, Node: Text Garbled, Next: Unasked-for Search, Prev: Screen Garbled, Up: Lossage - -Garbage in the Text -------------------- - - If `C-l' shows that the text is wrong, try undoing the changes to it -using `C-x u' until it gets back to a state you consider correct. Also -try `C-h l' to find out what command you typed to produce the observed -results. - - If a large portion of text appears to be missing at the beginning or -end of the buffer, check for the word `Narrow' in the mode line. If it -appears, the text is still present, but marked off-limits. To make it -visible again, type `C-x n w'. *Note Narrowing::. - diff --git a/info/xemacs.info-18 b/info/xemacs.info-18 index 406752e..f770b9b 100644 --- a/info/xemacs.info-18 +++ b/info/xemacs.info-18 @@ -30,6 +30,304 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Face Resources, Next: Widgets, Prev: Resource List, Up: X Resources + +Face Resources +-------------- + + The attributes of faces are also per-frame. They can be specified as: + + Emacs.FACE_NAME.parameter: value + +or + + Emacs*FRAME_NAME.FACE_NAME.parameter: value + +Faces accept the following resources: + +`attributeFont' (class `AttributeFont'): font-name + The font of this face. + +`attributeForeground' (class `AttributeForeground'): color-name +`attributeBackground' (class `AttributeBackground'): color-name + The foreground and background colors of this face. + +`attributeBackgroundPixmap' (class `AttributeBackgroundPixmap'): file-name + The name of an XBM file (or XPM file, if your version of Emacs + supports XPM), to use as a background stipple. + +`attributeUnderline' (class `AttributeUnderline'): boolean + Whether text in this face should be underlined. + + All text is displayed in some face, defaulting to the face named +`default'. To set the font of normal text, use +`Emacs*default.attributeFont'. To set it in the frame named `fred', use +`Emacs*fred.default.attributeFont'. + + These are the names of the predefined faces: + +`default' + Everything inherits from this. + +`bold' + If this is not specified in the resource database, Emacs tries to + find a bold version of the font of the default face. + +`italic' + If this is not specified in the resource database, Emacs tries to + find an italic version of the font of the default face. + +`bold-italic' + If this is not specified in the resource database, Emacs tries to + find a bold-italic version of the font of the default face. + +`modeline' + This is the face that the modeline is displayed in. If not + specified in the resource database, it is determined from the + default face by reversing the foreground and background colors. + +`highlight' + This is the face that highlighted extents (for example, Info + cross-references and possible completions, when the mouse passes + over them) are displayed in. + +`left-margin' +`right-margin' + These are the faces that the left and right annotation margins are + displayed in. + +`zmacs-region' + This is the face that mouse selections are displayed in. + +`isearch' + This is the face that the matched text being searched for is + displayed in. + +`info-node' + This is the face of info menu items. If unspecified, it is copied + from `bold-italic'. + +`info-xref' + This is the face of info cross-references. If unspecified, it is + copied from `bold'. (Note that, when the mouse passes over a + cross-reference, the cross-reference's face is determined from a + combination of the `info-xref' and `highlight' faces.) + + Other packages might define their own faces; to see a list of all +faces, use any of the interactive face-manipulation commands such as +`set-face-font' and type `?' when you are prompted for the name of a +face. + + If the `bold', `italic', and `bold-italic' faces are not specified +in the resource database, then XEmacs attempts to derive them from the +font of the default face. It can only succeed at this if you have +specified the default font using the XLFD (X Logical Font Description) +format, which looks like + + *-courier-medium-r-*-*-*-120-*-*-*-*-*-* + +If you use any of the other, less strict font name formats, some of +which look like + + lucidasanstypewriter-12 + fixed + 9x13 + + then XEmacs won't be able to guess the names of the bold and italic +versions. All X fonts can be referred to via XLFD-style names, so you +should use those forms. See the man pages for `X(1)', `xlsfonts(1)', +and `xfontsel(1)'. + + +File: xemacs.info, Node: Widgets, Next: Menubar Resources, Prev: Face Resources, Up: X Resources + +Widgets +------- + + There are several structural widgets between the terminal EmacsFrame +widget and the top level ApplicationShell; the exact names and types of +these widgets change from release to release (for example, they changed +between 19.8 and 19.9, 19.9 and 19.10, and 19.10 and 19.12) and are +subject to further change in the future, so you should avoid mentioning +them in your resource database. The above-mentioned syntaxes should be +forward- compatible. As of 19.13, the exact widget hierarchy is as +follows: + + INVOCATION-NAME "shell" "container" FRAME-NAME + x-emacs-application-class "EmacsShell" "EmacsManager" "EmacsFrame" + + where INVOCATION-NAME is the terminal component of the name of the +XEmacs executable (usually `xemacs'), and `x-emacs-application-class' +is generally `Emacs'. + + +File: xemacs.info, Node: Menubar Resources, Prev: Widgets, Up: X Resources + +Menubar Resources +----------------- + + As the menubar is implemented as a widget which is not a part of +XEmacs proper, it does not use the face mechanism for specifying fonts +and colors: It uses whatever resources are appropriate to the type of +widget which is used to implement it. + + If Emacs was compiled to use only the Motif-lookalike menu widgets, +then one way to specify the font of the menubar would be + + Emacs*menubar*font: *-courier-medium-r-*-*-*-120-*-*-*-*-*-* + + If the Motif library is being used, then one would have to use + + Emacs*menubar*fontList: *-courier-medium-r-*-*-*-120-*-*-*-*-*-* + + because the Motif library uses the `fontList' resource name instead +of `font', which has subtly different semantics. + + The same is true of the scrollbars: They accept whichever resources +are appropriate for the toolkit in use. + + +File: xemacs.info, Node: Quitting, Next: Lossage, Prev: Customization, Up: Top + +Quitting and Aborting +===================== + +`C-g' + Quit. Cancel running or partially typed command. + +`C-]' + Abort innermost recursive editing level and cancel the command + which invoked it (`abort-recursive-edit'). + +`M-x top-level' + Abort all recursive editing levels that are currently executing. + +`C-x u' + Cancel an already-executed command, usually (`undo'). + + There are two ways of cancelling commands which are not finished +executing: "quitting" with `C-g', and "aborting" with `C-]' or `M-x +top-level'. Quitting is cancelling a partially typed command or one +which is already running. Aborting is getting out of a recursive +editing level and cancelling the command that invoked the recursive +edit. + + Quitting with `C-g' is used for getting rid of a partially typed +command or a numeric argument that you don't want. It also stops a +running command in the middle in a relatively safe way, so you can use +it if you accidentally start executing a command that takes a long +time. In particular, it is safe to quit out of killing; either your +text will ALL still be there, or it will ALL be in the kill ring (or +maybe both). Quitting an incremental search does special things +documented under searching; in general, it may take two successive +`C-g' characters to get out of a search. `C-g' works by setting the +variable `quit-flag' to `t' the instant `C-g' is typed; Emacs Lisp +checks this variable frequently and quits if it is non-`nil'. `C-g' is +only actually executed as a command if it is typed while Emacs is +waiting for input. + + If you quit twice in a row before the first `C-g' is recognized, you +activate the "emergency escape" feature and return to the shell. *Note +Emergency Escape::. + + You can use `C-]' (`abort-recursive-edit') to get out of a recursive +editing level and cancel the command which invoked it. Quitting with +`C-g' does not do this, and could not do this because it is used to +cancel a partially typed command within the recursive editing level. +Both operations are useful. For example, if you are in the Emacs +debugger (*note Lisp Debug::) and have typed `C-u 8' to enter a numeric +argument, you can cancel that argument with `C-g' and remain in the +debugger. + + The command `M-x top-level' is equivalent to "enough" `C-]' commands +to get you out of all the levels of recursive edits that you are in. +`C-]' only gets you out one level at a time, but `M-x top-level' goes +out all levels at once. Both `C-]' and `M-x top-level' are like all +other commands and unlike `C-g' in that they are effective only when +Emacs is ready for a command. `C-]' is an ordinary key and has its +meaning only because of its binding in the keymap. *Note Recursive +Edit::. + + `C-x u' (`undo') is not strictly speaking a way of cancelling a +command, but you can think of it as cancelling a command already +finished executing. *Note Undo::. + + +File: xemacs.info, Node: Lossage, Next: Bugs, Prev: Quitting, Up: Top + +Dealing With Emacs Trouble +========================== + + This section describes various conditions in which Emacs fails to +work, and how to recognize them and correct them. + +* Menu: + +* Stuck Recursive:: `[...]' in mode line around the parentheses. +* Screen Garbled:: Garbage on the screen. +* Text Garbled:: Garbage in the text. +* Unasked-for Search:: Spontaneous entry to incremental search. +* Emergency Escape:: Emergency escape--- + What to do if Emacs stops responding. +* Total Frustration:: When you are at your wits' end. + + +File: xemacs.info, Node: Stuck Recursive, Next: Screen Garbled, Prev: Lossage, Up: Lossage + +Recursive Editing Levels +------------------------ + + Recursive editing levels are important and useful features of Emacs, +but they can seem like malfunctions to the user who does not understand +them. + + If the mode line has square brackets `[...]' around the parentheses +that contain the names of the major and minor modes, you have entered a +recursive editing level. If you did not do this on purpose, or if you +don't understand what that means, you should just get out of the +recursive editing level. To do so, type `M-x top-level'. This is +called getting back to top level. *Note Recursive Edit::. + + +File: xemacs.info, Node: Screen Garbled, Next: Text Garbled, Prev: Stuck Recursive, Up: Lossage + +Garbage on the Screen +--------------------- + + If the data on the screen looks wrong, the first thing to do is see +whether the text is actually wrong. Type `C-l', to redisplay the +entire screen. If the text appears correct after this, the problem was +entirely in the previous screen update. + + Display updating problems often result from an incorrect termcap +entry for the terminal you are using. The file `etc/TERMS' in the Emacs +distribution gives the fixes for known problems of this sort. +`INSTALL' contains general advice for these problems in one of its +sections. Very likely there is simply insufficient padding for certain +display operations. To investigate the possibility that you have this +sort of problem, try Emacs on another terminal made by a different +manufacturer. If problems happen frequently on one kind of terminal but +not another kind, the real problem is likely to be a bad termcap entry, +though it could also be due to a bug in Emacs that appears for terminals +that have or lack specific features. + + +File: xemacs.info, Node: Text Garbled, Next: Unasked-for Search, Prev: Screen Garbled, Up: Lossage + +Garbage in the Text +------------------- + + If `C-l' shows that the text is wrong, try undoing the changes to it +using `C-x u' until it gets back to a state you consider correct. Also +try `C-h l' to find out what command you typed to produce the observed +results. + + If a large portion of text appears to be missing at the beginning or +end of the buffer, check for the word `Narrow' in the mode line. If it +appears, the text is still present, but marked off-limits. To make it +visible again, type `C-x n w'. *Note Narrowing::. + + File: xemacs.info, Node: Unasked-for Search, Next: Emergency Escape, Prev: Text Garbled, Up: Lossage Spontaneous Entry to Incremental Search @@ -294,785 +592,3 @@ net. You should also check the `FAQ' in `/pub/xemacs' on our anonymous FTP server. It provides some introductory information and help for initial configuration problems. - -File: xemacs.info, Node: Glossary, Next: Manifesto, Prev: Intro, Up: Top - -Glossary -******** - -Abbrev - An abbrev is a text string which expands into a different text - string when present in the buffer. For example, you might define - a short word as an abbrev for a long phrase that you want to insert - frequently. *Note Abbrevs::. - -Aborting - Aborting means getting out of a recursive edit (q.v.). You can use - the commands `C-]' and `M-x top-level' for this. *Note Quitting::. - -Auto Fill mode - Auto Fill mode is a minor mode in which text you insert is - automatically broken into lines of fixed width. *Note Filling::. - -Auto Saving - Auto saving means that Emacs automatically stores the contents of - an Emacs buffer in a specially-named file so the information will - not be lost if the buffer is lost due to a system error or user - error. *Note Auto Save::. - -Backup File - A backup file records the contents that a file had before the - current editing session. Emacs creates backup files automatically - to help you track down or cancel changes you later regret. *Note - Backup::. - -Balance Parentheses - Emacs can balance parentheses manually or automatically. Manual - balancing is done by the commands to move over balanced expressions - (*note Lists::). Automatic balancing is done by blinking the - parenthesis that matches one just inserted (*note Matching Parens: - Matching.). - -Bind - To bind a key is to change its binding (q.v.). *Note Rebinding::. - -Binding - A key gets its meaning in Emacs by having a binding which is a - command (q.v.), a Lisp function that is run when the key is typed. - *Note Binding: Commands. Customization often involves rebinding a - character to a different command function. The bindings of all - keys are recorded in the keymaps (q.v.). *Note Keymaps::. - -Blank Lines - Blank lines are lines that contain only whitespace. Emacs has - several commands for operating on the blank lines in a buffer. - -Buffer - The buffer is the basic editing unit; one buffer corresponds to one - piece of text being edited. You can have several buffers, but at - any time you are editing only one, the `selected' buffer, though - several buffers can be visible when you are using multiple - windows. *Note Buffers::. - -Buffer Selection History - Emacs keeps a buffer selection history which records how recently - each Emacs buffer was selected. Emacs uses this list when - choosing a buffer to select. *Note Buffers::. - -C- - `C' in the name of a character is an abbreviation for Control. - *Note C-: Keystrokes. - -C-M- - `C-M-' in the name of a character is an abbreviation for - Control-Meta. *Note C-M-: Keystrokes. - -Case Conversion - Case conversion means changing text from upper case to lower case - or vice versa. *Note Case::, for the commands for case conversion. - -Characters - Characters form the contents of an Emacs buffer; also, Emacs - commands are invoked by keys (q.v.), which are sequences of one or - more characters. *Note Keystrokes::. - -Command - A command is a Lisp function specially defined to be able to serve - as a key binding in Emacs. When you type a key (q.v.), Emacs - looks up its binding (q.v.) in the relevant keymaps (q.v.) to find - the command to run. *Note Commands::. - -Command Name - A command name is the name of a Lisp symbol which is a command - (*note Commands::). You can invoke any command by its name using - `M-x' (*note M-x::). - -Comments - A comment is text in a program which is intended only for the - people reading the program, and is marked specially so that it - will be ignored when the program is loaded or compiled. Emacs - offers special commands for creating, aligning, and killing - comments. *Note Comments::. - -Compilation - Compilation is the process of creating an executable program from - source code. Emacs has commands for compiling files of Emacs Lisp - code (*note Lisp Libraries::) and programs in C and other languages - (*note Compilation::). - -Complete Key - A complete key is a character or sequence of characters which, - when typed by the user, fully specifies one action to be performed - by Emacs. For example, `X' and `Control-f' and `Control-x m' are - keys. Keys derive their meanings from being bound (q.v.) to - commands (q.v.). Thus, `X' is conventionally bound to a command - to insert `X' in the buffer; `C-x m' is conventionally bound to a - command to begin composing a mail message. *Note Keystrokes::. - -Completion - When Emacs automatically fills an abbreviation for a name into the - entire name, that process is called completion. Completion is - done for minibuffer (q.v.) arguments when the set of possible - valid inputs is known; for example, on command names, buffer - names, and file names. Completion occurs when you type , - , or . *Note Completion::. - -Continuation Line - When a line of text is longer than the width of the frame, it - takes up more than one screen line when displayed. We say that the - text line is continued, and all screen lines used for it after the - first are called continuation lines. *Note Continuation: Basic. - -Control-Character - ASCII characters with octal codes 0 through 037, and also code - 0177, do not have graphic images assigned to them. These are the - control characters. Any control character can be typed by holding - down the key and typing some other character; some have - special keys on the keyboard. , , , , and - are all control characters. *Note Keystrokes::. - -Copyleft - A copyleft is a notice giving the public legal permission to - redistribute a program or other work of art. Copylefts are used - by leftists to enrich the public just as copyrights are used by - rightists to gain power over the public. - -Current Buffer - The current buffer in Emacs is the Emacs buffer on which most - editing commands operate. You can select any Emacs buffer as the - current one. *Note Buffers::. - -Current Line - The line point is on (*note Point::). - -Current Paragraph - The paragraph that point is in. If point is between paragraphs, - the current paragraph is the one that follows point. *Note - Paragraphs::. - -Current Defun - The defun (q.v.) that point is in. If point is between defuns, the - current defun is the one that follows point. *Note Defuns::. - -Cursor - The cursor is the rectangle on the screen which indicates the - position called point (q.v.) at which insertion and deletion takes - place. The cursor is on or under the character that follows - point. Often people speak of `the cursor' when, strictly - speaking, they mean `point'. *Note Cursor: Basic. - -Customization - Customization is making minor changes in the way Emacs works. It - is often done by setting variables (*note Variables::) or by - rebinding keys (*note Keymaps::). - -Default Argument - The default for an argument is the value that is used if you do not - specify one. When Emacs prompts you in the minibuffer for an - argument, the default argument is used if you just type . - *Note Minibuffer::. - -Default Directory - When you specify a file name that does not start with `/' or `~', - it is interpreted relative to the current buffer's default - directory. *Note Default Directory: Minibuffer File. - -Defun - A defun is a list at the top level of parenthesis or bracket - structure in a program. It is so named because most such lists in - Lisp programs are calls to the Lisp function `defun'. *Note - Defuns::. - - - The character runs the command that deletes one character of - text. *Note DEL: Basic. - -Deletion - Deleting text means erasing it without saving it. Emacs deletes - text only when it is expected not to be worth saving (all - whitespace, or only one character). The alternative is killing - (q.v.). *Note Deletion: Killing. - -Deletion of Files - Deleting a file means removing it from the file system. *Note - Misc File Ops::. - -Deletion of Messages - Deleting a message means flagging it to be eliminated from your - mail file. Until the mail file is expunged, you can undo this by - undeleting the message. - -Deletion of Frames - When working under the multi-frame X-based version of XEmacs, you - can delete individual frames using the Close menu item from the - File menu. - -Deletion of Windows - When you delete a subwindow of an Emacs frame, you eliminate it - from the frame. Other windows expand to use up the space. The - deleted window can never come back, but no actual text is lost. - *Note Windows::. - -Directory - Files in the Unix file system are grouped into file directories. - *Note Directories: ListDir. - -Dired - Dired is the Emacs facility that displays the contents of a file - directory and allows you to "edit the directory", performing - operations on the files in the directory. *Note Dired::. - -Disabled Command - A disabled command is one that you may not run without special - confirmation. Commands are usually disabled because they are - confusing for beginning users. *Note Disabling::. - -Dribble File - A file into which Emacs writes all the characters that the user - types on the keyboard. Dribble files are used to make a record for - debugging Emacs bugs. Emacs does not make a dribble file unless - you tell it to. *Note Bugs::. - -Echo Area - The area at the bottom of the Emacs frame which is used for - echoing the arguments to commands, for asking questions, and for - printing brief messages (including error messages). *Note Echo - Area::. - -Echoing - Echoing refers to acknowledging the receipt of commands by - displaying them (in the echo area). Emacs never echoes - single-character keys; longer keys echo only if you pause while - typing them. - -Error - An error occurs when an Emacs command cannot execute in the current - circumstances. When an error occurs, execution of the command - stops (unless the command has been programmed to do otherwise) and - Emacs reports the error by printing an error message (q.v.). - Type-ahead is discarded. Then Emacs is ready to read another - editing command. - -Error Messages - Error messages are single lines of output printed by Emacs when the - user asks for something impossible to do (such as killing text - forward when point is at the end of the buffer). They appear in - the echo area, accompanied by a beep. - - - is a character used as a prefix for typing Meta characters on - keyboards lacking a key. Unlike the key (which, - like the key, is held down while another character is - typed), the key is pressed and released, and applies to the - next character typed. - -Fill Prefix - The fill prefix is a string that Emacs enters at the beginning of - each line when it performs filling. It is not regarded as part of - the text to be filled. *Note Filling::. - -Filling - Filling text means moving text from line to line so that all the - lines are approximately the same length. *Note Filling::. - -Frame - When running Emacs on a TTY terminal, "frame" means the terminal's - screen. When running Emacs under X, you can have multiple frames, - each corresponding to a top-level X window and each looking like - the screen on a TTY. Each frame contains one or more - non-overlapping Emacs windows (possibly with associated - scrollbars, under X), an echo area, and (under X) possibly a - menubar. - -Global - Global means `independent of the current environment; in effect - throughout Emacs'. It is the opposite of local (q.v.). Examples - of the use of `global' appear below. - -Global Abbrev - A global definition of an abbrev (q.v.) is effective in all major - modes that do not have local (q.v.) definitions for the same - abbrev. *Note Abbrevs::. - -Global Keymap - The global keymap (q.v.) contains key bindings that are in effect - unless local key bindings in a major mode's local keymap (q.v.) - override them.*Note Keymaps::. - -Global Substitution - Global substitution means replacing each occurrence of one string - by another string through a large amount of text. *Note Replace::. - -Global Variable - The global value of a variable (q.v.) takes effect in all buffers - that do not have their own local (q.v.) values for the variable. - *Note Variables::. - -Graphic Character - Graphic characters are those assigned pictorial images rather than - just names. All the non-Meta (q.v.) characters except for the - Control (q.v.) character are graphic characters. These include - letters, digits, punctuation, and spaces; they do not include - or . In Emacs, typing a graphic character inserts that - character (in ordinary editing modes). *Note Basic Editing: Basic. - -Grinding - Grinding means adjusting the indentation in a program to fit the - nesting structure. *Note Grinding: Indentation. - -Hardcopy - Hardcopy means printed output. Emacs has commands for making - printed listings of text in Emacs buffers. *Note Hardcopy::. - - - You can type at any time to ask what options you have, or - to ask what any command does. is really `Control-h'. - *Note Help::. - -Inbox - An inbox is a file in which mail is delivered by the operating - system. Some mail handlers transfers mail from inboxes to mail - files (q.v.) in which the mail is then stored permanently or until - explicitly deleted. - -Indentation - Indentation means blank space at the beginning of a line. Most - programming languages have conventions for using indentation to - illuminate the structure of the program, and Emacs has special - features to help you set up the correct indentation. *Note - Indentation::. - -Insertion - Insertion means copying text into the buffer, either from the - keyboard or from some other place in Emacs. - -Justification - Justification means adding extra spaces to lines of text to make - them come exactly to a specified width. *Note Justification: - Filling. - -Keyboard Macros - Keyboard macros are a way of defining new Emacs commands from - sequences of existing ones, with no need to write a Lisp program. - *Note Keyboard Macros::. - -Key - A key is a sequence of characters that, when input to Emacs, - specify or begin to specify a single action for Emacs to perform. - That is, the sequence is considered a single unit. If the key is - enough to specify one action, it is a complete key (q.v.); if it - is less than enough, it is a prefix key (q.v.). *Note - Keystrokes::. - -Keymap - The keymap is the data structure that records the bindings (q.v.) - of keys to the commands that they run. For example, the keymap - binds the character `C-n' to the command function `next-line'. - *Note Keymaps::. - -Kill Ring - The kill ring is the place where all text you have killed recently - is saved. You can re-insert any of the killed text still in the - ring; this is called yanking (q.v.). *Note Yanking::. - -Killing - Killing means erasing text and saving it on the kill ring so it - can be yanked (q.v.) later. Some other systems call this - "cutting." Most Emacs commands to erase text do killing, as - opposed to deletion (q.v.). *Note Killing::. - -Killing Jobs - Killing a job (such as, an invocation of Emacs) means making it - cease to exist. Any data within it, if not saved in a file, is - lost. *Note Exiting::. - -List - A list is, approximately, a text string beginning with an open - parenthesis and ending with the matching close parenthesis. In C - mode and other non-Lisp modes, groupings surrounded by other kinds - of matched delimiters appropriate to the language, such as braces, - are also considered lists. Emacs has special commands for many - operations on lists. *Note Lists::. - -Local - Local means `in effect only in a particular context'; the relevant - kind of context is a particular function execution, a particular - buffer, or a particular major mode. Local is the opposite of - `global' (q.v.). Specific uses of `local' in Emacs terminology - appear below. - -Local Abbrev - A local abbrev definition is effective only if a particular major - mode is selected. In that major mode, it overrides any global - definition for the same abbrev. *Note Abbrevs::. - -Local Keymap - A local keymap is used in a particular major mode; the key bindings - (q.v.) in the current local keymap override global bindings of the - same keys. *Note Keymaps::. - -Local Variable - A local value of a variable (q.v.) applies to only one buffer. - *Note Locals::. - -M- - `M-' in the name of a character is an abbreviation for , one - of the modifier keys that can accompany any character. *Note - Keystrokes::. - -M-C- - `M-C-' in the name of a character is an abbreviation for - Control-Meta; it means the same thing as `C-M-'. If your terminal - lacks a real key, you type a Control-Meta character by - typing and then typing the corresponding Control character. - *Note C-M-: Keystrokes. - -M-x - `M-x' is the key which is used to call an Emacs command by name. - You use it to call commands that are not bound to keys. *Note - M-x::. - -Mail - Mail means messages sent from one user to another through the - computer system, to be read at the recipient's convenience. Emacs - has commands for composing and sending mail, and for reading and - editing the mail you have received. *Note Sending Mail::. - -Major Mode - The major modes are a mutually exclusive set of options each of - which configures Emacs for editing a certain sort of text. - Ideally, each programming language has its own major mode. *Note - Major Modes::. - -Mark - The mark points to a position in the text. It specifies one end - of the region (q.v.), point being the other end. Many commands - operate on the whole region, that is, all the text from point to - the mark. *Note Mark::. - -Mark Ring - The mark ring is used to hold several recent previous locations of - the mark, just in case you want to move back to them. *Note Mark - Ring::. - -Message - See `mail'. - -Meta - Meta is the name of a modifier bit which a command character may - have. It is present in a character if the character is typed with - the key held down. Such characters are given names that - start with `Meta-'. For example, `Meta-<' is typed by holding down - and at the same time typing `<' (which itself is done, on - most terminals, by holding down and typing `,'). *Note - Meta: Keystrokes. - -Meta Character - A Meta character is one whose character code includes the Meta bit. - -Minibuffer - The minibuffer is the window that Emacs displays inside the echo - area (q.v.) when it prompts you for arguments to commands. *Note - Minibuffer::. - -Minor Mode - A minor mode is an optional feature of Emacs which can be switched - on or off independent of the major mode. Each minor mode has a - command to turn it on or off. *Note Minor Modes::. - -Mode Line - The mode line is the line at the bottom of each text window (q.v.), - which gives status information on the buffer displayed in that - window. *Note Mode Line::. - -Modified Buffer - A buffer (q.v.) is modified if its text has been changed since the - last time the buffer was saved (or since it was created, if it has - never been saved). *Note Saving::. - -Moving Text - Moving text means erasing it from one place and inserting it in - another. This is done by killing (q.v.) and then yanking (q.v.). - *Note Killing::. - -Named Mark - A named mark is a register (q.v.) in its role of recording a - location in text so that you can move point to that location. - *Note Registers::. - -Narrowing - Narrowing means creating a restriction (q.v.) that limits editing - in the current buffer to only a part of the text in the buffer. - Text outside that part is inaccessible to the user until the - boundaries are widened again, but it is still there, and saving - the file saves the invisible text. *Note Narrowing::. - -Newline - characters in the buffer terminate lines of text and are - called newlines. *Note Newline: Keystrokes. - -Numeric Argument - A numeric argument is a number, specified before a command, to - change the effect of the command. Often the numeric argument - serves as a repeat count. *Note Arguments::. - -Option - An option is a variable (q.v.) that allows you to customize Emacs - by giving it a new value. *Note Variables::. - -Overwrite Mode - Overwrite mode is a minor mode. When it is enabled, ordinary text - characters replace the existing text after point rather than - pushing it to the right. *Note Minor Modes::. - -Page - A page is a unit of text, delimited by formfeed characters (ASCII - Control-L, code 014) coming at the beginning of a line. Some Emacs - commands are provided for moving over and operating on pages. - *Note Pages::. - -Paragraphs - Paragraphs are the medium-size unit of English text. There are - special Emacs commands for moving over and operating on paragraphs. - *Note Paragraphs::. - -Parsing - We say that Emacs parses words or expressions in the text being - edited. Really, all it knows how to do is find the other end of a - word or expression. *Note Syntax::. - -Point - Point is the place in the buffer at which insertion and deletion - occur. Point is considered to be between two characters, not at - one character. The terminal's cursor (q.v.) indicates the - location of point. *Note Point: Basic. - -Prefix Key - A prefix key is a key (q.v.) whose sole function is to introduce a - set of multi-character keys. `Control-x' is an example of a prefix - key; any two-character sequence starting with `C-x' is also a - legitimate key. *Note Keystrokes::. - -Prompt - A prompt is text printed to ask the user for input. Printing a - prompt is called prompting. Emacs prompts always appear in the - echo area (q.v.). One kind of prompting happens when the - minibuffer is used to read an argument (*note Minibuffer::); the - echoing which happens when you pause in the middle of typing a - multi-character key is also a kind of prompting (*note Echo - Area::). - -Quitting - Quitting means cancelling a partially typed command or a running - command, using `C-g'. *Note Quitting::. - -Quoting - Quoting means depriving a character of its usual special - significance. In Emacs this is usually done with `Control-q'. - What constitutes special significance depends on the context and - on convention. For example, an "ordinary" character as an Emacs - command inserts itself; so in this context, a special character is - any character that does not normally insert itself (such as , - for example), and quoting it makes it insert itself as if it were - not special. Not all contexts allow quoting. *Note Quoting: - Basic. - -Read-only Buffer - A read-only buffer is one whose text you are not allowed to change. - Normally Emacs makes buffers read-only when they contain text which - has a special significance to Emacs, such asDired buffers. - Visiting a file that is write-protected also makes a read-only - buffer. *Note Buffers::. - -Recursive Editing Level - A recursive editing level is a state in which part of the - execution of a command involves asking the user to edit some text. - This text may or may not be the same as the text to which the - command was applied. The mode line indicates recursive editing - levels with square brackets (`[' and `]'). *Note Recursive Edit::. - -Redisplay - Redisplay is the process of correcting the image on the screen to - correspond to changes that have been made in the text being edited. - *Note Redisplay: Frame. - -Regexp - See `regular expression'. - -Region - The region is the text between point (q.v.) and the mark (q.v.). - Many commands operate on the text of the region. *Note Region: - Mark. - -Registers - Registers are named slots in which text or buffer positions or - rectangles can be saved for later use. *Note Registers::. - -Regular Expression - A regular expression is a pattern that can match various text - strings; for example, `l[0-9]+' matches `l' followed by one or more - digits. *Note Regexps::. - -Replacement - See `global substitution'. - -Restriction - A buffer's restriction is the amount of text, at the beginning or - the end of the buffer, that is temporarily invisible and - inaccessible. Giving a buffer a nonzero amount of restriction is - called narrowing (q.v.). *Note Narrowing::. - - - is the character than runs the command to insert a newline - into the text. It is also used to terminate most arguments read - in the minibuffer (q.v.). *Note Return: Keystrokes. - -Saving - Saving a buffer means copying its text into the file that was - visited (q.v.) in that buffer. To actually change a file you have - edited in Emacs, you have to save it. *Note Saving::. - -Scrolling - Scrolling means shifting the text in the Emacs window to make a - different part ot the buffer visible. *Note Scrolling: Display. - -Searching - Searching means moving point to the next occurrence of a specified - string. *Note Search::. - -Selecting - Selecting a buffer means making it the current (q.v.) buffer. - *Note Selecting: Buffers. - -Self-documentation - Self-documentation is the feature of Emacs which can tell you what - any command does, or can give you a list of all commands related - to a topic you specify. You ask for self-documentation with the - help character, `C-h'. *Note Help::. - -Sentences - Emacs has commands for moving by or killing by sentences. *Note - Sentences::. - -Sexp - An sexp (short for `s-expression,' itself short for `symbolic - expression') is the basic syntactic unit of Lisp in its textual - form: either a list, or Lisp atom. Many Emacs commands operate on - sexps. The term `sexp' is generalized to languages other than - Lisp to mean a syntactically recognizable expression. *Note - Sexps: Lists. - -Simultaneous Editing - Simultaneous editing means two users modifying the same file at - once. If simultaneous editing is not detected, you may lose your - work. Emacs detects all cases of simultaneous editing and warns - the user to investigate them. *Note Simultaneous Editing: - Interlocking. - -String - A string is a kind of Lisp data object which contains a sequence of - characters. Many Emacs variables are intended to have strings as - values. The Lisp syntax for a string consists of the characters in - the string with a `"' before and another `"' after. Write a `"' - that is part of the string as `\"' and a `\' that is part of the - string as `\\'. You can include all other characters, including - newline, just by writing them inside the string. You can also - include escape sequences as in C, such as `\n' for newline or - `\241' using an octal character code. - -String Substitution - See `global substitution'. - -Syntax Table - The syntax table tells Emacs which characters are part of a word, - which characters balance each other like parentheses, etc. *Note - Syntax::. - -Tag Table - A tag table is a file that serves as an index to the function - definitions in one or more other files. *Note Tags::. - -Termscript File - A termscript file contains a record of all characters Emacs sent to - the terminal. It is used for tracking down bugs in Emacs - redisplay. Emacs does not make a termscript file unless - explicitly instructed to do so. *Note Bugs::. - -Text - Text has two meanings (*note Text::): - - * Data consisting of a sequence of characters, as opposed to - binary numbers, images, graphics commands, executable - programs, and the like. The contents of an Emacs buffer are - always text in this sense. - - * Data consisting of written human language, as opposed to - programs, or something that follows the stylistic conventions - of human language. - -Top Level - Top level is the normal state of Emacs, in which you are editing - the text of the file you have visited. You are at top level - whenever you are not in a recursive editing level (q.v.) or the - minibuffer (q.v.), and not in the middle of a command. You can - get back to top level by aborting (q.v.) and quitting (q.v.). - *Note Quitting::. - -Transposition - Transposing two units of text means putting each one into the place - formerly occupied by the other. There are Emacs commands to - transpose two adjacent characters, words, sexps (q.v.), or lines - (*note Transpose::). - -Truncation - Truncating text lines in the display means leaving out any text on - a line that does not fit within the right margin of the window - displaying it. See also `continuation line'. *Note Truncation: - Basic. - -Undoing - Undoing means making your previous editing go in reverse, bringing - back the text that existed earlier in the editing session. *Note - Undo::. - -Variable - A variable is Lisp object that can store an arbitrary value. - Emacs uses some variables for internal purposes, and has others - (known as `options' (q.v.)) you can set to control the behavior of - Emacs. The variables used in Emacs that you are likely to be - interested in are listed in the Variables Index of this manual. - *Note Variables::, for information on variables. - -Visiting - Visiting a file means loading its contents into a buffer (q.v.) - where they can be edited. *Note Visiting::. - -Whitespace - Whitespace is any run of consecutive formatting characters (spaces, - tabs, newlines, and backspaces). - -Widening - Widening is removing any restriction (q.v.) on the current buffer; - it is the opposite of narrowing (q.v.). *Note Narrowing::. - -Window - Emacs divides the frame into one or more windows, each of which can - display the contents of one buffer (q.v.) at any time. *Note - Frame::, for basic information on how Emacs uses the frame. *Note - Windows::, for commands to control the use of windows. Note that if - you are running Emacs under X, terminology can be confusing: Each - Emacs frame occupies a separate X window and can, in turn, be - divided into different subwindows. - -Word Abbrev - Synonymous with `abbrev'. - -Word Search - Word search is searching for a sequence of words, considering the - punctuation between them as insignificant. *Note Word Search::. - -Yanking - Yanking means reinserting text previously killed. It can be used - to undo a mistaken kill, or for copying or moving text. Some other - systems call this "pasting". *Note Yanking::. - diff --git a/info/xemacs.info-19 b/info/xemacs.info-19 index fd40504..a4fa596 100644 --- a/info/xemacs.info-19 +++ b/info/xemacs.info-19 @@ -30,945 +30,784 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  -File: xemacs.info, Node: Manifesto, Next: Key Index, Prev: Glossary, Up: Top - -The GNU Manifesto -***************** - -What's GNU? GNU's Not Unix! -============================ - - GNU, which stands for GNU's Not Unix, is the name for the complete -Unix-compatible software system which I am writing so that I can give it -away free to everyone who can use it. Several other volunteers are -helping me. Contributions of time, money, programs, and equipment are -greatly needed. - - So far we have an Emacs text editor with Lisp for writing editor -commands, a source level debugger, a yacc-compatible parser generator, -a linker, and around 35 utilities. A shell (command interpreter) is -nearly completed. A new portable optimizing C compiler has compiled -itself and may be released this year. An initial kernel exists, but -many more features are needed to emulate Unix. When the kernel and -compiler are finished, it will be possible to distribute a GNU system -suitable for program development. We will use TeX as our text -formatter, but an nroff is being worked on. We will use the free, -portable X window system as well. After this we will add a portable -Common Lisp, an Empire game, a spreadsheet, and hundreds of other -things, plus online documentation. We hope to supply, eventually, -everything useful that normally comes with a Unix system, and more. - - GNU will be able to run Unix programs, but will not be identical to -Unix. We will make all improvements that are convenient, based on our -experience with other operating systems. In particular, we plan to -have longer filenames, file version numbers, a crashproof file system, -filename completion perhaps, terminal-independent display support, and -perhaps eventually a Lisp-based window system through which several -Lisp programs and ordinary Unix programs can share a screen. Both C -and Lisp will be available as system programming languages. We will -try to support UUCP, MIT Chaosnet, and Internet protocols for -communication. - - GNU is aimed initially at machines in the 68000/16000 class with -virtual memory, because they are the easiest machines to make it run -on. The extra effort to make it run on smaller machines will be left -to someone who wants to use it on them. - - To avoid horrible confusion, please pronounce the `G' in the word -`GNU' when it is the name of this project. - -Why I Must Write GNU -==================== - - I consider that the golden rule requires that if I like a program I -must share it with other people who like it. Software sellers want to -divide the users and conquer them, making each user agree not to share -with others. I refuse to break solidarity with other users in this -way. I cannot in good conscience sign a nondisclosure agreement or a -software license agreement. For years I worked within the Artificial -Intelligence Lab to resist such tendencies and other inhospitalities, -but eventually they had gone too far: I could not remain in an -institution where such things are done for me against my will. - - So that I can continue to use computers without dishonor, I have -decided to put together a sufficient body of free software so that I -will be able to get along without any software that is not free. I -have resigned from the AI lab to deny MIT any legal excuse to prevent -me from giving GNU away. - -Why GNU Will Be Compatible With Unix -==================================== - - Unix is not my ideal system, but it is not too bad. The essential -features of Unix seem to be good ones, and I think I can fill in what -Unix lacks without spoiling them. And a system compatible with Unix -would be convenient for many other people to adopt. - -How GNU Will Be Available -========================= - - GNU is not in the public domain. Everyone will be permitted to -modify and redistribute GNU, but no distributor will be allowed to -restrict its further redistribution. That is to say, proprietary -modifications will not be allowed. I want to make sure that all -versions of GNU remain free. - -Why Many Other Programmers Want to Help -======================================= - - I have found many other programmers who are excited about GNU and -want to help. - - Many programmers are unhappy about the commercialization of system -software. It may enable them to make more money, but it requires them -to feel in conflict with other programmers in general rather than feel -as comrades. The fundamental act of friendship among programmers is the -sharing of programs; marketing arrangements now typically used -essentially forbid programmers to treat others as friends. The -purchaser of software must choose between friendship and obeying the -law. Naturally, many decide that friendship is more important. But -those who believe in law often do not feel at ease with either choice. -They become cynical and think that programming is just a way of making -money. - - By working on and using GNU rather than proprietary programs, we can -be hospitable to everyone and obey the law. In addition, GNU serves as -an example to inspire and a banner to rally others to join us in -sharing. This can give us a feeling of harmony which is impossible if -we use software that is not free. For about half the programmers I -talk to, this is an important happiness that money cannot replace. - -How You Can Contribute -====================== - - I am asking computer manufacturers for donations of machines and -money. I'm asking individuals for donations of programs and work. - - One consequence you can expect if you donate machines is that GNU -will run on them at an early date. The machines should be complete, -ready-to-use systems, approved for use in a residential area, and not -in need of sophisticated cooling or power. - - I have found very many programmers eager to contribute part-time -work for GNU. For most projects, such part-time distributed work would -be very hard to coordinate; the independently-written parts would not -work together. But for the particular task of replacing Unix, this -problem is absent. A complete Unix system contains hundreds of utility -programs, each of which is documented separately. Most interface -specifications are fixed by Unix compatibility. If each contributor -can write a compatible replacement for a single Unix utility, and make -it work properly in place of the original on a Unix system, then these -utilities will work right when put together. Even allowing for Murphy -to create a few unexpected problems, assembling these components will -be a feasible task. (The kernel will require closer communication and -will be worked on by a small, tight group.) - - If I get donations of money, I may be able to hire a few people full -or part time. The salary won't be high by programmers' standards, but -I'm looking for people for whom building community spirit is as -important as making money. I view this as a way of enabling dedicated -people to devote their full energies to working on GNU by sparing them -the need to make a living in another way. - -Why All Computer Users Will Benefit -=================================== - - Once GNU is written, everyone will be able to obtain good system -software free, just like air. - - This means much more than just saving everyone the price of a Unix -license. It means that much wasteful duplication of system programming -effort will be avoided. This effort can go instead into advancing the -state of the art. - - Complete system sources will be available to everyone. As a result, -a user who needs changes in the system will always be free to make them -himself, or hire any available programmer or company to make them for -him. Users will no longer be at the mercy of one programmer or company -which owns the sources and is in sole position to make changes. - - Schools will be able to provide a much more educational environment -by encouraging all students to study and improve the system code. -Harvard's computer lab used to have the policy that no program could be -installed on the system if its sources were not on public display, and -upheld it by actually refusing to install certain programs. I was very -much inspired by this. - - Finally, the overhead of considering who owns the system software -and what one is or is not entitled to do with it will be lifted. - - Arrangements to make people pay for using a program, including -licensing of copies, always incur a tremendous cost to society through -the cumbersome mechanisms necessary to figure out how much (that is, -which programs) a person must pay for. And only a police state can -force everyone to obey them. Consider a space station where air must -be manufactured at great cost: charging each breather per liter of air -may be fair, but wearing the metered gas mask all day and all night is -intolerable even if everyone can afford to pay the air bill. And the -TV cameras everywhere to see if you ever take the mask off are -outrageous. It's better to support the air plant with a head tax and -chuck the masks. - - Copying all or parts of a program is as natural to a programmer as -breathing, and as productive. It ought to be as free. - -Some Easily Rebutted Objections to GNU's Goals -============================================== - - "Nobody will use it if it is free, because that means they can't - rely on any support." - - "You have to charge for the program to pay for providing the - support." - - If people would rather pay for GNU plus service than get GNU free -without service, a company to provide just service to people who have -obtained GNU free ought to be profitable. - - We must distinguish between support in the form of real programming -work and mere handholding. The former is something one cannot rely on -from a software vendor. If your problem is not shared by enough -people, the vendor will tell you to get lost. - - If your business needs to be able to rely on support, the only way -is to have all the necessary sources and tools. Then you can hire any -available person to fix your problem; you are not at the mercy of any -individual. With Unix, the price of sources puts this out of -consideration for most businesses. With GNU this will be easy. It is -still possible for there to be no available competent person, but this -problem cannot be blamed on distibution arrangements. GNU does not -eliminate all the world's problems, only some of them. - - Meanwhile, the users who know nothing about computers need -handholding: doing things for them which they could easily do -themselves but don't know how. - - Such services could be provided by companies that sell just -hand-holding and repair service. If it is true that users would rather -spend money and get a product with service, they will also be willing -to buy the service having got the product free. The service companies -will compete in quality and price; users will not be tied to any -particular one. Meanwhile, those of us who don't need the service -should be able to use the program without paying for the service. - - "You cannot reach many people without advertising, and you must - charge for the program to support that." - - "It's no use advertising a program people can get free." - - There are various forms of free or very cheap publicity that can be -used to inform numbers of computer users about something like GNU. But -it may be true that one can reach more microcomputer users with -advertising. If this is really so, a business which advertises the -service of copying and mailing GNU for a fee ought to be successful -enough to pay for its advertising and more. This way, only the users -who benefit from the advertising pay for it. - - On the other hand, if many people get GNU from their friends, and -such companies don't succeed, this will show that advertising was not -really necessary to spread GNU. Why is it that free market advocates -don't want to let the free market decide this? - - "My company needs a proprietary operating system to get a - competitive edge." - - GNU will remove operating system software from the realm of -competition. You will not be able to get an edge in this area, but -neither will your competitors be able to get an edge over you. You and -they will compete in other areas, while benefitting mutually in this -one. If your business is selling an operating system, you will not -like GNU, but that's tough on you. If your business is something else, -GNU can save you from being pushed into the expensive business of -selling operating systems. - - I would like to see GNU development supported by gifts from many -manufacturers and users, reducing the cost to each. - - "Don't programmers deserve a reward for their creativity?" - - If anything deserves a reward, it is social contribution. -Creativity can be a social contribution, but only in so far as society -is free to use the results. If programmers deserve to be rewarded for -creating innovative programs, by the same token they deserve to be -punished if they restrict the use of these programs. - - "Shouldn't a programmer be able to ask for a reward for his - creativity?" - - There is nothing wrong with wanting pay for work, or seeking to -maximize one's income, as long as one does not use means that are -destructive. But the means customary in the field of software today -are based on destruction. - - Extracting money from users of a program by restricting their use of -it is destructive because the restrictions reduce the amount and the -ways that the program can be used. This reduces the amount of wealth -that humanity derives from the program. When there is a deliberate -choice to restrict, the harmful consequences are deliberate destruction. - - The reason a good citizen does not use such destructive means to -become wealthier is that, if everyone did so, we would all become -poorer from the mutual destructiveness. This is Kantian ethics; or, -the Golden Rule. Since I do not like the consequences that result if -everyone hoards information, I am required to consider it wrong for one -to do so. Specifically, the desire to be rewarded for one's creativity -does not justify depriving the world in general of all or part of that -creativity. - - "Won't programmers starve?" - - I could answer that nobody is forced to be a programmer. Most of us -cannot manage to get any money for standing on the street and making -faces. But we are not, as a result, condemned to spend our lives -standing on the street making faces, and starving. We do something -else. - - But that is the wrong answer because it accepts the questioner's -implicit assumption: that without ownership of software, programmers -cannot possibly be paid a cent. Supposedly it is all or nothing. - - The real reason programmers will not starve is that it will still be -possible for them to get paid for programming; just not paid as much as -now. - - Restricting copying is not the only basis for business in software. -It is the most common basis because it brings in the most money. If it -were prohibited, or rejected by the customer, software business would -move to other bases of organization which are now used less often. -There are always numerous ways to organize any kind of business. - - Probably programming will not be as lucrative on the new basis as it -is now. But that is not an argument against the change. It is not -considered an injustice that sales clerks make the salaries that they -now do. If programmers made the same, that would not be an injustice -either. (In practice they would still make considerably more than -that.) - - "Don't people have a right to control how their creativity is - used?" - - "Control over the use of one's ideas" really constitutes control over -other people's lives; and it is usually used to make their lives more -difficult. - - People who have studied the issue of intellectual property rights -carefully (such as lawyers) say that there is no intrinsic right to -intellectual property. The kinds of supposed intellectual property -rights that the government recognizes were created by specific acts of -legislation for specific purposes. - - For example, the patent system was established to encourage -inventors to disclose the details of their inventions. Its purpose was -to help society rather than to help inventors. At the time, the life -span of 17 years for a patent was short compared with the rate of -advance of the state of the art. Since patents are an issue only among -manufacturers, for whom the cost and effort of a license agreement are -small compared with setting up production, the patents often do not do -much harm. They do not obstruct most individuals who use patented -products. - - The idea of copyright did not exist in ancient times, when authors -frequently copied other authors at length in works of non-fiction. This -practice was useful, and is the only way many authors' works have -survived even in part. The copyright system was created expressly for -the purpose of encouraging authorship. In the domain for which it was -invented--books, which could be copied economically only on a printing -press--it did little harm, and did not obstruct most of the individuals -who read the books. - - All intellectual property rights are just licenses granted by society -because it was thought, rightly or wrongly, that society as a whole -would benefit by granting them. But in any particular situation, we -have to ask: are we really better off granting such license? What kind -of act are we licensing a person to do? - - The case of programs today is very different from that of books a -hundred years ago. The fact that the easiest way to copy a program is -from one neighbor to another, the fact that a program has both source -code and object code which are distinct, and the fact that a program is -used rather than read and enjoyed, combine to create a situation in -which a person who enforces a copyright is harming society as a whole -both materially and spiritually; in which a person should not do so -regardless of whether the law enables him to. - - "Competition makes things get done better." - - The paradigm of competition is a race: by rewarding the winner, we -encourage everyone to run faster. When capitalism really works this -way, it does a good job; but its defenders are wrong in assuming it -always works this way. If the runners forget why the reward is offered -and become intent on winning, no matter how, they may find other -strategies--such as, attacking other runners. If the runners get into -a fist fight, they will all finish late. - - Proprietary and secret software is the moral equivalent of runners -in a fist fight. Sad to say, the only referee we've got does not seem -to object to fights; he just regulates them ("For every ten yards you -run, you can fire one shot"). He really ought to break them up, and -penalize runners for even trying to fight. - - "Won't everyone stop programming without a monetary incentive?" - - Actually, many people will program with absolutely no monetary -incentive. Programming has an irresistible fascination for some -people, usually the people who are best at it. There is no shortage of -professional musicians who keep at it even though they have no hope of -making a living that way. - - But really this question, though commonly asked, is not appropriate -to the situation. Pay for programmers will not disappear, only become -less. So the right question is, will anyone program with a reduced -monetary incentive? My experience shows that they will. - - For more than ten years, many of the world's best programmers worked -at the Artificial Intelligence Lab for far less money than they could -have had anywhere else. They got many kinds of non-monetary rewards: -fame and appreciation, for example. And creativity is also fun, a -reward in itself. - - Then most of them left when offered a chance to do the same -interesting work for a lot of money. - - What the facts show is that people will program for reasons other -than riches; but if given a chance to make a lot of money as well, they -will come to expect and demand it. Low-paying organizations do poorly -in competition with high-paying ones, but they do not have to do badly -if the high-paying ones are banned. - - "We need the programmers desperately. If they demand that we stop - helping our neighbors, we have to obey." - - You're never so desperate that you have to obey this sort of demand. -Remember: millions for defense, but not a cent for tribute! - - "Programmers need to make a living somehow." - - In the short run, this is true. However, there are plenty of ways -that programmers could make a living without selling the right to use a -program. This way is customary now because it brings programmers and -businessmen the most money, not because it is the only way to make a -living. It is easy to find other ways if you want to find them. Here -are a number of examples. - - A manufacturer introducing a new computer will pay for the porting of -operating systems onto the new hardware. - - The sale of teaching, hand-holding, and maintenance services could -also employ programmers. - - People with new ideas could distribute programs as freeware and ask -for donations from satisfied users or sell hand-holding services. I -have met people who are already working this way successfully. - - Users with related needs can form users' groups and pay dues. A -group would contract with programming companies to write programs that -the group's members would like to use. - - All sorts of development can be funded with a Software Tax: - - Suppose everyone who buys a computer has to pay a certain percent - of the price as a software tax. The government gives this to an - agency like the NSF to spend on software development. - - But if the computer buyer makes a donation to software development - himself, he can take a credit against the tax. He can donate to - the project of his own choosing--often, chosen because he hopes to - use the results when - - it is done. He can take a credit for any amount of donation up to - the total tax he had to pay. - - The total tax rate could be decided by a vote of the payers of the - tax, weighted according to the amount they will be taxed on. - - The consequences: - - * The computer-using community supports software development. - - * This community decides what level of support is needed. - - * Users who care which projects their share is spent on can - choose this for themselves. - - In the long run, making programs free is a step toward the -post-scarcity world, where nobody will have to work very hard just to -make a living. People will be free to devote themselves to activities -that are fun, such as programming, after spending the necessary ten -hours a week on required tasks such as legislation, family counseling, -robot repair, and asteroid prospecting. There will be no need to be -able to make a living from programming. - - We have already greatly reduced the amount of work that the whole -society must do for its actual productivity, but only a little of this -has translated itself into leisure for workers because much -nonproductive activity is required to accompany productive activity. -The main causes of this are bureaucracy and isometric struggles against -competition. Free software will greatly reduce these drains in the -area of software production. We must do this, in order for technical -gains in productivity to translate into less work for us. - - -File: xemacs.info, Node: Key Index, Next: Command Index, Prev: Manifesto, Up: Top - -Key (Character) Index -********************* - -* Menu: - -* ! (query-replace): Query Replace. -* " (TeX mode): TeX Editing. -* , (query-replace): Query Replace. -* . (Calendar mode): Specified Dates. -* . (query-replace): Query Replace. -* ? 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End. -* M-ESC: Lisp Eval. -* M-f: Words. -* M-g: Fill Commands. -* M-h <1>: Paragraphs. -* M-h: Marking Objects. -* M-i: Tab Stops. -* M-k <1>: Sentences. -* M-k: Killing. -* M-l: Case. -* M-LFD: Comments. -* M-LFD (Fortran mode): ForIndent Commands. -* M-m: Indentation Commands. -* M-n <1>: Nroff Mode. -* M-n: Repetition. -* M-n (isearch-mode): Incremental Search. -* M-n (minibuffer history): Minibuffer History. -* M-n (Shell mode): Shell Mode. -* M-p <1>: Nroff Mode. -* M-p: Repetition. -* M-p (isearch-mode): Incremental Search. -* M-p (minibuffer history): Minibuffer History. -* M-p (Shell mode): Shell Mode. -* M-q: Fill Commands. -* M-r: Basic. -* M-r (minibuffer history): Minibuffer History. -* M-s: Fill Commands. -* M-s (minibuffer history): Minibuffer History. -* M-SPC: Killing. -* M-t <1>: Words. -* M-t: Transpose. -* M-TAB <1>: Tabs in Picture. -* M-TAB: Lisp Completion. -* M-TAB (customization buffer): Changing an Option. -* M-TAB (isearch-mode): Incremental Search. -* M-u: Case. -* M-v <1>: Scrolling. -* M-v: Basic. -* M-v (Calendar mode): Scroll Calendar. -* M-w: Kill Ring. -* M-x: M-x. -* M-y: Earlier Kills. -* M-z: Killing. -* M-{ (Calendar mode): Calendar Unit Motion. -* M-|: Single Shell. -* M-} (Calendar mode): Calendar Unit Motion. -* M-~: Saving. -* META: Meta Key. -* meta key: Intro to Keystrokes. -* next: Scrolling. -* o (Calendar mode): Specified Dates. -* p (Calendar mode): To Other Calendar. -* p d (Calendar mode): General Calendar. -* pgdn: Scrolling. -* PGDN: Basic. -* pgup: Scrolling. -* PGUP: Basic. -* prior: Scrolling. -* q (Calendar mode): General Calendar. -* RET: Basic. -* RET (isearch-mode): Incremental Search. -* RET (Shell mode): Shell Mode. -* RIGHT: Basic. -* s (Calendar mode): Diary Commands. -* S (Calendar mode): Sunrise/Sunset. -* S-TAB (customization buffer): Changing an Option. -* shift key: Intro to Keystrokes. -* SPC: Completion Commands. -* SPC (Calendar mode): General Calendar. -* SPC (query-replace): Query Replace. -* super key <1>: Super and Hyper Keys. -* super key <2>: Representing Keystrokes. -* super key: Intro to Keystrokes. -* t (Calendar mode): LaTeX Calendar. -* TAB <1>: Basic Indent. -* TAB <2>: Text Mode. -* TAB <3>: Indentation. -* TAB <4>: Major Modes. -* TAB <5>: Completion Example. -* TAB: String Key Sequences. -* TAB (customization buffer): Changing an Option. -* TAB (Shell mode): Shell Mode. -* u (Calendar mode) <1>: Diary Commands. -* u (Calendar mode): Holidays. -* UP: Basic. -* x (Calendar mode): Holidays. +File: xemacs.info, Node: Glossary, Next: Manifesto, Prev: Intro, Up: Top + +Glossary +******** + +Abbrev + An abbrev is a text string which expands into a different text + string when present in the buffer. For example, you might define + a short word as an abbrev for a long phrase that you want to insert + frequently. *Note Abbrevs::. + +Aborting + Aborting means getting out of a recursive edit (q.v.). You can use + the commands `C-]' and `M-x top-level' for this. *Note Quitting::. + +Auto Fill mode + Auto Fill mode is a minor mode in which text you insert is + automatically broken into lines of fixed width. *Note Filling::. + +Auto Saving + Auto saving means that Emacs automatically stores the contents of + an Emacs buffer in a specially-named file so the information will + not be lost if the buffer is lost due to a system error or user + error. *Note Auto Save::. + +Backup File + A backup file records the contents that a file had before the + current editing session. Emacs creates backup files automatically + to help you track down or cancel changes you later regret. *Note + Backup::. + +Balance Parentheses + Emacs can balance parentheses manually or automatically. Manual + balancing is done by the commands to move over balanced expressions + (*note Lists::). Automatic balancing is done by blinking the + parenthesis that matches one just inserted (*note Matching Parens: + Matching.). + +Bind + To bind a key is to change its binding (q.v.). *Note Rebinding::. + +Binding + A key gets its meaning in Emacs by having a binding which is a + command (q.v.), a Lisp function that is run when the key is typed. + *Note Binding: Commands. Customization often involves rebinding a + character to a different command function. The bindings of all + keys are recorded in the keymaps (q.v.). *Note Keymaps::. + +Blank Lines + Blank lines are lines that contain only whitespace. Emacs has + several commands for operating on the blank lines in a buffer. + +Buffer + The buffer is the basic editing unit; one buffer corresponds to one + piece of text being edited. You can have several buffers, but at + any time you are editing only one, the `selected' buffer, though + several buffers can be visible when you are using multiple + windows. *Note Buffers::. + +Buffer Selection History + Emacs keeps a buffer selection history which records how recently + each Emacs buffer was selected. Emacs uses this list when + choosing a buffer to select. *Note Buffers::. + +C- + `C' in the name of a character is an abbreviation for Control. + *Note C-: Keystrokes. + +C-M- + `C-M-' in the name of a character is an abbreviation for + Control-Meta. *Note C-M-: Keystrokes. + +Case Conversion + Case conversion means changing text from upper case to lower case + or vice versa. *Note Case::, for the commands for case conversion. + +Characters + Characters form the contents of an Emacs buffer; also, Emacs + commands are invoked by keys (q.v.), which are sequences of one or + more characters. *Note Keystrokes::. + +Command + A command is a Lisp function specially defined to be able to serve + as a key binding in Emacs. When you type a key (q.v.), Emacs + looks up its binding (q.v.) in the relevant keymaps (q.v.) to find + the command to run. *Note Commands::. + +Command Name + A command name is the name of a Lisp symbol which is a command + (*note Commands::). You can invoke any command by its name using + `M-x' (*note M-x::). + +Comments + A comment is text in a program which is intended only for the + people reading the program, and is marked specially so that it + will be ignored when the program is loaded or compiled. Emacs + offers special commands for creating, aligning, and killing + comments. *Note Comments::. + +Compilation + Compilation is the process of creating an executable program from + source code. Emacs has commands for compiling files of Emacs Lisp + code (*note Lisp Libraries::) and programs in C and other languages + (*note Compilation::). + +Complete Key + A complete key is a character or sequence of characters which, + when typed by the user, fully specifies one action to be performed + by Emacs. For example, `X' and `Control-f' and `Control-x m' are + keys. Keys derive their meanings from being bound (q.v.) to + commands (q.v.). Thus, `X' is conventionally bound to a command + to insert `X' in the buffer; `C-x m' is conventionally bound to a + command to begin composing a mail message. *Note Keystrokes::. + +Completion + When Emacs automatically fills an abbreviation for a name into the + entire name, that process is called completion. Completion is + done for minibuffer (q.v.) arguments when the set of possible + valid inputs is known; for example, on command names, buffer + names, and file names. Completion occurs when you type , + , or . *Note Completion::. + +Continuation Line + When a line of text is longer than the width of the frame, it + takes up more than one screen line when displayed. We say that the + text line is continued, and all screen lines used for it after the + first are called continuation lines. *Note Continuation: Basic. + +Control-Character + ASCII characters with octal codes 0 through 037, and also code + 0177, do not have graphic images assigned to them. These are the + control characters. Any control character can be typed by holding + down the key and typing some other character; some have + special keys on the keyboard. , , , , and + are all control characters. *Note Keystrokes::. + +Copyleft + A copyleft is a notice giving the public legal permission to + redistribute a program or other work of art. Copylefts are used + by leftists to enrich the public just as copyrights are used by + rightists to gain power over the public. + +Current Buffer + The current buffer in Emacs is the Emacs buffer on which most + editing commands operate. You can select any Emacs buffer as the + current one. *Note Buffers::. + +Current Line + The line point is on (*note Point::). + +Current Paragraph + The paragraph that point is in. If point is between paragraphs, + the current paragraph is the one that follows point. *Note + Paragraphs::. + +Current Defun + The defun (q.v.) that point is in. If point is between defuns, the + current defun is the one that follows point. *Note Defuns::. + +Cursor + The cursor is the rectangle on the screen which indicates the + position called point (q.v.) at which insertion and deletion takes + place. The cursor is on or under the character that follows + point. Often people speak of `the cursor' when, strictly + speaking, they mean `point'. *Note Cursor: Basic. + +Customization + Customization is making minor changes in the way Emacs works. It + is often done by setting variables (*note Variables::) or by + rebinding keys (*note Keymaps::). + +Default Argument + The default for an argument is the value that is used if you do not + specify one. When Emacs prompts you in the minibuffer for an + argument, the default argument is used if you just type . + *Note Minibuffer::. + +Default Directory + When you specify a file name that does not start with `/' or `~', + it is interpreted relative to the current buffer's default + directory. *Note Default Directory: Minibuffer File. + +Defun + A defun is a list at the top level of parenthesis or bracket + structure in a program. It is so named because most such lists in + Lisp programs are calls to the Lisp function `defun'. *Note + Defuns::. + + + The character runs the command that deletes one character of + text. *Note DEL: Basic. + +Deletion + Deleting text means erasing it without saving it. Emacs deletes + text only when it is expected not to be worth saving (all + whitespace, or only one character). The alternative is killing + (q.v.). *Note Deletion: Killing. + +Deletion of Files + Deleting a file means removing it from the file system. *Note + Misc File Ops::. + +Deletion of Messages + Deleting a message means flagging it to be eliminated from your + mail file. Until the mail file is expunged, you can undo this by + undeleting the message. + +Deletion of Frames + When working under the multi-frame X-based version of XEmacs, you + can delete individual frames using the Close menu item from the + File menu. + +Deletion of Windows + When you delete a subwindow of an Emacs frame, you eliminate it + from the frame. Other windows expand to use up the space. The + deleted window can never come back, but no actual text is lost. + *Note Windows::. + +Directory + Files in the Unix file system are grouped into file directories. + *Note Directories: ListDir. + +Dired + Dired is the Emacs facility that displays the contents of a file + directory and allows you to "edit the directory", performing + operations on the files in the directory. *Note Dired::. + +Disabled Command + A disabled command is one that you may not run without special + confirmation. Commands are usually disabled because they are + confusing for beginning users. *Note Disabling::. + +Dribble File + A file into which Emacs writes all the characters that the user + types on the keyboard. Dribble files are used to make a record for + debugging Emacs bugs. Emacs does not make a dribble file unless + you tell it to. *Note Bugs::. + +Echo Area + The area at the bottom of the Emacs frame which is used for + echoing the arguments to commands, for asking questions, and for + printing brief messages (including error messages). *Note Echo + Area::. + +Echoing + Echoing refers to acknowledging the receipt of commands by + displaying them (in the echo area). Emacs never echoes + single-character keys; longer keys echo only if you pause while + typing them. + +Error + An error occurs when an Emacs command cannot execute in the current + circumstances. When an error occurs, execution of the command + stops (unless the command has been programmed to do otherwise) and + Emacs reports the error by printing an error message (q.v.). + Type-ahead is discarded. Then Emacs is ready to read another + editing command. + +Error Messages + Error messages are single lines of output printed by Emacs when the + user asks for something impossible to do (such as killing text + forward when point is at the end of the buffer). They appear in + the echo area, accompanied by a beep. + + + is a character used as a prefix for typing Meta characters on + keyboards lacking a key. Unlike the key (which, + like the key, is held down while another character is + typed), the key is pressed and released, and applies to the + next character typed. + +Fill Prefix + The fill prefix is a string that Emacs enters at the beginning of + each line when it performs filling. It is not regarded as part of + the text to be filled. *Note Filling::. + +Filling + Filling text means moving text from line to line so that all the + lines are approximately the same length. *Note Filling::. + +Frame + When running Emacs on a TTY terminal, "frame" means the terminal's + screen. When running Emacs under X, you can have multiple frames, + each corresponding to a top-level X window and each looking like + the screen on a TTY. Each frame contains one or more + non-overlapping Emacs windows (possibly with associated + scrollbars, under X), an echo area, and (under X) possibly a + menubar, toolbar, and/or gutter. + +Global + Global means `independent of the current environment; in effect + throughout Emacs'. It is the opposite of local (q.v.). Examples + of the use of `global' appear below. + +Global Abbrev + A global definition of an abbrev (q.v.) is effective in all major + modes that do not have local (q.v.) definitions for the same + abbrev. *Note Abbrevs::. + +Global Keymap + The global keymap (q.v.) contains key bindings that are in effect + unless local key bindings in a major mode's local keymap (q.v.) + override them.*Note Keymaps::. + +Global Substitution + Global substitution means replacing each occurrence of one string + by another string through a large amount of text. *Note Replace::. + +Global Variable + The global value of a variable (q.v.) takes effect in all buffers + that do not have their own local (q.v.) values for the variable. + *Note Variables::. + +Graphic Character + Graphic characters are those assigned pictorial images rather than + just names. All the non-Meta (q.v.) characters except for the + Control (q.v.) character are graphic characters. These include + letters, digits, punctuation, and spaces; they do not include + or . In Emacs, typing a graphic character inserts that + character (in ordinary editing modes). *Note Basic Editing: Basic. + +Grinding + Grinding means adjusting the indentation in a program to fit the + nesting structure. *Note Grinding: Indentation. + +Hardcopy + Hardcopy means printed output. Emacs has commands for making + printed listings of text in Emacs buffers. *Note Hardcopy::. + + + You can type at any time to ask what options you have, or + to ask what any command does. is really `Control-h'. + *Note Help::. + +Inbox + An inbox is a file in which mail is delivered by the operating + system. Some mail handlers transfers mail from inboxes to mail + files (q.v.) in which the mail is then stored permanently or until + explicitly deleted. + +Indentation + Indentation means blank space at the beginning of a line. Most + programming languages have conventions for using indentation to + illuminate the structure of the program, and Emacs has special + features to help you set up the correct indentation. *Note + Indentation::. + +Insertion + Insertion means copying text into the buffer, either from the + keyboard or from some other place in Emacs. + +Justification + Justification means adding extra spaces to lines of text to make + them come exactly to a specified width. *Note Justification: + Filling. + +Keyboard Macros + Keyboard macros are a way of defining new Emacs commands from + sequences of existing ones, with no need to write a Lisp program. + *Note Keyboard Macros::. + +Key + A key is a sequence of characters that, when input to Emacs, + specify or begin to specify a single action for Emacs to perform. + That is, the sequence is considered a single unit. If the key is + enough to specify one action, it is a complete key (q.v.); if it + is less than enough, it is a prefix key (q.v.). *Note + Keystrokes::. + +Keymap + The keymap is the data structure that records the bindings (q.v.) + of keys to the commands that they run. For example, the keymap + binds the character `C-n' to the command function `next-line'. + *Note Keymaps::. + +Kill Ring + The kill ring is the place where all text you have killed recently + is saved. You can re-insert any of the killed text still in the + ring; this is called yanking (q.v.). *Note Yanking::. + +Killing + Killing means erasing text and saving it on the kill ring so it + can be yanked (q.v.) later. Some other systems call this + "cutting." Most Emacs commands to erase text do killing, as + opposed to deletion (q.v.). *Note Killing::. + +Killing Jobs + Killing a job (such as, an invocation of Emacs) means making it + cease to exist. Any data within it, if not saved in a file, is + lost. *Note Exiting::. + +List + A list is, approximately, a text string beginning with an open + parenthesis and ending with the matching close parenthesis. In C + mode and other non-Lisp modes, groupings surrounded by other kinds + of matched delimiters appropriate to the language, such as braces, + are also considered lists. Emacs has special commands for many + operations on lists. *Note Lists::. + +Local + Local means `in effect only in a particular context'; the relevant + kind of context is a particular function execution, a particular + buffer, or a particular major mode. Local is the opposite of + `global' (q.v.). Specific uses of `local' in Emacs terminology + appear below. + +Local Abbrev + A local abbrev definition is effective only if a particular major + mode is selected. In that major mode, it overrides any global + definition for the same abbrev. *Note Abbrevs::. + +Local Keymap + A local keymap is used in a particular major mode; the key bindings + (q.v.) in the current local keymap override global bindings of the + same keys. *Note Keymaps::. + +Local Variable + A local value of a variable (q.v.) applies to only one buffer. + *Note Locals::. + +M- + `M-' in the name of a character is an abbreviation for , one + of the modifier keys that can accompany any character. *Note + Keystrokes::. + +M-C- + `M-C-' in the name of a character is an abbreviation for + Control-Meta; it means the same thing as `C-M-'. If your terminal + lacks a real key, you type a Control-Meta character by + typing and then typing the corresponding Control character. + *Note C-M-: Keystrokes. + +M-x + `M-x' is the key which is used to call an Emacs command by name. + You use it to call commands that are not bound to keys. *Note + M-x::. + +Mail + Mail means messages sent from one user to another through the + computer system, to be read at the recipient's convenience. Emacs + has commands for composing and sending mail, and for reading and + editing the mail you have received. *Note Sending Mail::. + +Major Mode + The major modes are a mutually exclusive set of options each of + which configures Emacs for editing a certain sort of text. + Ideally, each programming language has its own major mode. *Note + Major Modes::. + +Mark + The mark points to a position in the text. It specifies one end + of the region (q.v.), point being the other end. Many commands + operate on the whole region, that is, all the text from point to + the mark. *Note Mark::. + +Mark Ring + The mark ring is used to hold several recent previous locations of + the mark, just in case you want to move back to them. *Note Mark + Ring::. + +Message + See `mail'. + +Meta + Meta is the name of a modifier bit which a command character may + have. It is present in a character if the character is typed with + the key held down. Such characters are given names that + start with `Meta-'. For example, `Meta-<' is typed by holding down + and at the same time typing `<' (which itself is done, on + most terminals, by holding down and typing `,'). *Note + Meta: Keystrokes. + +Meta Character + A Meta character is one whose character code includes the Meta bit. + +Minibuffer + The minibuffer is the window that Emacs displays inside the echo + area (q.v.) when it prompts you for arguments to commands. *Note + Minibuffer::. + +Minor Mode + A minor mode is an optional feature of Emacs which can be switched + on or off independent of the major mode. Each minor mode has a + command to turn it on or off. *Note Minor Modes::. + +Mode Line + The mode line is the line at the bottom of each text window (q.v.), + which gives status information on the buffer displayed in that + window. *Note Mode Line::. + +Modified Buffer + A buffer (q.v.) is modified if its text has been changed since the + last time the buffer was saved (or since it was created, if it has + never been saved). *Note Saving::. + +Moving Text + Moving text means erasing it from one place and inserting it in + another. This is done by killing (q.v.) and then yanking (q.v.). + *Note Killing::. + +Named Mark + A named mark is a register (q.v.) in its role of recording a + location in text so that you can move point to that location. + *Note Registers::. + +Narrowing + Narrowing means creating a restriction (q.v.) that limits editing + in the current buffer to only a part of the text in the buffer. + Text outside that part is inaccessible to the user until the + boundaries are widened again, but it is still there, and saving + the file saves the invisible text. *Note Narrowing::. + +Newline + characters in the buffer terminate lines of text and are + called newlines. *Note Newline: Keystrokes. + +Numeric Argument + A numeric argument is a number, specified before a command, to + change the effect of the command. Often the numeric argument + serves as a repeat count. *Note Arguments::. + +Option + An option is a variable (q.v.) that allows you to customize Emacs + by giving it a new value. *Note Variables::. + +Overwrite Mode + Overwrite mode is a minor mode. When it is enabled, ordinary text + characters replace the existing text after point rather than + pushing it to the right. *Note Minor Modes::. + +Page + A page is a unit of text, delimited by formfeed characters (ASCII + Control-L, code 014) coming at the beginning of a line. Some Emacs + commands are provided for moving over and operating on pages. + *Note Pages::. + +Paragraphs + Paragraphs are the medium-size unit of English text. There are + special Emacs commands for moving over and operating on paragraphs. + *Note Paragraphs::. + +Parsing + We say that Emacs parses words or expressions in the text being + edited. Really, all it knows how to do is find the other end of a + word or expression. *Note Syntax::. + +Point + Point is the place in the buffer at which insertion and deletion + occur. Point is considered to be between two characters, not at + one character. The terminal's cursor (q.v.) indicates the + location of point. *Note Point: Basic. + +Prefix Key + A prefix key is a key (q.v.) whose sole function is to introduce a + set of multi-character keys. `Control-x' is an example of a prefix + key; any two-character sequence starting with `C-x' is also a + legitimate key. *Note Keystrokes::. + +Prompt + A prompt is text printed to ask the user for input. Printing a + prompt is called prompting. Emacs prompts always appear in the + echo area (q.v.). One kind of prompting happens when the + minibuffer is used to read an argument (*note Minibuffer::); the + echoing which happens when you pause in the middle of typing a + multi-character key is also a kind of prompting (*note Echo + Area::). + +Quitting + Quitting means cancelling a partially typed command or a running + command, using `C-g'. *Note Quitting::. + +Quoting + Quoting means depriving a character of its usual special + significance. In Emacs this is usually done with `Control-q'. + What constitutes special significance depends on the context and + on convention. For example, an "ordinary" character as an Emacs + command inserts itself; so in this context, a special character is + any character that does not normally insert itself (such as , + for example), and quoting it makes it insert itself as if it were + not special. Not all contexts allow quoting. *Note Quoting: + Basic. + +Read-only Buffer + A read-only buffer is one whose text you are not allowed to change. + Normally Emacs makes buffers read-only when they contain text which + has a special significance to Emacs, such asDired buffers. + Visiting a file that is write-protected also makes a read-only + buffer. *Note Buffers::. + +Recursive Editing Level + A recursive editing level is a state in which part of the + execution of a command involves asking the user to edit some text. + This text may or may not be the same as the text to which the + command was applied. The mode line indicates recursive editing + levels with square brackets (`[' and `]'). *Note Recursive Edit::. + +Redisplay + Redisplay is the process of correcting the image on the screen to + correspond to changes that have been made in the text being edited. + *Note Redisplay: Frame. + +Regexp + See `regular expression'. + +Region + The region is the text between point (q.v.) and the mark (q.v.). + Many commands operate on the text of the region. *Note Region: + Mark. + +Registers + Registers are named slots in which text or buffer positions or + rectangles can be saved for later use. *Note Registers::. + +Regular Expression + A regular expression is a pattern that can match various text + strings; for example, `l[0-9]+' matches `l' followed by one or more + digits. *Note Regexps::. + +Replacement + See `global substitution'. + +Restriction + A buffer's restriction is the amount of text, at the beginning or + the end of the buffer, that is temporarily invisible and + inaccessible. Giving a buffer a nonzero amount of restriction is + called narrowing (q.v.). *Note Narrowing::. + + + is the character than runs the command to insert a newline + into the text. It is also used to terminate most arguments read + in the minibuffer (q.v.). *Note Return: Keystrokes. + +Saving + Saving a buffer means copying its text into the file that was + visited (q.v.) in that buffer. To actually change a file you have + edited in Emacs, you have to save it. *Note Saving::. + +Scrolling + Scrolling means shifting the text in the Emacs window to make a + different part ot the buffer visible. *Note Scrolling: Display. + +Searching + Searching means moving point to the next occurrence of a specified + string. *Note Search::. + +Selecting + Selecting a buffer means making it the current (q.v.) buffer. + *Note Selecting: Buffers. + +Self-documentation + Self-documentation is the feature of Emacs which can tell you what + any command does, or can give you a list of all commands related + to a topic you specify. You ask for self-documentation with the + help character, `C-h'. *Note Help::. + +Sentences + Emacs has commands for moving by or killing by sentences. *Note + Sentences::. + +Sexp + An sexp (short for `s-expression,' itself short for `symbolic + expression') is the basic syntactic unit of Lisp in its textual + form: either a list, or Lisp atom. Many Emacs commands operate on + sexps. The term `sexp' is generalized to languages other than + Lisp to mean a syntactically recognizable expression. *Note + Sexps: Lists. + +Simultaneous Editing + Simultaneous editing means two users modifying the same file at + once. If simultaneous editing is not detected, you may lose your + work. Emacs detects all cases of simultaneous editing and warns + the user to investigate them. *Note Simultaneous Editing: + Interlocking. + +String + A string is a kind of Lisp data object which contains a sequence of + characters. Many Emacs variables are intended to have strings as + values. The Lisp syntax for a string consists of the characters in + the string with a `"' before and another `"' after. Write a `"' + that is part of the string as `\"' and a `\' that is part of the + string as `\\'. You can include all other characters, including + newline, just by writing them inside the string. You can also + include escape sequences as in C, such as `\n' for newline or + `\241' using an octal character code. + +String Substitution + See `global substitution'. + +Syntax Table + The syntax table tells Emacs which characters are part of a word, + which characters balance each other like parentheses, etc. *Note + Syntax::. + +Tag Table + A tag table is a file that serves as an index to the function + definitions in one or more other files. *Note Tags::. + +Termscript File + A termscript file contains a record of all characters Emacs sent to + the terminal. It is used for tracking down bugs in Emacs + redisplay. Emacs does not make a termscript file unless + explicitly instructed to do so. *Note Bugs::. + +Text + Text has two meanings (*note Text::): + + * Data consisting of a sequence of characters, as opposed to + binary numbers, images, graphics commands, executable + programs, and the like. The contents of an Emacs buffer are + always text in this sense. + + * Data consisting of written human language, as opposed to + programs, or something that follows the stylistic conventions + of human language. + +Top Level + Top level is the normal state of Emacs, in which you are editing + the text of the file you have visited. You are at top level + whenever you are not in a recursive editing level (q.v.) or the + minibuffer (q.v.), and not in the middle of a command. You can + get back to top level by aborting (q.v.) and quitting (q.v.). + *Note Quitting::. + +Transposition + Transposing two units of text means putting each one into the place + formerly occupied by the other. There are Emacs commands to + transpose two adjacent characters, words, sexps (q.v.), or lines + (*note Transpose::). + +Truncation + Truncating text lines in the display means leaving out any text on + a line that does not fit within the right margin of the window + displaying it. See also `continuation line'. *Note Truncation: + Basic. + +Undoing + Undoing means making your previous editing go in reverse, bringing + back the text that existed earlier in the editing session. *Note + Undo::. + +Variable + A variable is Lisp object that can store an arbitrary value. + Emacs uses some variables for internal purposes, and has others + (known as `options' (q.v.)) you can set to control the behavior of + Emacs. The variables used in Emacs that you are likely to be + interested in are listed in the Variables Index of this manual. + *Note Variables::, for information on variables. + +Visiting + Visiting a file means loading its contents into a buffer (q.v.) + where they can be edited. *Note Visiting::. + +Whitespace + Whitespace is any run of consecutive formatting characters (spaces, + tabs, newlines, and backspaces). + +Widening + Widening is removing any restriction (q.v.) on the current buffer; + it is the opposite of narrowing (q.v.). *Note Narrowing::. + +Window + Emacs divides the frame into one or more windows, each of which can + display the contents of one buffer (q.v.) at any time. *Note + Frame::, for basic information on how Emacs uses the frame. *Note + Windows::, for commands to control the use of windows. Note that if + you are running Emacs under X, terminology can be confusing: Each + Emacs frame occupies a separate X window and can, in turn, be + divided into different subwindows. + +Word Abbrev + Synonymous with `abbrev'. + +Word Search + Word search is searching for a sequence of words, considering the + punctuation between them as insignificant. *Note Word Search::. + +Yanking + Yanking means reinserting text previously killed. It can be used + to undo a mistaken kill, or for copying or moving text. Some other + systems call this "pasting". *Note Yanking::. diff --git a/info/xemacs.info-20 b/info/xemacs.info-20 index 8a6cac3..0711fc3 100644 --- a/info/xemacs.info-20 +++ b/info/xemacs.info-20 @@ -30,757 +30,953 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  -File: xemacs.info, Node: Command Index, Next: Variable Index, Prev: Key Index, Up: Top +File: xemacs.info, Node: Manifesto, Next: Key Index, Prev: Glossary, Up: Top -Command and Function Index -************************** +The GNU Manifesto +***************** + +What's GNU? GNU's Not Unix! +============================ + + GNU, which stands for GNU's Not Unix, is the name for the complete +Unix-compatible software system which I am writing so that I can give it +away free to everyone who can use it. Several other volunteers are +helping me. Contributions of time, money, programs, and equipment are +greatly needed. + + So far we have an Emacs text editor with Lisp for writing editor +commands, a source level debugger, a yacc-compatible parser generator, +a linker, and around 35 utilities. A shell (command interpreter) is +nearly completed. A new portable optimizing C compiler has compiled +itself and may be released this year. An initial kernel exists, but +many more features are needed to emulate Unix. When the kernel and +compiler are finished, it will be possible to distribute a GNU system +suitable for program development. We will use TeX as our text +formatter, but an nroff is being worked on. We will use the free, +portable X window system as well. After this we will add a portable +Common Lisp, an Empire game, a spreadsheet, and hundreds of other +things, plus online documentation. We hope to supply, eventually, +everything useful that normally comes with a Unix system, and more. + + GNU will be able to run Unix programs, but will not be identical to +Unix. We will make all improvements that are convenient, based on our +experience with other operating systems. In particular, we plan to +have longer filenames, file version numbers, a crashproof file system, +filename completion perhaps, terminal-independent display support, and +perhaps eventually a Lisp-based window system through which several +Lisp programs and ordinary Unix programs can share a screen. Both C +and Lisp will be available as system programming languages. We will +try to support UUCP, MIT Chaosnet, and Internet protocols for +communication. + + GNU is aimed initially at machines in the 68000/16000 class with +virtual memory, because they are the easiest machines to make it run +on. The extra effort to make it run on smaller machines will be left +to someone who wants to use it on them. + + To avoid horrible confusion, please pronounce the `G' in the word +`GNU' when it is the name of this project. + +Why I Must Write GNU +==================== + + I consider that the golden rule requires that if I like a program I +must share it with other people who like it. Software sellers want to +divide the users and conquer them, making each user agree not to share +with others. I refuse to break solidarity with other users in this +way. I cannot in good conscience sign a nondisclosure agreement or a +software license agreement. For years I worked within the Artificial +Intelligence Lab to resist such tendencies and other inhospitalities, +but eventually they had gone too far: I could not remain in an +institution where such things are done for me against my will. + + So that I can continue to use computers without dishonor, I have +decided to put together a sufficient body of free software so that I +will be able to get along without any software that is not free. I +have resigned from the AI lab to deny MIT any legal excuse to prevent +me from giving GNU away. + +Why GNU Will Be Compatible With Unix +==================================== + + Unix is not my ideal system, but it is not too bad. The essential +features of Unix seem to be good ones, and I think I can fill in what +Unix lacks without spoiling them. And a system compatible with Unix +would be convenient for many other people to adopt. + +How GNU Will Be Available +========================= + + GNU is not in the public domain. Everyone will be permitted to +modify and redistribute GNU, but no distributor will be allowed to +restrict its further redistribution. That is to say, proprietary +modifications will not be allowed. I want to make sure that all +versions of GNU remain free. + +Why Many Other Programmers Want to Help +======================================= + + I have found many other programmers who are excited about GNU and +want to help. + + Many programmers are unhappy about the commercialization of system +software. It may enable them to make more money, but it requires them +to feel in conflict with other programmers in general rather than feel +as comrades. The fundamental act of friendship among programmers is the +sharing of programs; marketing arrangements now typically used +essentially forbid programmers to treat others as friends. The +purchaser of software must choose between friendship and obeying the +law. Naturally, many decide that friendship is more important. But +those who believe in law often do not feel at ease with either choice. +They become cynical and think that programming is just a way of making +money. + + By working on and using GNU rather than proprietary programs, we can +be hospitable to everyone and obey the law. In addition, GNU serves as +an example to inspire and a banner to rally others to join us in +sharing. This can give us a feeling of harmony which is impossible if +we use software that is not free. For about half the programmers I +talk to, this is an important happiness that money cannot replace. + +How You Can Contribute +====================== + + I am asking computer manufacturers for donations of machines and +money. I'm asking individuals for donations of programs and work. + + One consequence you can expect if you donate machines is that GNU +will run on them at an early date. The machines should be complete, +ready-to-use systems, approved for use in a residential area, and not +in need of sophisticated cooling or power. + + I have found very many programmers eager to contribute part-time +work for GNU. For most projects, such part-time distributed work would +be very hard to coordinate; the independently-written parts would not +work together. But for the particular task of replacing Unix, this +problem is absent. A complete Unix system contains hundreds of utility +programs, each of which is documented separately. Most interface +specifications are fixed by Unix compatibility. If each contributor +can write a compatible replacement for a single Unix utility, and make +it work properly in place of the original on a Unix system, then these +utilities will work right when put together. Even allowing for Murphy +to create a few unexpected problems, assembling these components will +be a feasible task. (The kernel will require closer communication and +will be worked on by a small, tight group.) + + If I get donations of money, I may be able to hire a few people full +or part time. The salary won't be high by programmers' standards, but +I'm looking for people for whom building community spirit is as +important as making money. I view this as a way of enabling dedicated +people to devote their full energies to working on GNU by sparing them +the need to make a living in another way. + +Why All Computer Users Will Benefit +=================================== + + Once GNU is written, everyone will be able to obtain good system +software free, just like air. + + This means much more than just saving everyone the price of a Unix +license. It means that much wasteful duplication of system programming +effort will be avoided. This effort can go instead into advancing the +state of the art. + + Complete system sources will be available to everyone. As a result, +a user who needs changes in the system will always be free to make them +himself, or hire any available programmer or company to make them for +him. Users will no longer be at the mercy of one programmer or company +which owns the sources and is in sole position to make changes. + + Schools will be able to provide a much more educational environment +by encouraging all students to study and improve the system code. +Harvard's computer lab used to have the policy that no program could be +installed on the system if its sources were not on public display, and +upheld it by actually refusing to install certain programs. I was very +much inspired by this. + + Finally, the overhead of considering who owns the system software +and what one is or is not entitled to do with it will be lifted. + + Arrangements to make people pay for using a program, including +licensing of copies, always incur a tremendous cost to society through +the cumbersome mechanisms necessary to figure out how much (that is, +which programs) a person must pay for. And only a police state can +force everyone to obey them. Consider a space station where air must +be manufactured at great cost: charging each breather per liter of air +may be fair, but wearing the metered gas mask all day and all night is +intolerable even if everyone can afford to pay the air bill. And the +TV cameras everywhere to see if you ever take the mask off are +outrageous. It's better to support the air plant with a head tax and +chuck the masks. + + Copying all or parts of a program is as natural to a programmer as +breathing, and as productive. It ought to be as free. + +Some Easily Rebutted Objections to GNU's Goals +============================================== + + "Nobody will use it if it is free, because that means they can't + rely on any support." + + "You have to charge for the program to pay for providing the + support." + + If people would rather pay for GNU plus service than get GNU free +without service, a company to provide just service to people who have +obtained GNU free ought to be profitable. + + We must distinguish between support in the form of real programming +work and mere handholding. The former is something one cannot rely on +from a software vendor. If your problem is not shared by enough +people, the vendor will tell you to get lost. + + If your business needs to be able to rely on support, the only way +is to have all the necessary sources and tools. Then you can hire any +available person to fix your problem; you are not at the mercy of any +individual. With Unix, the price of sources puts this out of +consideration for most businesses. With GNU this will be easy. It is +still possible for there to be no available competent person, but this +problem cannot be blamed on distibution arrangements. GNU does not +eliminate all the world's problems, only some of them. + + Meanwhile, the users who know nothing about computers need +handholding: doing things for them which they could easily do +themselves but don't know how. + + Such services could be provided by companies that sell just +hand-holding and repair service. If it is true that users would rather +spend money and get a product with service, they will also be willing +to buy the service having got the product free. The service companies +will compete in quality and price; users will not be tied to any +particular one. Meanwhile, those of us who don't need the service +should be able to use the program without paying for the service. + + "You cannot reach many people without advertising, and you must + charge for the program to support that." + + "It's no use advertising a program people can get free." + + There are various forms of free or very cheap publicity that can be +used to inform numbers of computer users about something like GNU. But +it may be true that one can reach more microcomputer users with +advertising. If this is really so, a business which advertises the +service of copying and mailing GNU for a fee ought to be successful +enough to pay for its advertising and more. This way, only the users +who benefit from the advertising pay for it. + + On the other hand, if many people get GNU from their friends, and +such companies don't succeed, this will show that advertising was not +really necessary to spread GNU. Why is it that free market advocates +don't want to let the free market decide this? + + "My company needs a proprietary operating system to get a + competitive edge." + + GNU will remove operating system software from the realm of +competition. You will not be able to get an edge in this area, but +neither will your competitors be able to get an edge over you. You and +they will compete in other areas, while benefitting mutually in this +one. If your business is selling an operating system, you will not +like GNU, but that's tough on you. If your business is something else, +GNU can save you from being pushed into the expensive business of +selling operating systems. + + I would like to see GNU development supported by gifts from many +manufacturers and users, reducing the cost to each. + + "Don't programmers deserve a reward for their creativity?" + + If anything deserves a reward, it is social contribution. +Creativity can be a social contribution, but only in so far as society +is free to use the results. If programmers deserve to be rewarded for +creating innovative programs, by the same token they deserve to be +punished if they restrict the use of these programs. + + "Shouldn't a programmer be able to ask for a reward for his + creativity?" + + There is nothing wrong with wanting pay for work, or seeking to +maximize one's income, as long as one does not use means that are +destructive. But the means customary in the field of software today +are based on destruction. + + Extracting money from users of a program by restricting their use of +it is destructive because the restrictions reduce the amount and the +ways that the program can be used. This reduces the amount of wealth +that humanity derives from the program. When there is a deliberate +choice to restrict, the harmful consequences are deliberate destruction. + + The reason a good citizen does not use such destructive means to +become wealthier is that, if everyone did so, we would all become +poorer from the mutual destructiveness. This is Kantian ethics; or, +the Golden Rule. Since I do not like the consequences that result if +everyone hoards information, I am required to consider it wrong for one +to do so. Specifically, the desire to be rewarded for one's creativity +does not justify depriving the world in general of all or part of that +creativity. + + "Won't programmers starve?" + + I could answer that nobody is forced to be a programmer. Most of us +cannot manage to get any money for standing on the street and making +faces. But we are not, as a result, condemned to spend our lives +standing on the street making faces, and starving. We do something +else. + + But that is the wrong answer because it accepts the questioner's +implicit assumption: that without ownership of software, programmers +cannot possibly be paid a cent. Supposedly it is all or nothing. + + The real reason programmers will not starve is that it will still be +possible for them to get paid for programming; just not paid as much as +now. + + Restricting copying is not the only basis for business in software. +It is the most common basis because it brings in the most money. If it +were prohibited, or rejected by the customer, software business would +move to other bases of organization which are now used less often. +There are always numerous ways to organize any kind of business. + + Probably programming will not be as lucrative on the new basis as it +is now. But that is not an argument against the change. It is not +considered an injustice that sales clerks make the salaries that they +now do. If programmers made the same, that would not be an injustice +either. (In practice they would still make considerably more than +that.) + + "Don't people have a right to control how their creativity is + used?" + + "Control over the use of one's ideas" really constitutes control over +other people's lives; and it is usually used to make their lives more +difficult. + + People who have studied the issue of intellectual property rights +carefully (such as lawyers) say that there is no intrinsic right to +intellectual property. The kinds of supposed intellectual property +rights that the government recognizes were created by specific acts of +legislation for specific purposes. + + For example, the patent system was established to encourage +inventors to disclose the details of their inventions. Its purpose was +to help society rather than to help inventors. At the time, the life +span of 17 years for a patent was short compared with the rate of +advance of the state of the art. Since patents are an issue only among +manufacturers, for whom the cost and effort of a license agreement are +small compared with setting up production, the patents often do not do +much harm. They do not obstruct most individuals who use patented +products. + + The idea of copyright did not exist in ancient times, when authors +frequently copied other authors at length in works of non-fiction. This +practice was useful, and is the only way many authors' works have +survived even in part. The copyright system was created expressly for +the purpose of encouraging authorship. In the domain for which it was +invented--books, which could be copied economically only on a printing +press--it did little harm, and did not obstruct most of the individuals +who read the books. + + All intellectual property rights are just licenses granted by society +because it was thought, rightly or wrongly, that society as a whole +would benefit by granting them. But in any particular situation, we +have to ask: are we really better off granting such license? What kind +of act are we licensing a person to do? + + The case of programs today is very different from that of books a +hundred years ago. The fact that the easiest way to copy a program is +from one neighbor to another, the fact that a program has both source +code and object code which are distinct, and the fact that a program is +used rather than read and enjoyed, combine to create a situation in +which a person who enforces a copyright is harming society as a whole +both materially and spiritually; in which a person should not do so +regardless of whether the law enables him to. + + "Competition makes things get done better." + + The paradigm of competition is a race: by rewarding the winner, we +encourage everyone to run faster. When capitalism really works this +way, it does a good job; but its defenders are wrong in assuming it +always works this way. If the runners forget why the reward is offered +and become intent on winning, no matter how, they may find other +strategies--such as, attacking other runners. If the runners get into +a fist fight, they will all finish late. + + Proprietary and secret software is the moral equivalent of runners +in a fist fight. Sad to say, the only referee we've got does not seem +to object to fights; he just regulates them ("For every ten yards you +run, you can fire one shot"). He really ought to break them up, and +penalize runners for even trying to fight. + + "Won't everyone stop programming without a monetary incentive?" + + Actually, many people will program with absolutely no monetary +incentive. Programming has an irresistible fascination for some +people, usually the people who are best at it. There is no shortage of +professional musicians who keep at it even though they have no hope of +making a living that way. + + But really this question, though commonly asked, is not appropriate +to the situation. Pay for programmers will not disappear, only become +less. So the right question is, will anyone program with a reduced +monetary incentive? My experience shows that they will. + + For more than ten years, many of the world's best programmers worked +at the Artificial Intelligence Lab for far less money than they could +have had anywhere else. They got many kinds of non-monetary rewards: +fame and appreciation, for example. And creativity is also fun, a +reward in itself. + + Then most of them left when offered a chance to do the same +interesting work for a lot of money. + + What the facts show is that people will program for reasons other +than riches; but if given a chance to make a lot of money as well, they +will come to expect and demand it. Low-paying organizations do poorly +in competition with high-paying ones, but they do not have to do badly +if the high-paying ones are banned. + + "We need the programmers desperately. If they demand that we stop + helping our neighbors, we have to obey." + + You're never so desperate that you have to obey this sort of demand. +Remember: millions for defense, but not a cent for tribute! + + "Programmers need to make a living somehow." + + In the short run, this is true. However, there are plenty of ways +that programmers could make a living without selling the right to use a +program. This way is customary now because it brings programmers and +businessmen the most money, not because it is the only way to make a +living. It is easy to find other ways if you want to find them. Here +are a number of examples. + + A manufacturer introducing a new computer will pay for the porting of +operating systems onto the new hardware. + + The sale of teaching, hand-holding, and maintenance services could +also employ programmers. + + People with new ideas could distribute programs as freeware and ask +for donations from satisfied users or sell hand-holding services. I +have met people who are already working this way successfully. + + Users with related needs can form users' groups and pay dues. A +group would contract with programming companies to write programs that +the group's members would like to use. + + All sorts of development can be funded with a Software Tax: + + Suppose everyone who buys a computer has to pay a certain percent + of the price as a software tax. The government gives this to an + agency like the NSF to spend on software development. + + But if the computer buyer makes a donation to software development + himself, he can take a credit against the tax. He can donate to + the project of his own choosing--often, chosen because he hopes to + use the results when + + it is done. He can take a credit for any amount of donation up to + the total tax he had to pay. + + The total tax rate could be decided by a vote of the payers of the + tax, weighted according to the amount they will be taxed on. + + The consequences: + + * The computer-using community supports software development. + + * This community decides what level of support is needed. + + * Users who care which projects their share is spent on can + choose this for themselves. + + In the long run, making programs free is a step toward the +post-scarcity world, where nobody will have to work very hard just to +make a living. People will be free to devote themselves to activities +that are fun, such as programming, after spending the necessary ten +hours a week on required tasks such as legislation, family counseling, +robot repair, and asteroid prospecting. There will be no need to be +able to make a living from programming. + + We have already greatly reduced the amount of work that the whole +society must do for its actual productivity, but only a little of this +has translated itself into leisure for workers because much +nonproductive activity is required to accompany productive activity. +The main causes of this are bureaucracy and isometric struggles against +competition. Free software will greatly reduce these drains in the +area of software production. We must do this, in order for technical +gains in productivity to translate into less work for us. + + +File: xemacs.info, Node: Key Index, Next: Command Index, Prev: Manifesto, Up: Top + +Key (Character) Index +********************* * Menu: -* abbrev-mode <1>: Minor Modes. -* abbrev-mode: Abbrevs. -* abbrev-prefix-mark: Expanding Abbrevs. -* abort-recursive-edit <1>: Quitting. -* abort-recursive-edit: Recursive Edit. -* add-change-log-entry: Change Log. -* add-global-abbrev: Defining Abbrevs. -* add-menu: Menu Customization. -* add-menu-item: Menu Customization. -* add-mode-abbrev: Defining Abbrevs. -* add-name-to-file: Misc File Ops. -* american-calendar: Date Formats. -* append-next-kill: Appending Kills. -* append-to-buffer: Accumulating Text. -* append-to-file <1>: Misc File Ops. -* append-to-file: Accumulating Text. -* apropos: Help. -* ask-user-about-lock: Interlocking. -* auto-fill-mode <1>: Minor Modes. -* auto-fill-mode: Auto Fill. -* auto-save-mode: Auto Save Control. -* 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calendar-phases-of-moon: Lunar Phases. -* calendar-previous-haab-date: Mayan Calendar. -* calendar-previous-tzolkin-date: Mayan Calendar. -* calendar-print-astro-day-number: To Other Calendar. -* calendar-print-chinese-date: To Other Calendar. -* calendar-print-coptic-date: To Other Calendar. -* calendar-print-day-of-year: General Calendar. -* calendar-print-ethiopic-date: To Other Calendar. -* calendar-print-french-date: To Other Calendar. -* calendar-print-hebrew-date: To Other Calendar. -* calendar-print-islamic-date: To Other Calendar. -* calendar-print-iso-date: To Other Calendar. -* calendar-print-julian-date: To Other Calendar. -* calendar-print-mayan-date: To Other Calendar. -* calendar-print-persian-date: To Other Calendar. -* calendar-set-mark: Mark and Region. -* calendar-star-date: Calendar Customizing. -* calendar-sunrise-sunset: Sunrise/Sunset. -* calendar-unmark <1>: Diary Commands. -* calendar-unmark: Holidays. -* call-last-kbd-macro: Basic Kbd Macro. -* cancel-debug-on-entry: Lisp Debug. -* capitalize-word <1>: Case. -* capitalize-word: Fixing Case. -* center-line: Fill Commands. -* choose-completion: Completion Commands. -* clear-rectangle: Rectangles. -* comint-delchar-or-maybe-eof: Shell Mode. -* comint-dynamic-complete: Shell Mode. -* comint-next-input: Shell Mode. -* comint-previous-input: Shell Mode. -* command-apropos: Help. -* compare-windows <1>: Other Window. -* compare-windows: Comparing Files. -* compile: Compilation. -* compile-defun: Defuns. -* convert-mocklisp-buffer: Mocklisp. -* conx: CONX. -* conx-buffer: CONX. -* conx-init: CONX. -* conx-load: CONX. -* conx-region: CONX. -* conx-save: CONX. -* copy-file: Misc File Ops. -* copy-last-shell-input: Shell Mode. -* copy-rectangle-to-register: RegRect. -* copy-region-as-kill: Kill Ring. -* copy-to-buffer: Accumulating Text. -* copy-to-register: RegText. -* count-lines-page: Pages. -* count-lines-region: Position Info. -* count-matches: Other Repeating Search. -* count-text-lines: Nroff Mode. -* customize: Easy Customization. -* customize-apropos: Specific Customization. -* customize-browse: Customization Groups. -* customize-customized: Specific Customization. -* customize-face: Specific Customization. -* customize-group: Specific Customization. -* customize-option: Specific Customization. -* customize-saved: Specific Customization. -* dabbrev-expand: Dynamic Abbrevs. -* debug: Lisp Debug. -* debug-on-entry: Lisp Debug. -* default-value: Locals. -* define-abbrevs: Saving Abbrevs. -* define-key <1>: Programmatic Rebinding. -* define-key: Interactive Rebinding. -* delete-backward-char <1>: Kill Errors. -* delete-backward-char <2>: Killing. -* delete-backward-char: Basic. -* delete-blank-lines <1>: Killing. -* delete-blank-lines: Blank Lines. -* delete-char <1>: Basic Picture. -* delete-char: Killing. -* delete-file: Misc File Ops. -* delete-horizontal-space <1>: Indentation Commands. -* delete-horizontal-space: Killing. -* delete-indentation <1>: Indentation Commands. -* delete-indentation: Killing. -* delete-matching-lines: Other Repeating Search. -* delete-menu-item: Menu Customization. -* delete-non-matching-lines: Other Repeating Search. -* delete-other-windows: Change Window. -* delete-rectangle: Rectangles. -* delete-window: Change Window. -* describe-bindings: Help. -* describe-calendar-mode: General Calendar. -* describe-coding-system: Coding Systems. -* describe-copying: Help. -* describe-distribution: Help. -* describe-function <1>: Documentation. -* describe-function: Help. -* describe-input-method: Select Input Method. -* describe-key: Help. -* describe-key-briefly: Help. -* describe-language-environment: Language Environments. -* describe-mode: Help. -* describe-no-warranty: Help. -* describe-syntax: Syntax Change. -* describe-variable <1>: Examining. -* describe-variable <2>: Documentation. -* describe-variable: Help. -* diary: Diary Commands. -* diary-anniversary <1>: Sexp Diary Entries. -* diary-anniversary: Special Diary Entries. -* diary-astro-day-number: Sexp Diary Entries. -* diary-block: Special Diary Entries. -* diary-cyclic <1>: Sexp Diary Entries. -* diary-cyclic: Special Diary Entries. -* diary-day-of-year: Sexp Diary Entries. -* diary-float: Special Diary Entries. -* diary-french-date: Sexp Diary Entries. -* diary-hebrew-date: Sexp Diary Entries. -* diary-islamic-date: Sexp Diary Entries. -* diary-iso-date: Sexp Diary Entries. -* diary-julian-date: Sexp Diary Entries. -* diary-mail-entries: Diary Commands. -* diary-mayan-date: Sexp Diary Entries. -* diary-omer: Sexp Diary Entries. -* diary-parasha: Sexp Diary Entries. -* diary-phases-of-moon: Sexp Diary Entries. -* diary-rosh-hodesh: Sexp Diary Entries. -* diary-sabbath-candles: Sexp Diary Entries. -* diary-sunrise-sunset: Sexp Diary Entries. -* diary-yahrzeit: Sexp Diary Entries. -* diff: Comparing Files. -* diff-backup: Comparing Files. -* digit-argument: Arguments. -* dired: Dired Enter. -* dired-other-window <1>: Pop Up Window. -* dired-other-window: Dired Enter. -* disable-command: Disabling. -* disable-menu-item: Menu Customization. -* disassemble: Compiling Libraries. -* display-time: Mode Line. -* dissociated-press: Dissociated Press. -* do-auto-save: Auto Save Control. -* doctor: Total Frustration. -* down-list: Lists. -* downcase-region: Case. -* downcase-word <1>: Case. -* downcase-word: Fixing Case. -* edit-abbrevs: Editing Abbrevs. -* edit-abbrevs-redefine: Editing Abbrevs. -* edit-options: Edit Options. -* edit-picture: Picture. -* edit-tab-stops <1>: Text Mode. -* edit-tab-stops: Tab Stops. -* edit-tab-stops-note-changes: Tab Stops. -* edt-emulation-off: Emulation. -* edt-emulation-on: Emulation. -* electric-nroff-mode: Nroff Mode. -* emacs-lisp-mode: Lisp Eval. -* emacs-version: Bugs. -* enable-command: Disabling. -* enable-menu-item: Menu Customization. -* end-kbd-macro: Basic Kbd Macro. -* end-of-buffer: Basic. -* end-of-defun: Defuns. -* end-of-fortran-subprogram: Fortran Motion. -* end-of-line: Basic. -* enlarge-window: Change Window. -* enlarge-window-horizontally: Change Window. -* european-calendar: Date Formats. -* eval-current-buffer: Lisp Eval. -* eval-defun: Lisp Eval. -* eval-expression: Lisp Eval. -* eval-last-sexp: Lisp Eval. -* eval-region: Lisp Eval. -* exchange-point-and-mark: Setting Mark. -* execute-extended-command: M-x. -* exit-calendar: General Calendar. -* exit-recursive-edit: Recursive Edit. -* expand-abbrev: Expanding Abbrevs. -* expand-region-abbrevs: Expanding Abbrevs. -* fancy-diary-display: Fancy Diary Display. -* fill-individual-paragraphs: Fill Prefix. -* fill-paragraph: Fill Commands. -* fill-region: Fill Commands. -* fill-region-as-paragraph: Fill Commands. -* find-alternate-file: Visiting. -* find-file: Visiting. -* find-file-other-frame <1>: Visiting. -* find-file-other-frame: XEmacs under X. -* find-file-other-window <1>: Pop Up Window. -* find-file-other-window: Visiting. -* find-tag: Find Tag. -* find-tag-other-window <1>: Find Tag. -* find-tag-other-window: Pop Up Window. -* find-this-file: Visiting. -* find-this-file-other-window: Visiting. -* fortran-column-ruler: Fortran Columns. -* fortran-comment-region: Fortran Comments. -* fortran-indent-line: ForIndent Commands. -* fortran-indent-subprogram: ForIndent Commands. -* fortran-mode: Fortran. -* fortran-next-statement: Fortran Motion. -* fortran-previous-statement: Fortran Motion. -* fortran-split-line: ForIndent Commands. -* fortran-window-create: Fortran Columns. -* forward-char: Basic. -* forward-list: Lists. -* forward-page: Pages. -* forward-paragraph: Paragraphs. -* forward-sentence: Sentences. -* forward-sexp: Lists. -* forward-text-line: Nroff Mode. -* forward-word: Words. -* frame-configuration-to-register: RegConfig. -* global-set-key <1>: Programmatic Rebinding. -* global-set-key: Interactive Rebinding. -* goto-char: Basic. -* goto-line: Basic. -* hanoi: Amusements. -* help-with-tutorial <1>: Help. -* help-with-tutorial: Basic. -* hide-body: Outline Visibility. -* hide-entry: Outline Visibility. -* hide-leaves: Outline Visibility. -* hide-subtree: Outline Visibility. -* holidays: Holidays. -* include-other-diary-files: Included Diary Files. -* increment-register: RegNumbers. -* indent-c-exp: Multi-line Indent. -* indent-for-comment: Comments. -* indent-new-comment-line: Comments. -* indent-region <1>: Multi-line Indent. -* indent-region: Indentation Commands. -* indent-relative: Indentation Commands. -* indent-rigidly: Indentation Commands. -* indent-sexp: Multi-line Indent. -* indented-text-mode: Text Mode. -* info: Help. -* insert-abbrevs: Saving Abbrevs. -* insert-anniversary-diary-entry: Special Diary Entries. -* insert-block-diary-entry: Special Diary Entries. -* insert-cyclic-diary-entry: Special Diary Entries. -* insert-diary-entry: Adding to Diary. -* insert-file: Misc File Ops. -* insert-hebrew-diary-entry: Hebrew/Islamic Entries. -* insert-islamic-diary-entry: Hebrew/Islamic Entries. -* insert-kbd-macro: Save Kbd Macro. -* insert-monthly-diary-entry: Adding to Diary. -* insert-monthly-hebrew-diary-entry: Hebrew/Islamic Entries. -* insert-monthly-islamic-diary-entry: Hebrew/Islamic Entries. -* insert-parentheses: Balanced Editing. -* insert-register: RegText. -* insert-weekly-diary-entry: Adding to Diary. -* insert-yearly-diary-entry: Adding to Diary. -* insert-yearly-hebrew-diary-entry: Hebrew/Islamic Entries. -* insert-yearly-islamic-diary-entry: Hebrew/Islamic Entries. -* interactive: M-x. -* interrupt-shell-subjob: Shell Mode. -* inverse-add-global-abbrev: Defining Abbrevs. -* inverse-add-mode-abbrev: Defining Abbrevs. -* invert-face: Faces. -* isearch-abort: Incremental Search. -* isearch-backward: Incremental Search. -* isearch-backward-regexp: Regexp Search. -* isearch-complete: Incremental Search. -* isearch-delete-char: Incremental Search. -* isearch-exit: Incremental Search. -* isearch-forward: Incremental Search. -* isearch-forward-regexp: Regexp Search. -* isearch-quote-char: Incremental Search. -* isearch-repeat-backward: Incremental Search. -* isearch-repeat-forward: Incremental Search. -* isearch-ring-advance: Incremental Search. -* isearch-ring-retreat: Incremental Search. -* isearch-yank-line: Incremental Search. -* isearch-yank-word: Incremental Search. -* jump-to-register <1>: Split Window. -* jump-to-register: RegPos. -* just-one-space: Killing. -* kbd-macro-query: Kbd Macro Query. -* kill-all-abbrevs: Defining Abbrevs. -* kill-buffer: Kill Buffer. -* kill-comment: Comments. -* kill-compilation: Compilation. -* kill-line: Killing. -* kill-local-variable: Locals. -* kill-output-from-shell: Shell Mode. -* kill-rectangle: Rectangles. -* kill-region: Killing. -* kill-sentence <1>: Sentences. -* kill-sentence: Killing. -* kill-sexp <1>: Lists. -* kill-sexp: Killing. -* kill-some-buffers: Kill Buffer. -* kill-word <1>: Words. -* kill-word: Killing. -* latex-mode: TeX Mode. -* LaTeX-mode: TeX Mode. -* lisp-complete-symbol: Lisp Completion. -* lisp-indent-line: Basic Indent. -* lisp-interaction-mode: Lisp Interaction. -* lisp-mode: External Lisp. -* lisp-send-defun: External Lisp. -* list-abbrevs: Editing Abbrevs. -* list-bookmarks: Bookmarks. -* list-buffers: List Buffers. -* list-calendar-holidays: Holidays. -* list-coding-systems: Coding Systems. -* list-command-history: Repetition. -* list-directory: ListDir. -* list-hebrew-diary-entries: Hebrew/Islamic Entries. -* list-holidays: Holidays. -* list-input-methods: Select Input Method. -* list-islamic-diary-entries: Hebrew/Islamic Entries. -* list-matching-lines: Other Repeating Search. -* list-options: Edit Options. -* list-tags: List Tags. -* list-yahrzeit-dates: From Other Calendar. -* load: Loading. -* load-default-sounds: Audible Bell. -* load-file: Loading. -* load-library <1>: Loading. -* load-library: Startup Paths. -* load-sound-file: Audible Bell. -* local-set-key: Interactive Rebinding. -* local-unset-key: Interactive Rebinding. -* locate-library: Loading. -* lpr-buffer: Hardcopy. -* lpr-region: Hardcopy. -* mail: Sending Mail. -* mail-cc: Mail Mode. -* mail-fill-yanked-message: Mail Mode. -* mail-interactive-insert-alias: Mail Headers. -* mail-other-window <1>: Sending Mail. -* mail-other-window: Pop Up Window. -* mail-send: Mail Mode. -* mail-send-and-exit: Mail Mode. -* mail-signature: Mail Mode. -* mail-subject: Mail Mode. -* mail-to: Mail Mode. -* mail-yank-original: Mail Mode. -* make-directory: File Names. -* make-face-bold: Faces. -* make-face-bold-italic: Faces. -* make-face-italic: Faces. -* make-face-larger: Faces. -* make-face-smaller: Faces. -* make-face-unbold: Faces. -* make-face-unitalic: Faces. -* make-frame: XEmacs under X. -* make-local-variable: Locals. -* make-obsolete: Compiling Libraries. -* make-symbolic-link: Misc File Ops. -* make-variable-buffer-local: Locals. -* manual-entry: Documentation. -* mark-beginning-of-buffer: Setting Mark. -* mark-calendar-holidays: Holidays. -* mark-defun <1>: Defuns. -* mark-defun: Marking Objects. -* mark-diary-entries: Diary Commands. -* mark-end-of-buffer: Setting Mark. -* mark-fortran-subprogram: Fortran Motion. -* mark-hebrew-diary-entries: Hebrew/Islamic Entries. -* mark-included-diary-files: Included Diary Files. -* mark-islamic-diary-entries: Hebrew/Islamic Entries. -* mark-page <1>: Pages. -* mark-page: Marking Objects. -* mark-paragraph <1>: Paragraphs. -* mark-paragraph: Marking Objects. -* mark-sexp <1>: Lists. -* mark-sexp: Marking Objects. -* mark-whole-buffer: Marking Objects. -* mark-word <1>: Words. -* mark-word: Marking Objects. -* minibuffer-complete: Completion Example. -* minibuffer-complete-word: Completion Commands. -* modify-syntax-entry: Syntax Change. -* mouse-choose-completion: Completion Commands. -* mouse-del-char: Additional Mouse Operations. -* mouse-delete-window: Additional Mouse Operations. -* mouse-keep-one-window: Additional Mouse Operations. -* mouse-kill-line: Additional Mouse Operations. -* mouse-line-length: Additional Mouse Operations. -* mouse-scroll: Additional Mouse Operations. -* mouse-select: Additional Mouse Operations. -* mouse-select-and-split: Additional Mouse Operations. -* mouse-set-mark: Additional Mouse Operations. -* mouse-set-point: Additional Mouse Operations. -* mouse-track: Additional Mouse Operations. -* mouse-track-adjust: Additional Mouse Operations. -* mouse-track-and-copy-to-cutbuffer: Additional Mouse Operations. -* mouse-track-delete-and-insert: Additional Mouse Operations. -* move-over-close-and-reindent: Balanced Editing. -* move-to-window-line: Basic. -* name-last-kbd-macro: Save Kbd Macro. -* narrow-to-region: Narrowing. -* negative-argument: Arguments. -* newline: Basic. -* newline-and-indent: Basic Indent. -* next-complex-command: Repetition. -* next-error: Compilation. -* next-history-element: Minibuffer History. -* next-line: Basic. -* next-list-mode-item: Completion Commands. -* next-matching-history-element: Minibuffer History. -* not-modified: Saving. -* nroff-mode: Nroff Mode. -* number-to-register: RegNumbers. -* occur: Other Repeating Search. -* open-dribble-file: Bugs. -* open-line: Blank Lines. -* open-rectangle: Rectangles. -* open-termscript: Bugs. -* other-window: Other Window. -* other-window-any-frame: Other Window. -* outline-backward-same-level: Outline Motion. -* outline-forward-same-level: Outline Motion. -* outline-next-visible-heading: Outline Motion. -* outline-previous-visible-heading: Outline Motion. -* outline-up-heading: Outline Motion. -* overwrite-mode: Minor Modes. -* phases-of-moon: Lunar Phases. -* picture-backward-clear-column: Basic Picture. -* picture-backward-column: Basic Picture. -* picture-clear-column: Basic Picture. -* picture-clear-line: Basic Picture. -* picture-clear-rectangle: Rectangles in Picture. -* picture-clear-rectangle-to-register: Rectangles in Picture. -* picture-forward-column: Basic Picture. -* picture-motion: Insert in Picture. -* picture-motion-reverse: Insert in Picture. -* picture-move-down: Basic Picture. -* picture-move-up: Basic Picture. -* picture-movement-down: Insert in Picture. -* picture-movement-left: Insert in Picture. -* picture-movement-ne: Insert in Picture. -* picture-movement-nw: Insert in Picture. -* picture-movement-right: Insert in Picture. -* picture-movement-se: Insert in Picture. -* picture-movement-sw: Insert in Picture. -* picture-movement-up: Insert in Picture. -* picture-newline: Basic Picture. -* picture-open-line: Basic Picture. -* picture-set-tab-stops: Tabs in Picture. -* picture-tab: Tabs in Picture. -* picture-tab-search: Tabs in Picture. -* picture-yank-rectangle: Rectangles in Picture. -* picture-yank-rectangle-from-register: Rectangles in Picture. -* plain-TeX-mode: TeX Mode. -* plain-tex-mode: TeX Mode. -* play-sound: Audible Bell. -* point-to-register: RegPos. -* prefer-coding-system: Recognize Coding. -* prepend-to-buffer: Accumulating Text. -* previous-complex-command: Repetition. -* previous-history-element: Minibuffer History. -* previous-line: Basic. -* previous-list-mode-item: Completion Commands. -* previous-matching-history-element: Minibuffer History. -* print-buffer: Hardcopy. -* print-diary-entries <1>: Diary Customizing. -* print-diary-entries: Diary Commands. -* print-region: Hardcopy. -* quail-set-keyboard-layout: Select Input Method. -* query-replace: Query Replace. -* query-replace-regexp: Query Replace. -* quietly-read-abbrev-file: Saving Abbrevs. -* quit-shell-subjob: Shell Mode. -* quoted-insert: Basic. -* re-search-backward: Regexp Search. -* re-search-forward: Regexp Search. -* read-abbrev-file: Saving Abbrevs. -* read-key-sequence: Representing Keystrokes. -* recenter <1>: Scrolling. -* recenter: Basic. -* recover-file: Recover. -* redraw-calendar: General Calendar. -* relabel-menu-item: Menu Customization. -* remove-directory: File Names. -* rename-buffer: Misc Buffer. -* rename-file: Misc File Ops. -* repeat-complex-command: Repetition. -* replace-regexp: Unconditional Replace. -* replace-string: Unconditional Replace. -* revert-buffer: Reverting. -* run-lisp: External Lisp. -* save-buffer: Saving. -* save-buffers-kill-emacs: Exiting. -* save-some-buffers: Saving. -* scroll-calendar-left: Scroll Calendar. -* scroll-calendar-left-three-months: Scroll Calendar. -* scroll-calendar-right: Scroll Calendar. -* scroll-calendar-right-three-months: Scroll Calendar. -* scroll-down: Scrolling. -* scroll-left: Horizontal Scrolling. -* scroll-other-window <1>: General Calendar. -* scroll-other-window: Other Window. -* scroll-right: Horizontal Scrolling. -* scroll-up: Scrolling. -* search-backward: Non-Incremental Search. -* search-forward: Non-Incremental Search. -* select-input-method: Select Input Method. -* self-insert: Basic. -* send-shell-input: Shell Mode. -* set-buffer-file-coding-system: Specify Coding. -* set-buffer-process-coding-system: Specify Coding. -* set-comment-column: Comments. -* set-default-file-modes: Interlocking. -* set-face-background: Faces. -* set-face-background-pixmap: Faces. -* set-face-font: Faces. -* set-face-foreground: Faces. -* set-face-underline-p: Faces. -* set-fill-column: Fill Commands. -* set-fill-prefix: Fill Prefix. -* set-gnu-bindings: Emulation. -* set-goal-column: Basic. -* set-gosmacs-bindings: Emulation. -* set-keyboard-coding-system: Specify Coding. -* set-language-environment: Language Environments. -* set-mark-command: Setting Mark. -* set-selective-display: Selective Display. -* set-terminal-coding-system: Specify Coding. -* set-variable: Examining. -* set-visited-file-name: Saving. -* setq-default: Locals. -* shell: Interactive Shell. -* shell-command: Single Shell. -* shell-command-on-region: Single Shell. -* shell-send-eof: Shell Mode. -* show-all: Outline Visibility. -* show-all-diary-entries: Diary Commands. -* show-branches: Outline Visibility. -* show-children: Outline Visibility. -* show-entry: Outline Visibility. -* show-output-from-shell: Shell Mode. -* show-subtree: Outline Visibility. -* simple-diary-display: Fancy Diary Display. -* sort-columns: Sorting. -* sort-diary-entries: Fancy Diary Display. -* sort-fields: Sorting. -* sort-lines: Sorting. -* sort-numeric-fields: Sorting. -* sort-pages: Sorting. -* sort-paragraphs: Sorting. -* spell-buffer: Spelling. -* spell-region: Spelling. -* spell-string: Spelling. -* spell-word: Spelling. -* split-line: Indentation Commands. -* split-window-horizontally: Split Window. -* split-window-vertically: Split Window. -* start-kbd-macro: Basic Kbd Macro. -* stop-shell-subjob: Shell Mode. -* substitute-key-definition: Interactive Rebinding. -* sunrise-sunset: Sunrise/Sunset. -* suspend-emacs: Exiting. -* switch-to-buffer: Select Buffer. -* switch-to-buffer-other-frame <1>: Select Buffer. -* switch-to-buffer-other-frame: XEmacs under X. -* switch-to-buffer-other-window <1>: Pop Up Window. -* switch-to-buffer-other-window: Select Buffer. -* switch-to-other-buffer: Select Buffer. -* tab-to-tab-stop <1>: Text Mode. -* tab-to-tab-stop: Tab Stops. -* tabify: Just Spaces. -* tags-apropos: List Tags. -* tags-loop-continue: Tags Search. -* tags-query-replace: Tags Search. -* tags-search: Tags Search. -* term: Terminal emulator. -* term-line-mode: Term Mode. -* term-pager-toggle: Paging in Term. -* tex-buffer: TeX Print. -* tex-close-latex-block: TeX Editing. -* tex-insert-braces: TeX Editing. -* tex-insert-quote: TeX Editing. -* tex-kill-job: TeX Print. -* tex-mode: TeX Mode. -* TeX-mode: TeX Mode. -* tex-print: TeX Print. -* tex-recenter-output-buffer: TeX Print. -* tex-region: TeX Print. -* tex-show-print-queue: TeX Print. -* tex-terminate-paragraph: TeX Editing. -* text-mode: Text Mode. -* toggle-input-method: Select Input Method. -* toggle-read-only: Misc Buffer. -* top-level <1>: Quitting. -* top-level: Recursive Edit. -* transpose-chars <1>: Transpose. -* transpose-chars: Basic. -* transpose-lines: Transpose. -* transpose-sexps <1>: Lists. -* transpose-sexps: Transpose. -* transpose-words <1>: Words. -* transpose-words: Transpose. -* undo: Undo. -* unexpand-abbrev: Expanding Abbrevs. -* universal-argument: Arguments. -* universal-coding-system-argument: Specify Coding. -* untabify: Just Spaces. -* up-list: TeX Editing. -* upcase-region: Case. -* upcase-word <1>: Case. -* upcase-word: Fixing Case. -* validate-tex-buffer: TeX Editing. -* vc-cancel-version: Editing with VC. -* vc-create-snapshot: Making Snapshots. -* vc-diff: Old Versions. -* vc-directory: VC Status. -* vc-insert-headers: Version Headers. -* vc-next-action: Editing with VC. -* vc-print-log: VC Status. -* vc-register: Editing with VC. -* vc-rename-file: Renaming and VC. -* vc-retrieve-snapshot: Making Snapshots. -* vc-revert-buffer: Editing with VC. -* vc-update-change-log: Change Logs and VC. -* vc-version-other-window: Old Versions. -* view-buffer: Misc Buffer. -* view-diary-entries: Diary Commands. -* view-emacs-news: Help. -* view-file: Misc File Ops. -* view-hello-file: Mule Intro. -* view-lossage: Help. -* view-register: Registers. -* visit-tags-table: Select Tags Table. -* what-cursor-position: Position Info. -* what-line: Position Info. -* what-page: Position Info. -* where-is: Help. -* widen: Narrowing. -* widget-backward: Changing an Option. -* widget-complete: Changing an Option. -* widget-forward: Changing an Option. -* window-configuration-to-register <1>: Split Window. -* window-configuration-to-register: RegConfig. -* word-search-backward: Word Search. -* word-search-forward: Word Search. -* write-abbrev-file: Saving Abbrevs. -* write-file: Saving. -* x-copy-primary-selection: X Selection Commands. -* x-create-frame: X Resources. -* x-delete-primary-selection: X Selection Commands. -* x-insert-selection: X Selection Commands. -* x-kill-primary-selection: X Selection Commands. -* x-mouse-kill: X Selection Commands. -* x-own-secondary-selection: X Selection Commands. -* x-own-selection: X Selection Commands. -* x-set-point-and-insert-selection: X Selection Commands. -* Yank: Kill Ring. -* yank-pop: Earlier Kills. -* yank-rectangle: Rectangles. -* yow: Amusements. -* zap-to-char: Killing. -* zmacs-activate-region: Active Regions. -* zmacs-deactivate-region: Active Regions. +* ! (query-replace): Query Replace. +* " (TeX mode): TeX Editing. +* , (query-replace): Query Replace. +* . (Calendar mode): Specified Dates. +* . (query-replace): Query Replace. +* ? (Calendar mode): General Calendar. +* ^ (query-replace): Query Replace. +* a (Calendar mode): Holidays. +* button1: Intro to Keystrokes. +* button1up: Intro to Keystrokes. +* button2: Intro to Keystrokes. +* button2up: Intro to Keystrokes. +* button3: Intro to Keystrokes. +* button3up: Intro to Keystrokes. +* C-<: Setting Mark. +* C->: Setting Mark. +* C-@ (Calendar mode): Mark and Region. +* C-\: Select Input Method. +* C-] <1>: Quitting. +* C-]: Recursive Edit. +* C-_: Undo. +* C-a: Basic. +* C-a (Calendar mode): Move to Beginning or End. +* C-b: Basic. +* C-b (Calendar mode): Calendar Unit Motion. +* C-c: Key Sequences. +* C-c ' (Picture mode): Insert in Picture. +* C-c . (Picture mode): Insert in Picture. +* C-c / (Picture mode): Insert in Picture. +* C-c ; (Fortran mode): Fortran Comments. +* C-c < (Picture mode): Insert in Picture. +* C-c > (Picture mode): Insert in Picture. +* C-c \ (Picture mode): Insert in Picture. +* C-c ^ (Picture mode): Insert in Picture. +* C-c ` (Picture mode): Insert in Picture. +* C-c C-\ (Shell mode): Shell Mode. +* C-c C-b (Outline mode): Outline Motion. +* C-c C-b (Picture mode): Insert in Picture. +* C-c C-b (TeX mode): TeX Print. +* C-c C-c (Edit Abbrevs): Editing Abbrevs. +* C-c C-c (Edit Tab Stops): Tab Stops. +* C-c C-c (Mail mode): Mail Mode. +* C-c C-c (Occur mode): Other Repeating Search. +* C-c C-c (Shell mode): Shell Mode. +* C-c C-d (Picture mode): Basic Picture. +* C-c C-d (Shell mode): Shell Mode. +* C-c C-f (LaTeX mode): TeX Editing. +* C-c C-f (Outline mode): Outline Motion. +* C-c C-f (Picture mode): Insert in Picture. +* C-c C-f C-c (Mail mode): Mail Mode. +* C-c C-f C-s (Mail mode): Mail Mode. +* C-c C-f C-t (Mail mode): Mail Mode. +* C-c C-h (Outline mode): Outline Visibility. +* C-c C-i (Outline mode): Outline Visibility. +* C-c C-j (Term mode): Term Mode. +* C-c C-k (Picture mode): Rectangles in Picture. +* C-c C-k (Term mode): Term Mode. +* C-c C-k (TeX mode): TeX Print. +* C-c C-l (Calendar mode): General Calendar. +* C-c C-l (TeX mode): TeX Print. +* C-c C-n (Fortran mode): Fortran Motion. +* C-c C-n (Outline mode): Outline Motion. +* C-c C-o (Shell mode): Shell Mode. +* C-c C-p (Fortran mode): Fortran Motion. +* C-c C-p (Outline mode): Outline Motion. +* C-c C-p (TeX mode): TeX Print. +* C-c C-q (Mail mode): Mail Mode. +* C-c C-q (Term mode): Paging in Term. +* C-c C-q (TeX mode): TeX Print. +* C-c C-r (Fortran mode): Fortran Columns. +* C-c C-r (Shell mode): Shell Mode. +* C-c C-r (TeX mode): TeX Print. +* C-c C-s (Mail mode): Mail Mode. +* C-c C-s (Outline mode): Outline Visibility. +* C-c C-u (Outline mode): Outline Motion. +* C-c C-u (Shell mode): Shell Mode. +* C-c C-w (Fortran mode): Fortran Columns. +* C-c C-w (Mail mode): Mail Mode. +* C-c C-w (Picture mode): Rectangles in Picture. +* C-c C-w (Shell mode): Shell Mode. +* C-c C-x (Picture mode): Rectangles in Picture. +* C-c C-y (Mail mode): Mail Mode. +* C-c C-y (Picture mode): Rectangles in Picture. +* C-c C-y (Shell mode): Shell Mode. +* C-c C-z (Shell mode): Shell Mode. +* C-c TAB (Picture mode): Tabs in Picture. +* C-c { (TeX mode): TeX Editing. +* C-c } (TeX mode): TeX Editing. +* C-d: Killing. +* C-d (Shell mode): Shell Mode. +* C-e: Basic. +* C-e (Calendar mode): Move to Beginning or End. +* C-END: Basic. +* C-f: Basic. +* C-f (Calendar mode): Calendar Unit Motion. +* C-g <1>: Quitting. +* C-g: Minibuffer. +* C-g (isearch-mode): Incremental Search. +* C-h <1>: Help. +* C-h: Key Sequences. +* C-h A: Apropos. +* C-h b: Misc Help. +* C-h C: Coding Systems. +* C-h c: Key Help. +* C-h C-\: Select Input Method. +* C-h C-c: Misc Help. +* C-h C-d: Misc Help. +* C-h C-f: Misc Help. +* C-h C-h: Help. +* C-h C-k: Misc Help. +* C-h C-w: Misc Help. +* C-h f: Documentation. +* C-h F: Misc Help. +* C-h f: Name Help. +* C-h h: Mule Intro. +* C-h I: Select Input Method. +* C-h i: Misc Help. +* C-h k: Key Help. +* C-h L: Language Environments. +* C-h l: Misc Help. +* C-h m: Misc Help. +* C-h n: Misc Help. +* C-h p: Library Keywords. +* C-h s: Syntax Change. +* C-h t <1>: Misc Help. +* C-h t: Basic. +* C-h v <1>: Examining. +* C-h v <2>: Documentation. +* C-h v: Name Help. +* C-h w: Name Help. +* C-HOME: Basic. +* C-k: Killing. +* C-l <1>: Scrolling. +* C-l: Basic. +* C-l (query-replace): Query Replace. +* C-LEFT: Basic. +* C-M-@ <1>: Lists. +* C-M-@: Marking Objects. +* C-M-\ <1>: Multi-line Indent. +* C-M-\: Indentation Commands. +* C-M-a: Defuns. +* C-M-a (Fortran mode): Fortran Motion. +* C-M-b: Lists. +* C-M-c: Recursive Edit. +* C-M-d: Lists. +* C-M-e: Defuns. +* C-M-e (Fortran mode): Fortran Motion. +* C-M-f: Lists. +* C-M-h <1>: Defuns. +* C-M-h: Marking Objects. +* C-M-h (Fortran mode): Fortran Motion. +* C-M-k <1>: Lists. +* C-M-k: Killing. +* C-M-n: Lists. +* C-M-o: Indentation Commands. +* C-M-p: Lists. +* C-M-q: Multi-line Indent. +* C-M-q (Fortran mode): ForIndent Commands. +* C-M-t <1>: Lists. +* C-M-t: Transpose. +* C-M-u: Lists. +* C-M-v <1>: Other Window. +* C-M-v: Minibuffer Edit. +* C-M-w: Appending Kills. +* C-M-x <1>: External Lisp. +* C-M-x: Lisp Eval. +* C-n: Basic. +* C-n (Calendar mode): Calendar Unit Motion. +* C-o: Blank Lines. +* C-p: Basic. +* C-p (Calendar mode): Calendar Unit Motion. +* C-q: Basic. +* C-q (isearch-mode): Incremental Search. +* C-r: Incremental Search. +* C-r (isearch-mode): Incremental Search. +* C-r (query-replace): Query Replace. +* C-RIGHT: Basic. +* C-s: Incremental Search. +* C-s (isearch-mode): Incremental Search. +* C-SPC: Setting Mark. +* C-SPC (Calendar mode): Mark and Region. +* C-t <1>: Transpose. +* C-t: Basic. +* C-u: Arguments. +* C-u - C-x ;: Comments. +* C-u C-@: Mark Ring. +* C-u C-SPC: Mark Ring. +* C-u C-x v v: Editing with VC. +* C-u TAB: Multi-line Indent. +* C-v <1>: Scrolling. +* C-v: Basic. +* C-v (Calendar mode): Scroll Calendar. +* C-w: Killing. +* C-w (isearch-mode): Incremental Search. +* C-w (query-replace): Query Replace. +* C-x: Key Sequences. +* C-x $: Selective Display. +* C-x (: Basic Kbd Macro. +* C-x ): Basic Kbd Macro. +* C-x .: Fill Prefix. +* C-x 0: Change Window. +* C-x 1: Change Window. +* C-x 2: Split Window. +* C-x 3: Split Window. +* C-x 4: Pop Up Window. +* C-x 4 .: Find Tag. +* C-x 4 b: Select Buffer. +* C-x 4 d: Dired Enter. +* C-x 4 f: Visiting. +* C-x 4 m: Sending Mail. +* C-x 5 b: Select Buffer. +* C-x 5 C-f: Visiting. +* C-x ;: Comments. +* C-x <: Horizontal Scrolling. +* C-x < (Calendar mode): Scroll Calendar. +* C-x =: Position Info. +* C-x >: Horizontal Scrolling. +* C-x > (Calendar mode): Scroll Calendar. +* C-x [: Pages. +* C-x [ (Calendar mode): Calendar Unit Motion. +* C-x ]: Pages. +* C-x ] (Calendar mode): Calendar Unit Motion. +* C-x ^: Change Window. +* C-x `: Compilation. +* C-x a g: Defining Abbrevs. +* C-x a i g: Defining Abbrevs. +* C-x a i l: Defining Abbrevs. +* C-x a l: Defining Abbrevs. +* C-x b: Select Buffer. +* C-x C-b: List Buffers. +* C-x C-c: Exiting. +* C-x C-d: ListDir. +* C-x C-e: Lisp Eval. +* C-x C-l: Case. +* C-x C-o <1>: Killing. +* C-x C-o: Blank Lines. +* C-x C-p <1>: Pages. +* C-x C-p: Marking Objects. +* C-x C-q: Misc Buffer. +* C-x C-q (version control): Editing with VC. +* C-x C-s: Saving. +* C-x C-t: Transpose. +* C-x C-u: Case. +* C-x C-v: Visiting. +* C-x C-w: Saving. +* C-x C-x: Setting Mark. +* C-x C-x (Calendar mode): Mark and Region. +* C-x d: Dired Enter. +* C-x DEL <1>: Sentences. +* C-x DEL <2>: Kill Errors. +* C-x DEL: Killing. +* C-x e: Basic Kbd Macro. +* C-x ESC ESC: Repetition. +* C-x f: Fill Commands. +* C-x h: Marking Objects. +* C-x k: Kill Buffer. +* C-x l: Pages. +* C-x m: Sending Mail. +* C-x n n: Narrowing. +* C-x n w: Narrowing. +* C-x o: Other Window. +* C-x q: Kbd Macro Query. +* C-x r +: RegNumbers. +* C-x r b: Bookmarks. +* C-x r g: RegText. +* C-x r i: RegText. +* C-x r j: RegPos. +* C-x r l: Bookmarks. +* C-x r m: Bookmarks. +* C-x r n: RegNumbers. +* C-x r r: RegRect. +* C-x r s: RegText. +* C-x r SPC: RegPos. +* C-x r w: RegConfig. +* C-x RET: Mule Intro. +* C-x RET c: Specify Coding. +* C-x RET C-\: Select Input Method. +* C-x RET f: Specify Coding. +* C-x RET k: Specify Coding. +* C-x RET p: Specify Coding. +* C-x RET t: Specify Coding. +* C-x s: Saving. +* C-x TAB: Indentation Commands. +* C-x u: Undo. +* C-x v =: Old Versions. +* C-x v a: Change Logs and VC. +* C-x v c: Editing with VC. +* C-x v d: VC Status. +* C-x v h: Version Headers. +* C-x v i: Editing with VC. +* C-x v l: VC Status. +* C-x v r: Making Snapshots. +* C-x v s: Making Snapshots. +* C-x v u: Editing with VC. +* C-x v ~: Old Versions. +* C-x }: Change Window. +* C-y: Kill Ring. +* C-y (isearch-mode): Incremental Search. +* C-z: Exiting. +* control key: Intro to Keystrokes. +* d (Calendar mode): Diary Commands. +* DEL <1>: Program Modes. +* DEL <2>: Major Modes. +* DEL <3>: Kill Errors. +* DEL <4>: Killing. +* DEL: Basic. +* DEL (isearch-mode): Incremental Search. +* DEL (query-replace): Query Replace. +* DOWN: Basic. +* END: Basic. +* ESC <1>: Meta Key. +* ESC: Key Sequences. +* ESC (query-replace): Query Replace. +* F1: Help. +* g CHAR (Calendar mode): From Other Calendar. +* g d (Calendar mode): Specified Dates. +* g m l (Calendar mode): Mayan Calendar. +* h (Calendar mode): Holidays. +* Help: Help. +* HOME: Basic. +* hyper key <1>: Super and Hyper Keys. +* hyper key <2>: Representing Keystrokes. +* hyper key: Intro to Keystrokes. +* i a (Calendar mode): Special Diary Entries. +* i b (Calendar mode): Special Diary Entries. +* i c (Calendar mode): Special Diary Entries. +* i d (Calendar mode): Adding to Diary. +* i m (Calendar mode): Adding to Diary. +* i w (Calendar mode): Adding to Diary. +* i y (Calendar mode): Adding to Diary. +* LEFT: Basic. +* LFD <1>: Basic Indent. +* LFD <2>: Major Modes. +* LFD: String Key Sequences. +* LFD (TeX mode): TeX Editing. +* m (Calendar mode): Diary Commands. +* M (Calendar mode): Lunar Phases. +* M-!: Single Shell. +* M-$: Spelling. +* M-%: Query Replace. +* M-': Expanding Abbrevs. +* M-(: Balanced Editing. +* M-): Balanced Editing. +* M-,: Tags Search. +* M--: Arguments. +* M-- M-c: Fixing Case. +* M-- M-l: Fixing Case. +* M-- M-u: Fixing Case. +* M-.: Find Tag. +* M-/: Dynamic Abbrevs. +* M-1: Arguments. +* M-;: Comments. +* M-<: Basic. +* M-< (Calendar mode): Move to Beginning or End. +* M-=: Position Info. +* M-= (Calendar mode): Mark and Region. +* M->: Basic. +* M-> (Calendar mode): Move to Beginning or End. +* M-?: Nroff Mode. +* M-@ <1>: Words. +* M-@: Marking Objects. +* M-[: Paragraphs. +* M-\ <1>: Indentation Commands. +* M-\: Killing. +* M-]: Paragraphs. +* M-^ <1>: Indentation Commands. +* M-^: Killing. +* M-a: Sentences. +* M-a (Calendar mode): Move to Beginning or End. +* M-b: Words. +* M-c: Case. +* M-C-s: Regexp Search. +* M-d <1>: Words. +* M-d: Killing. +* M-DEL <1>: Words. +* M-DEL <2>: Kill Errors. +* M-DEL: Killing. +* M-e: Sentences. +* M-e (Calendar mode): Move to Beginning or End. +* M-ESC: Lisp Eval. +* M-f: Words. +* M-g: Fill Commands. +* M-h <1>: Paragraphs. +* M-h: Marking Objects. +* M-i: Tab Stops. +* M-k <1>: Sentences. +* M-k: Killing. +* M-l: Case. +* M-LFD: Comments. +* M-LFD (Fortran mode): ForIndent Commands. +* M-m: Indentation Commands. +* M-n <1>: Nroff Mode. +* M-n: Repetition. +* M-n (isearch-mode): Incremental Search. +* M-n (minibuffer history): Minibuffer History. +* M-n (Shell mode): Shell Mode. +* M-p <1>: Nroff Mode. +* M-p: Repetition. +* M-p (isearch-mode): Incremental Search. +* M-p (minibuffer history): Minibuffer History. +* M-p (Shell mode): Shell Mode. +* M-q: Fill Commands. +* M-r: Basic. +* M-r (minibuffer history): Minibuffer History. +* M-s: Fill Commands. +* M-s (minibuffer history): Minibuffer History. +* M-SPC: Killing. +* M-t <1>: Words. +* M-t: Transpose. +* M-TAB <1>: Tabs in Picture. +* M-TAB: Lisp Completion. +* M-TAB (customization buffer): Changing an Option. +* M-TAB (isearch-mode): Incremental Search. +* M-u: Case. +* M-v <1>: Scrolling. +* M-v: Basic. +* M-v (Calendar mode): Scroll Calendar. +* M-w: Kill Ring. +* M-x: M-x. +* M-y: Earlier Kills. +* M-z: Killing. +* M-{ (Calendar mode): Calendar Unit Motion. +* M-|: Single Shell. +* M-} (Calendar mode): Calendar Unit Motion. +* M-~: Saving. +* META: Meta Key. +* meta key: Intro to Keystrokes. +* next: Scrolling. +* o (Calendar mode): Specified Dates. +* p (Calendar mode): To Other Calendar. +* p d (Calendar mode): General Calendar. +* pgdn: Scrolling. +* PGDN: Basic. +* pgup: Scrolling. +* PGUP: Basic. +* prior: Scrolling. +* q (Calendar mode): General Calendar. +* RET: Basic. +* RET (isearch-mode): Incremental Search. +* RET (Shell mode): Shell Mode. +* RIGHT: Basic. +* s (Calendar mode): Diary Commands. +* S (Calendar mode): Sunrise/Sunset. +* S-TAB (customization buffer): Changing an Option. +* shift key: Intro to Keystrokes. +* SPC: Completion Commands. +* SPC (Calendar mode): General Calendar. +* SPC (query-replace): Query Replace. +* super key <1>: Super and Hyper Keys. +* super key <2>: Representing Keystrokes. +* super key: Intro to Keystrokes. +* t (Calendar mode): LaTeX Calendar. +* TAB <1>: Basic Indent. +* TAB <2>: Text Mode. +* TAB <3>: Indentation. +* TAB <4>: Major Modes. +* TAB <5>: Completion Example. +* TAB: String Key Sequences. +* TAB (customization buffer): Changing an Option. +* TAB (Shell mode): Shell Mode. +* u (Calendar mode) <1>: Diary Commands. +* u (Calendar mode): Holidays. +* UP: Basic. +* x (Calendar mode): Holidays. diff --git a/info/xemacs.info-21 b/info/xemacs.info-21 index 35b6065..fe387af 100644 --- a/info/xemacs.info-21 +++ b/info/xemacs.info-21 @@ -30,762 +30,765 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  -File: xemacs.info, Node: Variable Index, Next: Concept Index, Prev: Command Index, Up: Top +File: xemacs.info, Node: Command Index, Next: Variable Index, Prev: Key Index, Up: Top -Variable Index -************** +Command and Function Index +************************** * Menu: -* abbrev-all-caps: Expanding Abbrevs. -* abbrev-file-name: Saving Abbrevs. +* abbrev-mode <1>: Minor Modes. * abbrev-mode: Abbrevs. -* after-load-alist: Loading. -* after-save-hook: Saving. -* all-christian-calendar-holidays: Holiday Customizing. -* all-hebrew-calendar-holidays: Holiday Customizing. -* all-islamic-calendar-holidays: Holiday Customizing. -* appt-audible: Appt Customizing. -* appt-display-duration: Appt Customizing. -* appt-display-mode-line: Appt Customizing. -* appt-message-warning-time: Appt Customizing. -* appt-msg-window: Appt Customizing. -* appt-visible: Appt Customizing. -* auto-fill-inhibit-regexp: Fill Commands. -* auto-lower-frame: XEmacs under X. -* auto-mode-alist: Choosing Modes. -* auto-raise-frame: XEmacs under X. -* auto-save-default: Auto Save Control. -* auto-save-interval: Auto Save Control. -* auto-save-timeout: Auto Save Control. -* auto-save-visited-file-name: Auto Save Files. -* backup-by-copying: Backup Copying. -* backup-by-copying-when-linked: Backup Copying. -* backup-by-copying-when-mismatch: Backup Copying. -* bell-volume: Audible Bell. -* blink-matching-paren: Matching. -* blink-matching-paren-distance: Matching. -* bookmark-save-flag: Bookmarks. -* bookmark-search-size: Bookmarks. -* buffer-file-coding-system: Recognize Coding. -* buffer-file-name: Visiting. -* buffer-file-truename: Visiting. -* buffer-read-only: Misc Buffer. -* buffer-tag-table: Find Tag. -* c-argdecl-indent: C Indent. -* c-auto-newline: C Indent. -* c-brace-imaginary-offset: C Indent. -* c-brace-offset: C Indent. -* c-continued-statement-offset: C Indent. -* c-indent-level: C Indent. -* c-label-offset: C Indent. -* c-mode-hook: Program Modes. -* c-mode-map: Keymaps. -* c-tab-always-indent: C Indent. -* calendar-date-display-form: Date Display Format. -* calendar-daylight-savings-ends: Daylight Savings. -* calendar-daylight-savings-ends-time: Daylight Savings. -* calendar-daylight-savings-starts: Daylight Savings. -* calendar-daylight-time-offset: Daylight Savings. -* calendar-daylight-time-zone-name: Sunrise/Sunset. -* calendar-holiday-marker: Calendar Customizing. -* calendar-holidays: Holiday Customizing. -* calendar-latitude: Sunrise/Sunset. -* calendar-load-hook: Calendar Customizing. -* calendar-location-name: Sunrise/Sunset. -* calendar-longitude: Sunrise/Sunset. -* calendar-standard-time-zone-name: Sunrise/Sunset. -* calendar-time-display-form: Time Display Format. -* calendar-time-zone: Sunrise/Sunset. -* calendar-today-marker: Calendar Customizing. -* calendar-week-start-day: Move to Beginning or End. -* case-fold-search <1>: Replacement and Case. -* case-fold-search: Search Case. -* case-replace: Replacement and Case. -* christian-holidays: Holiday Customizing. -* coding: Recognize Coding. -* command-history: Repetition. -* command-line-args: Command Switches. -* comment-column: Comments. -* comment-end: Comments. -* comment-indent-hook: Comments. -* comment-line-start: Fortran Comments. -* comment-line-start-skip: Fortran Comments. -* comment-multi-line: Comments. -* comment-start: Comments. -* comment-start-skip: Comments. -* compare-ignore-case: Comparing Files. -* compile-command: Compilation. -* completion-auto-help: Completion Options. -* completion-ignored-extensions: Completion Options. -* create-frame-hook: XEmacs under X. -* ctl-arrow: Display Vars. -* ctl-x-map: Keymaps. -* current-input-method: Select Input Method. -* data-directory: Startup Paths. -* data-directory-list: Startup Paths. -* debug-on-error: Lisp Debug. -* debug-on-quit: Lisp Debug. -* default-buffer-file-coding-system: Specify Coding. -* default-directory: File Names. -* default-directory-alist: File Names. -* default-frame-alist: XEmacs under X. -* default-input-method: Select Input Method. -* default-major-mode: Choosing Modes. -* delete-auto-save-files: Auto Save Files. -* describe-function-show-arglist: Help. -* diary-date-forms: Diary Customizing. -* diary-display-hook: Fancy Diary Display. -* diary-entry-marker: Calendar Customizing. -* diary-file: Format of Diary File. -* diary-list-include-blanks: Fancy Diary Display. -* diary-mail-days: Diary Commands. -* diff-switches: Comparing Files. -* dired-kept-versions: Dired Deletion. -* dired-listing-switches: Dired Enter. -* display-buffer-function: Pop Up Window. -* doc-directory: Startup Paths. -* echo-keystrokes: Display Vars. -* emacs-lisp-mode-hook: Program Modes. -* emacs-roots: Startup Paths. -* EMACSDATA: Startup Paths. -* EMACSLOADPATH: Startup Paths. -* EMACSLOCKDIR: Startup Paths. -* EMACSPATH: Startup Paths. -* enable-local-variables: File Variables. -* enable-recursive-minibuffers: Minibuffer Edit. -* esc-map: Keymaps. -* european-calendar-style: Date Formats. -* exec-directory: Startup Paths. -* exec-path: Startup Paths. -* explicit-shell-file-name: Interactive Shell. -* file-coding-system-alist: Recognize Coding. -* file-name-coding-system: Specify Coding. -* fill-column: Fill Commands. -* fill-prefix: Fill Prefix. -* find-file-compare-truenames: Visiting. -* find-file-hooks: Visiting. -* find-file-not-found-hooks: Visiting. -* find-file-run-dired: Visiting. -* find-file-use-truenames: Visiting. -* fortran-check-all-num-for-matching-do: ForIndent Vars. -* fortran-comment-indent-char: Fortran Comments. -* fortran-comment-indent-style: Fortran Comments. -* fortran-comment-line-column: Fortran Comments. -* fortran-comment-region: Fortran Comments. -* fortran-continuation-char: ForIndent Conv. -* fortran-continuation-indent: ForIndent Vars. -* fortran-do-indent: ForIndent Vars. -* fortran-electric-line-number: ForIndent Num. -* fortran-if-indent: ForIndent Vars. -* fortran-line-number-indent: ForIndent Num. -* fortran-minimum-statement-indent: ForIndent Vars. -* frame-icon-title-format <1>: Command Switches. -* frame-icon-title-format: XEmacs under X. -* frame-title-format <1>: Command Switches. -* frame-title-format: XEmacs under X. -* general-holidays: Holiday Customizing. -* global-map: Keymaps. -* hebrew-holidays: Holiday Customizing. -* help-map: Keymaps. -* holidays-in-diary-buffer: Diary Customizing. -* indent-tabs-mode: Just Spaces. -* Info-directory-list: Startup Paths. -* INFOPATH: Startup Paths. -* initial-calendar-window-hook: Calendar Customizing. -* initial-major-mode: Entering Emacs. -* input-method-highlight-flag: Input Methods. -* input-method-verbose-flag: Input Methods. -* input-ring-size: Interactive Shell. -* insert-default-directory <1>: File Names. -* insert-default-directory: Minibuffer File. -* isearch-mode-map: Keymaps. -* islamic-holidays: Holiday Customizing. -* kept-new-versions: Backup Deletion. -* kept-old-versions: Backup Deletion. -* keyboard-translate-table: Intro to Keystrokes. -* kill-ring-max: Earlier Kills. -* LaTeX-mode-hook: TeX Print. -* lisp-body-indention: Lisp Indent. -* lisp-directory: Startup Paths. -* lisp-indent-offset: Lisp Indent. -* lisp-interaction-mode-hook: Program Modes. -* lisp-mode-hook: Program Modes. -* lisp-mode-map: Keymaps. -* list-diary-entries-hook: Included Diary Files. -* list-directory-brief-switches: ListDir. -* list-directory-verbose-switches: ListDir. -* load-path <1>: Loading. -* load-path: Startup Paths. -* local-holidays: Holiday Customizing. -* lock-directory: Startup Paths. -* lpr-switches: Hardcopy. -* mail-abbrev-mailrc-file: Mail Headers. -* mail-abbrev-mode-regexp: Mail Headers. -* mail-alias-seperator-string: Mail Headers. -* mail-archive-file-name: Mail Headers. -* mail-header-separator: Mail Format. -* mail-mode-hook: Mail Mode. -* make-backup-files: Backup. -* make-tags-files-invisible: Find Tag. -* mark-diary-entries-hook: Included Diary Files. -* mark-diary-entries-in-calendar: Calendar Customizing. -* mark-holidays-in-calendar: Calendar Customizing. -* mark-ring: Mark Ring. -* mark-ring-max: Mark Ring. -* meta-flag: Meta Key. -* minibuffer-confirm-incomplete <1>: Completion Options. -* minibuffer-confirm-incomplete: Minibuffer Edit. -* minibuffer-local-completion-map: Keymaps. -* minibuffer-local-map: Keymaps. -* minibuffer-local-must-match-map: Keymaps. -* minibuffer-local-ns-map: Keymaps. -* mode-line-inverse-video: Mode Line. -* modeline-pointer-glyph: Mouse Selection. -* muddle-mode-hook: Program Modes. -* next-screen-context-lines: Scrolling. -* no-redraw-on-reenter: Display Vars. -* nongregorian-diary-listing-hook: Hebrew/Islamic Entries. -* nongregorian-diary-marking-hook: Hebrew/Islamic Entries. -* nontext-pointer-glyph: Mouse Selection. -* nroff-mode-hook: Nroff Mode. -* number-of-diary-entries: Diary Customizing. -* other-holidays: Holiday Customizing. -* outline-mode-hook: Outline Mode. -* outline-regexp: Outline Format. -* page-delimiter: Pages. -* paragraph-separate: Paragraphs. -* paragraph-start: Paragraphs. -* parse-sexp-ignore-comments: Syntax Entry. -* PATH: Startup Paths. -* picture-mode-hook: Picture. -* picture-tab-chars: Tabs in Picture. -* plain-TeX-mode-hook: TeX Print. -* print-diary-entries-hook: Diary Customizing. -* repeat-complex-command-map: Keymaps. -* require-final-newline: Saving. -* save-abbrevs: Saving Abbrevs. -* scheme-mode-hook: Program Modes. -* scroll-conservatively: Scrolling. -* scroll-step: Scrolling. -* search-slow-speed: Incremental Search. -* search-slow-window-lines: Incremental Search. -* selective-display-ellipses <1>: Outline Visibility. -* selective-display-ellipses: Display Vars. -* sentence-end: Sentences. -* shell-cd-regexp: Interactive Shell. -* shell-file-name: Single Shell. -* shell-popd-regexp: Interactive Shell. -* shell-prompt-pattern: Shell Mode. -* shell-pushd-regexp: Interactive Shell. -* sound-alist: Audible Bell. -* superlock-file: Startup Paths. -* tab-stop-list: Tab Stops. -* tab-width: Display Vars. -* tag-mark-stack-max: Find Tag. -* tag-table-alist <1>: Find Tag. -* tag-table-alist: Select Tags Table. -* tags-always-build-completion-table: Select Tags Table. -* tags-build-completion-table: Find Tag. -* tags-file-name <1>: Find Tag. -* tags-file-name: Select Tags Table. -* term-file-prefix: Terminal Init. -* term-setup-hook: Terminal Init. -* TeX-mode-hook: TeX Print. -* text-mode-hook: Text Mode. -* text-pointer-glyph: Mouse Selection. -* today-invisible-calendar-hook: Calendar Customizing. -* today-visible-calendar-hook: Calendar Customizing. -* track-eol: Basic. -* trim-versions-without-asking: Backup Deletion. -* truncate-lines: Continuation Lines. -* truncate-partial-width-windows: Split Window. -* vc-command-messages: Variables for Check-in/out. -* vc-comment-alist: Version Headers. -* vc-default-back-end: Editing with VC. -* vc-header-alist: Version Headers. -* vc-initial-comment: Editing with VC. -* vc-keep-workfiles: Editing with VC. -* vc-log-mode-hook: Log Entries. -* vc-make-backup-files: Editing with VC. -* vc-mistrust-permissions: Variables for Check-in/out. -* vc-path: Variables for Check-in/out. -* vc-static-header-alist: Version Headers. -* vc-suppress-confirm: Variables for Check-in/out. -* version-control: Backup Names. -* view-calendar-holidays-initially: Calendar Customizing. -* view-diary-entries-initially: Calendar Customizing. -* window-min-height: Change Window. -* window-min-width: Change Window. -* write-file-hooks: Saving. -* x-frame-defaults: XEmacs under X. -* zmacs-region-stays: Active Regions. -* zmacs-regions: Active Regions. - - -File: xemacs.info, Node: Concept Index, Next: Frame, Prev: Variable Index, Up: Top - -Concept Index -************* - -* Menu: - -* .mailrc file: Mail Headers. -* // in file name: Minibuffer File. -* Abbrev mode: Minor Modes. -* abbrevs: Abbrevs. -* aborting: Quitting. -* accumulating text: Accumulating Text. -* active fields (customization buffer): Customization Groups. -* active regions: Active Regions. -* adding menu items: Menu Customization. -* adding menus: Menu Customization. -* againformation: Dissociated Press. -* Apps menu <1>: Apps Menu. -* Apps menu: Pull-down Menus. -* apropos: Help. -* architecture-specific directories: Startup Paths. -* arguments (from shell): Command Switches. -* ASCII: Intro to Keystrokes. -* Asm mode: Asm Mode. -* astronomical day numbers: Calendar Systems. -* audible bell, changing: Audible Bell. -* Auto Delete Selection menu item: Options Menu. -* Auto Fill mode <1>: Minor Modes. -* Auto Fill mode <2>: Comments. -* Auto Fill mode: Auto Fill. -* Auto-Save mode: Auto Save. -* autoload: Loading. -* backup file: Backup. -* batch mode: Command Switches. -* bell, changing: Audible Bell. -* binary packages: Package Terminology. -* binding: Commands. -* blank lines <1>: Comments. -* blank lines: Blank Lines. -* body lines (Outline mode): Outline Format. -* bold font: Face Customization. -* bookmarks: Bookmarks. -* boredom: Amusements. -* buffer: Frame. -* buffer menu: Several Buffers. -* buffers: Buffers. -* Buffers menu <1>: Buffers Menu. -* Buffers menu: Pull-down Menus. -* Buffers Menu Length... menu item: Options Menu. -* Buffers Sub-Menus menu item: Options Menu. -* buggestion: Dissociated Press. -* bugs: Bugs. -* byte code: Compiling Libraries. -* C: Programs. -* C mode: Program Modes. +* abbrev-prefix-mark: Expanding Abbrevs. +* abort-recursive-edit <1>: Quitting. +* abort-recursive-edit: Recursive Edit. +* add-change-log-entry: Change Log. +* add-global-abbrev: Defining Abbrevs. +* add-menu: Menu Customization. +* add-menu-item: Menu Customization. +* add-mode-abbrev: Defining Abbrevs. +* add-name-to-file: Misc File Ops. +* american-calendar: Date Formats. +* append-next-kill: Appending Kills. +* append-to-buffer: Accumulating Text. +* append-to-file <1>: Misc File Ops. +* append-to-file: Accumulating Text. +* apropos: Apropos. +* apropos-documentation: Apropos. +* apropos-value: Apropos. +* ask-user-about-lock: Interlocking. +* auto-fill-mode <1>: Minor Modes. +* auto-fill-mode: Auto Fill. +* auto-save-mode: Auto Save Control. +* back-to-indentation: Indentation Commands. +* backward-char: Basic. +* backward-delete-char-untabify: Program Modes. +* backward-kill-sentence <1>: Sentences. +* backward-kill-sentence <2>: Kill Errors. +* backward-kill-sentence: Killing. +* backward-kill-word <1>: Words. +* backward-kill-word <2>: Kill Errors. +* backward-kill-word: Killing. +* backward-list: Lists. +* backward-page: Pages. +* backward-paragraph: Paragraphs. +* backward-sentence: Sentences. +* backward-sexp: Lists. +* backward-text-line: Nroff Mode. +* backward-up-list: Lists. +* backward-word: Words. +* batch-byte-compile: Compiling Libraries. +* beginning-of-buffer: Basic. +* beginning-of-defun: Defuns. +* beginning-of-fortran-subprogram: Fortran Motion. +* beginning-of-line: Basic. +* bookmark-delete: Bookmarks. +* bookmark-insert: Bookmarks. +* bookmark-insert-location: Bookmarks. +* bookmark-jump: Bookmarks. +* bookmark-load: Bookmarks. +* bookmark-save: Bookmarks. +* bookmark-set: Bookmarks. +* bookmark-write: Bookmarks. +* buffer-menu: Several Buffers. +* byte-compile-and-load-file: Compiling Libraries. +* byte-compile-buffer: Compiling Libraries. +* byte-compile-file: Compiling Libraries. +* byte-recompile-directory: Compiling Libraries. +* c-indent-line: Basic Indent. * calendar: Calendar/Diary. -* calendar and LaTeX: LaTeX Calendar. -* calendar, first day of week: Move to Beginning or End. -* candle lighting times: Sexp Diary Entries. -* case conversion <1>: Case. -* case conversion: Fixing Case. -* Case Sensitive Search menu item: Options Menu. -* centering: Fill Commands. -* change log: Change Log. -* changing buffers: Select Buffer. -* changing menu items: Menu Customization. -* character set: Intro to Keystrokes. -* checking in files: Concepts of VC. -* checking out files: Concepts of VC. -* Chinese: Mule. -* Chinese calendar: Calendar Systems. -* Clear menu item: Edit Menu. -* clipboard selections: X Clipboard Selection. -* coding systems: Coding Systems. -* command <1>: Key Bindings. -* command: Commands. -* command history: Repetition. -* command line arguments: Command Switches. -* command name: Key Bindings. -* comments: Comments. -* comparing files: Comparing Files. -* compilation errors: Compilation. -* compiling files: Compilation. -* completion: Completion. -* completion (symbol names): Lisp Completion. -* continuation line: Continuation Lines. -* Control-Meta: Lists. -* Coptic calendar: Calendar Systems. -* Copy menu item: Edit Menu. -* copying files: Misc File Ops. -* copying text <1>: Accumulating Text. -* copying text: Yanking. -* core distribution: Using Packages. -* crashes: Auto Save. -* creating directories: File Names. -* creating files: Visiting. -* current buffer: Buffers. -* current stack frame: Lisp Debug. -* cursor <1>: Basic. -* cursor: Point. -* customization <1>: Customization. -* customization <2>: Lisp Indent. -* customization: Commands. -* customization buffer: Easy Customization. -* customization groups: Customization Groups. -* customizing faces: Face Customization. -* cut buffers: X Selection Commands. -* Cut menu item: Edit Menu. -* cutting: Killing. -* day of year: General Calendar. -* daylight savings time: Daylight Savings. -* debugger: Lisp Debug. -* default argument: Minibuffer. -* defuns: Defuns. -* Delete Frame menu item: File Menu. -* deleting menu items: Menu Customization. -* deletion <1>: Killing. -* deletion: Basic. -* deletion (of files) <1>: Misc File Ops. -* deletion (of files): Dired. -* diary: Diary. -* diary buffer: Fancy Diary Display. -* diary file: Format of Diary File. -* ding: Audible Bell. -* directories: Startup Paths. -* directory hierarchies: Startup Paths. -* directory listing: ListDir. -* Dired: Dired. -* disabled command: Disabling. -* disabling menu items: Menu Customization. -* Distribution: License. +* calendar-backward-day: Calendar Unit Motion. +* calendar-backward-month: Calendar Unit Motion. +* calendar-backward-week: Calendar Unit Motion. +* calendar-beginning-of-month: Move to Beginning or End. +* calendar-beginning-of-week: Move to Beginning or End. +* calendar-beginning-of-year: Move to Beginning or End. +* calendar-count-days-region: Mark and Region. +* calendar-cursor-holidays: Holidays. +* calendar-end-of-month: Move to Beginning or End. +* calendar-end-of-week: Move to Beginning or End. +* calendar-end-of-year: Move to Beginning or End. +* calendar-exchange-point-and-mark: Mark and Region. +* calendar-forward-day: Calendar Unit Motion. +* calendar-forward-month: Calendar Unit Motion. +* calendar-forward-week: Calendar Unit Motion. +* calendar-forward-year: Calendar Unit Motion. +* calendar-goto-astro-day-number: From Other Calendar. +* calendar-goto-chinese-date: From Other Calendar. +* calendar-goto-coptic-date: From Other Calendar. +* calendar-goto-date: Specified Dates. +* calendar-goto-ethiopic-date: From Other Calendar. +* calendar-goto-french-date: From Other Calendar. +* calendar-goto-hebrew-date: From Other Calendar. +* calendar-goto-islamic-date: From Other Calendar. +* calendar-goto-iso-date: From Other Calendar. +* calendar-goto-julian-date: From Other Calendar. +* calendar-goto-mayan-long-count-date: Mayan Calendar. +* calendar-goto-persian-date: From Other Calendar. +* calendar-goto-today: Specified Dates. +* calendar-mark-today: Calendar Customizing. +* calendar-next-calendar-round-date: Mayan Calendar. +* calendar-next-haab-date: Mayan Calendar. +* calendar-next-tzolkin-date: Mayan Calendar. +* calendar-other-month: Specified Dates. +* calendar-phases-of-moon: Lunar Phases. +* calendar-previous-haab-date: Mayan Calendar. +* calendar-previous-tzolkin-date: Mayan Calendar. +* calendar-print-astro-day-number: To Other Calendar. +* calendar-print-chinese-date: To Other Calendar. +* calendar-print-coptic-date: To Other Calendar. +* calendar-print-day-of-year: General Calendar. +* calendar-print-ethiopic-date: To Other Calendar. +* calendar-print-french-date: To Other Calendar. +* calendar-print-hebrew-date: To Other Calendar. +* calendar-print-islamic-date: To Other Calendar. +* calendar-print-iso-date: To Other Calendar. +* calendar-print-julian-date: To Other Calendar. +* calendar-print-mayan-date: To Other Calendar. +* calendar-print-persian-date: To Other Calendar. +* calendar-set-mark: Mark and Region. +* calendar-star-date: Calendar Customizing. +* calendar-sunrise-sunset: Sunrise/Sunset. +* calendar-unmark <1>: Diary Commands. +* calendar-unmark: Holidays. +* call-last-kbd-macro: Basic Kbd Macro. +* cancel-debug-on-entry: Lisp Debug. +* capitalize-word <1>: Case. +* capitalize-word: Fixing Case. +* center-line: Fill Commands. +* choose-completion: Completion Commands. +* clear-rectangle: Rectangles. +* comint-delchar-or-maybe-eof: Shell Mode. +* comint-dynamic-complete: Shell Mode. +* comint-next-input: Shell Mode. +* comint-previous-input: Shell Mode. +* command-apropos: Apropos. +* compare-windows <1>: Other Window. +* compare-windows: Comparing Files. +* compile: Compilation. +* compile-defun: Defuns. +* convert-mocklisp-buffer: Mocklisp. +* conx: CONX. +* conx-buffer: CONX. +* conx-init: CONX. +* conx-load: CONX. +* conx-region: CONX. +* conx-save: CONX. +* copy-file: Misc File Ops. +* copy-last-shell-input: Shell Mode. +* copy-rectangle-to-register: RegRect. +* copy-region-as-kill: Kill Ring. +* copy-to-buffer: Accumulating Text. +* copy-to-register: RegText. +* count-lines-page: Pages. +* count-lines-region: Position Info. +* count-matches: Other Repeating Search. +* count-text-lines: Nroff Mode. +* customize: Easy Customization. +* customize-apropos: Specific Customization. +* customize-browse: Customization Groups. +* customize-customized: Specific Customization. +* customize-face: Specific Customization. +* customize-group: Specific Customization. +* customize-option: Specific Customization. +* customize-saved: Specific Customization. +* dabbrev-expand: Dynamic Abbrevs. +* debug: Lisp Debug. +* debug-on-entry: Lisp Debug. +* default-value: Locals. +* define-abbrevs: Saving Abbrevs. +* define-key <1>: Programmatic Rebinding. +* define-key: Interactive Rebinding. +* delete-backward-char <1>: Kill Errors. +* delete-backward-char <2>: Killing. +* delete-backward-char: Basic. +* delete-blank-lines <1>: Killing. +* delete-blank-lines: Blank Lines. +* delete-char <1>: Basic Picture. +* delete-char: Killing. +* delete-file: Misc File Ops. +* delete-horizontal-space <1>: Indentation Commands. +* delete-horizontal-space: Killing. +* delete-indentation <1>: Indentation Commands. +* delete-indentation: Killing. +* delete-matching-lines: Other Repeating Search. +* delete-menu-item: Menu Customization. +* delete-non-matching-lines: Other Repeating Search. +* delete-other-windows: Change Window. +* delete-rectangle: Rectangles. +* delete-window: Change Window. +* describe-bindings: Misc Help. +* describe-calendar-mode: General Calendar. +* describe-coding-system: Coding Systems. +* describe-copying: Misc Help. +* describe-distribution: Misc Help. +* describe-function <1>: Documentation. +* describe-function: Name Help. +* describe-input-method: Select Input Method. +* describe-key: Key Help. +* describe-key-briefly: Key Help. +* describe-language-environment: Language Environments. +* describe-mode: Misc Help. +* describe-no-warranty: Misc Help. +* describe-syntax: Syntax Change. +* describe-variable <1>: Examining. +* describe-variable <2>: Documentation. +* describe-variable: Name Help. +* diary: Diary Commands. +* diary-anniversary <1>: Sexp Diary Entries. +* diary-anniversary: Special Diary Entries. +* diary-astro-day-number: Sexp Diary Entries. +* diary-block: Special Diary Entries. +* diary-cyclic <1>: Sexp Diary Entries. +* diary-cyclic: Special Diary Entries. +* diary-day-of-year: Sexp Diary Entries. +* diary-float: Special Diary Entries. +* diary-french-date: Sexp Diary Entries. +* diary-hebrew-date: Sexp Diary Entries. +* diary-islamic-date: Sexp Diary Entries. +* diary-iso-date: Sexp Diary Entries. +* diary-julian-date: Sexp Diary Entries. +* diary-mail-entries: Diary Commands. +* diary-mayan-date: Sexp Diary Entries. +* diary-omer: Sexp Diary Entries. +* diary-parasha: Sexp Diary Entries. +* diary-phases-of-moon: Sexp Diary Entries. +* diary-rosh-hodesh: Sexp Diary Entries. +* diary-sabbath-candles: Sexp Diary Entries. +* diary-sunrise-sunset: Sexp Diary Entries. +* diary-yahrzeit: Sexp Diary Entries. +* diff: Comparing Files. +* diff-backup: Comparing Files. +* digit-argument: Arguments. +* dired: Dired Enter. +* dired-other-window <1>: Pop Up Window. +* dired-other-window: Dired Enter. +* disable-command: Disabling. +* disable-menu-item: Menu Customization. +* disassemble: Compiling Libraries. +* display-time: Mode Line. +* dissociated-press: Dissociated Press. +* do-auto-save: Auto Save Control. * doctor: Total Frustration. -* double slash in file name: Minibuffer File. -* drastic changes: Reverting. -* dribble file: Bugs. -* early package hierarchies: Startup Paths. -* echo area: Echo Area. -* Edit menu <1>: Edit Menu. -* Edit menu: Pull-down Menus. -* editable fields (customization buffer): Customization Groups. -* editing level, recursive <1>: Quitting. -* editing level, recursive: Recursive Edit. -* EDT: Emulation. -* Eliza: Total Frustration. -* Emacs initialization file: Init File. -* Emacs-Lisp mode: Lisp Eval. -* enabling menu items: Menu Customization. -* encoding of characters: Mule. -* End Macro Recording menu item: Edit Menu. -* entering Emacs: Entering Emacs. -* entering XEmacs: Entering Emacs. -* environment: Single Shell. -* error log: Compilation. -* etags program: Create Tags Table. -* Ethiopic calendar: Calendar Systems. -* Execute Last Macro menu item: Edit Menu. -* Exit Emacs menu item: File Menu. -* exiting <1>: Recursive Edit. -* exiting: Exiting. -* expansion (of abbrevs): Abbrevs. -* expression: Lists. -* file dates: Interlocking. -* file directory: ListDir. -* File menu <1>: File Menu. -* File menu: Pull-down Menus. -* file names: File Names. -* file protection: Interlocking. -* files <1>: Visiting. -* files <2>: Files. -* files: Basic. -* fill prefix: Fill Prefix. -* filling: Filling. -* Font menu item: Options Menu. -* fonts and faces: Face Customization. -* formfeed: Pages. -* Fortran mode: Fortran. -* frame: Frame. -* French Revolutionary calendar: Calendar Systems. -* function <1>: Key Bindings. -* function: Commands. -* General Public License: License. -* global keymap: Keymaps. -* global substitution: Replace. -* graphic characters: Basic. -* Greek: Mule. -* Gregorian calendar: Other Calendars. -* grinding: Grinding. -* hardcopy: Hardcopy. -* header (TeX mode): TeX Print. -* headers (of mail message): Mail Headers. -* heading lines (Outline mode): Outline Format. -* Hebrew calendar: Calendar Systems. -* help: Help. -* Help menu <1>: Help Menu. -* Help menu: Pull-down Menus. -* hierarchies: Startup Paths. -* history of commands: Repetition. -* history of minibuffer input: Minibuffer History. -* holiday forms: Holiday Customizing. +* down-list: Lists. +* downcase-region: Case. +* downcase-word <1>: Case. +* downcase-word: Fixing Case. +* edit-abbrevs: Editing Abbrevs. +* edit-abbrevs-redefine: Editing Abbrevs. +* edit-options: Edit Options. +* edit-picture: Picture. +* edit-tab-stops <1>: Text Mode. +* edit-tab-stops: Tab Stops. +* edit-tab-stops-note-changes: Tab Stops. +* edt-emulation-off: Emulation. +* edt-emulation-on: Emulation. +* electric-nroff-mode: Nroff Mode. +* emacs-lisp-mode: Lisp Eval. +* emacs-version: Bugs. +* enable-command: Disabling. +* enable-menu-item: Menu Customization. +* end-kbd-macro: Basic Kbd Macro. +* end-of-buffer: Basic. +* end-of-defun: Defuns. +* end-of-fortran-subprogram: Fortran Motion. +* end-of-line: Basic. +* enlarge-window: Change Window. +* enlarge-window-horizontally: Change Window. +* european-calendar: Date Formats. +* eval-current-buffer: Lisp Eval. +* eval-defun: Lisp Eval. +* eval-expression: Lisp Eval. +* eval-last-sexp: Lisp Eval. +* eval-region: Lisp Eval. +* exchange-point-and-mark: Setting Mark. +* execute-extended-command: M-x. +* exit-calendar: General Calendar. +* exit-recursive-edit: Recursive Edit. +* expand-abbrev: Expanding Abbrevs. +* expand-region-abbrevs: Expanding Abbrevs. +* fancy-diary-display: Fancy Diary Display. +* fill-individual-paragraphs: Fill Prefix. +* fill-paragraph: Fill Commands. +* fill-region: Fill Commands. +* fill-region-as-paragraph: Fill Commands. +* find-alternate-file: Visiting. +* find-file: Visiting. +* find-file-other-frame <1>: Visiting. +* find-file-other-frame: XEmacs under X. +* find-file-other-window <1>: Pop Up Window. +* find-file-other-window: Visiting. +* find-tag: Find Tag. +* find-tag-other-window <1>: Find Tag. +* find-tag-other-window: Pop Up Window. +* find-this-file: Visiting. +* find-this-file-other-window: Visiting. +* finder-by-keyword: Library Keywords. +* fortran-column-ruler: Fortran Columns. +* fortran-comment-region: Fortran Comments. +* fortran-indent-line: ForIndent Commands. +* fortran-indent-subprogram: ForIndent Commands. +* fortran-mode: Fortran. +* fortran-next-statement: Fortran Motion. +* fortran-previous-statement: Fortran Motion. +* fortran-split-line: ForIndent Commands. +* fortran-window-create: Fortran Columns. +* forward-char: Basic. +* forward-list: Lists. +* forward-page: Pages. +* forward-paragraph: Paragraphs. +* forward-sentence: Sentences. +* forward-sexp: Lists. +* forward-text-line: Nroff Mode. +* forward-word: Words. +* frame-configuration-to-register: RegConfig. +* global-set-key <1>: Programmatic Rebinding. +* global-set-key: Interactive Rebinding. +* goto-char: Basic. +* goto-line: Basic. +* hanoi: Amusements. +* help-command: Help. +* help-for-help: Help. +* help-with-tutorial <1>: Misc Help. +* help-with-tutorial: Basic. +* hide-body: Outline Visibility. +* hide-entry: Outline Visibility. +* hide-leaves: Outline Visibility. +* hide-subtree: Outline Visibility. * holidays: Holidays. -* horizontal scrolling: Horizontal Scrolling. -* ignoriginal: Dissociated Press. -* indentation <1>: Comments. -* indentation <2>: Grinding. -* indentation: Indentation. -* inferior process: Compilation. -* init file: Init File. -* input methods: Input Methods. -* Insert File... menu item: File Menu. -* insertion: Basic. -* international scripts: Mule. -* interval operator (in regexps): Etags Regexps. -* invisible lines: Outline Mode. -* IPA: Mule. -* Islamic calendar: Calendar Systems. -* ISO commercial calendar: Calendar Systems. -* italic font: Face Customization. -* Japanese: Mule. -* Julian calendar: Calendar Systems. -* Julian day numbers: Calendar Systems. -* justification: Fill Commands. -* key rebinding, permanent: Init File. -* key rebinding, this session: Rebinding. -* keyboard macros: Keyboard Macros. -* keycode: Super and Hyper Keys. -* keymap <1>: Keymaps. -* keymap: Commands. -* keystroke: Intro to Keystrokes. -* keysym: Intro to Keystrokes. -* keysyms: Super and Hyper Keys. -* Kill Buffer menu item: File Menu. -* kill ring: Yanking. -* killing: Killing. -* killing Emacs: Exiting. -* Korean: Mule. -* language environments: Language Environments. -* last package hierarchies: Startup Paths. -* late package hierarchies: Startup Paths. -* LaTeX: TeX Mode. -* libraries: Lisp Libraries. -* license to copy XEmacs: License. -* line number: Position Info. -* Lisp: Programs. -* Lisp mode: Program Modes. -* list: Lists. -* loading libraries: Loading. -* loading Lisp code: Lisp Libraries. -* local keymap: Keymaps. -* local variables: Locals. -* local variables in files: File Variables. -* locking and version control: Concepts of VC. -* log entry: Editing with VC. -* mail <1>: Reading Mail. +* include-other-diary-files: Included Diary Files. +* increment-register: RegNumbers. +* indent-c-exp: Multi-line Indent. +* indent-for-comment: Comments. +* indent-new-comment-line: Comments. +* indent-region <1>: Multi-line Indent. +* indent-region: Indentation Commands. +* indent-relative: Indentation Commands. +* indent-rigidly: Indentation Commands. +* indent-sexp: Multi-line Indent. +* indented-text-mode: Text Mode. +* info: Misc Help. +* Info-elisp-ref: Misc Help. +* Info-goto-emacs-command-node: Misc Help. +* insert-abbrevs: Saving Abbrevs. +* insert-anniversary-diary-entry: Special Diary Entries. +* insert-block-diary-entry: Special Diary Entries. +* insert-cyclic-diary-entry: Special Diary Entries. +* insert-diary-entry: Adding to Diary. +* insert-file: Misc File Ops. +* insert-hebrew-diary-entry: Hebrew/Islamic Entries. +* insert-islamic-diary-entry: Hebrew/Islamic Entries. +* insert-kbd-macro: Save Kbd Macro. +* insert-monthly-diary-entry: Adding to Diary. +* insert-monthly-hebrew-diary-entry: Hebrew/Islamic Entries. +* insert-monthly-islamic-diary-entry: Hebrew/Islamic Entries. +* insert-parentheses: Balanced Editing. +* insert-register: RegText. +* insert-weekly-diary-entry: Adding to Diary. +* insert-yearly-diary-entry: Adding to Diary. +* insert-yearly-hebrew-diary-entry: Hebrew/Islamic Entries. +* insert-yearly-islamic-diary-entry: Hebrew/Islamic Entries. +* interactive: M-x. +* interrupt-shell-subjob: Shell Mode. +* inverse-add-global-abbrev: Defining Abbrevs. +* inverse-add-mode-abbrev: Defining Abbrevs. +* invert-face: Faces. +* isearch-abort: Incremental Search. +* isearch-backward: Incremental Search. +* isearch-backward-regexp: Regexp Search. +* isearch-complete: Incremental Search. +* isearch-delete-char: Incremental Search. +* isearch-exit: Incremental Search. +* isearch-forward: Incremental Search. +* isearch-forward-regexp: Regexp Search. +* isearch-quote-char: Incremental Search. +* isearch-repeat-backward: Incremental Search. +* isearch-repeat-forward: Incremental Search. +* isearch-ring-advance: Incremental Search. +* isearch-ring-retreat: Incremental Search. +* isearch-yank-line: Incremental Search. +* isearch-yank-word: Incremental Search. +* jump-to-register <1>: Split Window. +* jump-to-register: RegPos. +* just-one-space: Killing. +* kbd-macro-query: Kbd Macro Query. +* kill-all-abbrevs: Defining Abbrevs. +* kill-buffer: Kill Buffer. +* kill-comment: Comments. +* kill-compilation: Compilation. +* kill-line: Killing. +* kill-local-variable: Locals. +* kill-output-from-shell: Shell Mode. +* kill-rectangle: Rectangles. +* kill-region: Killing. +* kill-sentence <1>: Sentences. +* kill-sentence: Killing. +* kill-sexp <1>: Lists. +* kill-sexp: Killing. +* kill-some-buffers: Kill Buffer. +* kill-word <1>: Words. +* kill-word: Killing. +* latex-mode: TeX Mode. +* LaTeX-mode: TeX Mode. +* lisp-complete-symbol: Lisp Completion. +* lisp-indent-line: Basic Indent. +* lisp-interaction-mode: Lisp Interaction. +* lisp-mode: External Lisp. +* lisp-send-defun: External Lisp. +* list-abbrevs: Editing Abbrevs. +* list-bookmarks: Bookmarks. +* list-buffers: List Buffers. +* list-calendar-holidays: Holidays. +* list-coding-systems: Coding Systems. +* list-command-history: Repetition. +* list-directory: ListDir. +* list-hebrew-diary-entries: Hebrew/Islamic Entries. +* list-holidays: Holidays. +* list-input-methods: Select Input Method. +* list-islamic-diary-entries: Hebrew/Islamic Entries. +* list-matching-lines: Other Repeating Search. +* list-options: Edit Options. +* list-tags: List Tags. +* list-yahrzeit-dates: From Other Calendar. +* load: Loading. +* load-default-sounds: Audible Bell. +* load-file: Loading. +* load-library <1>: Loading. +* load-library: Startup Paths. +* load-sound-file: Audible Bell. +* local-set-key: Interactive Rebinding. +* local-unset-key: Interactive Rebinding. +* locate-library: Loading. +* lpr-buffer: Hardcopy. +* lpr-region: Hardcopy. * mail: Sending Mail. -* major modes: Major Modes. -* make: Compilation. -* mark: Mark. -* mark ring <1>: Mark and Region. -* mark ring: Mark Ring. -* Markov chain: Dissociated Press. -* master file: Concepts of VC. -* matching parentheses: Matching. -* Mayan calendar: Calendar Systems. -* Mayan calendar round: Mayan Calendar. -* Mayan haab calendar: Mayan Calendar. -* Mayan long count: Mayan Calendar. -* Mayan tzolkin calendar: Mayan Calendar. -* menus <1>: Change Window. -* menus: Pull-down Menus. -* message <1>: Reading Mail. -* message: Sending Mail. -* Meta: Words. -* minibuffer <1>: Keymaps. -* minibuffer <2>: M-x. -* minibuffer: Minibuffer. -* minibuffer history: Minibuffer History. -* minor modes: Minor Modes. -* mistakes, correcting <1>: Fixit. -* mistakes, correcting: Undo. -* mocklisp: Mocklisp. -* mode hook: Program Modes. -* mode line <1>: Minor Modes. -* mode line: Mode Line. -* mode, Term: Term Mode. -* modified (buffer): Visiting. -* modifier key: Intro to Keystrokes. -* modifier mapping: Super and Hyper Keys. -* moon, phases of: Lunar Phases. -* mouse operations: Additional Mouse Operations. -* mouse selection: Mouse Selection. -* moving inside the calendar: Calendar Motion. -* moving text: Yanking. -* MULE: Mule. -* multi-frame XEmacs: XEmacs under X. -* multibyte characters: Mule. -* named configurations (RCS): Snapshot Caveats. -* narrowing: Narrowing. -* New Frame menu item: File Menu. +* mail-cc: Mail Mode. +* mail-fill-yanked-message: Mail Mode. +* mail-interactive-insert-alias: Mail Headers. +* mail-other-window <1>: Sending Mail. +* mail-other-window: Pop Up Window. +* mail-send: Mail Mode. +* mail-send-and-exit: Mail Mode. +* mail-signature: Mail Mode. +* mail-subject: Mail Mode. +* mail-to: Mail Mode. +* mail-yank-original: Mail Mode. +* make-directory: File Names. +* make-face-bold: Faces. +* make-face-bold-italic: Faces. +* make-face-italic: Faces. +* make-face-larger: Faces. +* make-face-smaller: Faces. +* make-face-unbold: Faces. +* make-face-unitalic: Faces. +* make-frame: XEmacs under X. +* make-local-variable: Locals. +* make-obsolete: Compiling Libraries. +* make-symbolic-link: Misc File Ops. +* make-variable-buffer-local: Locals. +* manual-entry: Documentation. +* mark-beginning-of-buffer: Setting Mark. +* mark-calendar-holidays: Holidays. +* mark-defun <1>: Defuns. +* mark-defun: Marking Objects. +* mark-diary-entries: Diary Commands. +* mark-end-of-buffer: Setting Mark. +* mark-fortran-subprogram: Fortran Motion. +* mark-hebrew-diary-entries: Hebrew/Islamic Entries. +* mark-included-diary-files: Included Diary Files. +* mark-islamic-diary-entries: Hebrew/Islamic Entries. +* mark-page <1>: Pages. +* mark-page: Marking Objects. +* mark-paragraph <1>: Paragraphs. +* mark-paragraph: Marking Objects. +* mark-sexp <1>: Lists. +* mark-sexp: Marking Objects. +* mark-whole-buffer: Marking Objects. +* mark-word <1>: Words. +* mark-word: Marking Objects. +* minibuffer-complete: Completion Example. +* minibuffer-complete-word: Completion Commands. +* modify-syntax-entry: Syntax Change. +* mouse-choose-completion: Completion Commands. +* mouse-del-char: Additional Mouse Operations. +* mouse-delete-window: Additional Mouse Operations. +* mouse-keep-one-window: Additional Mouse Operations. +* mouse-kill-line: Additional Mouse Operations. +* mouse-line-length: Additional Mouse Operations. +* mouse-scroll: Additional Mouse Operations. +* mouse-select: Additional Mouse Operations. +* mouse-select-and-split: Additional Mouse Operations. +* mouse-set-mark: Additional Mouse Operations. +* mouse-set-point: Additional Mouse Operations. +* mouse-track: Additional Mouse Operations. +* mouse-track-adjust: Additional Mouse Operations. +* mouse-track-and-copy-to-cutbuffer: Additional Mouse Operations. +* mouse-track-delete-and-insert: Additional Mouse Operations. +* move-over-close-and-reindent: Balanced Editing. +* move-to-window-line: Basic. +* name-last-kbd-macro: Save Kbd Macro. +* narrow-to-region: Narrowing. +* negative-argument: Arguments. * newline: Basic. -* non-incremental search: Non-Incremental Search. -* nroff: Nroff Mode. -* numeric arguments: Arguments. -* omer count: Sexp Diary Entries. -* Open File, New Frame... menu item: File Menu. -* Open File... menu item: File Menu. -* option <1>: Examining. -* option: Variables. -* Options menu <1>: Options Menu. -* Options menu: Pull-down Menus. -* other editors: Emulation. -* outlines: Outline Mode. -* outragedy: Dissociated Press. -* Overstrike menu item: Options Menu. -* Overwrite mode: Minor Modes. -* package hierarchies: Startup Paths. -* package path: Startup Paths. -* packages: Packages. -* page number: Position Info. -* pages: Pages. -* paragraphs: Paragraphs. -* parasha, weekly: Sexp Diary Entries. -* Paren Highlighting menu item: Options Menu. -* parentheses: Matching. -* Paste menu item: Edit Menu. -* pasting: Yanking. -* path: Startup Paths. -* paths: Startup Paths. -* per-buffer variables: Locals. -* Persian calendar: Calendar Systems. -* phases of the moon: Lunar Phases. -* pictures: Picture. -* point <1>: Basic. -* point: Point. -* pointer face: Mouse Selection. -* pointer shapes: Mouse Selection. -* prefix key sequence: Key Sequences. -* presidentagon: Dissociated Press. -* primary selections: X Selection Commands. -* Print Buffer menu item: File Menu. -* prompt: Minibuffer. -* properbose: Dissociated Press. -* Pull-down Menus <1>: Change Window. -* Pull-down Menus: Pull-down Menus. -* query replace: Query Replace. -* quitting: Quitting. -* quitting (in search): Incremental Search. -* quoting: Basic. -* random sentences: CONX. -* RCS: Concepts of VC. -* Read Only menu item: Options Menu. -* read-only buffer: Misc Buffer. -* rebinding keys, permanently: Init File. -* rebinding keys, this session: Rebinding. -* rectangle <1>: Rectangles in Picture. -* rectangle: RegRect. -* rectangles: Rectangles. -* recursive editing level <1>: Quitting. -* recursive editing level: Recursive Edit. -* redefining keys: Key Bindings Using Strings. -* regexp: Regexp Search. -* region <1>: Case. -* region: Mark. -* registered file: Concepts of VC. -* registers: Registers. -* regular expression: Regexp Search. -* regular packages: Package Terminology. -* removing directories: File Names. -* replacement: Replace. -* restriction: Narrowing. -* Revert Buffer menu item: File Menu. -* root of a hierarchy: Startup Paths. -* rosh hodesh: Sexp Diary Entries. -* Russian: Mule. -* Save Buffer As ... menu item: File Menu. -* Save Buffer menu item: File Menu. -* Save Options: Options Menu. -* saving: Visiting. -* saving option value: Changing an Option. -* SCCS: Concepts of VC. -* Scheme mode: Program Modes. -* scrolling: Scrolling. -* scrolling in the calendar: Scroll Calendar. -* searching: Search. -* selected buffer: Buffers. -* selected window: Basic Window. -* selective display: Outline Mode. -* self-documentation: Help. -* sentences: Sentences. -* setting option value: Changing an Option. -* setting variables: Examining. -* sexp: Lists. -* sexp diary entries: Sexp Diary Entries. -* shell commands: Shell. -* Shell mode: Shell Mode. -* shift modifer: Representing Keystrokes. -* shrinking XEmacs frame: Exiting. -* simultaneous editing: Interlocking. -* single-file packages: Package Terminology. -* site-specific directories: Startup Paths. -* Size menu item: Options Menu. -* slashes repeated in file name: Minibuffer File. -* snapshots and version control: Snapshots. -* sorting: Sorting. -* sorting diary entries: Fancy Diary Display. -* source packages: Package Terminology. -* spelling: Spelling. -* Split Frame: File Menu. -* Start Macro Recording menu item: Edit Menu. -* startup paths: Startup Paths. -* string substitution: Replace. -* subshell: Shell. -* subtree (Outline mode): Outline Visibility. -* sunrise and sunset: Sunrise/Sunset. -* suspending: Exiting. -* switching buffers: Select Buffer. -* Syntax Highlighting menu item: Options Menu. -* syntax table <1>: Syntax. -* syntax table: Words. -* tags table: Tags. -* Teach Extended Commands menu item: Options Menu. -* techniquitous: Dissociated Press. -* television: Appending Kills. -* Term mode: Term Mode. -* termscript file: Bugs. -* TeX: TeX Mode. -* text: Text. -* Text mode: Text Mode. -* Tools menu <1>: Tools Menu. -* Tools menu: Pull-down Menus. -* top level: Mode Line. -* transposition <1>: Lists. -* transposition <2>: Words. -* transposition: Transpose. -* truncation: Continuation Lines. -* typos: Fixit. -* Un-split (Keep Others): File Menu. -* Un-split (Keep This): File Menu. +* newline-and-indent: Basic Indent. +* next-complex-command: Repetition. +* next-error: Compilation. +* next-history-element: Minibuffer History. +* next-line: Basic. +* next-list-mode-item: Completion Commands. +* next-matching-history-element: Minibuffer History. +* not-modified: Saving. +* nroff-mode: Nroff Mode. +* number-to-register: RegNumbers. +* occur: Other Repeating Search. +* open-dribble-file: Bugs. +* open-line: Blank Lines. +* open-rectangle: Rectangles. +* open-termscript: Bugs. +* other-window: Other Window. +* other-window-any-frame: Other Window. +* outline-backward-same-level: Outline Motion. +* outline-forward-same-level: Outline Motion. +* outline-next-visible-heading: Outline Motion. +* outline-previous-visible-heading: Outline Motion. +* outline-up-heading: Outline Motion. +* overwrite-mode: Minor Modes. +* phases-of-moon: Lunar Phases. +* picture-backward-clear-column: Basic Picture. +* picture-backward-column: Basic Picture. +* picture-clear-column: Basic Picture. +* picture-clear-line: Basic Picture. +* picture-clear-rectangle: Rectangles in Picture. +* picture-clear-rectangle-to-register: Rectangles in Picture. +* picture-forward-column: Basic Picture. +* picture-motion: Insert in Picture. +* picture-motion-reverse: Insert in Picture. +* picture-move-down: Basic Picture. +* picture-move-up: Basic Picture. +* picture-movement-down: Insert in Picture. +* picture-movement-left: Insert in Picture. +* picture-movement-ne: Insert in Picture. +* picture-movement-nw: Insert in Picture. +* picture-movement-right: Insert in Picture. +* picture-movement-se: Insert in Picture. +* picture-movement-sw: Insert in Picture. +* picture-movement-up: Insert in Picture. +* picture-newline: Basic Picture. +* picture-open-line: Basic Picture. +* picture-set-tab-stops: Tabs in Picture. +* picture-tab: Tabs in Picture. +* picture-tab-search: Tabs in Picture. +* picture-yank-rectangle: Rectangles in Picture. +* picture-yank-rectangle-from-register: Rectangles in Picture. +* plain-TeX-mode: TeX Mode. +* plain-tex-mode: TeX Mode. +* play-sound: Audible Bell. +* point-to-register: RegPos. +* prefer-coding-system: Recognize Coding. +* prepend-to-buffer: Accumulating Text. +* previous-complex-command: Repetition. +* previous-history-element: Minibuffer History. +* previous-line: Basic. +* previous-list-mode-item: Completion Commands. +* previous-matching-history-element: Minibuffer History. +* print-buffer: Hardcopy. +* print-diary-entries <1>: Diary Customizing. +* print-diary-entries: Diary Commands. +* print-region: Hardcopy. +* quail-set-keyboard-layout: Select Input Method. +* query-replace: Query Replace. +* query-replace-regexp: Query Replace. +* quietly-read-abbrev-file: Saving Abbrevs. +* quit-shell-subjob: Shell Mode. +* quoted-insert: Basic. +* re-search-backward: Regexp Search. +* re-search-forward: Regexp Search. +* read-abbrev-file: Saving Abbrevs. +* read-key-sequence: Representing Keystrokes. +* recenter <1>: Scrolling. +* recenter: Basic. +* recover-file: Recover. +* redraw-calendar: General Calendar. +* relabel-menu-item: Menu Customization. +* remove-directory: File Names. +* rename-buffer: Misc Buffer. +* rename-file: Misc File Ops. +* repeat-complex-command: Repetition. +* replace-regexp: Unconditional Replace. +* replace-string: Unconditional Replace. +* revert-buffer: Reverting. +* run-lisp: External Lisp. +* save-buffer: Saving. +* save-buffers-kill-emacs: Exiting. +* save-some-buffers: Saving. +* scroll-calendar-left: Scroll Calendar. +* scroll-calendar-left-three-months: Scroll Calendar. +* scroll-calendar-right: Scroll Calendar. +* scroll-calendar-right-three-months: Scroll Calendar. +* scroll-down: Scrolling. +* scroll-left: Horizontal Scrolling. +* scroll-other-window <1>: General Calendar. +* scroll-other-window: Other Window. +* scroll-right: Horizontal Scrolling. +* scroll-up: Scrolling. +* search-backward: Non-Incremental Search. +* search-forward: Non-Incremental Search. +* select-input-method: Select Input Method. +* self-insert: Basic. +* send-shell-input: Shell Mode. +* set-buffer-file-coding-system: Specify Coding. +* set-buffer-process-coding-system: Specify Coding. +* set-comment-column: Comments. +* set-default-file-modes: Interlocking. +* set-face-background: Faces. +* set-face-background-pixmap: Faces. +* set-face-font: Faces. +* set-face-foreground: Faces. +* set-face-underline-p: Faces. +* set-fill-column: Fill Commands. +* set-fill-prefix: Fill Prefix. +* set-gnu-bindings: Emulation. +* set-goal-column: Basic. +* set-gosmacs-bindings: Emulation. +* set-keyboard-coding-system: Specify Coding. +* set-language-environment: Language Environments. +* set-mark-command: Setting Mark. +* set-selective-display: Selective Display. +* set-terminal-coding-system: Specify Coding. +* set-variable: Examining. +* set-visited-file-name: Saving. +* setq-default: Locals. +* shell: Interactive Shell. +* shell-command: Single Shell. +* shell-command-on-region: Single Shell. +* shell-send-eof: Shell Mode. +* show-all: Outline Visibility. +* show-all-diary-entries: Diary Commands. +* show-branches: Outline Visibility. +* show-children: Outline Visibility. +* show-entry: Outline Visibility. +* show-output-from-shell: Shell Mode. +* show-subtree: Outline Visibility. +* simple-diary-display: Fancy Diary Display. +* sort-columns: Sorting. +* sort-diary-entries: Fancy Diary Display. +* sort-fields: Sorting. +* sort-lines: Sorting. +* sort-numeric-fields: Sorting. +* sort-pages: Sorting. +* sort-paragraphs: Sorting. +* spell-buffer: Spelling. +* spell-region: Spelling. +* spell-string: Spelling. +* spell-word: Spelling. +* split-line: Indentation Commands. +* split-window-horizontally: Split Window. +* split-window-vertically: Split Window. +* start-kbd-macro: Basic Kbd Macro. +* stop-shell-subjob: Shell Mode. +* substitute-key-definition: Interactive Rebinding. +* sunrise-sunset: Sunrise/Sunset. +* suspend-emacs: Exiting. +* switch-to-buffer: Select Buffer. +* switch-to-buffer-other-frame <1>: Select Buffer. +* switch-to-buffer-other-frame: XEmacs under X. +* switch-to-buffer-other-window <1>: Pop Up Window. +* switch-to-buffer-other-window: Select Buffer. +* switch-to-other-buffer: Select Buffer. +* tab-to-tab-stop <1>: Text Mode. +* tab-to-tab-stop: Tab Stops. +* tabify: Just Spaces. +* tags-apropos: List Tags. +* tags-loop-continue: Tags Search. +* tags-query-replace: Tags Search. +* tags-search: Tags Search. +* term: Terminal emulator. +* term-line-mode: Term Mode. +* term-pager-toggle: Paging in Term. +* tex-buffer: TeX Print. +* tex-close-latex-block: TeX Editing. +* tex-insert-braces: TeX Editing. +* tex-insert-quote: TeX Editing. +* tex-kill-job: TeX Print. +* tex-mode: TeX Mode. +* TeX-mode: TeX Mode. +* tex-print: TeX Print. +* tex-recenter-output-buffer: TeX Print. +* tex-region: TeX Print. +* tex-show-print-queue: TeX Print. +* tex-terminate-paragraph: TeX Editing. +* text-mode: Text Mode. +* toggle-input-method: Select Input Method. +* toggle-read-only: Misc Buffer. +* top-level <1>: Quitting. +* top-level: Recursive Edit. +* transpose-chars <1>: Transpose. +* transpose-chars: Basic. +* transpose-lines: Transpose. +* transpose-sexps <1>: Lists. +* transpose-sexps: Transpose. +* transpose-words <1>: Words. +* transpose-words: Transpose. * undo: Undo. -* Undo menu item: Edit Menu. -* variable: Variables. -* variables: Commands. -* version control: Version Control. -* version-specific directories: Startup Paths. -* vi: Emulation. -* viewing: Misc File Ops. -* Viper: Emulation. -* visiting: Visiting. -* visiting files: Visiting. -* weeks, which day they start on: Move to Beginning or End. -* Weight menu item: Options Menu. -* widening: Narrowing. -* window: Frame. -* windows: Windows. -* Windows menu: Change Window. -* word search: Word Search. -* words <1>: Case. -* words <2>: Words. -* words: Fixing Case. -* work file: Concepts of VC. -* X resources: X Resources. -* yahrzeits <1>: Sexp Diary Entries. -* yahrzeits: From Other Calendar. -* yanking: Yanking. - +* unexpand-abbrev: Expanding Abbrevs. +* universal-argument: Arguments. +* universal-coding-system-argument: Specify Coding. +* untabify: Just Spaces. +* up-list: TeX Editing. +* upcase-region: Case. +* upcase-word <1>: Case. +* upcase-word: Fixing Case. +* validate-tex-buffer: TeX Editing. +* vc-cancel-version: Editing with VC. +* vc-create-snapshot: Making Snapshots. +* vc-diff: Old Versions. +* vc-directory: VC Status. +* vc-insert-headers: Version Headers. +* vc-next-action: Editing with VC. +* vc-print-log: VC Status. +* vc-register: Editing with VC. +* vc-rename-file: Renaming and VC. +* vc-retrieve-snapshot: Making Snapshots. +* vc-revert-buffer: Editing with VC. +* vc-update-change-log: Change Logs and VC. +* vc-version-other-window: Old Versions. +* view-buffer: Misc Buffer. +* view-diary-entries: Diary Commands. +* view-emacs-news: Misc Help. +* view-file: Misc File Ops. +* view-hello-file: Mule Intro. +* view-lossage: Misc Help. +* view-register: Registers. +* visit-tags-table: Select Tags Table. +* what-cursor-position: Position Info. +* what-line: Position Info. +* what-page: Position Info. +* where-is: Name Help. +* widen: Narrowing. +* widget-backward: Changing an Option. +* widget-complete: Changing an Option. +* widget-forward: Changing an Option. +* window-configuration-to-register <1>: Split Window. +* window-configuration-to-register: RegConfig. +* word-search-backward: Word Search. +* word-search-forward: Word Search. +* write-abbrev-file: Saving Abbrevs. +* write-file: Saving. +* x-copy-primary-selection: X Selection Commands. +* x-create-frame: X Resources. +* x-delete-primary-selection: X Selection Commands. +* x-insert-selection: X Selection Commands. +* x-kill-primary-selection: X Selection Commands. +* x-mouse-kill: X Selection Commands. +* x-own-secondary-selection: X Selection Commands. +* x-own-selection: X Selection Commands. +* x-set-point-and-insert-selection: X Selection Commands. +* xemacs-local-faq: Misc Help. +* Yank: Kill Ring. +* yank-pop: Earlier Kills. +* yank-rectangle: Rectangles. +* yow: Amusements. +* zap-to-char: Killing. +* zmacs-activate-region: Active Regions. +* zmacs-deactivate-region: Active Regions. diff --git a/info/xemacs.info-4 b/info/xemacs.info-4 index 4e46b44..d822f79 100644 --- a/info/xemacs.info-4 +++ b/info/xemacs.info-4 @@ -529,49 +529,75 @@ File: xemacs.info, Node: Help, Next: Mark, Prev: M-x, Up: Top Help **** - Emacs provides extensive help features which revolve around a single + XEmacs provides extensive help features accessible through a single character, `C-h'. `C-h' is a prefix key that is used only for -documentation-printing commands. The characters you can type after -`C-h' are called "help options". One help option is `C-h'; you use it -to ask for help about using `C-h'. +documentation-printing commands. The characters that you can type after +`C-h' are called "help options". One help option is `C-h'; that is how +you ask for help about using `C-h'. To cancel, type `C-g'. The +function key is equivalent to `C-h'. - `C-h C-h' prints a list of the possible help options, and then asks -you to type the desired option. It prompts with the string: + `C-h C-h' (`help-for-help') displays a list of the possible help +options, and then asks you to type the desired option. It prompts with +the string: - A, B, C, F, I, K, L, M, N, S, T, V, W, C-c, C-d, C-n, C-w or C-h for more help: + A B C F I K L M N P S T V W C-c C-d C-f C-i C-k C-n C-w; ? for more help: You should type one of those characters. Typing a third `C-h' displays a description of what the options mean; Emacs still waits for you to type an option. To cancel, type `C-g'. + Most help buffers use a special major mode, Help mode, which lets you +scroll conveniently with and or . + +* Menu: + +* Help Summary:: Brief list of all Help commands. +* Key Help:: Asking what a key does in XEmacs. +* Name Help:: Asking about a command, variable or function name. +* Apropos:: Asking what pertains to a given topic. +* Library Keywords:: Finding Lisp libraries by keywords (topics). +* Help Mode:: Special features of Help mode and Help buffers. +* Misc Help:: Other help commands. + + +File: xemacs.info, Node: Help Summary, Next: Key Help, Prev: Help, Up: Help + +Help Summary +============ + Here is a summary of the defined help commands. -`C-h a STRING ' - Display a list of commands whose names contain STRING (`command- - apropos'). +`C-h a REGEXP ' + Display a list of functions and variables whose names match REGEXP + (`heper-apropos'). + +`C-h A REGEXP' + Show all commands whose names contain matches for REGEXP + (`command-apropos'). `C-h b' - Display a table of all key bindings currently in effect, with - local bindings of the current major mode first, followed by all - global bindings (`describe-bindings'). + Display a table of all key bindings currently in effect, with local + bindings of the current major mode first, followed by all global + bindings (`describe-bindings'). `C-h c KEY' - Print the name of the command that KEY runs (`describe-key- - briefly'). `c' is for `character'. For more extensive - information on KEY, use `C-h k'. + Print the name of the command that KEY runs + (`describe-key-briefly'). Here `c' stands for `character'. For + more extensive information on KEY, use `C-h k'. +`C-h d FUNCTION ' `C-h f FUNCTION ' Display documentation on the Lisp function named FUNCTION - (`describe-function'). Note that commands are Lisp functions, so - a command name may be used. + (`describe-function'). Since commands are Lisp functions, a + command name may be used. `C-h i' Run Info, the program for browsing documentation files (`info'). - The complete Emacs manual is available online in Info. + The complete XEmacs manual is available online in Info. `C-h k KEY' - Display name and documentation of the command KEY runs + Display the name and documentation of the command that KEY runs (`describe-key'). `C-h l' @@ -582,41 +608,65 @@ Emacs still waits for you to type an option. To cancel, type `C-g'. Display documentation of the current major mode (`describe-mode'). `C-h n' - Display documentation of Emacs changes, most recent first +`C-h C-n' + Display documentation of XEmacs changes, most recent first (`view-emacs-news'). `C-h p' + Find packages by topic keyword (`finder-by-keyword'). + +`C-h C-p' Display a table of all mouse bindings currently in effect now, with local bindings of the current major mode first, followed by all global bindings (`describe-pointer'). `C-h s' Display current contents of the syntax table, plus an explanation - of what they mean (`describe-syntax'). + of what they mean (`describe-syntax'). *Note Syntax::. `C-h t' - Display the Emacs tutorial (`help-with-tutorial'). + Enter the XEmacs interactive tutorial (`help-with-tutorial'). `C-h v VAR ' - Display the documentation of the Lisp variable VAR (`describe- - variable'). + Display the documentation of the Lisp variable VAR + (`describe-variable'). `C-h w COMMAND ' Print which keys run the command named COMMAND (`where-is'). -`M-x apropos REGEXP' - Show all symbols whose names contain matches for REGEXP. +`C-h B ' + Display info on how to deal with Beta versions of XEmacs + (`describe-beta'). + +`C-h C GROUP ' + Select customization buffer for GROUP (`customize'). + +`C-h F ' + View the local copy of the XEmacs FAQ (`xemacs-local-faq'). + +`C-h C-i FILE ' + Read Info file FILE with Info browser (`Info-query'). + +`C-h C-c COMMAND ' + Look up an Emacs command COMMAND in the Emacs manual in the Info + system (`Info-goto-emacs-command-node'). + +`C-h C-f FUNCTION ' + Look up an Emacs Lisp function FUNCTION in the Elisp manual in the + Info system (`Info-elisp-ref'). + + +File: xemacs.info, Node: Key Help, Next: Name Help, Prev: Help Summary, Up: Help Documentation for a Key ======================= The most basic `C-h' options are `C-h c' (`describe-key-briefly') -and `C-h k' -(`describe-key'). `C-h c KEY' prints the name of the command that KEY -is bound to in the echo area. For example, `C-h c C-f' prints -`forward-char'. Since command names are chosen to describe what the -command does, using this option is a good way to get a somewhat cryptic -description of what KEY does. +and `C-h k' (`describe-key'). `C-h c KEY' prints in the echo area the +name of the command that KEY is bound to. For example, `C-h c C-f' +prints `forward-char'. Since command names are chosen to describe what +the commands do, this is a good way to get a very brief description of +what KEY does. `C-h k KEY' is similar to `C-h c' but gives more information. It displays the documentation string of the function KEY is bound to as @@ -624,6 +674,12 @@ well as its name. KEY is a string or vector of events. When called interactively, KEY may also be a menu selection. This information does not usually fit into the echo area, so a window is used for the display. + `C-h c' and `C-h k' work for any sort of key sequences, including +function keys and mouse events. + + +File: xemacs.info, Node: Name Help, Next: Apropos, Prev: Key Help, Up: Help + Help by Command or Variable Name ================================ @@ -641,30 +697,31 @@ key, that is, a command you would normally call using `M-x'. If the variable `describe-function-show-arglist' is `t', `describe-function' shows its arglist if the FUNCTION is not an autoload function. - `C-h f' is also useful for Lisp functions you are planning to use in -a Lisp program. For example, if you have just written the code -`(make-vector len)' and want to make sure you are using `make-vector' -properly, type `C-h f make-vector '. Because `C-h f' allows all -function names, not just command names, you may find that some of your -favorite abbreviations that work in `M-x' don't work in `C-h f'. An -abbreviation may be unique among command names, yet fail to be unique -when other function names are allowed. - - If you type , leaving the minibuffer empty, `C-h f' by default -describes the function called by the innermost Lisp expression in the -buffer around point, provided that that is a valid, defined Lisp -function name. For example, if point is located following the text -`(make-vector (car x)', the innermost list containing point is the one -starting with `(make-vector', so the default is to describe the -function `make-vector'. + `C-h f' is also useful for Lisp functions that you are planning to +use in a Lisp program. For example, if you have just written the +expression `(make-vector len)' and want to make sure you are using +`make-vector' properly, type `C-h f make-vector '. Because `C-h +f' allows all function names, not just command names, you may find that +some of your favorite abbreviations that work in `M-x' don't work in +`C-h f'. An abbreviation may be unique among command names, yet fail +to be unique when other function names are allowed. + + The function name for `C-h f' to describe has a default which is +used if you type leaving the minibuffer empty. The default is +the function called by the innermost Lisp expression in the buffer +around point, _provided_ that is a valid, defined Lisp function name. +For example, if point is located following the text `(make-vector (car +x)', the innermost list containing point is the one that starts with +`(make-vector', so the default is to describe the function +`make-vector'. `C-h f' is often useful just to verify that you have the right -spelling for the function name. If `C-h f' mentions a default in the -prompt, you have typed the name of a defined Lisp function. If that is -what you wanted to know, just type `C-g' to cancel the `C-h f' command -and continue editing. +spelling for the function name. If `C-h f' mentions a name from the +buffer as the default, that name must be defined as a Lisp function. If +that is all you want to know, just type `C-g' to cancel the `C-h f' +command, then go on editing. - `C-h w COMMAND ' (`where-s') tells you what keys are bound to + `C-h w COMMAND ' (`where-is') tells you what keys are bound to COMMAND. It prints a list of the keys in the echo area. Alternatively, it informs you that a command is not bound to any keys, which implies that you must use `M-x' to call the command. @@ -674,86 +731,201 @@ variables instead of Lisp functions. Its default is the Lisp symbol around or before point, if that is the name of a known Lisp variable. *Note Variables::. + +File: xemacs.info, Node: Apropos, Next: Library Keywords, Prev: Name Help, Up: Help + Apropos ======= -`C-h a' +`C-h A' Show only symbols that are names of commands (`command-apropos'). `M-x apropos REGEXP' Show all symbols whose names comtain matches for REGEXP. - It is possible to ask a question like, "What are the commands for -working with files?" To do this, type `C-h a file ', which -displays a list of all command names that contain `file', such as -`copy-file', `find-file', and so on. With each command name a brief -description of its use and information on the keys you can use to -invoke it is displayed. For example, you would be informed that you -can invoke `find-file' by typing `C-x C-f'. The `a' in `C-h a' stands -for `Apropos'; `C-h a' runs the Lisp function `command-apropos'. - - Because `C-h a' looks only for functions whose names contain the + A more sophisticated sort of question to ask is, "What are the +commands for working with files?" To ask this question, type `C-h a +file ', which displays a list of all command names that contain +`file', including `copy-file', `find-file', and so on. With each +command name appears a brief description of how to use the command, and +what keys you can currently invoke it with. For example, it would say +that you can invoke `find-file' by typing `C-x C-f'. The `A' in `C-h +A' stands for `Apropos'; `C-h A' runs the command `command-apropos'. +This command normally checks only commands (interactive functions); if +you specify a prefix argument, it checks noninteractive functions as +well. + + Because `C-h A' looks only for functions whose names contain the string you specify, you must use ingenuity in choosing the string. If you are looking for commands for killing backwards and `C-h a -kill-backwards ' doesn't reveal any commands, don't give up. Try -just `kill', or just `backwards', or just `back'. Be persistent. -Pretend you are playing Adventure. Also note that you can use a -regular expression as the argument (*note Regexps::). +kill-backwards ' doesn't reveal any, don't give up. Try just +`kill', or just `backwards', or just `back'. Be persistent. Pretend +you are playing Adventure. Also note that you can use a regular +expression as the argument, for more flexibility (*note Regexps::). Here is a set of arguments to give to `C-h a' that covers many -classes of Emacs commands, since there are strong conventions for naming -standard Emacs commands. By giving you a feeling for the naming -conventions, this set of arguments can also help you develop a -technique for picking `apropos' strings. +classes of XEmacs commands, since there are strong conventions for +naming the standard XEmacs commands. By giving you a feel for the +naming conventions, this set should also serve to aid you in developing +a technique for picking `apropos' strings. char, line, word, sentence, paragraph, region, page, sexp, list, - defun, buffer, frame, window, file, dir, register, mode, - beginning, end, forward, backward, next, previous, up, down, - search, goto, kill, delete, mark, insert, yank, fill, indent, case, - change, set, what, list, find, view, describe. + defun, rect, buffer, frame, window, face, file, dir, register, + mode, beginning, end, forward, backward, next, previous, up, down, + search, goto, kill, delete, mark, insert, yank, fill, indent, + case, change, set, what, list, find, view, describe, default. To list all Lisp symbols that contain a match for a regexp, not just the ones that are defined as commands, use the command `M-x apropos' -instead of `C-h a'. +instead of `C-h A'. This command does not check key bindings by +default; specify a numeric argument if you want it to check them. + + The `apropos-documentation' command is like `apropos' except that it +searches documentation strings for matches for the specified regular +expression. + + The `apropos-value' command is like `apropos' except that it +searches symbols' values for matches for the specified regular +expression. This command does not check function definitions or +property lists by default; specify a numeric argument if you want it to +check them. + + If the variable `apropos-do-all' is non-`nil', the commands above +all behave as if they had been given a prefix argument. + + If you want more information about a function definition, variable or +symbol property listed in the Apropos buffer, you can click on it with +`Mouse-2' or move there and type . + + +File: xemacs.info, Node: Library Keywords, Next: Help Mode, Prev: Apropos, Up: Help + +Keyword Search for Lisp Libraries +================================= + + The `C-h p' command lets you search the standard Emacs Lisp +libraries by topic keywords. Here is a partial list of keywords you can +use: + + abbrev abbreviation handling, typing shortcuts, macros + bib code related to the `bib' bibliography processor + c C, C++, and Objective-C language support + calendar calendar and time management support + comm communications, networking, remote access to files + data support for editing files of data + docs support for Emacs documentation + dumped files preloaded into Emacs + emulations emulations of other editors + extensions Emacs Lisp language extensions + faces support for multiple fonts + frames support for Emacs frames and window systems + games games, jokes and amusements + hardware support for interfacing with exotic hardware + help support for on-line help systems + hypermedia support for links between text or other media types + i18n internationalization and alternate character-set support + internal code for Emacs internals, build process, defaults + languages specialized modes for editing programming languages + lisp Lisp support, including Emacs Lisp + local code local to your site + maint maintenance aids for the Emacs development group + mail modes for electronic-mail handling + matching various sorts of searching and matching + mouse mouse support + mule multi-language extensions + news support for netnews reading and posting + oop support for object-oriented programming + outlines support for hierarchical outlining + processes process, subshell, compilation, and job control support + terminals support for terminal types + tex code related to the TeX formatter + tools programming tools + unix front-ends/assistants for, or emulators of, UNIX features + vms support code for vms + wp word processing + + +File: xemacs.info, Node: Help Mode, Next: Misc Help, Prev: Library Keywords, Up: Help + +Help Mode Commands +================== + + Help buffers provide the commands of View mode (*note Misc File +Ops::), plus a few special commands of their own. + +`' + Scroll forward. + +`' +`' + Scroll backward. + + When a command name (*note Running Commands by Name: M-x.) or +variable name (*note Variables::) appears in the documentation, it +normally appears inside paired single-quotes. + + +File: xemacs.info, Node: Misc Help, Prev: Help Mode, Up: Help Other Help Commands =================== `C-h i' (`info') runs the Info program, which is used for browsing -through structured documentation files. The entire Emacs manual is +through structured documentation files. The entire XEmacs manual is available within Info. Eventually all the documentation of the GNU system will be available. Type `h' after entering Info to run a tutorial on using Info. + If you specify a numeric argument, `C-h i' prompts for the name of a +documentation file. This way, you can browse a file which doesn't have +an entry in the top-level Info menu. It is also handy when you need to +get to the documentation quickly, and you know the exact name of the +file. + + There are two special help commands for accessing XEmacs +documentation through Info. `C-h C-f FUNCTION ' enters Info and +goes straight to the documentation of the XEmacs function FUNCTION. +`C-h C-k KEY' enters Info and goes straight to the documentation of the +key KEY. These two keys run the commands `Info-elisp-ref' and +`Info-goto-emacs-key-command-node'. + If something surprising happens, and you are not sure what commands you typed, use `C-h l' (`view-lossage'). `C-h l' prints the last 100 -command characters you typed. If you see commands you don't know, use -`C-h c' to find out what they do. +command characters you typed in. If you see commands that you don't +know, you can use `C-h c' to find out what they do. - Emacs has several major modes. Each mode redefines a few keys and + XEmacs has several major modes. Each mode redefines a few keys and makes a few other changes in how editing works. `C-h m' (`describe-mode') prints documentation on the current major mode, which normally describes all the commands that are changed in this mode. `C-h b' (`describe-bindings') and `C-h s' (`describe-syntax') -present information about the current Emacs mode that is not covered by -`C-h m'. `C-h b' displays a list of all key bindings currently in -effect, with the local bindings of the current major mode first, +present information about the current XEmacs mode that is not covered +by `C-h m'. `C-h b' displays a list of all the key bindings currently +in effect, with the local bindings of the current major mode first, followed by the global bindings (*note Key Bindings::). `C-h s' displays the contents of the syntax table with explanations of each character's syntax (*note Syntax::). + You can get a similar list for a particular prefix key by typing +`C-h' after the prefix key. (There are a few prefix keys for which +this does not work--those that provide their own bindings for `C-h'. +One of these is , because ` C-h' is actually `C-M-h', which +marks a defun.) + The other `C-h' options display various files of useful information. -`C-h C-w' (`describe-no-warranty') displays details on the complete -absence of warranty for XEmacs. `C-h n' (`view-emacs-news') displays -the file `emacs/etc/NEWS', which contains documentation on Emacs -changes arranged chronologically. `C-h t' (`help-with-tutorial') -displays the learn-by-doing Emacs tutorial. `C-h C-c' -(`describe-copying') displays the file `emacs/etc/COPYING', which tells -you the conditions you must obey in distributing copies of Emacs. `C-h -C-d' (`describe-distribution') displays another file named -`emacs/etc/DISTRIB', which tells you how you can order a copy of the -latest version of Emacs. +`C-h C-w' (`describe-no-warranty') displays the full details on the +complete absence of warranty for XEmacs. `C-h n' (`view-emacs-news') +displays the file `xemacs/etc/NEWS', which contains documentation on +XEmacs changes arranged chronologically. `C-h F' (`xemacs-local-faq') +displays local version of the XEmacs +frequentliy-answered-questions-list. `C-h t' (`help-with-tutorial') +displays the learn-by-doing XEmacs tutorial. `C-h C-c' +(`describe-copying') displays the file `xemacs/etc/COPYING', which +tells you the conditions you must obey in distributing copies of +XEmacs. `C-h C-d' (`describe-distribution') displays another file named +`xemacs/etc/DISTRIB', which tells you how you can order a copy of the +latest version of XEmacs.  File: xemacs.info, Node: Mark, Next: Mouse Selection, Prev: Help, Up: Top @@ -1028,115 +1200,3 @@ can paste it into other X applications and use the options from the Edit pull-down menu on it. Since it is also the Emacs region, you can use Emacs region commands on it. - -File: xemacs.info, Node: Additional Mouse Operations, Next: Killing, Prev: Mouse Selection, Up: Top - -Additional Mouse Operations -=========================== - - XEmacs also provides the following mouse functions. Most of these -are not bound to mouse gestures by default, but they are provided for -your customization pleasure. For example, if you wanted `shift-left' -(that is, holding down the key and clicking the left mouse -button) to delete the character at which you are pointing, then you -could do this: - - (global-set-key '(shift button1) 'mouse-del-char) - -`mouse-del-char' - Delete the character pointed to by the mouse. - -`mouse-delete-window' - Delete the Emacs window that the mouse is on. - -`mouse-keep-one-window' - Select the Emacs window that the mouse is on, then delete all other - windows on this frame. - -`mouse-kill-line' - Kill the line pointed to by the mouse. - -`mouse-line-length' - Print the length of the line indicated by the pointer. - -`mouse-scroll' - Scroll point to the mouse position. - -`mouse-select' - Select the Emacs window the mouse is on. - -`mouse-select-and-split' - Select the Emacs window mouse is on, then split it vertically in - half. - -`mouse-set-mark' - Select the Emacs window the mouse is on and set the mark at the - mouse position. Display the cursor at that position for a second. - -`mouse-set-point' - Select the Emacs window that the mouse is on and move point to the - mouse position. - -`mouse-track' - Make a selection with the mouse. This is the default binding of - the left mouse button (). - -`mouse-track-adjust' - Extend the existing selection. This is the default binding of - . - -`mouse-track-and-copy-to-cutbuffer' - Make a selection like `mouse-track', but also copy it to the cut - buffer. - -`mouse-track-delete-and-insert' - Make a selection with the mouse and insert it at point. This is - the default binding of . - -`mouse-track-insert' - Make a selection with the mouse and insert it at point. This is - the default binding of . - -`mouse-window-to-region' - Narrow a window to the region between the cursor and the mouse - pointer. - - The `M-x mouse-track' command should be bound to a mouse button. If -you click-and-drag, the selection is set to the region between the -point of the initial click and the point at which you release the -button. These positions do not need to be ordered. - - If you click-and-release without moving the mouse, the point is -moved, and the selection is disowned (there will be no selection -owner.) The mark will be set to the previous position of point. - - If you double-click, the selection will extend by symbols instead of -by characters. If you triple-click, the selection will extend by lines. - - If you drag the mouse off the top or bottom of the window, you can -select pieces of text that are larger than the visible part of the -buffer; the buffer will scroll as necessary. - - The selected text becomes the current X selection, and is also -copied to the top of the kill ring. Point will be left at the position -at which you released the button and the mark will be left at the -initial click position. Bind a mouse click to -`mouse-track-and-copy-to-cutbuffer' to copy selections to the cut -buffer. (See also the `mouse-track-adjust' command, on -`Shift-button1'.) - - The `M-x mouse-track-adjust' command should be bound to a mouse -button. The selection will be enlarged or shrunk so that the point of -the mouse click is one of its endpoints. This is only meaningful after -the `mouse-track' command () has been executed. - - The `M-x mouse-track-delete-and-insert' command is exactly the same -as the `mouse-track' command on , except that point is not -moved; the selected text is immediately inserted after being selected; -and the text of the selection is deleted. - - The `M-x mouse-track-insert' command is exactly the same as the -`mouse-track' command on , except that point is not moved; the -selected text is immediately inserted after being selected; and the -selection is immediately disowned afterwards. - diff --git a/info/xemacs.info-5 b/info/xemacs.info-5 index 0761204..22cba33 100644 --- a/info/xemacs.info-5 +++ b/info/xemacs.info-5 @@ -30,6 +30,118 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Additional Mouse Operations, Next: Killing, Prev: Mouse Selection, Up: Top + +Additional Mouse Operations +=========================== + + XEmacs also provides the following mouse functions. Most of these +are not bound to mouse gestures by default, but they are provided for +your customization pleasure. For example, if you wanted `shift-left' +(that is, holding down the key and clicking the left mouse +button) to delete the character at which you are pointing, then you +could do this: + + (global-set-key '(shift button1) 'mouse-del-char) + +`mouse-del-char' + Delete the character pointed to by the mouse. + +`mouse-delete-window' + Delete the Emacs window that the mouse is on. + +`mouse-keep-one-window' + Select the Emacs window that the mouse is on, then delete all other + windows on this frame. + +`mouse-kill-line' + Kill the line pointed to by the mouse. + +`mouse-line-length' + Print the length of the line indicated by the pointer. + +`mouse-scroll' + Scroll point to the mouse position. + +`mouse-select' + Select the Emacs window the mouse is on. + +`mouse-select-and-split' + Select the Emacs window mouse is on, then split it vertically in + half. + +`mouse-set-mark' + Select the Emacs window the mouse is on and set the mark at the + mouse position. Display the cursor at that position for a second. + +`mouse-set-point' + Select the Emacs window that the mouse is on and move point to the + mouse position. + +`mouse-track' + Make a selection with the mouse. This is the default binding of + the left mouse button (). + +`mouse-track-adjust' + Extend the existing selection. This is the default binding of + . + +`mouse-track-and-copy-to-cutbuffer' + Make a selection like `mouse-track', but also copy it to the cut + buffer. + +`mouse-track-delete-and-insert' + Make a selection with the mouse and insert it at point. This is + the default binding of . + +`mouse-track-insert' + Make a selection with the mouse and insert it at point. This is + the default binding of . + +`mouse-window-to-region' + Narrow a window to the region between the cursor and the mouse + pointer. + + The `M-x mouse-track' command should be bound to a mouse button. If +you click-and-drag, the selection is set to the region between the +point of the initial click and the point at which you release the +button. These positions do not need to be ordered. + + If you click-and-release without moving the mouse, the point is +moved, and the selection is disowned (there will be no selection +owner.) The mark will be set to the previous position of point. + + If you double-click, the selection will extend by symbols instead of +by characters. If you triple-click, the selection will extend by lines. + + If you drag the mouse off the top or bottom of the window, you can +select pieces of text that are larger than the visible part of the +buffer; the buffer will scroll as necessary. + + The selected text becomes the current X selection, and is also +copied to the top of the kill ring. Point will be left at the position +at which you released the button and the mark will be left at the +initial click position. Bind a mouse click to +`mouse-track-and-copy-to-cutbuffer' to copy selections to the cut +buffer. (See also the `mouse-track-adjust' command, on +`Shift-button1'.) + + The `M-x mouse-track-adjust' command should be bound to a mouse +button. The selection will be enlarged or shrunk so that the point of +the mouse click is one of its endpoints. This is only meaningful after +the `mouse-track' command () has been executed. + + The `M-x mouse-track-delete-and-insert' command is exactly the same +as the `mouse-track' command on , except that point is not +moved; the selected text is immediately inserted after being selected; +and the text of the selection is deleted. + + The `M-x mouse-track-insert' command is exactly the same as the +`mouse-track' command on , except that point is not moved; the +selected text is immediately inserted after being selected; and the +selection is immediately disowned afterwards. + + File: xemacs.info, Node: Killing, Next: Yanking, Prev: Additional Mouse Operations, Up: Top Deletion and Killing @@ -1131,60 +1243,3 @@ scrolling fast, regardless of `scroll-step'. To prevent this, set `scroll-conservatively' to a small value, which will have the result of overriding the redisplay preemption. - -File: xemacs.info, Node: Horizontal Scrolling, Prev: Scrolling, Up: Display - -Horizontal Scrolling -==================== - -`C-x <' - Scroll text in current window to the left (`scroll-left'). - -`C-x >' - Scroll to the right (`scroll-right'). - - The text in a window can also be scrolled horizontally. This means -that each line of text is shifted sideways in the window, and one or -more characters at the beginning of each line are not displayed at all. -When a window has been scrolled horizontally in this way, text lines -are truncated rather than continued (*note Continuation Lines::), with -a `$' appearing in the first column when there is text truncated to the -left, and in the last column when there is text truncated to the right. - - The command `C-x <' (`scroll-left') scrolls the selected window to -the left by N columns with argument N. With no argument, it scrolls by -almost the full width of the window (two columns less, to be precise). -`C-x >' (`scroll-right') scrolls similarly to the right. The window -cannot be scrolled any farther to the right once it is displaying -normally (with each line starting at the window's left margin); -attempting to do so has no effect. - - -File: xemacs.info, Node: Selective Display, Next: Display Vars, Prev: Display, Up: Display - -Selective Display -================= - - XEmacs can hide lines indented more than a certain number of columns -(you specify how many columns). This allows you to get an overview of -a part of a program. - - To hide lines, type `C-x $' (`set-selective-display') with a numeric -argument N. (*Note Arguments::, for information on giving the -argument.) Lines with at least N columns of indentation disappear from -the screen. The only indication of their presence are three dots -(`...'), which appear at the end of each visible line that is followed -by one or more invisible ones. - - The invisible lines are still present in the buffer, and most editing -commands see them as usual, so it is very easy to put point in the -middle of invisible text. When this happens, the cursor appears at the -end of the previous line, after the three dots. If point is at the end -of the visible line, before the newline that ends it, the cursor -appears before the three dots. - - The commands `C-n' and `C-p' move across the invisible lines as if -they were not there. - - To make everything visible again, type `C-x $' with no argument. - diff --git a/info/xemacs.info-6 b/info/xemacs.info-6 index 3d51fe2..37d661e 100644 --- a/info/xemacs.info-6 +++ b/info/xemacs.info-6 @@ -30,6 +30,63 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Horizontal Scrolling, Prev: Scrolling, Up: Display + +Horizontal Scrolling +==================== + +`C-x <' + Scroll text in current window to the left (`scroll-left'). + +`C-x >' + Scroll to the right (`scroll-right'). + + The text in a window can also be scrolled horizontally. This means +that each line of text is shifted sideways in the window, and one or +more characters at the beginning of each line are not displayed at all. +When a window has been scrolled horizontally in this way, text lines +are truncated rather than continued (*note Continuation Lines::), with +a `$' appearing in the first column when there is text truncated to the +left, and in the last column when there is text truncated to the right. + + The command `C-x <' (`scroll-left') scrolls the selected window to +the left by N columns with argument N. With no argument, it scrolls by +almost the full width of the window (two columns less, to be precise). +`C-x >' (`scroll-right') scrolls similarly to the right. The window +cannot be scrolled any farther to the right once it is displaying +normally (with each line starting at the window's left margin); +attempting to do so has no effect. + + +File: xemacs.info, Node: Selective Display, Next: Display Vars, Prev: Display, Up: Display + +Selective Display +================= + + XEmacs can hide lines indented more than a certain number of columns +(you specify how many columns). This allows you to get an overview of +a part of a program. + + To hide lines, type `C-x $' (`set-selective-display') with a numeric +argument N. (*Note Arguments::, for information on giving the +argument.) Lines with at least N columns of indentation disappear from +the screen. The only indication of their presence are three dots +(`...'), which appear at the end of each visible line that is followed +by one or more invisible ones. + + The invisible lines are still present in the buffer, and most editing +commands see them as usual, so it is very easy to put point in the +middle of invisible text. When this happens, the cursor appears at the +end of the previous line, after the three dots. If point is at the end +of the visible line, before the newline that ends it, the cursor +appears before the three dots. + + The commands `C-n' and `C-p' move across the invisible lines as if +they were not there. + + To make everything visible again, type `C-x $' with no argument. + + File: xemacs.info, Node: Display Vars, Prev: Selective Display, Up: Display Variables Controlling Display @@ -1090,85 +1147,3 @@ rename, and append to files, and operate on file directories. the files in it. * Misc File Ops:: Other things you can do on files. - -File: xemacs.info, Node: File Names, Next: Visiting, Prev: Files, Up: Files - -File Names -========== - - Most Emacs commands that operate on a file require you to specify the -file name. (Saving and reverting are exceptions; the buffer knows which -file name to use for them.) File names are specified in the minibuffer -(*note Minibuffer::). "Completion" is available, to make it easier to -specify long file names. *Note Completion::. - - There is always a "default file name" which is used if you enter an -empty argument by typing just . Normally the default file name is -the name of the file visited in the current buffer; this makes it easy -to operate on that file with any of the Emacs file commands. - - Each buffer has a default directory, normally the same as the -directory of the file visited in that buffer. When Emacs reads a file -name, the default directory is used if you do not specify a directory. -If you specify a directory in a relative fashion, with a name that does -not start with a slash, it is interpreted with respect to the default -directory. The default directory of the current buffer is kept in the -variable `default-directory', which has a separate value in every -buffer. The value of the variable should end with a slash. - - For example, if the default file name is `/u/rms/gnu/gnu.tasks' then -the default directory is `/u/rms/gnu/'. If you type just `foo', which -does not specify a directory, it is short for `/u/rms/gnu/foo'. -`../.login' would stand for `/u/rms/.login'. `new/foo' would stand for -the filename `/u/rms/gnu/new/foo'. - - The variable `default-directory-alist' takes an alist of major modes -and their opinions on `default-directory' as a Lisp expression to -evaluate. A resulting value of `nil' is ignored in favor of -`default-directory'. - - You can create a new directory with the function `make-directory', -which takes as an argument a file name string. The current directory is -displayed in the minibuffer when the function is called; you can delete -the old directory name and supply a new directory name. For example, if -the current directory is `/u/rms/gnu', you can delete `gnu' and type -`oryx' and to create `/u/rms/oryx'. Removing a directory is -similar to creating one. To remove a directory, use -`remove-directory'; it takes one argument, a file name string. - - The command `M-x pwd' prints the current buffer's default directory, -and the command `M-x cd' sets it (to a value read using the -minibuffer). A buffer's default directory changes only when the `cd' -command is used. A file-visiting buffer's default directory is -initialized to the directory of the file that is visited there. If a -buffer is created with `C-x b', its default directory is copied from -that of the buffer that was current at the time. - - The default directory name actually appears in the minibuffer when -the minibuffer becomes active to read a file name. This serves two -purposes: it shows you what the default is, so that you can type a -relative file name and know with certainty what it will mean, and it -allows you to edit the default to specify a different directory. To -inhibit the insertion of the default directory, set the variable -`insert-default-directory' to `nil'. - - Note that it is legitimate to type an absolute file name after you -enter the minibuffer, ignoring the presence of the default directory -name. The final minibuffer contents may look invalid, but that is not -so. *Note Minibuffer File::. - - `$' in a file name is used to substitute environment variables. For -example, if you have used the shell command `setenv FOO rms/hacks' to -set up an environment variable named `FOO', then you can use -`/u/$FOO/test.c' or `/u/${FOO}/test.c' as an abbreviation for -`/u/rms/hacks/test.c'. The environment variable name consists of all -the alphanumeric characters after the `$'; alternatively, it may be -enclosed in braces after the `$'. Note that the `setenv' command -affects Emacs only if done before Emacs is started. - - To access a file with `$' in its name, type `$$'. This pair is -converted to a single `$' at the same time variable substitution is -performed for single `$'. The Lisp function that performs the -substitution is called `substitute-in-file-name'. The substitution is -performed only on filenames read as such using the minibuffer. - diff --git a/info/xemacs.info-7 b/info/xemacs.info-7 index 6af4b4f..8bda945 100644 --- a/info/xemacs.info-7 +++ b/info/xemacs.info-7 @@ -30,6 +30,88 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: File Names, Next: Visiting, Prev: Files, Up: Files + +File Names +========== + + Most Emacs commands that operate on a file require you to specify the +file name. (Saving and reverting are exceptions; the buffer knows which +file name to use for them.) File names are specified in the minibuffer +(*note Minibuffer::). "Completion" is available, to make it easier to +specify long file names. *Note Completion::. + + There is always a "default file name" which is used if you enter an +empty argument by typing just . Normally the default file name is +the name of the file visited in the current buffer; this makes it easy +to operate on that file with any of the Emacs file commands. + + Each buffer has a default directory, normally the same as the +directory of the file visited in that buffer. When Emacs reads a file +name, the default directory is used if you do not specify a directory. +If you specify a directory in a relative fashion, with a name that does +not start with a slash, it is interpreted with respect to the default +directory. The default directory of the current buffer is kept in the +variable `default-directory', which has a separate value in every +buffer. The value of the variable should end with a slash. + + For example, if the default file name is `/u/rms/gnu/gnu.tasks' then +the default directory is `/u/rms/gnu/'. If you type just `foo', which +does not specify a directory, it is short for `/u/rms/gnu/foo'. +`../.login' would stand for `/u/rms/.login'. `new/foo' would stand for +the filename `/u/rms/gnu/new/foo'. + + The variable `default-directory-alist' takes an alist of major modes +and their opinions on `default-directory' as a Lisp expression to +evaluate. A resulting value of `nil' is ignored in favor of +`default-directory'. + + You can create a new directory with the function `make-directory', +which takes as an argument a file name string. The current directory is +displayed in the minibuffer when the function is called; you can delete +the old directory name and supply a new directory name. For example, if +the current directory is `/u/rms/gnu', you can delete `gnu' and type +`oryx' and to create `/u/rms/oryx'. Removing a directory is +similar to creating one. To remove a directory, use +`remove-directory'; it takes one argument, a file name string. + + The command `M-x pwd' prints the current buffer's default directory, +and the command `M-x cd' sets it (to a value read using the +minibuffer). A buffer's default directory changes only when the `cd' +command is used. A file-visiting buffer's default directory is +initialized to the directory of the file that is visited there. If a +buffer is created with `C-x b', its default directory is copied from +that of the buffer that was current at the time. + + The default directory name actually appears in the minibuffer when +the minibuffer becomes active to read a file name. This serves two +purposes: it shows you what the default is, so that you can type a +relative file name and know with certainty what it will mean, and it +allows you to edit the default to specify a different directory. To +inhibit the insertion of the default directory, set the variable +`insert-default-directory' to `nil'. + + Note that it is legitimate to type an absolute file name after you +enter the minibuffer, ignoring the presence of the default directory +name. The final minibuffer contents may look invalid, but that is not +so. *Note Minibuffer File::. + + `$' in a file name is used to substitute environment variables. For +example, if you have used the shell command `setenv FOO rms/hacks' to +set up an environment variable named `FOO', then you can use +`/u/$FOO/test.c' or `/u/${FOO}/test.c' as an abbreviation for +`/u/rms/hacks/test.c'. The environment variable name consists of all +the alphanumeric characters after the `$'; alternatively, it may be +enclosed in braces after the `$'. Note that the `setenv' command +affects Emacs only if done before Emacs is started. + + To access a file with `$' in its name, type `$$'. This pair is +converted to a single `$' at the same time variable substitution is +performed for single `$'. The Lisp function that performs the +substitution is called `substitute-in-file-name'. The substitution is +performed only on filenames read as such using the minibuffer. + + File: xemacs.info, Node: Visiting, Next: Saving, Prev: File Names, Up: Files Visiting Files @@ -360,10 +442,9 @@ keep, each time a new backup is made. The values are used just after a new backup version is made; that newly made backup is included in the count in `kept-new-versions'. By default, both variables are 2. - If `trim-versions-without-asking' is non-`nil', excess middle -versions are deleted without notification. If it is `nil', the -default, you are asked whether the excess middle versions should really -be deleted. + If `delete-old-versions' is non-`nil', excess middle versions are +deleted without notification. If it is `nil', the default, you are +asked whether the excess middle versions should really be deleted. You can also use Dired's `.' (Period) command to delete old versions. *Note Dired::. @@ -992,118 +1073,3 @@ For example, if you merely fix some misspellings in comments, you can log the change with an entry beginning with `#' to avoid putting such trivia into `ChangeLog'. - -File: xemacs.info, Node: Old Versions, Next: VC Status, Prev: Change Logs and VC, Up: Version Control - -Examining And Comparing Old Versions ------------------------------------- - -`C-x v ~ VERSION ' - Examine version VERSION of the visited file, in a buffer of its - own (`vc-version-other-window'). - -`C-x v =' - Compare the current buffer contents with the latest checked-in - version of the file. - -`C-u C-x v = FILE OLDVERS NEWVERS ' - Compare the specified two versions of FILE. - - You can examine any version of a file by first visiting it, and then -using `C-x v ~ VERSION ' (`vc-version-other-window'). This puts -the text of version VERSION in a file named `FILENAME.~VERSION~', then -visits it in a separate window. - - To compare two versions of a file, use the command `C-x v =' -(`vc-diff'). - - Plain `C-x v =' compares the current buffer contents (saving them in -the file if necessary) with the last checked-in version of the file. -With a prefix argument, `C-x v =' reads a file name and two version -numbers, then compares those versions of the specified file. - - If you supply a directory name instead of the name of a work file, -this command compares the two specified versions of all registered files -in that directory and its subdirectories. You can also specify a -snapshot name (*note Snapshots::) instead of one or both version -numbers. - - You can specify a checked-in version by its number; you can specify -the most recent checked-in version with an empty version number. - - This command works by running the `vcdiff' utility, getting the -options from the variable `diff-switches'. It displays the output in a -special buffer in another window. Unlike the `M-x diff' command, `C-x -v =' does not try to find the changes in the old and new versions. -This is because one or both versions normally do not exist as files. -They exist only in the records of the master file. *Note Comparing -Files::, for more information about `M-x diff'. - - -File: xemacs.info, Node: VC Status, Next: Renaming and VC, Prev: Old Versions, Up: Version Control - -VC Status Commands ------------------- - - To view the detailed version control status and history of a file, -type `C-x v l' (`vc-print-log'). It displays the history of changes to -the current file, including the text of the log entries. The output -appears in a separate window. - - When you are working on a large program, it's often useful to find -all the files that are currently locked, or all the files maintained in -version control at all. You can use `C-x v d' (`vc-directory') to show -all the locked files in or beneath the current directory. This -includes all files that are locked by any user. `C-u C-x v d' lists -all files in or beneath the current directory that are maintained with -version control. - - The list of files is displayed as a buffer that uses an augmented -Dired mode. The names of the users locking various files are shown (in -parentheses) in place of the owner and group. All the normal Dired -commands work in this buffer. Most interactive VC commands work also, -and apply to the file name on the current line. - - The `C-x v v' command (`vc-next-action'), when used in the augmented -Dired buffer, operates on all the marked files (or the file on the -current line). If it operates on more than one file, it handles each -file according to its current state; thus, it may check out one file -and check in another (because it is already checked out). If it has to -check in any files, it reads a single log entry, then uses that text -for all the files being checked in. This can be convenient for -registering or checking in several files at once, as part of the same -change. - - -File: xemacs.info, Node: Renaming and VC, Next: Snapshots, Prev: VC Status, Up: Version Control - -Renaming VC Work Files and Master Files ---------------------------------------- - - When you rename a registered file, you must also rename its master -file correspondingly to get proper results. Use `vc-rename-file' to -rename the source file as you specify, and rename its master file -accordingly. It also updates any snapshots (*note Snapshots::) that -mention the file, so that they use the new name; despite this, the -snapshot thus modified may not completely work (*note Snapshot -Caveats::). - - You cannot use `vc-rename-file' on a file that is locked by someone -else. - - -File: xemacs.info, Node: Snapshots, Next: Version Headers, Prev: Renaming and VC, Up: Version Control - -Snapshots ---------- - - A "snapshot" is a named set of file versions (one for each -registered file) that you can treat as a unit. One important kind of -snapshot is a "release", a (theoretically) stable version of the system -that is ready for distribution to users. - -* Menu: - -* Making Snapshots:: The snapshot facilities. -* Snapshot Caveats:: Things to be careful of when using snapshots. - diff --git a/info/xemacs.info-8 b/info/xemacs.info-8 index d409fd1..363f8d6 100644 --- a/info/xemacs.info-8 +++ b/info/xemacs.info-8 @@ -30,6 +30,121 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Old Versions, Next: VC Status, Prev: Change Logs and VC, Up: Version Control + +Examining And Comparing Old Versions +------------------------------------ + +`C-x v ~ VERSION ' + Examine version VERSION of the visited file, in a buffer of its + own (`vc-version-other-window'). + +`C-x v =' + Compare the current buffer contents with the latest checked-in + version of the file. + +`C-u C-x v = FILE OLDVERS NEWVERS ' + Compare the specified two versions of FILE. + + You can examine any version of a file by first visiting it, and then +using `C-x v ~ VERSION ' (`vc-version-other-window'). This puts +the text of version VERSION in a file named `FILENAME.~VERSION~', then +visits it in a separate window. + + To compare two versions of a file, use the command `C-x v =' +(`vc-diff'). + + Plain `C-x v =' compares the current buffer contents (saving them in +the file if necessary) with the last checked-in version of the file. +With a prefix argument, `C-x v =' reads a file name and two version +numbers, then compares those versions of the specified file. + + If you supply a directory name instead of the name of a work file, +this command compares the two specified versions of all registered files +in that directory and its subdirectories. You can also specify a +snapshot name (*note Snapshots::) instead of one or both version +numbers. + + You can specify a checked-in version by its number; you can specify +the most recent checked-in version with an empty version number. + + This command works by running the `vcdiff' utility, getting the +options from the variable `diff-switches'. It displays the output in a +special buffer in another window. Unlike the `M-x diff' command, `C-x +v =' does not try to find the changes in the old and new versions. +This is because one or both versions normally do not exist as files. +They exist only in the records of the master file. *Note Comparing +Files::, for more information about `M-x diff'. + + +File: xemacs.info, Node: VC Status, Next: Renaming and VC, Prev: Old Versions, Up: Version Control + +VC Status Commands +------------------ + + To view the detailed version control status and history of a file, +type `C-x v l' (`vc-print-log'). It displays the history of changes to +the current file, including the text of the log entries. The output +appears in a separate window. + + When you are working on a large program, it's often useful to find +all the files that are currently locked, or all the files maintained in +version control at all. You can use `C-x v d' (`vc-directory') to show +all the locked files in or beneath the current directory. This +includes all files that are locked by any user. `C-u C-x v d' lists +all files in or beneath the current directory that are maintained with +version control. + + The list of files is displayed as a buffer that uses an augmented +Dired mode. The names of the users locking various files are shown (in +parentheses) in place of the owner and group. All the normal Dired +commands work in this buffer. Most interactive VC commands work also, +and apply to the file name on the current line. + + The `C-x v v' command (`vc-next-action'), when used in the augmented +Dired buffer, operates on all the marked files (or the file on the +current line). If it operates on more than one file, it handles each +file according to its current state; thus, it may check out one file +and check in another (because it is already checked out). If it has to +check in any files, it reads a single log entry, then uses that text +for all the files being checked in. This can be convenient for +registering or checking in several files at once, as part of the same +change. + + +File: xemacs.info, Node: Renaming and VC, Next: Snapshots, Prev: VC Status, Up: Version Control + +Renaming VC Work Files and Master Files +--------------------------------------- + + When you rename a registered file, you must also rename its master +file correspondingly to get proper results. Use `vc-rename-file' to +rename the source file as you specify, and rename its master file +accordingly. It also updates any snapshots (*note Snapshots::) that +mention the file, so that they use the new name; despite this, the +snapshot thus modified may not completely work (*note Snapshot +Caveats::). + + You cannot use `vc-rename-file' on a file that is locked by someone +else. + + +File: xemacs.info, Node: Snapshots, Next: Version Headers, Prev: Renaming and VC, Up: Version Control + +Snapshots +--------- + + A "snapshot" is a named set of file versions (one for each +registered file) that you can treat as a unit. One important kind of +snapshot is a "release", a (theoretically) stable version of the system +that is ready for distribution to users. + +* Menu: + +* Making Snapshots:: The snapshot facilities. +* Snapshot Caveats:: Things to be careful of when using snapshots. + + File: xemacs.info, Node: Making Snapshots, Next: Snapshot Caveats, Prev: Snapshots, Up: Snapshots Making and Using Snapshots @@ -1086,69 +1201,3 @@ Enhancement to GNU Emacs"). * Recognize Coding:: How XEmacs figures out which conversion to use. * Specify Coding:: Various ways to choose which conversion to use. - -File: xemacs.info, Node: Mule Intro, Next: Language Environments, Prev: Mule, Up: Mule - -Introduction to world scripts -============================= - - The users of these scripts have established many more-or-less -standard coding systems for storing files. XEmacs translates between -the internal character encoding and various other coding systems when -reading and writing files, when exchanging data with subprocesses, and -(in some cases) in the `C-q' command (see below). - - The command `C-h h' (`view-hello-file') displays the file -`etc/HELLO', which shows how to say "hello" in many languages. This -illustrates various scripts. - - Keyboards, even in the countries where these character sets are used, -generally don't have keys for all the characters in them. So XEmacs -supports various "input methods", typically one for each script or -language, to make it convenient to type them. - - The prefix key `C-x ' is used for commands that pertain to -world scripts, coding systems, and input methods. - - -File: xemacs.info, Node: Language Environments, Next: Input Methods, Prev: Mule Intro, Up: Mule - -Language Environments -===================== - - All supported character sets are supported in XEmacs buffers if it is -compile with mule; there is no need to select a particular language in -order to display its characters in an XEmacs buffer. However, it is -important to select a "language environment" in order to set various -defaults. The language environment really represents a choice of -preferred script (more or less) rather that a choice of language. - - The language environment controls which coding systems to recognize -when reading text (*note Recognize Coding::). This applies to files, -incoming mail, netnews, and any other text you read into XEmacs. It may -also specify the default coding system to use when you create a file. -Each language environment also specifies a default input method. - - The command to select a language environment is `M-x -set-language-environment'. It makes no difference which buffer is -current when you use this command, because the effects apply globally to -the XEmacs session. The supported language environments include: - - Chinese-BIG5, Chinese-CNS, Chinese-GB, Cyrillic-ISO, English, - Ethiopic, Greek, Japanese, Korean, Latin-1, Latin-2, Latin-3, - Latin-4, Latin-5. - - Some operating systems let you specify the language you are using by -setting locale environment variables. XEmacs handles one common special -case of this: if your locale name for character types contains the -string `8859-N', XEmacs automatically selects the corresponding -language environment. - - To display information about the effects of a certain language -environment LANG-ENV, use the command `C-h L LANG-ENV ' -(`describe-language-environment'). This tells you which languages this -language environment is useful for, and lists the character sets, -coding systems, and input methods that go with it. It also shows some -sample text to illustrate scripts used in this language environment. -By default, this command describes the chosen language environment. - diff --git a/info/xemacs.info-9 b/info/xemacs.info-9 index 61e73e7..cbbf7d1 100644 --- a/info/xemacs.info-9 +++ b/info/xemacs.info-9 @@ -30,6 +30,72 @@ versions, except that the sections entitled "The GNU Manifesto", translation approved by the author instead of in the original English.  +File: xemacs.info, Node: Mule Intro, Next: Language Environments, Prev: Mule, Up: Mule + +Introduction to world scripts +============================= + + The users of these scripts have established many more-or-less +standard coding systems for storing files. XEmacs translates between +the internal character encoding and various other coding systems when +reading and writing files, when exchanging data with subprocesses, and +(in some cases) in the `C-q' command (see below). + + The command `C-h h' (`view-hello-file') displays the file +`etc/HELLO', which shows how to say "hello" in many languages. This +illustrates various scripts. + + Keyboards, even in the countries where these character sets are used, +generally don't have keys for all the characters in them. So XEmacs +supports various "input methods", typically one for each script or +language, to make it convenient to type them. + + The prefix key `C-x ' is used for commands that pertain to +world scripts, coding systems, and input methods. + + +File: xemacs.info, Node: Language Environments, Next: Input Methods, Prev: Mule Intro, Up: Mule + +Language Environments +===================== + + All supported character sets are supported in XEmacs buffers if it is +compile with mule; there is no need to select a particular language in +order to display its characters in an XEmacs buffer. However, it is +important to select a "language environment" in order to set various +defaults. The language environment really represents a choice of +preferred script (more or less) rather that a choice of language. + + The language environment controls which coding systems to recognize +when reading text (*note Recognize Coding::). This applies to files, +incoming mail, netnews, and any other text you read into XEmacs. It may +also specify the default coding system to use when you create a file. +Each language environment also specifies a default input method. + + The command to select a language environment is `M-x +set-language-environment'. It makes no difference which buffer is +current when you use this command, because the effects apply globally to +the XEmacs session. The supported language environments include: + + Chinese-BIG5, Chinese-CNS, Chinese-GB, Cyrillic-ISO, English, + Ethiopic, Greek, Japanese, Korean, Latin-1, Latin-2, Latin-3, + Latin-4, Latin-5. + + Some operating systems let you specify the language you are using by +setting locale environment variables. XEmacs handles one common special +case of this: if your locale name for character types contains the +string `8859-N', XEmacs automatically selects the corresponding +language environment. + + To display information about the effects of a certain language +environment LANG-ENV, use the command `C-h L LANG-ENV ' +(`describe-language-environment'). This tells you which languages this +language environment is useful for, and lists the character sets, +coding systems, and input methods that go with it. It also shows some +sample text to illustrate scripts used in this language environment. +By default, this command describes the chosen language environment. + + File: xemacs.info, Node: Input Methods, Next: Select Input Method, Prev: Language Environments, Up: Mule Input Methods @@ -1072,69 +1138,3 @@ invisible. * Motion: Outline Motion. Special commands for moving through outlines. * Visibility: Outline Visibility. Commands to control what is visible. - -File: xemacs.info, Node: Outline Format, Next: Outline Motion, Prev: Outline Mode, Up: Outline Mode - -Format of Outlines -.................. - - Outline mode assumes that the lines in the buffer are of two types: -"heading lines" and "body lines". A heading line represents a topic in -the outline. Heading lines start with one or more stars; the number of -stars determines the depth of the heading in the outline structure. -Thus, a heading line with one star is a major topic; all the heading -lines with two stars between it and the next one-star heading are its -subtopics; and so on. Any line that is not a heading line is a body -line. Body lines belong to the preceding heading line. Here is an -example: - - * Food - - This is the body, - which says something about the topic of food. - - ** Delicious Food - - This is the body of the second-level header. - - ** Distasteful Food - - This could have - a body too, with - several lines. - - *** Dormitory Food - - * Shelter - - A second first-level topic with its header line. - - A heading line together with all following body lines is called -collectively an "entry". A heading line together with all following -deeper heading lines and their body lines is called a "subtree". - - You can customize the criterion for distinguishing heading lines by -setting the variable `outline-regexp'. Any line whose beginning has a -match for this regexp is considered a heading line. Matches that start -within a line (not at the beginning) do not count. The length of the -matching text determines the level of the heading; longer matches make -a more deeply nested level. Thus, for example, if a text formatter has -commands `@chapter', `@section' and `@subsection' to divide the -document into chapters and sections, you can make those lines count as -heading lines by setting `outline-regexp' to -`"@chap\\|@\\(sub\\)*section"'. Note the trick: the two words -`chapter' and `section' are the same length, but by defining the regexp -to match only `chap' we ensure that the length of the text matched on a -chapter heading is shorter, so that Outline mode will know that -sections are contained in chapters. This works as long as no other -command starts with `@chap'. - - Outline mode makes a line invisible by changing the newline before it -into an ASCII Control-M (code 015). Most editing commands that work on -lines treat an invisible line as part of the previous line because, -strictly speaking, it is part of that line, since there is no longer a -newline in between. When you save the file in Outline mode, Control-M -characters are saved as newlines, so the invisible lines become ordinary -lines in the file. Saving does not change the visibility status of a -line inside Emacs. - diff --git a/lib-src/ChangeLog b/lib-src/ChangeLog index f1a1fab..6a3ceba 100644 --- a/lib-src/ChangeLog +++ b/lib-src/ChangeLog @@ -7,6 +7,58 @@ * update-elc.sh (ignore_dirs): Ignore lisp/utf-2000 subdirectory. +2000-05-01 Martin Buchholz + + * XEmacs 21.2.33 is released. + +2000-04-19 Martin Buchholz + + * gnuclient.c (initialize_signals): Always use full ANSI prototypes. + +2000-04-06 Kirill 'Big K' Katsnelson + + * i.c: New file, source for the i utility. + +2000-03-22 Mike Alexander + + * make-dump-id.c (gettimeofday): new (Windows only) + +2000-03-20 Martin Buchholz + + * XEmacs 21.2.32 is released. + +2000-03-20 Martin Buchholz + + * make-dump-id.c: Use config.h and systime.h for portability. + +2000-02-20 Olivier Galibert + + * make-dump-id.c: Added. + + * Makefile.in.in: Add support for make-dump-id. + +2000-03-12 Ben Wing + + * etags.c (canonicalize_filename): fixed a problem with gratuitous + capitalization of file names under MS Windows. + +2000-02-23 Martin Buchholz + + * XEmacs 21.2.31 is released. + +2000-02-21 Martin Buchholz + + * XEmacs 21.2.30 is released. + +2000-02-16 Martin Buchholz + + * XEmacs 21.2.29 is released. + +2000-02-13 Martin Buchholz + + * etags.c: Upgrade to version 13.44. + Only added (unsigned char) casts to calls like isspace (*cp). + 2000-02-07 Martin Buchholz * XEmacs 21.2.28 is released. diff --git a/lib-src/Makefile.in.in b/lib-src/Makefile.in.in index d926072..44195bd 100644 --- a/lib-src/Makefile.in.in +++ b/lib-src/Makefile.in.in @@ -375,6 +375,9 @@ make-msgfile: ${srcdir}/make-msgfile.c make-po: ${srcdir}/make-po.c $(CC) $(cflags) ${srcdir}/make-po.c $(ldflags) -o $@ +make-dump-id: ${srcdir}/make-dump-id.c + $(CC) $(cflags) ${srcdir}/make-dump-id.c $(ldflags) -o $@ + cflags_gnuserv = $(CFLAGS) $(cppflags) $(c_switch_all) ldflags_gnuserv = $(LDFLAGS) $(ld_switch_all) @libs_xauth@ $(ld_libs_general) gnuslib.o: ${srcdir}/gnuslib.c ${srcdir}/gnuserv.h ../src/config.h diff --git a/lib-src/cvtmail.c b/lib-src/cvtmail.c index 7c689b8..15099ce 100644 --- a/lib-src/cvtmail.c +++ b/lib-src/cvtmail.c @@ -44,8 +44,8 @@ Boston, MA 02111-1307, USA. */ static void *xmalloc (size_t); static void *xrealloc (void *, size_t); static void skip_to_lf (FILE *stream); -static void fatal (CONST char *s1, CONST char *s2); -static void error (CONST char *s1, CONST char *s2); +static void fatal (const char *s1, const char *s2); +static void error (const char *s1, const char *s2); int main (int argc, char *argv[]) @@ -139,14 +139,14 @@ xrealloc (void *ptr, size_t size) /* Print error message and exit. */ static void -fatal (CONST char *s1, CONST char *s2) +fatal (const char *s1, const char *s2) { error (s1, s2); exit (1); } static void -error (CONST char *s1, CONST char *s2) +error (const char *s1, const char *s2) { fprintf (stderr, "cvtmail: "); fprintf (stderr, s1, s2); diff --git a/lib-src/ellcc.c b/lib-src/ellcc.c index c8bfb8c..0207a92 100644 --- a/lib-src/ellcc.c +++ b/lib-src/ellcc.c @@ -109,7 +109,7 @@ main (int argc, char *argv[]) #endif static void *xmalloc (size_t); static void fatal (char *, char *); -static void add_to_argv (CONST char *); +static void add_to_argv (const char *); static void do_compile_mode (void); static void do_link_mode (void); static void do_init_mode (void); @@ -346,12 +346,12 @@ fatal (char *s1, char *s2) * arguments, taking quoting into account. This can get ugly. */ static void -add_to_argv (CONST char *str) +add_to_argv (const char *str) { int sm = 0; - CONST char *s = (CONST char *)0; + const char *s = (const char *)0; - if ((str == (CONST char *)0) || (str[0] == '\0')) + if ((str == (const char *)0) || (str[0] == '\0')) return; while (*str) @@ -378,7 +378,7 @@ add_to_argv (CONST char *str) exec_argv[real_argc][l] = '\0'; real_argc++; sm = 0; /* Back to start state */ - s = (CONST char *)0; + s = (const char *)0; break; } else if (*str == '\\') @@ -423,14 +423,14 @@ add_to_argv (CONST char *str) } } - if (s != (CONST char *)0) + if (s != (const char *)0) { int l = str-s; exec_argv[real_argc] = xnew (l+2, char); strncpy (exec_argv[real_argc], s, l); exec_argv[real_argc][l] = '\0'; real_argc++; - s = (CONST char *)0; + s = (const char *)0; } } diff --git a/lib-src/etags.c b/lib-src/etags.c index 12bdc61..6aa6055 100644 --- a/lib-src/etags.c +++ b/lib-src/etags.c @@ -29,10 +29,9 @@ Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ * Regexp tags by Tom Tromey. * * Francesco Potorti` (pot@gnu.org) is the current maintainer. - * Ansified by Martin Buchholz, 19991105. */ -char pot_etags_version[] = "@(#) pot revision number is 13.33"; +char pot_etags_version[] = "@(#) pot revision number is 13.44"; #define TRUE 1 #define FALSE 0 @@ -41,6 +40,12 @@ char pot_etags_version[] = "@(#) pot revision number is 13.33"; # define DEBUG FALSE #endif +#if defined(__STDC__) && (__STDC__ || defined(__SUNPRO_C)) +# define P_(proto) proto +#else +# define P_(proto) () +#endif + #ifdef HAVE_CONFIG_H # include /* On some systems, Emacs defines static as nothing for the sake @@ -55,6 +60,8 @@ char pot_etags_version[] = "@(#) pot revision number is 13.33"; #endif #ifdef MSDOS +# undef MSDOS +# define MSDOS TRUE # include # include # include @@ -62,12 +69,15 @@ char pot_etags_version[] = "@(#) pot revision number is 13.33"; # define DOS_NT # include # endif +#else +# define MSDOS FALSE #endif /* MSDOS */ #ifdef WINDOWSNT # include # include # include +# include # include # define MAXPATHLEN _MAX_PATH # ifdef HAVE_CONFIG_H @@ -78,24 +88,29 @@ char pot_etags_version[] = "@(#) pot revision number is 13.33"; # ifndef HAVE_GETCWD # define HAVE_GETCWD # endif /* undef HAVE_GETCWD */ -#endif /* WINDOWSNT */ - -#if !defined (WINDOWSNT) && defined (STDC_HEADERS) -#include -#include -#endif +#else /* !WINDOWSNT */ +# ifdef STDC_HEADERS +# include +# include +# else + extern char *getenv (); +# endif +#endif /* !WINDOWSNT */ #ifdef HAVE_UNISTD_H # include #else -# ifdef HAVE_GETCWD - extern char *getcwd (); +# if defined (HAVE_GETCWD) && !WINDOWSNT + extern char *getcwd (char *buf, size_t size); # endif #endif /* HAVE_UNISTD_H */ #include #include #include +#ifndef errno + extern int errno; +#endif #include #include @@ -175,7 +190,7 @@ char pot_etags_version[] = "@(#) pot revision number is 13.33"; typedef int bool; -typedef void Lang_function (); +typedef void Lang_function P_((FILE *)); typedef struct { @@ -220,74 +235,80 @@ typedef struct /* Many compilers barf on this: Lang_function Ada_funcs; so let's write it this way */ -void Ada_funcs (FILE *inf); -void Asm_labels (FILE *inf); -void C_entries (int c_ext, FILE *inf); -void default_C_entries (FILE *inf); -void plain_C_entries (FILE *inf); -void Cjava_entries (FILE *inf); -void Cobol_paragraphs (FILE *inf); -void Cplusplus_entries (FILE *inf); -void Cstar_entries (FILE *inf); -void Erlang_functions (FILE *inf); -void Fortran_functions (FILE *inf); -void Yacc_entries (FILE *inf); -void Lisp_functions (FILE *inf); -void Pascal_functions (FILE *inf); -void Perl_functions (FILE *inf); -void Postscript_functions (FILE *inf); -void Prolog_functions (FILE *inf); -void Python_functions (FILE *inf); -void Scheme_functions (FILE *inf); -void TeX_functions (FILE *inf); -void just_read_file (FILE *inf); - -compressor *get_compressor_from_suffix (char *file, char **extptr); -language *get_language_from_name (char *name); -language *get_language_from_interpreter (char *interpreter); -language *get_language_from_suffix (char *file); -int total_size_of_entries (register node *np); -long readline (linebuffer *lbp, FILE *stream); -long readline_internal (linebuffer *lbp, register FILE *stream); -void get_tag (register char *bp); +static void Ada_funcs P_((FILE *)); +static void Asm_labels P_((FILE *)); +static void C_entries P_((int c_ext, FILE *)); +static void default_C_entries P_((FILE *)); +static void plain_C_entries P_((FILE *)); +static void Cjava_entries P_((FILE *)); +static void Cobol_paragraphs P_((FILE *)); +static void Cplusplus_entries P_((FILE *)); +static void Cstar_entries P_((FILE *)); +static void Erlang_functions P_((FILE *)); +static void Fortran_functions P_((FILE *)); +static void Yacc_entries P_((FILE *)); +static void Lisp_functions P_((FILE *)); +static void Pascal_functions P_((FILE *)); +static void Perl_functions P_((FILE *)); +static void Postscript_functions P_((FILE *)); +static void Prolog_functions P_((FILE *)); +static void Python_functions P_((FILE *)); +static void Scheme_functions P_((FILE *)); +static void TeX_functions P_((FILE *)); +static void just_read_file P_((FILE *)); + +static void print_language_names P_((void)); +static void print_version P_((void)); +static void print_help P_((void)); +int main P_((int, char **)); +static int number_len P_((long)); + +static compressor *get_compressor_from_suffix P_((char *, char **)); +static language *get_language_from_name P_((char *)); +static language *get_language_from_interpreter P_((char *)); +static language *get_language_from_suffix P_((char *)); +static int total_size_of_entries P_((node *)); +static long readline P_((linebuffer *, FILE *)); +static long readline_internal P_((linebuffer *, FILE *)); +static void get_tag P_((char *)); #ifdef ETAGS_REGEXPS -void analyse_regex (char *regex_arg, bool ignore_case); -void add_regex (char *regexp_pattern, bool ignore_case, language *lan); -void free_patterns (void); +static void analyse_regex P_((char *, bool)); +static void add_regex P_((char *, bool, language *)); +static void free_patterns P_((void)); #endif /* ETAGS_REGEXPS */ -void error (const char *s1, const char *s2); -void suggest_asking_for_help (void); -void fatal (char *s1, char *s2); -void pfatal (char *s1); -void add_node (node *np, node **cur_node_p); - -void init (void); -void initbuffer (linebuffer *lbp); -void find_entries (char *file, FILE *inf); -void free_tree (register node *np); -void pfnote (char *name, bool is_func, char *linestart, int linelen, int lno, long int cno); -void new_pfnote (char *name, int namelen, bool is_func, char *linestart, int linelen, int lno, long int cno); -void process_file (char *file); -void put_entries (register node *np); -void takeprec (void); - -char *concat (char *s1, char *s2, char *s3); -char *skip_spaces (char *cp); -char *skip_non_spaces (char *cp); -char *savenstr (char *cp, int len); -char *savestr (char *cp); -char *etags_strchr (const char *sp, int c); -char *etags_strrchr (const char *sp, int c); -char *etags_getcwd (void); -char *relative_filename (char *file, char *dir); -char *absolute_filename (char *file, char *dir); -char *absolute_dirname (char *file, char *dir); -bool filename_is_absolute (char *fn); -void canonicalize_filename (register char *fn); -void grow_linebuffer (linebuffer *lbp, int toksize); -long *xmalloc (unsigned int size); -long *xrealloc (char *ptr, unsigned int size); +static void error P_((const char *, const char *)); +static void suggest_asking_for_help P_((void)); +static void fatal P_((char *, char *)); +static void pfatal P_((char *)); +static void add_node P_((node *, node **)); + +static void init P_((void)); +static void initbuffer P_((linebuffer *)); +static void find_entries P_((char *, FILE *)); +static void free_tree P_((node *)); +static void pfnote P_((char *, bool, char *, int, int, long)); +static void new_pfnote P_((char *, int, bool, char *, int, int, long)); +static void process_file P_((char *)); +static void put_entries P_((node *)); +static void takeprec P_((void)); + +static char *concat P_((char *, char *, char *)); +static char *skip_spaces P_((char *)); +static char *skip_non_spaces P_((char *)); +static char *savenstr P_((char *, int)); +static char *savestr P_((char *)); +static char *etags_strchr P_((const char *, int)); +static char *etags_strrchr P_((const char *, int)); +static char *etags_getcwd P_((void)); +static char *relative_filename P_((char *, char *)); +static char *absolute_filename P_((char *, char *)); +static char *absolute_dirname P_((char *, char *)); +static bool filename_is_absolute P_((char *f)); +static void canonicalize_filename P_((char *)); +static void grow_linebuffer P_((linebuffer *, int)); +static long *xmalloc P_((unsigned int)); +static long *xrealloc P_((char *, unsigned int)); char searchar = '/'; /* use /.../ searches */ @@ -320,7 +341,7 @@ struct bool _wht[CHARS], _nin[CHARS], _itk[CHARS], _btk[CHARS], _etk[CHARS]; char /* white chars */ - *white = " \f\t\n\r", + *white = " \f\t\n\r\v", /* not in a name */ *nonam = " \f\t\n\r(=,[;", /* token ending chars */ @@ -562,19 +583,16 @@ Fortran is tried first; if no tags are found, C is tried next.\n\ Compressed files are supported using gzip and bzip2."); } -#ifdef XEMACS -# define EMACS_NAME "XEmacs" -#else +#ifndef EMACS_NAME # define EMACS_NAME "GNU Emacs" #endif - #ifndef VERSION -# define VERSION "20" +# define VERSION "21" #endif static void print_version () { - printf ("%s (" EMACS_NAME " %s)\n", (CTAGS) ? "ctags" : "etags", VERSION); + printf ("%s (%s %s)\n", (CTAGS) ? "ctags" : "etags", EMACS_NAME, VERSION); puts ("Copyright (C) 1999 Free Software Foundation, Inc. and Ken Arnold"); puts ("This program is distributed under the same terms as Emacs"); @@ -762,7 +780,7 @@ typedef struct { #include #include #define OUTSIZE MAX_FILE_SPEC_LEN -short +static short fn_exp (out, in) vspec *out; char *in; @@ -807,7 +825,7 @@ fn_exp (out, in) v1.01 nmm 19-Aug-85 gfnames - return in successive calls the name of each file specified by the provided arg expanding wildcards. */ -char * +static char * gfnames (arg, p_error) char *arg; bool *p_error; @@ -1183,7 +1201,7 @@ main (argc, argv) * and EXTPTR is not significant. * Idea by Vladimir Alexiev */ -compressor * +static compressor * get_compressor_from_suffix (file, extptr) char *file; char **extptr; @@ -1203,21 +1221,16 @@ get_compressor_from_suffix (file, extptr) /* Let those poor souls who live with DOS 8+3 file name limits get some solace by treating foo.cgz as if it were foo.c.gz, etc. Only the first do loop is run if not MSDOS */ -#ifdef MSDOS do { for (compr = compressors; compr->suffix != NULL; compr++) if (streq (compr->suffix, suffix)) return compr; + if (!MSDOS) + break; /* do it only once: not really a loop */ if (extptr != NULL) *extptr = ++suffix; } while (*suffix != '\0'); -#else - for (compr = compressors; compr->suffix != NULL; compr++) - if (streq (compr->suffix, suffix)) - return compr; -#endif - return NULL; } @@ -1226,7 +1239,7 @@ get_compressor_from_suffix (file, extptr) /* * Return a language given the name. */ -language * +static language * get_language_from_name (name) char *name; { @@ -1249,7 +1262,7 @@ get_language_from_name (name) /* * Return a language given the interpreter name. */ -language * +static language * get_language_from_interpreter (interpreter) char *interpreter; { @@ -1272,7 +1285,7 @@ get_language_from_interpreter (interpreter) /* * Return a language given the file name. */ -language * +static language * get_language_from_suffix (file) char *file; { @@ -1296,7 +1309,7 @@ get_language_from_suffix (file) /* * This routine is called on each file argument. */ -void +static void process_file (file) char *file; { @@ -1360,21 +1373,22 @@ process_file (file) compressed_name = concat (file, ".", compr->suffix); if (stat (compressed_name, &stat_buf) != 0) { -#ifdef MSDOS - char *suf = compressed_name + strlen (file); - size_t suflen = strlen (compr->suffix) + 1; - for ( ; suf[1]; suf++, suflen--) + if (MSDOS) { - memmove (suf, suf + 1, suflen); - if (stat (compressed_name, &stat_buf) == 0) + char *suf = compressed_name + strlen (file); + size_t suflen = strlen (compr->suffix) + 1; + for ( ; suf[1]; suf++, suflen--) { - real_name = compressed_name; - break; + memmove (suf, suf + 1, suflen); + if (stat (compressed_name, &stat_buf) == 0) + { + real_name = compressed_name; + break; + } } - } - if (real_name != NULL) - break; -#endif + if (real_name != NULL) + break; + } /* MSDOS */ free (compressed_name); compressed_name = NULL; } @@ -1454,7 +1468,7 @@ process_file (file) * subscripted by the chars in "white" are set to TRUE. Thus "_wht" * of a char is TRUE if it is the string "white", else FALSE. */ -void +static void init () { register char *sp; @@ -1464,13 +1478,12 @@ init () iswhite(i) = notinname(i) = begtoken(i) = intoken(i) = endtoken(i) = FALSE; for (sp = white; *sp != '\0'; sp++) iswhite (*sp) = TRUE; for (sp = nonam; *sp != '\0'; sp++) notinname (*sp) = TRUE; - for (sp = begtk; *sp != '\0'; sp++) begtoken (*sp) = TRUE; - for (sp = midtk; *sp != '\0'; sp++) intoken (*sp) = TRUE; - for (sp = endtk; *sp != '\0'; sp++) endtoken (*sp) = TRUE; - iswhite('\0') = iswhite('\n'); notinname('\0') = notinname('\n'); + for (sp = begtk; *sp != '\0'; sp++) begtoken (*sp) = TRUE; begtoken('\0') = begtoken('\n'); + for (sp = midtk; *sp != '\0'; sp++) intoken (*sp) = TRUE; intoken('\0') = intoken('\n'); + for (sp = endtk; *sp != '\0'; sp++) endtoken (*sp) = TRUE; endtoken('\0') = endtoken('\n'); } @@ -1480,7 +1493,7 @@ init () */ node *last_node = NULL; -void +static void find_entries (file, inf) char *file; FILE *inf; @@ -1567,7 +1580,7 @@ find_entries (file, inf) } /* Record a tag. */ -void +static void pfnote (name, is_func, linestart, linelen, lno, cno) char *name; /* tag name, or NULL if unnamed */ bool is_func; /* tag is a function */ @@ -1637,7 +1650,7 @@ pfnote (name, is_func, linestart, linelen, lno, cno) * `nonam'. */ #define traditional_tag_style TRUE -void +static void new_pfnote (name, namelen, is_func, linestart, linelen, lno, cno) char *name; /* tag name, or NULL if unnamed */ int namelen; /* tag length */ @@ -1679,7 +1692,7 @@ new_pfnote (name, namelen, is_func, linestart, linelen, lno, cno) * free_tree () * recurse on left children, iterate on right children. */ -void +static void free_tree (np) register node *np; { @@ -1704,7 +1717,7 @@ free_tree (np) * add_node is the only function allowed to add nodes, so it can * maintain state. */ -void +static void add_node (np, cur_node_p) node *np, **cur_node_p; { @@ -1762,7 +1775,7 @@ add_node (np, cur_node_p) } } -void +static void put_entries (np) register node *np; { @@ -1846,7 +1859,7 @@ number_len (num) * is irrelevant with the new tags.el, but is still supplied for * backward compatibility. */ -int +static int total_size_of_entries (np) register node *np; { @@ -1884,6 +1897,10 @@ enum sym_type st_C_struct, st_C_extern, st_C_enum, st_C_define, st_C_typedef, st_C_typespec }; +static unsigned int hash P_((const char *, unsigned int)); +static struct C_stab_entry * in_word_set P_((const char *, unsigned int)); +static enum sym_type C_symtype P_((char *, int, int)); + /* Feed stuff between (but not including) %[ and %] lines to: gperf -c -k 1,3 -o -p -r -t %[ @@ -2245,6 +2262,9 @@ bool yacc_rules; */ int methodlen; +static bool consider_token P_((char *, int, int, int, int, int, bool *)); +static void make_C_tag P_((bool)); + /* * consider_token () * checks to see if the current token is at the start of a @@ -2267,7 +2287,7 @@ static bool consider_token (str, len, c, c_ext, cblev, parlev, is_func_or_var) register char *str; /* IN: token pointer */ register int len; /* IN: token length */ - register char c; /* IN: first char after the token */ + register int c; /* IN: first char after the token */ int c_ext; /* IN: C extensions mask */ int cblev; /* IN: curly brace level */ int parlev; /* IN: parenthesis level */ @@ -2597,7 +2617,7 @@ make_C_tag (isfun) } -void +static void C_entries (c_ext, inf) int c_ext; /* extension of C */ FILE *inf; /* input file */ @@ -2819,7 +2839,7 @@ C_entries (c_ext, inf) if (*lp != '\0') lp += 1; while (*lp != '\0' - && !isspace (*lp) && *lp != '(') + && !iswhite (*lp) && *lp != '(') lp += 1; c = *lp++; toklen += lp - oldlp; @@ -3270,7 +3290,7 @@ C_entries (c_ext, inf) * Process either a C++ file or a C file depending on the setting * of a global flag. */ -void +static void default_C_entries (inf) FILE *inf; { @@ -3278,7 +3298,7 @@ default_C_entries (inf) } /* Always do plain ANSI C. */ -void +static void plain_C_entries (inf) FILE *inf; { @@ -3286,7 +3306,7 @@ plain_C_entries (inf) } /* Always do C++. */ -void +static void Cplusplus_entries (inf) FILE *inf; { @@ -3294,7 +3314,7 @@ Cplusplus_entries (inf) } /* Always do Java. */ -void +static void Cjava_entries (inf) FILE *inf; { @@ -3302,7 +3322,7 @@ Cjava_entries (inf) } /* Always do C*. */ -void +static void Cstar_entries (inf) FILE *inf; { @@ -3310,7 +3330,7 @@ Cstar_entries (inf) } /* Always do Yacc. */ -void +static void Yacc_entries (inf) FILE *inf; { @@ -3333,7 +3353,7 @@ Yacc_entries (inf) * Read a file, but do no processing. This is used to do regexp * matching on files that have no language defined. */ -void +static void just_read_file (inf) FILE *inf; { @@ -3345,6 +3365,10 @@ just_read_file (inf) /* Fortran parsing */ +static bool tail P_((char *)); +static void takeprec P_((void)); +static void getit P_((FILE *)); + static bool tail (cp) char *cp; @@ -3361,7 +3385,7 @@ tail (cp) return FALSE; } -void +static void takeprec () { dbp = skip_spaces (dbp); @@ -3374,14 +3398,14 @@ takeprec () dbp += 3; return; } - if (!isdigit (*dbp)) + if (!isdigit ((unsigned char) *dbp)) { --dbp; /* force failure */ return; } do dbp++; - while (isdigit (*dbp)); + while (isdigit ((unsigned char) *dbp)); } static void @@ -3402,7 +3426,7 @@ getit (inf) dbp += 6; dbp = skip_spaces (dbp); } - if (!isalpha (*dbp) && *dbp != '_' && *dbp != '$') + if (!isalpha ((unsigned char) *dbp) && *dbp != '_' && *dbp != '$') return; for (cp = dbp + 1; *cp != '\0' && intoken (*cp); cp++) continue; @@ -3411,7 +3435,7 @@ getit (inf) } -void +static void Fortran_functions (inf) FILE *inf; { @@ -3488,6 +3512,9 @@ Fortran_functions (inf) * Philippe Waroquiers , 1998-04-24 * Ada parsing */ + +static void adagetit P_((FILE *, char *)); + /* Once we are positioned after an "interesting" keyword, let's get the real tag value necessary. */ static void @@ -3540,7 +3567,7 @@ adagetit (inf, name_qualifier) dbp = skip_spaces (dbp); for (cp = dbp; (*cp != '\0' - && (isalpha (*cp) || isdigit (*cp) || *cp == '_' || *cp == '.')); + && (isalpha ((unsigned char) *cp) || isdigit ((unsigned char) *cp) || *cp == '_' || *cp == '.')); cp++) continue; if (cp == dbp) @@ -3557,7 +3584,7 @@ adagetit (inf, name_qualifier) } } -void +static void Ada_funcs (inf) FILE *inf; { @@ -3654,7 +3681,7 @@ Ada_funcs (inf) * Unix and microcontroller assembly tag handling * look for '^[a-zA-Z_.$][a-zA_Z0-9_.$]*[: ^I^J]' */ -void +static void Asm_labels (inf) FILE *inf; { @@ -3664,13 +3691,13 @@ Asm_labels (inf) { /* If first char is alphabetic or one of [_.$], test for colon following identifier. */ - if (isalpha (*cp) || *cp == '_' || *cp == '.' || *cp == '$') + if (isalpha ((unsigned char) *cp) || *cp == '_' || *cp == '.' || *cp == '$') { /* Read past label. */ cp++; - while (isalnum (*cp) || *cp == '_' || *cp == '.' || *cp == '$') + while (isalnum ((unsigned char) *cp) || *cp == '_' || *cp == '.' || *cp == '$') cp++; - if (*cp == ':' || isspace (*cp)) + if (*cp == ':' || iswhite (*cp)) { /* Found end of label, so copy it and add it to the table. */ pfnote (savenstr(lb.buffer, cp-lb.buffer), TRUE, @@ -3686,7 +3713,7 @@ Asm_labels (inf) * Perl sub names: look for /^sub[ \t\n]+[^ \t\n{]+/ * Perl variable names: /^(my|local).../ */ -void +static void Perl_functions (inf) FILE *inf; { @@ -3696,14 +3723,14 @@ Perl_functions (inf) { if (*cp++ == 's' && *cp++ == 'u' - && *cp++ == 'b' && isspace (*cp++)) + && *cp++ == 'b' && iswhite (*cp++)) { cp = skip_spaces (cp); if (*cp != '\0') { char *sp = cp; while (*cp != '\0' - && !isspace (*cp) && *cp != '{' && *cp != '(') + && !iswhite (*cp) && *cp != '{' && *cp != '(') cp++; pfnote (savenstr (sp, cp-sp), TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); @@ -3719,7 +3746,7 @@ Perl_functions (inf) && *cp++ == 'c' && *cp++ == 'a' && *cp++ == 'l')) - && (*cp == '(' || isspace (*cp))) + && (*cp == '(' || iswhite (*cp))) { /* After "my" or "local", but before any following paren or space. */ char *varname = NULL; @@ -3728,7 +3755,7 @@ Perl_functions (inf) if (*cp == '$' || *cp == '@' || *cp == '%') { char* varstart = ++cp; - while (isalnum (*cp) || *cp == '_') + while (isalnum ((unsigned char) *cp) || *cp == '_') cp++; varname = savenstr (varstart, cp-varstart); } @@ -3752,7 +3779,7 @@ Perl_functions (inf) * Python support by Eric S. Raymond * Look for /^def[ \t\n]+[^ \t\n(:]+/ or /^class[ \t\n]+[^ \t\n(:]+/ */ -void +static void Python_functions (inf) FILE *inf; { @@ -3762,10 +3789,10 @@ Python_functions (inf) { if (*cp++ == 'd' && *cp++ == 'e' - && *cp++ == 'f' && isspace (*cp++)) + && *cp++ == 'f' && iswhite (*cp++)) { cp = skip_spaces (cp); - while (*cp != '\0' && !isspace (*cp) && *cp != '(' && *cp != ':') + while (*cp != '\0' && !iswhite (*cp) && *cp != '(' && *cp != ':') cp++; pfnote (NULL, TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); @@ -3776,10 +3803,10 @@ Python_functions (inf) && *cp++ == 'l' && *cp++ == 'a' && *cp++ == 's' - && *cp++ == 's' && isspace (*cp++)) + && *cp++ == 's' && iswhite (*cp++)) { cp = skip_spaces (cp); - while (*cp != '\0' && !isspace (*cp) && *cp != '(' && *cp != ':') + while (*cp != '\0' && !iswhite (*cp) && *cp != '(' && *cp != ':') cp++; pfnote (NULL, TRUE, lb.buffer, cp - lb.buffer + 1, lineno, linecharno); @@ -3792,7 +3819,7 @@ Python_functions (inf) * We could look for anything that could be a paragraph name. * i.e. anything that starts in column 8 is one word and ends in a full stop. */ -void +static void Cobol_paragraphs (inf) FILE *inf; { @@ -3805,10 +3832,10 @@ Cobol_paragraphs (inf) bp += 8; /* If eoln, compiler option or comment ignore whole line. */ - if (bp[-1] != ' ' || !isalnum (bp[0])) + if (bp[-1] != ' ' || !isalnum ((unsigned char) bp[0])) continue; - for (ep = bp; isalnum (*ep) || *ep == '-'; ep++) + for (ep = bp; isalnum ((unsigned char) *ep) || *ep == '-'; ep++) continue; if (*ep++ == '.') pfnote (savenstr (bp, ep-bp), TRUE, @@ -3825,7 +3852,7 @@ Cobol_paragraphs (inf) * "forward" immediately following the procedure statement; if found, * the tag is skipped. */ -void +static void Pascal_functions (inf) FILE *inf; { @@ -4002,6 +4029,11 @@ Pascal_functions (inf) * lisp tag functions * look for (def or (DEF, quote or QUOTE */ + +static int L_isdef P_((char *)); +static int L_isquote P_((char *)); +static void L_getit P_((void)); + static int L_isdef (strp) register char *strp; @@ -4020,7 +4052,7 @@ L_isquote (strp) && (*++strp == 'o' || *strp == 'O') && (*++strp == 't' || *strp == 'T') && (*++strp == 'e' || *strp == 'E') - && isspace (*++strp)); + && iswhite (*++strp)); } static void @@ -4040,7 +4072,7 @@ L_getit () } for (cp = dbp /*+1*/; - *cp != '\0' && *cp != '(' && !isspace(*cp) && *cp != ')'; + *cp != '\0' && *cp != '(' && !iswhite(*cp) && *cp != ')'; cp++) continue; if (cp == dbp) @@ -4050,7 +4082,7 @@ L_getit () lb.buffer, cp - lb.buffer + 1, lineno, linecharno); } -void +static void Lisp_functions (inf) FILE *inf; { @@ -4069,7 +4101,7 @@ Lisp_functions (inf) /* Check for (foo::defmumble name-defined ... */ do dbp++; - while (*dbp != '\0' && !isspace (*dbp) + while (*dbp != '\0' && !iswhite (*dbp) && *dbp != ':' && *dbp != '(' && *dbp != ')'); if (*dbp == ':') { @@ -4096,7 +4128,7 @@ Lisp_functions (inf) * Also look at "defineps" for PSWrap * suggested by Masatake YAMATO */ -void +static void Postscript_functions (inf) FILE *inf; { @@ -4131,7 +4163,7 @@ Postscript_functions (inf) * look for (set! xyzzy */ -void +static void Scheme_functions (inf) FILE *inf; { @@ -4146,7 +4178,7 @@ Scheme_functions (inf) { bp = skip_non_spaces (bp); /* Skip over open parens and white space */ - while (isspace (*bp) || *bp == '(') + while (iswhite (*bp) || *bp == '(') bp++; get_tag (bp); } @@ -4155,7 +4187,7 @@ Scheme_functions (inf) && (bp[2] == 'E' || bp[2] == 'e') && (bp[3] == 'T' || bp[3] == 't') && (bp[4] == '!' || bp[4] == '!') - && (isspace (bp[5]))) + && (iswhite (bp[5]))) { bp = skip_non_spaces (bp); bp = skip_spaces (bp); @@ -4184,9 +4216,9 @@ char *TEX_defenv = "\ :chapter:section:subsection:subsubsection:eqno:label:ref:cite:bibitem\ :part:appendix:entry:index"; -void TEX_mode (FILE *inf); -struct TEX_tabent *TEX_decode_env (char *evarname, char *defenv); -int TEX_Token (char *cp); +static void TEX_mode P_((FILE *)); +static struct TEX_tabent *TEX_decode_env P_((char *, char *)); +static int TEX_Token P_((char *)); char TEX_esc = '\\'; char TEX_opgrp = '{'; @@ -4195,7 +4227,7 @@ char TEX_clgrp = '}'; /* * TeX/LaTeX scanning loop. */ -void +static void TeX_functions (inf) FILE *inf; { @@ -4242,7 +4274,7 @@ TeX_functions (inf) /* Figure out whether TeX's escapechar is '\\' or '!' and set grouping chars accordingly. */ -void +static void TEX_mode (inf) FILE *inf; { @@ -4277,7 +4309,7 @@ TEX_mode (inf) /* Read environment and prepend it to the default string. Build token table. */ -struct TEX_tabent * +static struct TEX_tabent * TEX_decode_env (evarname, defenv) char *evarname; char *defenv; @@ -4334,7 +4366,7 @@ TEX_decode_env (evarname, defenv) Otherwise return -1. Keep the capital `T' in `token' for dumb truncating compilers (this distinguishes it from `TEX_toktab' */ -int +static int TEX_Token (cp) char *cp; { @@ -4352,11 +4384,11 @@ TEX_Token (cp) * Assumes that the predicate starts at column 0. * Only the first clause of a predicate is added. */ -int prolog_pred (char *s, char *last); -void prolog_skip_comment (linebuffer *plb, FILE *inf); -int prolog_atom (char *s, int pos); +static int prolog_pred P_((char *, char *)); +static void prolog_skip_comment P_((linebuffer *, FILE *)); +static int prolog_atom P_((char *, int)); -void +static void Prolog_functions (inf) FILE *inf; { @@ -4372,7 +4404,7 @@ Prolog_functions (inf) { if (cp[0] == '\0') /* Empty line */ continue; - else if (isspace (cp[0])) /* Not a predicate */ + else if (iswhite (cp[0])) /* Not a predicate */ continue; else if (cp[0] == '/' && cp[1] == '*') /* comment. */ prolog_skip_comment (&lb, inf); @@ -4392,7 +4424,7 @@ Prolog_functions (inf) } -void +static void prolog_skip_comment (plb, inf) linebuffer *plb; FILE *inf; @@ -4420,7 +4452,7 @@ prolog_skip_comment (plb, inf) * Return the size of the name of the predicate, or 0 if no header * was found. */ -int +static int prolog_pred (s, last) char *s; char *last; /* Name of last clause. */ @@ -4461,7 +4493,7 @@ prolog_pred (s, last) * - A quoted arbitrary string. Single quotes can escape themselves. * Backslash quotes everything. */ -int +static int prolog_atom (s, pos) char *s; int pos; @@ -4470,11 +4502,11 @@ prolog_atom (s, pos) origpos = pos; - if (islower(s[pos]) || (s[pos] == '_')) + if (islower((unsigned char) s[pos]) || (s[pos] == '_')) { /* The atom is unquoted. */ pos++; - while (isalnum(s[pos]) || (s[pos] == '_')) + while (isalnum((unsigned char) s[pos]) || (s[pos] == '_')) { pos++; } @@ -4518,11 +4550,11 @@ prolog_atom (s, pos) * * Assumes that Erlang functions start at column 0. */ -int erlang_func (char *s, char *last); -void erlang_attribute (char *s); -int erlang_atom (char *s, int pos); +static int erlang_func P_((char *, char *)); +static void erlang_attribute P_((char *)); +static int erlang_atom P_((char *, int)); -void +static void Erlang_functions (inf) FILE *inf; { @@ -4538,7 +4570,7 @@ Erlang_functions (inf) { if (cp[0] == '\0') /* Empty line */ continue; - else if (isspace (cp[0])) /* Not function nor attribute */ + else if (iswhite (cp[0])) /* Not function nor attribute */ continue; else if (cp[0] == '%') /* comment */ continue; @@ -4577,7 +4609,7 @@ Erlang_functions (inf) * Return the size of the name of the function, or 0 if no function * was found. */ -int +static int erlang_func (s, last) char *s; char *last; /* Name of last clause. */ @@ -4615,7 +4647,7 @@ erlang_func (s, last) * -define(Foo(M, N), M+N). * -record(graph, {vtab = notable, cyclic = true}). */ -void +static void erlang_attribute (s) char *s; { @@ -4642,7 +4674,7 @@ erlang_attribute (s) * Consume an Erlang atom (or variable). * Return the number of bytes consumed, or -1 if there was an error. */ -int +static int erlang_atom (s, pos) char *s; int pos; @@ -4651,11 +4683,11 @@ erlang_atom (s, pos) origpos = pos; - if (isalpha (s[pos]) || s[pos] == '_') + if (isalpha ((unsigned char) s[pos]) || s[pos] == '_') { /* The atom is unquoted. */ pos++; - while (isalnum (s[pos]) || s[pos] == '_') + while (isalnum ((unsigned char) s[pos]) || s[pos] == '_') pos++; return pos - origpos; } @@ -4690,6 +4722,11 @@ erlang_atom (s, pos) #ifdef ETAGS_REGEXPS +static char *scan_separators P_((char *)); +static void analyse_regex P_((char *, bool)); +static void add_regex P_((char *, bool, language *)); +static char *substitute P_((char *, char *, struct re_registers *)); + /* Take a string like "/blah/" and turn it into "blah", making sure that the first and last characters are the same, and handling quoted separator characters. Actually, stops on the occurrence of @@ -4735,7 +4772,7 @@ scan_separators (name) /* Look at the argument of --regex or --no-regex and do the right thing. Same for each line of a regexp file. */ -void +static void analyse_regex (regex_arg, ignore_case) char *regex_arg; bool ignore_case; @@ -4805,7 +4842,7 @@ analyse_regex (regex_arg, ignore_case) /* Turn a name, which is an ed-style (but Emacs syntax) regular expression, into a real regular expression by compiling it. */ -void +static void add_regex (regexp_pattern, ignore_case, lang) char *regexp_pattern; bool ignore_case; @@ -4875,7 +4912,7 @@ substitute (in, out, regs) for (t = etags_strchr (out, '\\'); t != NULL; t = etags_strchr (t + 2, '\\')) - if (isdigit (t[1])) + if (isdigit ((unsigned char) t[1])) { dig = t[1] - '0'; diglen = regs->end[dig] - regs->start[dig]; @@ -4888,7 +4925,7 @@ substitute (in, out, regs) result = xnew (size + 1, char); for (t = result; *out != '\0'; out++) - if (*out == '\\' && isdigit (*++out)) + if (*out == '\\' && isdigit ((unsigned char) *++out)) { /* Using "dig2" satisfies my debugger. Bleah. */ dig = *out - '0'; @@ -4907,7 +4944,7 @@ substitute (in, out, regs) } /* Deallocate all patterns. */ -void +static void free_patterns () { pattern *pp; @@ -4922,7 +4959,7 @@ free_patterns () return; } -void +static void get_tag (bp) register char *bp; { @@ -4932,7 +4969,7 @@ get_tag (bp) return; /* Go till you get to white space or a syntactic break */ for (cp = bp + 1; - *cp != '\0' && *cp != '(' && *cp != ')' && !isspace (*cp); + *cp != '\0' && *cp != '(' && *cp != ')' && !iswhite (*cp); cp++) continue; pfnote (savenstr (bp, cp-bp), TRUE, @@ -4941,7 +4978,7 @@ get_tag (bp) #endif /* ETAGS_REGEXPS */ /* Initialize a linebuffer for use */ -void +static void initbuffer (lbp) linebuffer *lbp; { @@ -4959,7 +4996,7 @@ initbuffer (lbp) * platforms (for text files, it translates CR-NL to NL as it reads in the * file). */ -long +static long readline_internal (lbp, stream) linebuffer *lbp; register FILE *stream; @@ -5023,7 +5060,7 @@ readline_internal (lbp, stream) * Like readline_internal, above, but in addition try to match the * input line against relevant regular expressions. */ -long +static long readline (lbp, stream) linebuffer *lbp; FILE *stream; @@ -5084,7 +5121,7 @@ readline (lbp, stream) * Return a pointer to a space of size strlen(cp)+1 allocated * with xnew where the string CP has been copied. */ -char * +static char * savestr (cp) char *cp; { @@ -5095,7 +5132,7 @@ savestr (cp) * Return a pointer to a space of size LEN+1 allocated with xnew where * the string CP has been copied for at most the first LEN characters. */ -char * +static char * savenstr (cp, len) char *cp; int len; @@ -5111,11 +5148,13 @@ savenstr (cp, len) /* * Return the ptr in sp at which the character c last * appears; NULL if not found + * + * Identical to POSIX strrchr, included for portability. */ -char * +static char * etags_strrchr (sp, c) - const char *sp; - int c; + register const char *sp; + register int c; { register const char *r; @@ -5125,49 +5164,51 @@ etags_strrchr (sp, c) if (*sp == c) r = sp; } while (*sp++); - return (char *) r; + return (char *)r; } /* * Return the ptr in sp at which the character c first * appears; NULL if not found + * + * Identical to POSIX strchr, included for portability. */ -char * +static char * etags_strchr (sp, c) - const char *sp; - int c; + register const char *sp; + register int c; { do { if (*sp == c) - return (char *) sp; + return (char *)sp; } while (*sp++); return NULL; } /* Skip spaces, return new pointer. */ -char * +static char * skip_spaces (cp) char *cp; { - while (isspace (*cp)) /* isspace('\0')==FALSE */ + while (iswhite (*cp)) cp++; return cp; } /* Skip non spaces, return new pointer. */ -char * +static char * skip_non_spaces (cp) char *cp; { - while (!iswhite (*cp)) /* iswhite('\0')==TRUE */ + while (*cp != '\0' && !iswhite (*cp)) cp++; return cp; } /* Print error message and exit. */ -void +static void fatal (s1, s2) char *s1, *s2; { @@ -5175,7 +5216,7 @@ fatal (s1, s2) exit (BAD); } -void +static void pfatal (s1) char *s1; { @@ -5183,7 +5224,7 @@ pfatal (s1) exit (BAD); } -void +static void suggest_asking_for_help () { fprintf (stderr, "\tTry `%s %s' for a complete list of options.\n", @@ -5198,7 +5239,7 @@ suggest_asking_for_help () } /* Print error message. `s1' is printf control string, `s2' is arg for it. */ -void +static void error (s1, s2) const char *s1, *s2; { @@ -5209,7 +5250,7 @@ error (s1, s2) /* Return a newly-allocated string whose contents concatenate those of s1, s2, s3. */ -char * +static char * concat (s1, s2, s3) char *s1, *s2, *s3; { @@ -5226,7 +5267,7 @@ concat (s1, s2, s3) /* Does the same work as the system V getcwd, but does not need to guess the buffer size in advance. */ -char * +static char * etags_getcwd () { #ifdef HAVE_GETCWD @@ -5275,7 +5316,7 @@ etags_getcwd () /* Return a newly allocated string containing the file name of FILE relative to the absolute directory DIR (which should end with a slash). */ -char * +static char * relative_filename (file, dir) char *file, *dir; { @@ -5315,7 +5356,7 @@ relative_filename (file, dir) /* Return a newly allocated string containing the absolute file name of FILE given DIR (which should end with a slash). */ -char * +static char * absolute_filename (file, dir) char *file, *dir; { @@ -5377,7 +5418,7 @@ absolute_filename (file, dir) /* Return a newly allocated string containing the absolute file name of dir where FILE resides given DIR (which should end with a slash). */ -char * +static char * absolute_dirname (file, dir) char *file, *dir; { @@ -5398,7 +5439,7 @@ absolute_dirname (file, dir) /* Whether the argument string is an absolute file name. The argument string must have been canonicalized with canonicalize_filename. */ -bool +static bool filename_is_absolute (fn) char *fn; { @@ -5410,13 +5451,13 @@ filename_is_absolute (fn) } /* Translate backslashes into slashes. Works in place. */ -void +static void canonicalize_filename (fn) register char *fn; { #ifdef DOS_NT /* Canonicalize drive letter case. */ - if (islower (fn[0])) + if (islower (fn[0]) && fn[1] == ':') fn[0] = toupper (fn[0]); /* Convert backslashes to slashes. */ for (; *fn != '\0'; fn++) @@ -5429,7 +5470,7 @@ canonicalize_filename (fn) } /* Increase the size of a linebuffer. */ -void +static void grow_linebuffer (lbp, toksize) linebuffer *lbp; int toksize; @@ -5440,7 +5481,7 @@ grow_linebuffer (lbp, toksize) } /* Like malloc but get fatal error if memory is exhausted. */ -long * +static long * xmalloc (size) unsigned int size; { @@ -5450,7 +5491,7 @@ xmalloc (size) return result; } -long * +static long * xrealloc (ptr, size) char *ptr; unsigned int size; diff --git a/lib-src/fakemail.c b/lib-src/fakemail.c index 8467c02..a78036e 100644 --- a/lib-src/fakemail.c +++ b/lib-src/fakemail.c @@ -144,7 +144,7 @@ struct linebuffer lb; #define MAIL_PROGRAM_NAME "/bin/mail" #endif -static CONST char *my_name; +static const char *my_name; static char *the_date; static char *the_user; static line_list file_preface; @@ -171,7 +171,7 @@ static struct passwd *my_entry; /* Print error message. `s1' is printf control string, `s2' is arg for it. */ static void -error (CONST char *s1, CONST char *s2) +error (const char *s1, const char *s2) { printf ("%s: ", my_name); printf (s1, s2); @@ -182,7 +182,7 @@ error (CONST char *s1, CONST char *s2) /* Print error message and exit. */ static void -fatal (CONST char *s1, CONST char *s2) +fatal (const char *s1, const char *s2) { error (s1, s2); exit (1); @@ -419,20 +419,20 @@ put_string (char *s) } static void -put_line (CONST char *string) +put_line (const char *string) { register stream_list rem; for (rem = the_streams; rem != ((stream_list) NULL); rem = rem->rest_streams) { - CONST char *s = string; + const char *s = string; int column = 0; /* Divide STRING into lines. */ while (*s != 0) { - CONST char *breakpos; + const char *breakpos; /* Find the last char that fits. */ for (breakpos = s; *breakpos && column < 78; ++breakpos) diff --git a/lib-src/gnuclient.c b/lib-src/gnuclient.c index 1954be4..6d96b47 100644 --- a/lib-src/gnuclient.c +++ b/lib-src/gnuclient.c @@ -121,7 +121,7 @@ pass_signal_to_emacs (int sig) } void -initialize_signals () +initialize_signals (void) { /* Set up signal handler to pass relevant signals to emacs process. We used to send SIGSEGV, SIGBUS, SIGPIPE, SIGILL and others to @@ -231,13 +231,13 @@ filename_expand (char *fullpath, char *filename) /* Encase the string in quotes, escape all the backslashes and quotes in string. */ static char * -clean_string (CONST char *s) +clean_string (const char *s) { int i = 0; char *p, *res; { - CONST char *const_p; + const char *const_p; for (const_p = s; *const_p; const_p++, i++) { if (*const_p == '\\' || *const_p == '\"') @@ -293,7 +293,7 @@ clean_string (CONST char *s) /* A strdup imitation. */ static char * -my_strdup (CONST char *s) +my_strdup (const char *s) { char *new_s = (char *) malloc (strlen (s) + 1); if (new_s) diff --git a/lib-src/gnuserv.h b/lib-src/gnuserv.h index 4e2ac5a..df53605 100644 --- a/lib-src/gnuserv.h +++ b/lib-src/gnuserv.h @@ -216,7 +216,7 @@ int make_connection (char *hostarg, int portarg, int *s); void disconnect_from_ipc_server(); #endif #if defined(INTERNET_DOMAIN_SOCKETS) || defined(UNIX_DOMAIN_SOCKETS) -void send_string (int s, CONST char *msg); +void send_string (int s, const char *msg); void disconnect_from_server (int s, int echo); int read_line (int s, char *dest); #endif diff --git a/lib-src/gnuslib.c b/lib-src/gnuslib.c index 9022d48..c16aa31 100644 --- a/lib-src/gnuslib.c +++ b/lib-src/gnuslib.c @@ -194,7 +194,7 @@ disconnect_from_ipc_server (int s, struct msgbuf *msgp, int echo) send_string -- send string to socket. */ void -send_string (int s, CONST char *msg) +send_string (int s, const char *msg) { #if 0 if (send(s,msg,strlen(msg),0) < 0) { diff --git a/lib-src/make-docfile.c b/lib-src/make-docfile.c index cc55e8c..141287a 100644 --- a/lib-src/make-docfile.c +++ b/lib-src/make-docfile.c @@ -91,14 +91,14 @@ enum c_file } Current_file_type; -static int scan_file (CONST char *filename); +static int scan_file (const char *filename); static int read_c_string (FILE *, int, int); -static void write_c_args (FILE *out, CONST char *func, char *buf, int minargs, +static void write_c_args (FILE *out, const char *func, char *buf, int minargs, int maxargs); -static int scan_c_file (CONST char *filename, CONST char *mode); +static int scan_c_file (const char *filename, const char *mode); static void skip_white (FILE *); static void read_lisp_symbol (FILE *, char *); -static int scan_lisp_file (CONST char *filename, CONST char *mode); +static int scan_lisp_file (const char *filename, const char *mode); #define C_IDENTIFIER_CHAR_P(c) \ (('A' <= c && c <= 'Z') || \ @@ -115,7 +115,7 @@ int ellcc = 0; /* Print error message. `s1' is printf control string, `s2' is arg for it. */ static void -error (CONST char *s1, CONST char *s2) +error (const char *s1, const char *s2) { fprintf (stderr, "%s: ", progname); fprintf (stderr, s1, s2); @@ -125,7 +125,7 @@ error (CONST char *s1, CONST char *s2) /* Print error message and exit. */ static void -fatal (CONST char *s1, CONST char *s2) +fatal (const char *s1, const char *s2) { error (s1, s2); exit (1); @@ -274,7 +274,7 @@ main (int argc, char **argv) /* Return 1 if file is not found, 0 if it is found. */ static int -scan_file (CONST char *filename) +scan_file (const char *filename) { int len = strlen (filename); if (ellcc == 0 && len > 4 && !strcmp (filename + len - 4, ".elc")) @@ -396,7 +396,7 @@ read_c_string (FILE *infile, int printflag, int c_docstring) MINARGS and MAXARGS are the minimum and maximum number of arguments. */ static void -write_c_args (FILE *out, CONST char *func, char *buff, int minargs, +write_c_args (FILE *out, const char *func, char *buff, int minargs, int maxargs) { register char *p; @@ -496,7 +496,7 @@ write_c_args (FILE *out, CONST char *func, char *buff, int minargs, Accepts any word starting DEF... so it finds DEFSIMPLE and DEFPRED. */ static int -scan_c_file (CONST char *filename, CONST char *mode) +scan_c_file (const char *filename, const char *mode) { FILE *infile; register int c; @@ -787,7 +787,7 @@ read_lisp_symbol (FILE *infile, char *buffer) } static int -scan_lisp_file (CONST char *filename, CONST char *mode) +scan_lisp_file (const char *filename, const char *mode) { FILE *infile; register int c; diff --git a/lib-src/make-dump-id.c b/lib-src/make-dump-id.c index dba2a9c..81df7da 100644 --- a/lib-src/make-dump-id.c +++ b/lib-src/make-dump-id.c @@ -23,6 +23,26 @@ Boston, MA 02111-1307, USA. */ #include #include "../src/systime.h" +#ifdef WINDOWSNT +#include + +/* Emulate gettimeofday (Ulrich Leodolter, 1/11/95). */ +void +gettimeofday (struct timeval *tv, struct timezone *tz) +{ + struct _timeb tb; + _ftime (&tb); + + tv->tv_sec = tb.time; + tv->tv_usec = tb.millitm * 1000L; + if (tz) + { + tz->tz_minuteswest = tb.timezone; /* minutes west of Greenwich */ + tz->tz_dsttime = tb.dstflag; /* type of dst correction */ + } +} +#endif + /* Generates an (extremely) pseudo random number for the dump-id */ static unsigned int generate_dump_id (void) diff --git a/lib-src/movemail.c b/lib-src/movemail.c index 941ada9..6fa783e 100644 --- a/lib-src/movemail.c +++ b/lib-src/movemail.c @@ -204,7 +204,9 @@ struct option longopts[] = #define DEFAULT_LOCKING DOTLOCKING #endif +#ifndef DISABLE_DIRECT_ACCESS static void lock_dot(char *); +#endif static void unlock_dot(char *); static int parse_lock_method(char *); static char *unparse_lock_method(int); @@ -566,6 +568,7 @@ dot_filename(char *filename) static char *dotlock_filename = NULL; +#ifndef DISABLE_DIRECT_ACCESS static void lock_dot(char *filename) { @@ -625,6 +628,7 @@ lock_dot(char *filename) } strcpy(dotlock_filename, filename); } +#endif /* not DISABLE_DIRECT_ACCESS */ static void unlock_dot(char *filename) diff --git a/lib-src/sorted-doc.c b/lib-src/sorted-doc.c index 0b77c45..d66ce77 100644 --- a/lib-src/sorted-doc.c +++ b/lib-src/sorted-doc.c @@ -14,9 +14,6 @@ #include /* for qsort() and malloc() */ #include static void *xmalloc (size_t); -#ifndef CONST -# define CONST const -#endif #define NUL '\0' #define MARKER '\037' @@ -96,7 +93,7 @@ enum state WAITING, BEG_NAME, NAME_GET, BEG_DESC, DESC_GET }; -CONST char *states[] = +const char *states[] = { "WAITING", "BEG_NAME", "NAME_GET", "BEG_DESC", "DESC_GET" }; @@ -201,12 +198,7 @@ main (int argc, char *argv[]) /* sort the array by name; within each name, by type */ qsort ((char*)array, cnt, sizeof (DOCSTR*), - /* was cast to (int (*)(CONST void *, CONST void *)) - but that loses on HP because CONST_IS_LOSING. */ - /* This one loses too: (int (*)()) */ - /* Ok, so let's try const instead of CONST. Fuck me!!! */ - (int (*)(const void *, const void *)) - cmpdoc); + (int (*)(const void *, const void *)) cmpdoc); /* write the output header */ diff --git a/lisp/ChangeLog b/lisp/ChangeLog index 9a01c00..7cca1ad 100644 --- a/lisp/ChangeLog +++ b/lisp/ChangeLog @@ -1838,6 +1838,958 @@ * files.el (insert-file-contents-literally): Treat file as binary; call file-name-handlers. [sync with Emacs 20.3.10] +2000-05-01 Martin Buchholz + + * XEmacs 21.2.33 is released. + +2000-04-29 Martin Buchholz + + * dialog.el (yes-or-no-p-dialog-box): + Fix docstring. + Fix following horrible bug in X11 mode with focus-follows-mouse: + 1. Visit two files in two different frames. + 2. do File->Revert Buffer in one of those frames. + 3. Dialog box appears. + 4. Arrange things so that the mouse passes over the *other* + frame, then to the dialog box, and click on "Yes". + 5. The file contents end up in the *wrong* buffer! + Add TODO comment. + +2000-04-28 Ben Wing + + * help.el (describe-installation): correct typo introduced + in last patch: boundp -> fboundp. + + * etags.el (buffer-tag-table-list): + canonicalize filenames to Unix format so that tag-table-alist + searching works under Windows. + + * autoload.el: + Bowdlerize the supposedly objectionable words + "who couldn't quite manage to cleanly modify batch-update-autoloads". + + * gutter-items.el (set-progress-display-style): + * gutter-items.el (search-dialog-callback): + * gutter-items.el (make-search-dialog): + Change to new callback-ex api. + +2000-04-26 Björn Torkelsson + + * help.el: (describe-installation): decode-coding-string is not + defined in a non MULE environment. + +2000-04-28 Ben Wing + + * gutter-items.el (buffer-list-changed-hook): + use it, not record-buffer-hook. + + * subr.el (record-buffer-hook): Removed. + +2000-04-27 Ben Wing + + * gutter-items.el (buffers-tab-switch-to-buffer): do not + use NORECORD option. Andy will not like this, but the existing + gutter behavior is just wrong, as per this comment: + + ;; this used to add the norecord flag to both calls below. + ;; this is bogus because it is a pervasive assumption in XEmacs + ;; that the current buffer is at the front of the buffers list. + ;; for example, select an item and then do M-C-l + ;; (switch-to-other-buffer). Things get way confused. + ;; + ;; Andy, if you want to maintain the current look, you must + ;; *uncouple* the gutter order and buffers order. + + * loaddefs.el (completion-ignored-extensions): unfuckify. + + * bytecomp.el (batch-byte-compile-one-file): new function, used in + xemacs.mak. + + * autoload.el (batch-update-one-directory): new function, used in + xemacs.mak. + + * loadup.el: set gc-cons-threshold very high unless dumping -- + loadup during update-elc is much much much faster. also do this + when quick-building. + + add commented-out code for profiling loadup. + + + * update-elc.el (preloaded-file-list): add bytecomp.el, since it + is required in order to build xemacs. + +2000-04-26 Ben Wing + + * loadup.el: don't garbage collect during loadup if quick-build + compile-time option is set. + +2000-04-23 Ben Wing + + * update-elc.el: compute whether any dumped .el or .elc files + are newer than the dumped exe, and touch the file ../src/NEEDTODUMP + if so. + + * update-elc.el (update-elc-files-to-compile): always change + NOBYTECOMPILE in the src directory rather than current dir, + so it will work under NT. + + * autoload.el (autoload-trim-file-name): canonicalize to slashes so + the form of this file is identical between Unix and Windows. + (autoload-target-directory): Fixed to be lisp/ not lisp/prim/. + Added comment. + (update-autoloads-from-directory): updated doc string. + updated doc strings in a few other places. + +2000-04-18 Yoshiki Hayashi + + * bytecomp.el (byte-force-recompile): Fix argument to + byte-recompile-directory. + +2000-04-17 Yoshiki Hayashi + + * gutter-items.el (progress-display-clear-when-idle): Use + add-one-shot-hook. + * gutter-items.el (clear-progress-display): Adjust number of + arguments. + +2000-04-13 Yoshiki Hayashi + + * dumped-lisp.el (preloaded-file-list): Always dump select.el. + +2000-04-16 Ben Wing + + * printer.el: New file. + + * dumped-lisp.el (preloaded-file-list): Declare printer.el. + + * help.el (describe-installation): Fix decoding for Windows. + + * menubar-items.el: + * menubar-items.el (default-menubar): + * menubar-items.el (tutorials-menu-filter): New. + * menubar-items.el (popup-menubar-menu): + Add authorship. Redo Help menu and Tutorials filter. + + * menubar.el: Correct comment. + + * modeline.el (modeline-buffer-identification): Correct doc string. + + * simple.el: + * simple.el (printing): Removed. + * simple.el (printer-name): Removed. + * simple.el (generic-print-buffer): Removed. + * simple.el (generic-print-region): Removed. + Move generic print code to printer.el. + +2000-04-15 Ben Wing + + * simple.el (generic-print-region): New. + make this function actually work. + (generic-print-buffer): call generic-print-region. + +2000-04-14 Andy Piper + + * gutter-items.el (make-search-dialog): avoid unneccessary futzing + by using the new widget-callback-current-channel. + (search-dialog-callback): ditto. + +2000-04-12 Andy Piper + + * gutter.el (default-gutter-position): moved from gutter-items.el. + (default-gutter-position-changed-hook): ditto. + (gutter-element-visibility-changed-hook): ditto. + (set-gutter-element): ditto. + (remove-gutter-element): ditto. + (set-gutter-element-visible-p): ditto. + (gutter-element-visible-p): ditto. + (init-gutter): ditto. + + * dialog.el (make-dialog-box): renamed and moved from + gutter-items.el + + * gutter-items.el: move various functions elsewhere. + +2000-04-13 Katsumi Yamaoka + + * menubar-items.el: Fixed place of parenthesis. + +2000-04-12 Ben Wing + + * etags.el (find-tag-at-point): New. Lets you do find-tag + without constantly being prompted for the tag. + * simple.el: Added a number of section headings, to clarify the + organization of this file. + * simple.el (activate-region): + * simple.el (region-exists-p): + * simple.el (region-active-p): + Moved these three function down to the other side of + the case-changing functions, so they join the rest of + the region code. + * simple.el (printing): New. + * simple.el (printer-name): New. + * simple.el (generic-print-buffer): New. + New functions, a very simple prototype for a unified + printing interface. + + * process.el (call-process-internal): Real fix for null BUFFER, + other problems with BUFFER specs. + + * menubar-items.el: + Fixed up File->Print to use new printing functions. + Various corrections and expansions to Grep/Compile menus. + New options for Printing. + New options for SMTP Mail, the way to send mail under + MS Windows. (There's also a package patch to make SMTP + Mail be the default under MSWin.) + +2000-04-09 Jeff Miller + + * menubar-items.el: Selecting Rectangle Mousing from menubar + did not work. Needed to quote mouse-track-rectangle-p. + +2000-04-06 Yoshiki Hayashi + + * cl-compat.el (keywordp): Removed. + +2000-04-05 Andy Piper + + * gutter-items.el (progress-layout-glyph): don't initialize here. + (progress-gauge-glyph): use dynamic sizing. + (set-progress-display-style): new function. Set progress glyphs + appropriately depending on the style. + (progress-display-style): new variable. Custom version of + set-progress-display-style. + (progress-abort-glyph): switch to dynamic sizes. + (search-dialog-text): make the edit field active. + +2000-04-04 Andy Piper + + * gutter-items.el (make-search-dialog): need to make the search + dialog visible after creation. + + * menubar-items.el (default-menubar): use the search dialog for + searching. Remove some extraneous search menu items. + + * gutter-items.el (set-gutter-element): allow glyphs to be used as + well as strings. + (make-gutter-only-dialog-frame): allow the user to create the + frame unmapped. Allow the gutter spec to be given as a glyph. + (search-dialog-direction): new variable. + (search-dialog-text): new variable. + (search-dialog-callback): new function. Callback for the search + dialog action. + (make-search-dialog): new function. Create a user-friendly search + dialog. + +2000-04-04 Hrvoje Niksic + + * faces.el (set-face-stipple): Use mswindows-bitmap-file-path + under Windows. + +2000-04-01 Andy Piper + + * font-lock.el (font-lock-fontify-keywords-region): Calculate + progress more accurately. + +2000-02-02 Hirokazu FUKUI + + * finder.el (finder-compile-keywords): Process readable files only. + Because error in process of .#finder-inf.el when compile xemacs + with --with-clash-detection option. + +2000-03-31 Andy Piper + + * gutter-items.el (append-progress-display): don't delay after a + successful font-lock. + (make-gutter-only-dialog-frame): new function. Allow users to + create gutter-only dialogs. + +2000-03-27 Mike Alexander + + * process.el (call-process-internal): Handle a null BUFFER + parameter correctly. + +2000-03-28 Andy Piper + + * gutter-items.el (abort-progress-display): put strings in the + gutter not extents. + (progress-layout-glyph): signal special 'quit callback. + (progress-display-quit-function): deleted. + (progress-display-stop-callback): deleted. + (progress-display-dispatch-command-events): deleted. + (append-progress-display): remove calls to + progress-display-dispatch-command-events. + (raw-append-progress-display): ditto. + +2000-03-23 Hrvoje Niksic + + * faces.el (set-face-stipple): Rewrite to correctly handle PIXMAP + being a list. Actually define `stipple-pixmap-p' which is used as + an error predicate. Correctly handle PIXMAP being either relative + or absolute file name. + +2000-03-24 Andy Piper + + * gutter-items.el (add-tab-to-gutter): use copy-sequence. + (abort-progress-display): ditto. Don't delete the created extent. + (raw-append-progress-display): ditto. + (progress-display-dispatch-non-command-events): new + function. Encapsulates what we want to do when no command input is + required. + (progress-display-dispatch-command-events): likewise, but disable + for now since it causes too many problems. + (append-progress-display): use them. + (raw-append-progress-display): ditto. + (default-gutter-position-changed-hook): set this rather than + default-gutter-position-changed. + (default-gutter-position-changed-hook): lambda with zero arguments + rather than one. + (raw-append-progress-display): trap errors in pending input since + allowing them to signal will hose the gauge well and + truly. Ideally we would like to delay these until we are more able + to cope. + (append-progress-display): ditto. + +2000-03-20 Jeff Miller + + * lisp/make-docfile.el: call-process-internal is now implemented + in process.el. + +2000-03-21 Ben Wing + + * mule\mule-cmds.el (set-language-info-alist): + Fix to correspond to new menu arrangement. + +2000-03-21 Ben Wing + + * process.el: + * process.el (call-process-internal): New. + New implementation of call-process. Only enabled under NT, so far. + stderr handling not implemented yet in CVS'd C code. + +2000-03-20 Ben Wing + + * lisp-mode.el: + * lisp-mode.el (lisp-interaction-mode-menubar-menu): New. + * lisp-mode.el (lisp-interaction-mode): + Put back Lisp Interaction menubar for Jan V's sake. + + * simple.el: + * simple.el (mark-ring): + * simple.el (dont-record-current-mark): New. + * simple.el (in-shifted-motion-command): New. + * simple.el (mark-ring-unrecorded-commands): New. + * simple.el (mark-ring-max): + * simple.el (set-mark-command): + * simple.el (push-mark): + * simple.el (handle-pre-motion-command): + Implement scheme for not recording unimportant marks. + + * subr.el: + * subr.el (function-allows-args): New. + New function function-allows-args. + +2000-03-20 Martin Buchholz + + * XEmacs 21.2.32 is released. + +2000-03-20 Andy Piper + + * gutter-items.el (update-tab-in-gutter): force selection of the + selected-window if required to do so. + (buffers-tab-items): ditto. + (add-tab-to-gutter): ditto. + (create-frame-hook): use force-selection. + (default-gutter-position-changed): lambdify. + (update-tab-hook): deleted since it was only used in one place. + +2000-03-18 Andy Piper + + * files.el (find-file-noselect): undo change that shouldn't have + gone in. + +2000-03-17 Andy Piper + + * buffer.el (switch-to-buffer): use last-nonminibuf-window instead + of selected-window trickery. + + * gutter-items.el (update-tab-in-gutter): don't give dedicated + frames tabs. + (progress-display-stop-callback): progress -> progress-display + (progress-display-quit-function): ditto. + (clear-progress-display): ditto. + (remove-progress-display): ditto. + (append-progress-display): ditto. + (abort-progress-display): ditto. + (raw-append-progress-display): ditto. + (display-progress-display): ditto. + (current-progress-display-label): ditto. + (current-progress-display): ditto. + (lprogress-display): ditto and save the buffer + (progress-display): ditto. Otherwise the buffer sometimes gets + changed which confuses font-lock. + + * font-lock.el (font-lock-default-fontify-buffer): catch all + errors, not just quit. + (font-lock-mode): progress -> display-progress + (font-lock-default-fontify-buffer): ditto. + (font-lock-fontify-syntactically-region): ditto. + (font-lock-fontify-keywords-region): ditto. + +2000-03-14 Hrvoje Niksic + + * cl.el (gensym): Move to here from cl-macs.el. + (gentemp): Ditto. + +2000-03-16 Andy Piper + + * font-lock.el (font-lock-mode): use lprogress and friends for + progress management. + (font-lock-default-fontify-buffer): ditto. + (font-lock-fontify-syntactically-region): ditto. + (font-lock-fontify-keywords-region): ditto. + (font-lock-revert-cleanup): fix reverting. + (font-lock-revert-setup): ditto. + + * gutter-items.el (progress-use-echo-area): new variable. Use the + echo area for progress gauges if non-nil. + (clear-progress): remove echo area stuff and defer to + clear-message. + (append-progress): dispatch non-command events after each progress + increment. Remove echo area stuff. + (abort-progress): remove echo area stuff and defer to + display-message. + (raw-append-progress): ditto. Dispatch non-command events after + gutter redisplay. + (display-progress): defer echo area stuff to display-message. + + * gutter-items.el (clear-progress): + (abort-progress): indentation changes. + (display-progress): don't clear progress. + (append-progress): compare messages with equal. + (raw-append-progress): use dispatch-non-command-events to flush + widget creation events. + +2000-03-13 Ben Wing + + * abbrev.el: + * abbrev.el (abbrev-string-to-be-defined): New. + * abbrev.el (inverse-abbrev-string-to-be-defined): New. + Changes for use with the menubar. + +2000-03-12 Ben Wing + + * alist.el (vassoc): moved here from font-menu.el. + + * custom.el (defface): typo fix. + + * dialog.el (yes-or-no-p-dialog-box): + * dialog.el (message-box): + * files.el (save-some-buffers-1): + Put accelerators in the button names. + + * font-lock.el (font-lock-comment-face): + * font-lock.el (font-lock-keyword-face): + * font-lock.el (font-lock-function-name-face): + Fixed some of the colors under MS Windows because the existing + default colors were hardly different from black and needed to be + made lighter. + + * font-menu.el: + * font-menu.el (font-menu-split-long-menu): + * font-menu.el (font-menu-family-constructor): + * font-menu.el (font-menu-size-constructor): + * font-menu.el (font-menu-weight-constructor): + * font-menu.el (font-menu-set-font): + vassoc moved to alist.el. + Accelerators added to all menus. + Unused bound var new-props removed. + + * keydefs.el: I did a whole lot of rearranging to put things in a + more consistent order and fixed a number of cases where key + combinations involving up, down, left, right and so on were + defined but the corresponding keypad combinations were not + defined. + + * lisp-mode.el: + * lisp-mode.el (lisp-interaction-mode-popup-menu): + * lisp-mode.el (emacs-lisp-mode): + * lisp-mode.el (lisp-interaction-mode): + * lisp-mode.el (flet): + Added accelerators onto the menus. + Made all the different versions of the let function be indented + the same way. + Undid Steve's easy-menu-ification, because it makes it impossible + to have the menubar and popup menus different. + Cleaned up the menu; added items for find-function &c and some + indenting, and removed debug-on-*. + + * list-mode.el (list-mode-hook): + * list-mode.el (list-mode): + * list-mode.el (completion-setup-hook): + * list-mode.el (display-completion-list): + Added support for the :window-height keyword, which is required + because of other changes that I made for the file dialog box. I + also made the hook variables list-mode-hook and + completion-setup-hook and also minibuffer-setup-hook in + minibuf.el be permanent-local; see comment in list-mode.el. + + * map-ynp.el (map-y-or-n-p): + Added accelerators to the dialog buttons. + + * menubar-items.el (menu-truncate-list): + New internal function. + * menubar-items.el (submenu-generate-accelerator-spec): + * menubar-items.el (menu-item-strip-accelerator-spec): + * menubar-items.el (menu-item-generate-accelerator-spec): + New exported functions, for use in auto-generating accelerator specs. + + * menubar-items.el: + * menubar-items.el (default-menubar): + * menubar-items.el (maybe-add-init-button): + * menubar-items.el (bookmark-menu-filter): + * menubar-items.el (slow-format-buffers-menu-line): + * menubar-items.el (build-buffers-menu-internal): + * menubar-items.el (language-environment-menu-filter): + * menubar-items.el (default-popup-menu): + * menubar-items.el (popup-buffer-menu): + * menubar-items.el (popup-menubar-menu): + Did a major overhaul on this file, and in fact I'm nowhere near + done working on the menubar, and there will be more patches to + come. A basic summary of what I've done: + + a) I added accelerators to all of the menu items. For menus that + are auto-generated, such as the buffers menu, the accelerators are + automatically added to the beginning of each line using the + numbers 1 through 9, then zero, and then letters starting with A, + but omitting the letters that are already in use for the fixed + menu items at the top of the buffers menu. To facilitate adding + accelerators of this kind, I created some new functions + (*-accelerator-spec), which are also being used by other filters + that auto generate lists of things such as ftp sites to download + packages. If people really don't like these accelerators + appearing at the beginning of the menu items, a variable can be + added to optionally turn them off, but I think this is rather + pointless because other menu items have accelerators and many or + most of the menu users will use the accelerators if the support is + there. + + b) I combined the top level Tools and Apps menus into a single + Tools menu, because the distinction between the two is not + obvious, and the items on the menus are not used often enough that + putting some of them onto submenus is a problem. + + c) I created two new top level menus called View and Cmds because + there were too many items on the File and Edit menus, and I'm going + to be adding more items to these menus. In contrast to the Tools + menu, the items on these menus may be used quite often during an + editing session, and so should be available with fewer + keystrokes. + + d) I added a number of options to the options menu, including one + for controlling whether the alt key can be used to traverse to + menu items using the accelerators, one for controlling behavior of + control-k, one for controlling how the kill and yank functions + interact with the clipboard, a few additional buffers-menu + options, and various other things. I also did a bit of + rearranging, for example, combining the keyboard and mouse options + into a single keyboard and mouse submenu to facilitate the + accelerators on that level. + + e) I changed the variable buffers-menu-format-buffer-line-function + to take two arguments instead of one, the second argument being + the line number for use in creating an accelerator. I added a + hack to support existing functions with one argument (although I + doubt that very many of these exist), for backward compatibility. + + f) I moved the top level mule menu to be a submenu of the edit + menu. I think that most of the items on this menu are fairly + useless and there are certainly not enough frequently used items + to justify this being its own top level menu. + + g) I combined most of the items in big-menubar.el into the main menu. + If people think the main menu is too big, it would be possible to + create different configurations, some smaller. + + * menubar.el (check-menu-syntax): + Deleted some syntax checks that were no longer valid, partly + because of changes that were already made a long time ago, and + partly because of a change I made where I allow the name of the + menu item to be an evaluated expression rather than just a string, + similar to all of the other parameters of a menu item. + + * minibuf.el: + * minibuf.el (read-file-name-1): + * minibuf.el (mouse-read-file-name-1): + I made a number of changes to improve the appearance + and functioning of the file dialog box. They include: + + a) Fixing the problem where closing the dialog box by clicking on + the close button of the window didn't properly exit the + minibuffer. + + b) Fixing the problem that if you typed part of a file name, and + then clicked on a completion with the mouse, the file was not + correctly selected. + + c) Changing the title of the dialog box to reflect the operation + being done in accordance with user interface conventions, rather + than the name of the dialog box buffer, which is rather useless. + + d) Remove the words "possible completions are" which didn't + belong. + + e) Fix things so that the completions scroll off the end of the + completions windows only to the right, rather than both to the + right and down, which is in accordance with Windows user interface + conventions. + + * msw-init.el (init-post-mswindows-win): + Added a binding for meta-F4, which is the standard windows binding + for exiting a program. + + * select.el (get-selection-no-error): + * select.el (own-selection): + * select.el (own-clipboard): + Added an optional argument called append to the functions + own-selection and own-clipboard. This adds support for appending + text to the existing selection and allows the function + own-clipboard to be used as the value of the variable + interprogram- cut-function. + + Fixed a bug in own-selection in handling zmacs-region-stays. + + * simple.el (historical-kill-line): New. + + * simple.el (kill-line): + * simple.el (interprogram-cut-function): + * simple.el (interprogram-paste-function): + * simple.el (handle-pre-motion-command): + * simple.el (next-line): + * simple.el (previous-line): + a) Expanded the variable kill-whole-line, so that function + kill-line can be set to delete the entire line always, not just + when cursor is at the beginning of the line. This is controlled + by setting the variable kill-whole-line to the symbol 'always. + This behavior, as well as the existing kill-whole-line behavior, + now only take effect when kill-line is called interactively, + although this is a departure from a previous behavior in the case + of setting this variable kill-whole-line to t. It is almost + certainly what has always been intended, and most likely the old + way of doing things introduced bugs. I also created a function + called historical-kill-line, which ignores the kill-whole-line + setting and always gives the historical behavior of only killing + to the end of the line. I bound this function to shift- control-k + so that the kill to end of line behavior is available, even when + kill-whole-line has been set to change control-k into the simple + delete-whole-line behavior. (This can be set using the options + menu.) + + b) I changed things so that kill and yank now interact with the + clipboard by default under windows. This was done by changing the + default value of interprogram-cut- function and + interprogram-paste-function. You can get the old behavior by + setting these to nil, and there is an option on the options menu + to do this. + + c) I added support for selecting text using shifted motion keys. + This support is on by default and can be controlled by the + variable shifted-motion-keys-select-region. There is also a + variable called unshifted-motion-keys-deselect-region that + controls more specifically how the shifted motion key behavior + works. I did not put an option on the options menu to turn this + off, because I can't imagine why this would be useful. + + * simple.el (forward-block-of-lines): + * simple.el (backward-block-of-lines): + * simple.el (block-movement-size): + New. + + * simple.el (uncapitalized-title-words): + * simple.el (uncapitalized-title-word-regexp): + * simple.el (capitalize-string-as-title): + * simple.el (capitalize-region-as-title): + New. + + + * subr.el (add-hook): + * subr.el (make-local-hook): New. + * subr.el (remove-local-hook): New. + * subr.el (add-one-shot-hook): New. + * subr.el (add-local-one-shot-hook): New. + Added some functions to make using hooks easier. + These include: + + a) Functions add-local-hook and remove-local-hook to make it easy + to use local hooks. + + b) Functions add-one-shot-hook and add-local-one-shot-hook, which + make it possible to add a "one-shot" hook, which is to say a hook + that runs only once, and automatically removes itself after the + first time it has run. + +2000-03-09 Andy Piper + + * files.el (auto-mode-alist): pick up jsp, jhtml and xml files. + +2000-03-09 Yoshiki Hayashi + + * buff-menu.el (buffers-menu-omit-invisible-buffers): + Moved from menubar-items.el. + * dumped-lisp.el: Dump gutter-items regardless of menubar. + +2000-03-08 Andy Piper + + * gutter-items.el (build-buffers-tab-internal): add selected field + to buffers tab spec. + +2000-03-07 Yoshiki Hayashi + + * minibuf.el (last-exact-completion): Initialize to nil. + +2000-03-07 Didier Verna + + * startup.el (command-line-1): remove unused variable + `first-file-buffer'. + +2000-02-29 Hrvoje Niksic + + * loaddefs.el (completion-ignored-extensions): Removed ".log", + which is also used for Web server log files. + +2000-02-03 IKEYAMA Tomonori + + * mule/mule-charset.el: Setup auto-fill-chars. + +2000-03-02 SL Baur + + * subr.el (with-string-as-buffer-contents): Reimplement using + `with-temp-buffer'. Fixes non-unique buffer name problem, fixes + non-deletion of buffer after execution problem. + (with-output-to-string): Use unique buffer name. + +2000-02-29 Stephen J. Turnbull + + * gutter-items.el (buffers-tab-sort-function): New variable. + (buffers-tab-items): Funcall it to sort the buffer tab list. + +2000-02-29 Stephen J. Turnbull + + * startup.el (load-user-init-file): Merge two `if's to one `or'. + +2000-02-28 Martin Buchholz + + * menubar-items.el (maybe-add-init-button): Remove the "Load + .emacs" button from all menubars. + +2000-03-01 Didier Verna + + * rect.el (string-rectangle): depend on `pending-delete-mode' for + region rectangle replacement (from Jan Vroonhof). + (replace-rectangle): new function. + +2000-01-05 Yoshiki Hayashi + + * mule/mule-cmds.el (set-default-coding-systems): Use + set-terminal-coding-system and set-keyboard-coding-system. + * coding.el (set-terminal-coding-system): Use + set-console-tty-output-coding-system. + (set-keyboard-coding-system): Use + set-console-tty-input-coding-system. + +2000-02-21 Yoshiki Hayashi + + * minibuf.el (read-variable): Allow symbol to default argument. + +2000-02-27 Andy Piper + + * gutter-items.el (update-tab-hook): new function to be used for + hooks. + (create-frame-hook): add update-tab-hook. + (record-buffer-hook): ditto. + (default-gutter-position-changed): ditto. + (default-gutter-position): updating the buffers tab is now handled + by a hook. + (default-gutter-position-changed-hook): new variable. + (gutter-element-visibility-changed-hook): ditto. + (set-gutter-element-visible-p): call it. + (set-gutter-element): use modify-specifier-instances. Set extents + as duplicable before using. + (remove-gutter-element): ditto. + (set-gutter-element-visible-p): ditto. + (init-gutter): new function. + (add-tab-to-gutter): use new gutter-element functions rather than + setting specifiers directly. + (clear-progress): ditto. + (abort-progress): ditto. + (gutter-buffers-tab-visible-p): renamed from + default-gutter-visible-p + + * specifier.el (modify-specifier-instances): new function from Jan + Vroonhof. + + * x-init.el (init-post-x-win): call init-gutter. + + * msw-init.el (init-post-mswindows-win): call init-gutter. + + * menubar-items.el (default-menubar): Update to reflect new gutter + variables. + +2000-02-26 Andy Piper + + * gutter-items.el (set-gutter-element): new function. Add gutter + elements to the specified gutter. + (remove-gutter-element): new function. Remove gutter elements from + the specified gutter. + (set-gutter-element-visible-p): new function. Set gutter element + visibility for the provided gutter-visible specifier. + +2000-02-23 Andy Piper + + * gutter-items.el (add-tab-to-gutter): specify dimensions + dynamically. + +2000-02-24 Martin Buchholz + + * gutter-items.el (add-tab-to-gutter): + * package-get.el (package-get-interactive-package-query): + * package-ui.el (pui-directory-exists): + (pui-install-selected-packages): + (pui-list-packages): + Use #'(lambda ...) instead of '(lambda ...). + +2000-02-21 Gregory Neil Shapiro + + * startup.el (load-user-init-file): Check to make sure user + has an init-file before calling load(). + +2000-02-20 Kirill 'Big K' Katsnelson + + * msw-glyphs.el (msgdi-device-p): Added this and 'msgdi specifier tag. + +2000-02-23 Martin Buchholz + + * XEmacs 21.2.31 is released. + +2000-02-21 Mike Sperber + + * loadup.el (really-early-error-handler): + * update-elc.el: + * make-docfile.el: + Remove dependency on EMACSBOOTSTRAP... environment variables. + +2000-02-21 Martin Buchholz + + * XEmacs 21.2.30 is released. + +2000-02-19 Martin Buchholz + + * byte-optimize.el (byte-optimize-plus): + (byte-optimize-minus): + (byte-optimize-multiply): + Optimize (- 0) to 0, not (-) + Optimize (+ 5 3.0) to 8.0 + Optimize (* 5 3.0) to 15.0 + Improve readability. + +2000-02-21 Jonathan Harris + + * modeline.el: (modeline-scrolling-method): change modeline + mswindows cursor appearance according to the value. + + * msw-faces.el: (mswindows-init-device-faces): Initialise 'default + and 'gui-element face colors and 'gui-element face font to Windows + defaults. + +2000-02-09 Stef Epardaud + + * font-lock.el: Javadoc enhancements + +1999-11-27 Oscar Figueiredo + + * ldap.el (toplevel): Test if LDAP support has been compiled in + (ldap-verbose): New option + (ldap-search-entries): Renamed from the previous ldap-search + Conditionalize message display on ldap-verbose + (ldap-add-entries, ldap-modify-entries, ldap-delete-entries): New + defuns + (ldap-search): Is now defined as an obsolete wrapper calling + ldap-search-basic or ldap-search-entries + + +1999-12-06 Hirokazu FUKUI + Shuhei KOBAYASHI + Jan Vroonhof + + * byte-optimize.el (byte-optimize-form-code-walker): Fixed. + When for-effect is true, didn't call `byte-optimize-form' + in and/or subforms without last. + +1999-12-07 Jan Vroonhof + + * package-get.el (package-get-download-sites): Use correct custom + type. + +2000-02-15 Kirill 'Big K' Katsnelson + + * files.el (write-file): Ask for coding system when compiled with + file-coding. + +2000-02-16 Andy Piper + + * buffer.el (switch-to-buffer): give norecord argument to + set-window-buffer instead of explicitly recording. + + * gutter-items.el (buffers-tab-switch-to-buffer): don't record if + we have to pick a window. + +1999-12-24 Yoshiki Hayashi + + * mule/mule-cmds.el (describe-language-support): Don't add + unexist function to help-map. + (describe-coding-system): Don't use already assigend `C'. + +2000-01-23 Bjrn Torkelsson + + * info.el (Info-save-auto-generated-dir): nil -> 'never to make it + work in custom. + +2000-02-04 Kazuyuki IENAGA + + * about.el: Ienaga's e-mail address change. + +2000-02-16 Samuel Mikes + + * etags.el (find-tag): force new window -- even if buf already + visible -- when other-window is t + +2000-02-16 Martin Buchholz + + * XEmacs 21.2.29 is released. + +2000-02-09 Martin Buchholz + + * cl-extra.el (getf): This is now identical to `plist-get', so + just defalias it. + * cl-macs.el: Make getf an alias to plist-get, at the + byte-compiler level, using define-compiler-macro. + +2000-02-08 Martin Buchholz + + * cl-extra.el (cl-remprop): Remove. remprop is now in C. + +2000-02-07 Kyle Jones + + * lisp/etags.el (find-tag-internal): set exact-tagname to + a regular expression that matches against the tagname + part of the tag entry first instead of only looking in + the context area. + +2000-01-23 Bjrn Torkelsson + + * gutter-items.el: fixed typo(s) in customizing default-gutter-position + * toobar.el: fixed typo(s) in customizing default-toolbar-position + 2000-02-07 Martin Buchholz * XEmacs 21.2.28 is released. @@ -1866,7 +2818,7 @@ 2000-02-02 Per Abrahamsen * wid-edit.el (widget-match-inline): An atom never matches a - list. + list. 2000-01-29 Kirill 'Big K' Katsnelson @@ -1890,9 +2842,9 @@ 2000-01-28 Martin Buchholz - * coding.el (dontusethis-set-value-file-name-coding-system-handler): - (dontusethis-set-value-terminal-coding-system-handler): - (dontusethis-set-value-keyboard-coding-system-handler): + * coding.el (dontusethis-set-value-file-name-coding-system-handler): + (dontusethis-set-value-terminal-coding-system-handler): + (dontusethis-set-value-keyboard-coding-system-handler): Never undefine coding system aliases. Emergency fix for gnus. 2000-01-26 Hrvoje Niksic @@ -1933,20 +2885,20 @@ * process.el (shell-quote-argument): Use (nt-quote-process-args) for windows-nt. - * version.el: - * startup.el (user-init-file-base): - * process.el (call-process-region): - * files.el (make-backup-file-name): - (backup-file-name-p): - (file-relative-name): - (abbreviate-file-name): - (set-auto-mode): + * version.el: + * startup.el (user-init-file-base): + * process.el (call-process-region): + * files.el (make-backup-file-name): + (backup-file-name-p): + (file-relative-name): + (abbreviate-file-name): + (set-auto-mode): * code-process.el (call-process-region): Removed unnecessary branching on 'windows-nt and 'ms-dos system types. Phased 'ms-dos support out of the universe. * process.el: - * code-process.el: + * code-process.el: * bytecomp.el (byte-compile-file): Removed reference to buffer-file-type, and commented usage of binary-process-output NTEmacs variables. @@ -2015,7 +2967,6 @@ a call to load-user-init-file, as the function managed to lose its formal parameter a few betas ago. - 2000-01-18 Martin Buchholz * XEmacs 21.2.27 is released. @@ -2798,7 +3749,7 @@ (ldap-encode-string): Guard against `encode-coding-string' not being defined -1999-08-23 Didier Verna +1999-08-23 Didier Verna * rect.el: Cosmetics suggested by Dave Love . Some doc strings improvements, and add a star to the `interactive' @@ -2833,14 +3784,14 @@ * gutter-items.el (remove-buffer-from-gutter-tab): fix *scratch* deletion problem. -1999-07-30 Didier Verna +1999-07-30 Didier Verna * cus-edit.el (custom-save-variables): I said, use prin1 instead of princ to output symbols. (custom-save-face-internal): ditto. (custom-save-resets): ditto. -1999-08-09 Didier Verna +1999-08-09 Didier Verna * gutter-items.el (select-buffers-tab-buffers-by-mode): use `regexp-quote' to protect the major mode name for use as a regular @@ -3531,7 +4482,7 @@ doc-directory. From Karl M. Hegbloom -1999-07-19 Didier Verna +1999-07-19 Didier Verna * rect.el: all functions rewritten, except when noted. Below is a list of interface changes. @@ -3582,7 +4533,7 @@ * gui.el (make-dialog-frame): turn off gutters for dialogs. -1999-07-15 Didier Verna +1999-07-15 Didier Verna * cus-edit.el (custom-prompt-variable): optional third arg makes prompt for a comment string. @@ -4295,7 +5246,7 @@ * simple.el (delete-key-deletes-forward): Revert to previous behavior. -1999-01-18 Didier Verna +1999-01-18 Didier Verna * menubar-items.el (xemacs-splash-buffer): handle the case of multiple elements in the splash buffer body. @@ -4333,7 +5284,7 @@ * package-get.el (package-get-custom): don't load package-get-custom as it is auto-generated. Fix group definition. -1999-03-05 Didier Verna +1999-03-05 Didier Verna * cus-dep.el (Custom-make-dependencies): use `prin1-to-string' instead of `symbol-name' (Thanks Kyle). @@ -4355,7 +5306,7 @@ * font-lock.el (font-lock-revert-cleanup): Null out to avoid repeated calls to font-lock during buffer reversion. -1999-02-12 Didier Verna +1999-02-12 Didier Verna * info.el (Info-build-node-completions): unconditionally widen the tag table buffer. @@ -4478,7 +5429,7 @@ * XEmacs 21.2.9 is released -1999-01-19 Didier Verna +1999-01-19 Didier Verna * replace.el (replace-search-function): new variable containing a function to perform a search-forward. @@ -4486,7 +5437,7 @@ to perform a re-search-forward. (perform-replace): use them. -1999-01-25 Didier Verna +1999-01-25 Didier Verna * select.el (selection-owner-p): use the name `XEmacs'. (cut-copy-clear-internal): ditto. @@ -4502,7 +5453,7 @@ * minibuf.el (minibuffer-completion-table): ditto. * cl-macs.el (return-from): ditto. -1999-01-04 Didier Verna +1999-01-04 Didier Verna * replace.el (delete-non-matching-lines): temporarily disable case-folding when called interactively with a regexp containing @@ -4585,7 +5536,7 @@ (pui-list-packages): Add warning when `package-get-remote' is nil. (package-ui-add-site): New function. -1998-12-01 Didier Verna +1998-12-01 Didier Verna * hyper-apropos.el (hyper-where-is): added the missing autoload. @@ -5068,7 +6019,7 @@ * package-get-base.el: removed. -1998-09-23 Didier Verna +1998-09-23 Didier Verna * simple.el (search-caps-disable-folding): moved from isearch-mode.el (no-upper-case-p): new function. @@ -5366,7 +6317,7 @@ * lisp-mode.el (with-string-as-buffer-contents): Set indentation. -1998-07-17 Didier Verna +1998-07-17 Didier Verna * faces.el (set-face-property): (set-face-dim-p): @@ -5964,7 +6915,7 @@ `save-some-buffers'. (save-some-buffers): Force redisplay only if windows were deleted. -1998-06-02 Didier Verna +1998-06-02 Didier Verna * cus-face.el (custom-face-attributes): generalized the use of toggle buttons for boolean attributes. @@ -6347,7 +7298,7 @@ Wed May 27, 1998 Darryl Okahata * simple.el (zap-up-to-char): New function. Behaves like `zap-to-char' in Emacs 18. -1998-05-13 Didier Verna +1998-05-13 Didier Verna * mouse.el (drag-window-divider): give the vertical divider a pressed look when dragging it. @@ -6847,7 +7798,7 @@ Wed May 27, 1998 Darryl Okahata * default.el: Removed. * site-start.el: Removed. -1998-04-29 Didier Verna +1998-04-29 Didier Verna * minibuf.el (minibuffer-history-minimum-string-length): Default to nil. @@ -6921,7 +7872,7 @@ Sat Apr 24 1998 Andy Piper * msw-glyphs.el: enable graphics support. -1998-04-23 Didier Verna +1998-04-23 Didier Verna * x-menubar.el (default-menubar): restored the line-number-mode option. @@ -6965,7 +7916,7 @@ Sat Apr 24 1998 Andy Piper * package-get.el (package-get-all): add `\n' separator to interactive specification so that both variables are read -1998-04-22 Didier Verna +1998-04-22 Didier Verna * x-menubar.el: ported the options menu to Custom. Moved the "read only" toggle button to the buffers menu. @@ -7104,7 +8055,7 @@ Thu Apr 16 12:59:35 1998 Andy Piper 1998-04-16 SL Baur * files.el (toggle-read-only): Fix docstring. - From Didier Verna + From Didier Verna 1998-04-14 Michael Sperber [Mr. Preprocessor] @@ -7747,7 +8698,7 @@ Tue Feb 17 12:50:37 1998 Andy Piper windows on the currently selected fgrame before searching other frames. -1998-02-25 Didier Verna +1998-02-25 Didier Verna * modeline.el (modeline-swap-buffers): originally named `mouse-release-modeline'. Whether to actually swap the buffers is @@ -7809,7 +8760,7 @@ Tue Feb 17 12:50:37 1998 Andy Piper configuration, hosing temp-buffer-show-function. -1998-02-23 Didier Verna +1998-02-23 Didier Verna * modeline.el (mouse-drag-modeline): - Always scroll the modeline that was originally clicked on. @@ -7818,7 +8769,7 @@ Tue Feb 17 12:50:37 1998 Andy Piper keep on dragging the modeline even if the motion event occurs in another window. -1998-02-23 Didier Verna +1998-02-23 Didier Verna * x-mouse.el (x-init-pointer-shape): use a crossed-arrows cursor glyph on the modeline to indicate that dragging the mouse has an @@ -7845,7 +8796,7 @@ Tue Feb 17 12:50:37 1998 Andy Piper Prevents display flickering when the mouse pointer moves. -1998-02-17 Didier Verna +1998-02-17 Didier Verna * mouse.el (default-mouse-track-set-point-in-window): rewrote this function to handle correctly the case of a toolbar one side of the @@ -7992,7 +8943,7 @@ Tue Feb 17 12:50:37 1998 Andy Piper * loadup.el: test-atoms debugging stuffs removed. -1998-02-03 Martin Buchholz > +1998-02-03 Martin Buchholz * lisp/loaddefs.el (completion-ignored-extensions): Add ".class" @@ -8175,7 +9126,7 @@ Tue Feb 17 12:50:37 1998 Andy Piper * (abbrev-mode): (put)'ed a `:menu-tag' on it and `auto-fill-function'. -1998-01-02 Karl M. Hegbloom <> +1998-01-02 Karl M. Hegbloom * modeline.el (modeline-minor-mode-menu): Changed the string-only menus to :style 'toggle. @@ -8199,7 +9150,7 @@ Tue Feb 17 12:50:37 1998 Andy Piper (toolbar-mail-reader): Add support for `send'. From Jonathan Marten -1998-01-05 Karl M. Hegbloom <> +1998-01-05 Karl M. Hegbloom * info.el (Info-emacs-info-file-name): Add defvar for `Info-emacs-info-file-name' so that `Info-goto-emacs-command-node' @@ -8266,7 +9217,7 @@ Tue Feb 17 12:50:37 1998 Andy Piper * packages.el (package-require): Update to reflect new data format. -1998-01-02 Didier Verna +1998-01-02 Didier Verna * x-menubar.el (default-menubar): make the tutorials available through the menubar. (Plus some compilation warnings cleanup). @@ -8516,7 +9467,7 @@ Tue Feb 17 12:50:37 1998 Andy Piper * cl.el (eql): Compare integers with `eq'. (cl-map-extents): Check for `map-extents' first. -1997-12-17 Didier Verna +1997-12-17 Didier Verna * leim/quail/latin-pre.el ("french-prefix"): doc string cleanup + added the 'numero', 'copyright' and 'trademark' symbols. diff --git a/lisp/ChangeLog.1 b/lisp/ChangeLog.1 index f72e3c1..df5627e 100644 --- a/lisp/ChangeLog.1 +++ b/lisp/ChangeLog.1 @@ -130,7 +130,7 @@ 1997-12-07 Hrvoje Niksic - * wid-edit.el (widget-prettyprint-to-string): Nix cl-prettyprint's + * wid-edit.el (widget-prettyprint-to-string): Nix cl-prettyprint's newlines. 1997-12-06 Hrvoje Niksic @@ -151,7 +151,7 @@ 1997-12-07 SL Baur - * egg/egg-cwnn-leim.el (egg-pinyin-activate): New file. Interface + * egg/egg-cwnn-leim.el (egg-pinyin-activate): New file. Interface to Chinese Wnn server. * egg/egg-kwnn-leim.el: New file. Interface to Korean Wnn @@ -237,10 +237,10 @@ 1997-12-05 Mark Borges * mail/mail-extr.el (all-top-level-domains): - Two letter country codes synched with + Two letter country codes synched with http://www.iana.org/in-notes/iana/assignments/country-codes as updated by the RIPE Network Coordination Centre. - Source: ISO 3166 Maintenance Agency + Source: ISO 3166 Maintenance Agency Latest change: Thu Aug 7 17:59:51 MET DST 1997 1997-12-03 Eric Eide @@ -331,7 +331,7 @@ 1997-11-29 SL Baur - * update-elc.el ((preloaded-file-list site-load-packages)): Modify + * update-elc.el ((preloaded-file-list site-load-packages)): Modify error message to be more build-report.el friendly. * dumped-lisp.el (preloaded-file-list): Remove tooltalk/ prefix @@ -367,7 +367,7 @@ * x-menubar.el (default-menubar): Disable WWW items in help menu if no browse-url. - * help.el (xemacs-www-page): Print error message intead of bombing + * help.el (xemacs-www-page): Print error message intead of bombing if not browse-url. (xemacs-www-faq): Ditto. @@ -389,14 +389,14 @@ * x-toolbar.el (pending-delete): Don't (require 'pending-del). * x-menubar.el (pending-delete): Don't (require 'pending-del). - * x-menubar.el (bookmark-menu-filter): Add guards against bookmark + * x-menubar.el (bookmark-menu-filter): Add guards against bookmark package not being loaded. * mule/char-table.el: Imported from tm. * mule/chartblxmas.el: Ditto. * alist.el: Ditto. * overlay.el: Unpackaged for Quail. - + * x-menubar.el (default-menubar): Put guard on evaluation of `ps-paper-type'. (default-menubar): Put guard on `paren-mode'. @@ -427,7 +427,7 @@ * packages.el (packages-useful-lisp): advice.el is a package. - * x-menubar.el (default-menubar): Make `Options ... Color Printing' + * x-menubar.el (default-menubar): Make `Options ... Color Printing' a toggle. 1997-11-26 Kyle Jones @@ -448,7 +448,7 @@ 1997-11-25 Hrvoje Niksic - * custom.el (custom-declare-variable): Attach the symbol to + * custom.el (custom-declare-variable): Attach the symbol to load history. 1997-11-23 SL Baur @@ -505,7 +505,7 @@ 1997-11-17 Marc Paquette * efs/dired.el: Removed special case for windows-nt in - dired-get-filename(); no longer needed because we now do + dired-get-filename(); no longer needed because we now do CRLF->LF conversion upstream. 1997-11-18 Jonathan Harris @@ -657,9 +657,9 @@ 1997-11-12 Greg Klanderman - * packages/compile.el (compilation-build-compilation-error-regexp-alist): + * packages/compile.el (compilation-build-compilation-error-regexp-alist): Added documentation for this function. - + ** (compilation-error-regexp-systems-list): Update documentation to note that `compilation-build-compilation-error-regexp-alist' must be called after changing the value. Update customization to @@ -751,7 +751,7 @@ * utils/shadow.el (list-load-path-shadows): Supress message when no shadowings are found. - * loadup.el: Modify algorithm for finding initial lisp directories + * loadup.el: Modify algorithm for finding initial lisp directories since the search now starts from lisp/ not lisp/prim/. * update-elc.el: Ditto. * make-docfile.el: Ditto. @@ -856,7 +856,7 @@ Wed Nov 05 23:40:00 1997 Jonathan Harris Reinstated code that uses (mono x) as a specifer tag, but conditioned it on (featurep 'x) because x is not a valid specifier tag under native-win32. - + * Added file headers to: w32-faces.el, w32-init.el @@ -937,7 +937,7 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris 1997-11-07 Kyle Jones * prim/modeline.el (mouse-drag-modeline): Don't - allow the window size to shrink to a size that is not a + allow the window size to shrink to a size that is not a multiple of the height of the default face's font. * prim/modeline.el (mouse-drag-modeline): Don't @@ -961,12 +961,12 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris 1997-11-05 Jens-Ulrik Holger Petersen * mule/mule-cmds.el (set-default-coding-systems): Make - add-hook to `comint-exec-hook' be an append, for when the user + add-hook to `comint-exec-hook' be an append, for when the user changes language environment say. 1997-11-05 SL Baur - * prim/winnt.el: Use a cleaner method for getting Text/Binary file + * prim/winnt.el: Use a cleaner method for getting Text/Binary file type in the mode-line for MS Windows. 1997-11-06 Hrvoje Niksic @@ -1005,7 +1005,7 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris fontifying after fontify-buffer. (lazy-shot-unstall): Make sure buffer is left in a fontified state if needed. Take optional argument. - + * packages/ps-print.el (ps-print-ensure-fontified): Added temporary support for lazy-shot. @@ -1014,10 +1014,10 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris * utils/text-props.el (set-text-properties): Updated docstring. -1997-11-04 Didier Verna +1997-11-04 Didier Verna - * mule/mule-cmds.el (set-default-coding-systems): - The coding-system argument to comint-exec-hook wasn't evaluated + * mule/mule-cmds.el (set-default-coding-systems): + The coding-system argument to comint-exec-hook wasn't evaluated before building the lambda expression. 1997-11-04 Jens-Ulrik Holger Petersen @@ -1088,7 +1088,7 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris * shell.el (shell-chdrive-regexp): New for DOS/NT (shell-mode): Added shell-font-lock-keywrods (shell-mode): Use $PWD for ksh - (shell-directory-tracker): Use dirs and dirtrack-toggle. This may + (shell-directory-tracker): Use dirs and dirtrack-toggle. This may cause problems at is interferes with "dired" (shell-snarf-envar): NEW (shell-copy-environment-variable): NEW @@ -1165,7 +1165,7 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris characters, instead of consing a string each time. (synthesize-keysym): Better error checking. - * prim/keymap.el (synthesize-keysym): Don't bug out when reading a + * prim/keymap.el (synthesize-keysym): Don't bug out when reading a non-character event. 1997-11-02 Tomasz Cholewo @@ -1191,7 +1191,7 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris * prim/packages.el: Updated commentary. (packages-useful-lisp): Added `cl-macs'. -1997-10-27 Didier Verna +1997-10-27 Didier Verna * prim/help-nomule.el (help-with-tutorial): The 'didactic' blank lines message is now taken directly from each tutorial, and thus @@ -1213,7 +1213,7 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris Suggested by Michael Kifer * mule/mule-init.el: Remove `help-with-tutorial-for-mule'. - Suggested by Didier Verna + Suggested by Didier Verna * Disable Cyrillic CCL until CCL engine gets fixed. From: Martin Buchholz @@ -1230,7 +1230,7 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris 1997-10-30 SL Baur - * vm/vm-vars.el (vm-image-directory): Use locate-data-directory if + * vm/vm-vars.el (vm-image-directory): Use locate-data-directory if it exists. * language/european.el: Remove erroneous references to @@ -1438,7 +1438,7 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris * modes/enriched.el (enriched-face-ans): Use color-name instead of color-instance-name. - color-instance-name will not handle the specifiers that + color-instance-name will not handle the specifiers that are passed as arguments. 1997-10-28 Tomasz Cholewo @@ -1451,14 +1451,14 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris * pcl-cvs/pcl-cvs-xemacs.el: Add `cvs-mode-update-no-prompt' to menu. From Stig Bjorlykke -1997-10-28 Didier Verna +1997-10-28 Didier Verna * packages/man.el (manual-entry): corrected the `when' form to include 'section' in the buffer name. 1997-10-28 SL Baur - * prim/packages (packages-find-pacakges): Fix test on + * prim/packages (packages-find-pacakges): Fix test on inhibit-package-init 1997-10-27 Tomasz Cholewo @@ -1488,7 +1488,7 @@ Sun Nov 01 12:00:00 1997 Jonathan Harris * egg/egg-leim.el: Registers EGG/Wnn with LEIM when loaded * egg/egg.el: Bind `toggle-egg-mode' to "\C-\" only if LEIM is - not present when loaded + not present when loaded 1997-10-27 SL Baur @@ -1610,7 +1610,7 @@ Fri Aug 8 12:58:00 1997 David Byers 1997-10-23 Per Abrahamsen * custom/cus-edit.el (hook): Use `widget-group-match' instead of - `widget-editable-list-match'. + `widget-editable-list-match'. 1997-10-23 SL Baur @@ -1626,7 +1626,7 @@ Fri Aug 8 12:58:00 1997 David Byers 1997-10-20 Jan Vroonhof * extents.c: Renamed shot property to initial-redisplay-function - (extent_fragment_update): Changed the bookkeeping whether an event + (extent_fragment_update): Changed the bookkeeping whether an event has been spawned. The initial-redisplay-function property is no longer set to nil. @@ -1641,7 +1641,7 @@ Fri Aug 8 12:58:00 1997 David Byers 1997-10-22 Hrvoje Niksic - * prim/startup.el (command-line-1): Run term-setup-hook regardless + * prim/startup.el (command-line-1): Run term-setup-hook regardless of `input-pending-p'. * custom/cus-edit.el (custom-split-regexp-maybe): Use `split-string'. @@ -1681,7 +1681,7 @@ Fri Aug 8 12:58:00 1997 David Byers 1997-10-21 SL Baur - * prim/about.el (about-maintainer-glyph): Pictures have been moved + * prim/about.el (about-maintainer-glyph): Pictures have been moved to photos subdirectory. 1997-10-21 Hrvoje Niksic @@ -1696,7 +1696,7 @@ Fri Aug 8 12:58:00 1997 David Byers 1997-10-21 Colin Rafferty * x11/x-menubar.el (default-menubar): Made it use lazy-shot - instead of lazy-lock in "Syntax Highlighting->Lazy". + instead of lazy-lock in "Syntax Highlighting->Lazy". (options-menu-saved-forms): Made it save lazy-shot instead of lazy-lock in the options. @@ -1778,12 +1778,12 @@ Fri Aug 8 12:58:00 1997 David Byers * help.el (function-at-point): Use `function-at-point-function'. (function-at-point-function): New variable, formerly - `find-function-function'. + `find-function-function'. (describe-function): Use `function-at-point'. (where-is): Ditto. * find-func.el (find-function-read-function): Use - `function-at-point'. + `function-at-point'. * packages/info.el (Info-elisp-ref): Use `function-at-point'. @@ -1806,7 +1806,7 @@ Fri Aug 8 12:58:00 1997 David Byers * prim/packages.el (packages-find-packages-1): New argument: `user-package' non-nil when searching user packages. - Load any autoloads found in user packages. - + 1997-10-17 Karl M. Hegbloom * packages/info.el (Info-insert-dir): Also kill the localdir temp @@ -1817,7 +1817,7 @@ Fri Aug 8 12:58:00 1997 David Byers * utils/facemenu.el: autoload the `facemenu-keymap' properly. * mule/mule-cmds.el (read-language-name): Fix typo. - From Didier Verna + From Didier Verna 1997-10-15 Adrian Aichner @@ -1886,7 +1886,7 @@ Fri Aug 8 12:58:00 1997 David Byers From Hrvoje Niksic * prim/glyphs.el (init-glyphs): Use different logo for beta XEmacsen. - From Didier Verna + From Didier Verna 1997-10-15 Hrvoje Niksic @@ -1915,7 +1915,7 @@ Fri Aug 8 12:58:00 1997 David Byers * custom/wid-edit.el: (widget-glyph-insert-glyph): Use `widget-mouse-help' if necessary. - (widget-documentation-string-value-create): Don't coerce help-echo + (widget-documentation-string-value-create): Don't coerce help-echo WIDGET to widget. (widget-button-keymap): New keymap. (widget-specify-button): Use it. @@ -1985,7 +1985,7 @@ Fri Aug 8 12:58:00 1997 David Byers 1997-10-14 SL Baur * default.el: New file. - * site-start.el: New file. XEmacs starts faster if dummy versions + * site-start.el: New file. XEmacs starts faster if dummy versions of these files are found early in the `load-path'. Suggested by Kyle Jones @@ -2049,7 +2049,7 @@ Fri Aug 8 12:58:00 1997 David Byers * custom/cus-face.el (custom-face-attributes): Support inverse-video for TTY-s. - * prim/cmdloop.el (keyboard-escape-quit): Abort recursive edit, as + * prim/cmdloop.el (keyboard-escape-quit): Abort recursive edit, as documented. 1997-10-12 Hrvoje Niksic @@ -2103,7 +2103,7 @@ Fri Aug 8 12:58:00 1997 David Byers * '' Added toplevel block (when (fboundp 'load-gc) ...to init the Info-def..list from the environment variable INFOPATH at dump time. - + * prim/packages.el (packages-find-packages-1): append the list of packages info directories to `Info-default-directory-list' rather than prepending them. Don't add them if they're already in the @@ -2112,7 +2112,7 @@ Fri Aug 8 12:58:00 1997 David Byers * packages/info.el (Info-directory-list): various fixes to the directory list handling. * (Info-localdir-heading-regexp) added. - + * '' removed the unrequired defcustom of `Info-default-directory- list' @@ -2153,7 +2153,7 @@ Fri Aug 8 12:58:00 1997 David Byers * packages/bookmark.el: * packages/iswitchb.el: * utils/speedbar.el: - * utils/xemacs-build-report.el: + * utils/xemacs-build-report.el: - change Xemacs --> XEmacs 1997-10-09 Colin Rafferty @@ -2167,7 +2167,7 @@ Fri Aug 8 12:58:00 1997 David Byers (describe-function-arglist): Commented out -- seems unused. (find-function): ALL find-function stuff moved to "find-func.el" - * prim/find-func.el: new file created from functions previously in + * prim/find-func.el: new file created from functions previously in "help.el". 1997-10-09 SL Baur @@ -2203,7 +2203,7 @@ Fri Oct 3 23:10:04 1997 Barry A. Warsaw Fri Sep 26 23:30:58 1997 Barry A. Warsaw - * cc-mode/cc-menus.el: Patches to Imenu support given by + * cc-mode/cc-menus.el: Patches to Imenu support given by "Masatake (jet) YAMATO" . (Jan Dubois) jan.dubois@ibm.net @@ -2226,9 +2226,9 @@ Mon Sep 22 15:47:02 1997 Barry A. Warsaw * x11/x-menubar.el (file-menu-filter): Reverse sense of bounds test. - From: Didier Verna + From: Didier Verna - * prim/format.el (format-annotate-function): Reverse sync to Emacs + * prim/format.el (format-annotate-function): Reverse sync to Emacs 19. 1997-10-08 Hrvoje Niksic @@ -2316,7 +2316,7 @@ Mon Sep 22 15:47:02 1997 Barry A. Warsaw * mule/mule-cmds.el (read-input-method-name): Use a default if available. - From Didier Verna + From Didier Verna * prim/about.el (about-url-alist): Update jwz's home page. @@ -2346,7 +2346,7 @@ Mon Sep 22 15:47:02 1997 Barry A. Warsaw 1997-10-05 Hrvoje Niksic - * prim/simple.el: Minor docstring and comment changes. Customized + * prim/simple.el: Minor docstring and comment changes. Customized some more. 1997-10-04 Hrvoje Niksic @@ -2386,7 +2386,7 @@ Mon Sep 22 15:47:02 1997 Barry A. Warsaw * cl/cl-seq.el (remq): Reformat and add doc-string. Suggested by: Karl M. Hegbloom - + 1997-10-03 Karl M. Hegbloom * packages/func-menu.el: change the countups from message's to @@ -2432,7 +2432,7 @@ Mon Sep 22 15:47:02 1997 Barry A. Warsaw (custom-declare-face): Don't invoke init-face-from-resources explicitly. - * prim/profile.el (pretty-print-profiling-info): When interactive, + * prim/profile.el (pretty-print-profiling-info): When interactive, use a separate buffer instead of current-buffer. (pretty-print-profiling-info): Prettified output. @@ -2984,7 +2984,7 @@ Mon Sep 29 02:11:35 1997 Kyle Jones (widget-text-keymap): Use it. (widget-princ-to-string): Use `with-current-buffer'. (widget-map-buttons): Ditto. - (widget-push-button-gui): Set to value of `widget-glyph-enable' by + (widget-push-button-gui): Set to value of `widget-glyph-enable' by default. (widget-push-button-value-create): Call `widget-specify-button'. @@ -3007,7 +3007,7 @@ Mon Sep 29 02:11:35 1997 Kyle Jones * x11/x-menubar.el: Customized. - * custom/cus-face.el (face-spec-set-match-display): Use `warn' for + * custom/cus-face.el (face-spec-set-match-display): Use `warn' for warnings. * x11/x-font-menu.el: Customized. @@ -3123,7 +3123,7 @@ Mon Sep 29 02:11:35 1997 Kyle Jones 1997-09-18 Jens-Ulrik Holger Petersen * prim/isearch-mode.el (isearch-message): Display-message as - progress (this way isearch message won't appear in the message + progress (this way isearch message won't appear in the message log). 1997-09-18 Jens-Ulrik Holger Petersen @@ -3149,7 +3149,7 @@ Mon Sep 29 02:11:35 1997 Kyle Jones * prim/packages.el (locate-library): Simplify regexp for compression suffixes. Suggested by: Hrvoje Niksic - + 1997-09-17 Karl M. Hegbloom * ilisp/ilisp-out.el (ilisp-scroll-output): bind `scroll-in-place' @@ -3220,7 +3220,7 @@ Fri Sep 5 04:47:03 1997 Barry A. Warsaw I don't know if this breaks something else, because I can't figure out why it was commented out in the first place. - + * cc-mode/cc-langs.el: Define `/' in c-mode-base-map since all modes now support c-electric-slash. @@ -3389,7 +3389,7 @@ Fri Sep 5 04:47:03 1997 Barry A. Warsaw 1997-09-11 Jens-Ulrik Holger Petersen - * packages/vc.el (vc-default-init-version): Make the default value + * packages/vc.el (vc-default-init-version): Make the default value be `nil'. Improve the docstring. 1997-09-12 SL Baur @@ -3508,7 +3508,7 @@ Fri Aug 15 18:39:10 1997 Barry A. Warsaw 1997-09-09 Jens-Ulrik Holger Petersen - * packages/vc.el (vc-register): make the second option arg COMMENT + * packages/vc.el (vc-register): make the second option arg COMMENT do something * packages/vc.el (vc-register): Make the default initial @@ -3522,7 +3522,7 @@ Fri Aug 15 18:39:10 1997 Barry A. Warsaw 1997-09-07 Hrvoje Niksic - * utils/edmacro.el (edmacro-parse-word): Accept ^foo (would signal + * utils/edmacro.el (edmacro-parse-word): Accept ^foo (would signal error). (edmacro-format-1): Add SPC after ^. @@ -3535,7 +3535,7 @@ Fri Aug 15 18:39:10 1997 Barry A. Warsaw always has directories ending with trailing `/'s. * version.el (emacs-version): Preserve previous matching info. - From Didier Verna + From Didier Verna Wed Sep 3 13:53:10 1997 SL Baur @@ -3571,7 +3571,7 @@ Wed Sep 3 13:53:10 1997 SL Baur 1997-09-01 SL Baur - * x11/x-menubar.el (default-menubar): Put tetris in the game menu, + * x11/x-menubar.el (default-menubar): Put tetris in the game menu, and move it and the mine game to the top of the menu. 1997-08-29 SL Baur @@ -3881,28 +3881,28 @@ Sat Jul 26 16:03:33 1997 Barry A. Warsaw * support for "dir" merging 'ala Emacs-19.34, with fallback to cheap localdir files in the secondary info directories. - + * changed default `Info-annotations-path' from ~/.infonotes to ~/.xemacs/info.notes - + * added `Info-additional-directory-list' - + * changed a call to w3-fetch to browse-url - + * added new variables and functions from GNU Emacs 19.34: `Info-dir-contents', `Info-dir-contents-directory', `Info-dir-file-attributes', and the function `Info-insert-dir' - + * rewrote `Info-suffixed-file' to a cond block rather than nested if's for aesthetic reasons. - + * made the top line get split if it's longer than 79 characters and tweaked fontification to handle that. - + * changed the look of the pop-up mouse menus by utilizing the "--:etchedThing" dividers. - + * several docstring reformats and typo fixes, a few comments deleted. @@ -4006,7 +4006,7 @@ Thu Jul 17 03:36:22 1997 Barry A. Warsaw 1997-07-24 SL Baur - * prim/make-docfile.el (docfile-out-of-date): Workaround for NEWOS + * prim/make-docfile.el (docfile-out-of-date): Workaround for NEWOS process exit handling bug. Suggested by Katsumi Yamaoka @@ -4036,7 +4036,7 @@ Thu Jul 17 03:36:22 1997 Barry A. Warsaw 1997-07-21 SL Baur - * prim/packages.el (locate-data-directory): New function to search + * prim/packages.el (locate-data-directory): New function to search for directories in the data-directory-list. 1997-07-21 Karl M. Hegbloom @@ -4079,7 +4079,7 @@ Thu Jul 17 03:36:22 1997 Barry A. Warsaw (speedbar-get-focus): Autoload. (speedbar): Autoload (correctly). - (speedbar-frame-width): Test liveness of frame + (speedbar-frame-width): Test liveness of frame too. (speedbar-frame-mode): Avoid some Emacs 20 code. From Markus Linnala @@ -4115,7 +4115,7 @@ Thu Jul 17 03:36:22 1997 Barry A. Warsaw 1997-07-16 Steven L Baur - * utils/crontab.el (crontab-get): Check for `no crontab for' as an + * utils/crontab.el (crontab-get): Check for `no crontab for' as an error return. Suggested by Jeff Miller @@ -4247,7 +4247,7 @@ Wed Jul 9 22:08:58 1997 Barry A. Warsaw * prim/files.el: Use `files' group. - * prim/disp-table.el (describe-display-table): Made it work; don't + * prim/disp-table.el (describe-display-table): Made it work; don't use `describe-vector'. * prim/gui.el: Customized. @@ -4273,7 +4273,7 @@ Wed Jul 9 22:08:58 1997 Barry A. Warsaw * packages/igrep.el: Don't insinuate XEmacs when loading. (igrep-insinuate): New function. - * packages/blink-cursor.el (blink-cursor-callback): Don't blink on + * packages/blink-cursor.el (blink-cursor-callback): Don't blink on TTY-s. * prim/console.el (resume-pid-console): Use `eql'. @@ -4342,7 +4342,7 @@ Wed Jul 9 22:08:58 1997 Barry A. Warsaw * packages/pending-del.el (pending-delete-pre-hook): Don't quote lambda. (pending-delete-pre-hook): Use `error-message-string'. - (pending-delete): Treat as minor mode; define the standard turn-on + (pending-delete): Treat as minor mode; define the standard turn-on and turn-off functions. (delete-active-region): Simplified. @@ -4353,10 +4353,10 @@ Wed Jul 9 22:08:58 1997 Barry A. Warsaw * packages/pending-del.el: Correct typo in Hrvoje's upgrade. * mel/mel-u.el (uuencode-external-decode-region): Force - buffer-read-only nil because it gets changed magically to t during + buffer-read-only nil because it gets changed magically to t during the call to `insert-file-contents'. - * tm/tm-image.el (mime-preview/filter-for-image): Comment out test + * tm/tm-image.el (mime-preview/filter-for-image): Comment out test for invalid glyph. It appears to be non-functional. * modes/lisp-mode.el (lisp-interaction-mode-popup-menu-1): Add @@ -4542,7 +4542,7 @@ Fri Jun 20 20:40:33 1997 Barry A. Warsaw * hypberbole/hact.el (action:commandp): Don't reference bytecode objects as vectors. (action:params): Ditto. - + * hyperbole/hypb.el (hypb:function-copy): Don't reference byte code objects as vectors. (hypb:function-symbol-replace): Document as broken. The @@ -4567,7 +4567,7 @@ Fri Jun 20 20:40:33 1997 Barry A. Warsaw * utils/easymenu.el (easy-menu-add): Oops, wrong sense in comparison. - * comint/gdb.el (gdb-mode-syntax-table): New variable. Initialize + * comint/gdb.el (gdb-mode-syntax-table): New variable. Initialize with the logic currently in CC Mode 5.11. (gdb-mode): Use it. @@ -4620,7 +4620,7 @@ Fri Jun 20 20:40:33 1997 Barry A. Warsaw * prim/cmdloop.el (errors-deactivate-region): Default to existing behavior. - * leim/quail.el (quail-mode): Correct addition of quail minor mode + * leim/quail.el (quail-mode): Correct addition of quail minor mode info to minor-mode-map-alist. (top-level): Ditto. @@ -4678,7 +4678,7 @@ Fri Jun 20 20:40:33 1997 Barry A. Warsaw make it look better (and will prevent some consing, but that's being anal). From Hrvoje Niksic - + * prim/simple.el (delete-key-deletes-forward): Mark docstring as an user option. From Gary D. Foster @@ -4688,10 +4688,10 @@ Fri Jun 20 20:40:33 1997 Barry A. Warsaw * efs/efs-ovwrt.el (efs-overwrite-fn): efs is manufacturing its own byte code. Whee. - * utils/advice.el (ad-interactive-form): Don't treat bytecode as a + * utils/advice.el (ad-interactive-form): Don't treat bytecode as a vector if it can be avoided. From Kyle Jones - + 1997-06-30 Steven L Baur * prim/files.el (auto-mode-alist): Don't set image-mode by default @@ -4699,7 +4699,7 @@ Fri Jun 20 20:40:33 1997 Barry A. Warsaw Sun Jun 29 20:57:15 1997 Kyle Jones - * prim/simple.el: bind inhibit-read-only to t before + * prim/simple.el: bind inhibit-read-only to t before trying to erase or otherwise modify the echo area buffer. 1997-07-01 MORIOKA Tomohiko @@ -4728,7 +4728,7 @@ Sun Jun 29 03:02:10 1997 Kyle Jones * src/undo.c (record_extent): If the extent's object is a string, just return. We can't record undo information for strings, and it is - very bad to reference through a string pointer as if it + very bad to reference through a string pointer as if it were a buffer pointer. 1997-06-28 Steven L Baur @@ -4775,7 +4775,7 @@ Sun Jun 29 03:02:10 1997 Kyle Jones * utils/autoload.el (batch-update-directory): Kill command line args when done. (autoload-save-customization): Print a warning message with the - offending symbol when we run across the elusive malformed property + offending symbol when we run across the elusive malformed property list ((0 0)). 1997-06-26 Hrvoje Niksic @@ -4784,7 +4784,7 @@ Sun Jun 29 03:02:10 1997 Kyle Jones (pretty-print-profiling-info): Allow interactive calls. * prim/overlay.el: Make more FSF compatible. - + 1997-06-27 Steven L Baur * prim/loaddefs.el (debug-ignored-errors): Fix regexps. @@ -4893,7 +4893,7 @@ Sun Jun 29 03:02:10 1997 Kyle Jones Mule menu because they bombed after recompilation. * packages/hyper-apropos.el - (hyper-apropos-toggle-programming-flag): Use `with-current-buffer' + (hyper-apropos-toggle-programming-flag): Use `with-current-buffer' instead of `eval-in-buffer'. * term/sun-mouse.el: Remove bogus redefinition of @@ -4904,7 +4904,7 @@ Sun Jun 29 03:02:10 1997 Kyle Jones * prim/make-docfile.el: Use princ not print. Suggested by Hrvoje Niksic. - * packages/info.el (Info-select-node): Desensitive case search for + * packages/info.el (Info-select-node): Desensitive case search for Note:. (Info-next-reference): Ditto. * prim/simple.el (kill-region): Adjust endpoints of extent to @@ -4915,7 +4915,7 @@ Sun Jun 29 03:02:10 1997 Kyle Jones * prim/subr.el (eval-in-buffer): Make obsolete. Suggested by Hrvoje Niksic. - * packages/hyper-apropos.el (hyper-apropos-faces): Change group to + * packages/hyper-apropos.el (hyper-apropos-faces): Change group to 'faces. Suggested by Per Abrahamsen. @@ -4926,7 +4926,7 @@ Sun Jun 29 03:02:10 1997 Kyle Jones - Get keybinding before command is executed. Suggested by Kyle Jones and Steve Baur. - + 1997-06-24 Steven L Baur * packages/gnuserv.el: Make old symbols Obsolete. @@ -4936,7 +4936,7 @@ Sun Jun 29 03:02:10 1997 Kyle Jones minibuffer. * prim/minibuf.el (minibuffer-keyboard-quit): Ditto. From Hrvoje Niksic - + * prim/help.el (help-mode-quit): Bury buffer when quitting. From Hrvoje Niksic @@ -4964,7 +4964,7 @@ Mon Jun 23 12:33:52 1997 Per Abrahamsen 1997-06-23 Hrvoje Niksic - * packages/info.el (Info-next-reference): Fix up for M-TAB to work + * packages/info.el (Info-next-reference): Fix up for M-TAB to work correctly. * utils/live-icon.el (live-icon-one-frame): Don't set glyphs to @@ -4990,7 +4990,7 @@ Mon Jun 23 12:33:52 1997 Per Abrahamsen 1997-06-22 Steven L Baur - * x11/x-menubar.el (default-menubar): Make `Jump to bookmark' menu + * x11/x-menubar.el (default-menubar): Make `Jump to bookmark' menu dynamic. From Gary D. Foster @@ -5061,7 +5061,7 @@ Mon Jun 23 12:33:52 1997 Per Abrahamsen * prim/tabify.el (untabify): Return nil. From contributor name lost. - * prim/packages.el (packages-hardcoded-lisp): startup.elc needs to + * prim/packages.el (packages-hardcoded-lisp): startup.elc needs to be scanned for docstrings. 1997-06-21 Hrvoje Niksic @@ -5088,7 +5088,7 @@ Mon Jun 23 12:33:52 1997 Per Abrahamsen 1997-06-20 Steven L Baur - * utils/autoload.el (fixup-autoload-buffer): New function. Insert + * utils/autoload.el (fixup-autoload-buffer): New function. Insert guards so a (load "auto-autoloads") works the same as require. (batch-update-directory): Use it. @@ -5142,11 +5142,11 @@ Mon Jun 23 12:33:52 1997 Per Abrahamsen From Karl M. Hegbloom (archive-mode-map): Bind it to `q'. - * utils/autoload.el (cusload-file-name): Default to custom-load.el + * utils/autoload.el (cusload-file-name): Default to custom-load.el for each individual file. * prim/minibuf.el (minibuffer-max-depth-exceeded): Use - `custom-file' as a location for saving enable multiple minibuffers + `custom-file' as a location for saving enable multiple minibuffers option. * packages/man.el (manual-entry): Don't leave empty buffer if @@ -5168,14 +5168,14 @@ Mon Jun 23 12:33:52 1997 Per Abrahamsen 1997-06-17 Steven L Baur - * prim/files.el (auto-mode-alist): Add /app-defaults/ as candidate + * prim/files.el (auto-mode-alist): Add /app-defaults/ as candidate for xrdb-mode. Suggested by Karl Hegbloom, Regexp by David Moore. - * version.el: Remove variables emacs-version, emacs-major-version, + * version.el: Remove variables emacs-version, emacs-major-version, and emacs-minor-version. - * tooltalk/tooltalk-load.el: Comment as obsolete and move contents + * tooltalk/tooltalk-load.el: Comment as obsolete and move contents to dumped-lisp.el. * prim/make-docfile.el: New file. @@ -5199,7 +5199,7 @@ Mon Jun 23 12:33:52 1997 Per Abrahamsen * prim/dumped-lisp.el: New file. - * prim/update-elc.el (toplevel): Rework using a better function to + * prim/update-elc.el (toplevel): Rework using a better function to determine autoload file locations. * prim/packages.el: New file. @@ -5240,16 +5240,16 @@ Mon Jun 23 12:33:52 1997 Per Abrahamsen as an option. Eliminate XEmacs specific autoloads. From Hrvoje Niksic - + * efs/dired.el (dired-save-excursion): Ebola cleanup. * packages/hyper-apropos.el: Massive cleanup, Customize. - From Hrvoje Niksic + From Hrvoje Niksic Fri Jun 13 13:20:39 1997 Kyle Jones * prim/syntax.el (symbol-near-point): - Check for bobp and avoid (char-syntax (char-before)) if + Check for bobp and avoid (char-syntax (char-before)) if there. 1997-06-13 Steven L Baur @@ -5267,7 +5267,7 @@ Fri Jun 13 13:20:39 1997 Kyle Jones * modes/make-mode.el (makefile-browse): Shouldn't be interactive. From Hrvoje Niksic - * prim/files.el (interpreter-mode-alist): ksh-mode is obsoleted by + * prim/files.el (interpreter-mode-alist): ksh-mode is obsoleted by sh-script. From Hrvoje Niksic @@ -5276,7 +5276,7 @@ Fri Jun 13 13:20:39 1997 Kyle Jones * prim/subr.el (with-current-buffer): New macro. (with-temp-file): Ditto. - * bytecomp/byte-optimize.el (byte-optimize-form-code-walker): Test + * bytecomp/byte-optimize.el (byte-optimize-form-code-walker): Test for `save-current-buffer'. * bytecomp/bytecomp.el: Recognize `save-current-buffer'. @@ -5358,7 +5358,7 @@ Fri Jun 13 13:20:39 1997 Kyle Jones From Heiko Muenkel 1997-06-10 Gary D. Foster - + * modes/view-less.el: Changed \177 bindings to 'delete * modes/help.el: Changed \177 bindings to 'delete @@ -5378,7 +5378,7 @@ Fri Jun 13 13:20:39 1997 Kyle Jones * modes/cc-mode.el: * modes/cperl-mode.el: Fixed references to delete functions to use the new names. - + 1997-06-11 Karl M Hegbloom * ilisp/ilisp-def.el (toplevel): Changed `ilisp-prefix' from @@ -5462,7 +5462,7 @@ Fri Jun 13 13:20:39 1997 Kyle Jones Change usage of \177 to use keysym 'delete. From Gary D. Foster - * packages/etags.el (tags-loop-scan): Don't pass a straight string + * packages/etags.el (tags-loop-scan): Don't pass a straight string to error as a format string. Reported by Miles Duke @@ -5487,9 +5487,9 @@ Fri Jun 13 13:20:39 1997 Kyle Jones 1997-06-04 Gary D. Foster - * modes/cc-mode.el: Modified `c-electric-delete' to honor the + * modes/cc-mode.el: Modified `c-electric-delete' to honor the desired delete direction in both normal and "hungry" modes. - * modes/cperl-mode.el: Modified `cperl-electric-backspace' to + * modes/cperl-mode.el: Modified `cperl-electric-backspace' to honor the desired delete direction. 1997-06-03 MORIOKA Tomohiko @@ -5512,9 +5512,9 @@ Fri Jun 13 13:20:39 1997 Kyle Jones * modes/*.el: Removed conflicting \177 bindings. * modes/cc-mode.el: Modified `c-electric-delete' to use new delete bindings. - * modes/cperl-mode.el: Modified `cperl-electric-backspace' to + * modes/cperl-mode.el: Modified `cperl-electric-backspace' to use new delete bindings. - + 1997-06-03 MORIOKA Tomohiko * leim/quail.el: to sync with quail.el of Emacs-19.34.94-epsilon. @@ -5540,7 +5540,7 @@ Fri Jun 13 13:20:39 1997 Kyle Jones * prim/about.el: Installed new version 2.1. From Hrvoje Niksic - + * prim/profile.el (pretty-print-profiling-info): Autoload don't dump. Clean up comments. @@ -5586,7 +5586,7 @@ Fri Jun 13 13:20:39 1997 Kyle Jones as toolbar callbacks. From weiner@altrasoft.com - * prim/mouse.el (default-mouse-track-cleanup-extent): Correct test + * prim/mouse.el (default-mouse-track-cleanup-extent): Correct test on dead-func extent. * prim/help.el (view-emacs-news): outl-mouse turned off in @@ -5750,7 +5750,7 @@ Tue May 27 13:42:57 1997 Ken Manheimer `icomplete-max-delay-chars' - Maximum number of initial chars to apply icomplete compute delay. - + `icomplete-compute-delay' - Completions-computation stall, used only with large-number completions @@ -5802,7 +5802,7 @@ Fri May 30 18:39:01 1997 Hrvoje Niksic (insert-parentheses): Let a negative argument enclose preceding sexps. From Erik Naggum - + * prim/window-xemacs.el: New file, split from window.el with XEmacs-specific stuff. @@ -5814,12 +5814,12 @@ Fri May 30 18:39:01 1997 Hrvoje Niksic * prim/window.el (kill-buffer-and-window): New command. Bind it to C-x 4 0. From Richard Stallman - + * prim/window.el (split-window-vertically): Don't change point in old window if both the original point and the end of the buffer are visible after splitting, when split-window-keep-point is nil. From Noah Friedman - + * prim/files.el (revert-buffer-internal-hook): Declare. * utils/map-ynp.el: Synch with Emacs 19.34.94. @@ -5877,7 +5877,7 @@ Thu May 29 19:03:52 1997 Per Abrahamsen standard-value for Custom-1.98. 1997-05-26 Steven L Baur - + * prim/help.el (view-lossage-key-count): New variable. (view-lossage-message-count): New variable. (view-lossage): Use them. @@ -5999,7 +5999,7 @@ Mon Sep 25 17:19:51 1995 Per Bothner Tue May 20 20:32:59 1997 Steven L Baur - * prim/subr.el (buffer-substring-no-properties): Clean out extents + * prim/subr.el (buffer-substring-no-properties): Clean out extents too. Mon May 19 19:48:35 1997 Steven L Baur @@ -6018,10 +6018,10 @@ Sun May 18 09:11:50 1997 Steven L Baur * prim/files.el (revert-buffer): Add optional third parameter to preserve buffer modes (from Emacs 19.34.94). - (after-find-file): Add optional fifth parameter to preserve buffer + (after-find-file): Add optional fifth parameter to preserve buffer modes (from Emacs 19.34.94). - * packages/vc.el: Synch with Emacs 19.34.94 because our version was + * packages/vc.el: Synch with Emacs 19.34.94 because our version was hopeless. (vc-checkout): Autoload. (vc-find-binary): Ditto. @@ -6031,7 +6031,7 @@ Sun May 18 09:11:50 1997 Steven L Baur Fri Apr 25 13:21:46 1997 Per Abrahamsen - * apropos.el (apropos): Add support for customization groups. + * apropos.el (apropos): Add support for customization groups. (apropos-print): Ditto. Sat May 17 19:56:31 1997 Glynn Clements @@ -6066,7 +6066,7 @@ Mon May 12 13:47:37 1997 Oscar Figueiredo * tm/tm-vm.el: Provide for vm-unsaved-message having been removed in recent versions of VM. - + Fri May 9 10:41:44 1997 Steven L Baur * iso/iso-acc.el (iso-accents-compose): Fix XEmacs 19.14 @@ -6085,10 +6085,10 @@ Thu May 8 14:35:34 1997 Steven L Baur * hm--html-menus/hm--html.el: Define obsolete aliases for the previous function spellings. - * hm--html-menus/hm--html-keys.el: Define obsolete aliases for the + * hm--html-menus/hm--html-keys.el: Define obsolete aliases for the previous variable spellings. - * prim/obsolete.el (define-obsolete-variable-alias): Fix docstring + * prim/obsolete.el (define-obsolete-variable-alias): Fix docstring spelling. (define-compatible-variable-alias): Ditto. @@ -6128,7 +6128,7 @@ Wed Apr 30 18:06:35 1997 Steven L Baur Tue Apr 29 18:51:31 1997 Steven L Baur - * mule/mule-files.el (buffer-file-coding-system-alist): Regexp for + * mule/mule-files.el (buffer-file-coding-system-alist): Regexp for handling info files didn't match the right pattern. Sun Apr 27 18:09:48 1997 Steven L Baur @@ -6142,7 +6142,7 @@ Sat Apr 26 16:25:49 1997 Steven L Baur Fri Apr 25 08:39:50 1997 Steven L Baur - * modes/sh-script.el (sh-indent-line): Deal with pathological case + * modes/sh-script.el (sh-indent-line): Deal with pathological case of indenting a first line containing a `#' as first non-white space character. @@ -6333,12 +6333,12 @@ Sat Apr 12 05:27:56 1997 Steven L Baur * packages/vc.el (vc-directory): Dired requires a list not a string of space separated names. - * utils/live-icon.el (live-icon-colour-name-from-face): `face' may + * utils/live-icon.el (live-icon-colour-name-from-face): `face' may be a list of faces since it is generated by `extent-face'. Fri Apr 11 21:12:57 1997 Steven L Baur - * packages/ispell.el: Don't attempt creation of the menubar unless + * packages/ispell.el: Don't attempt creation of the menubar unless XEmacs has been compiled with menubars. * prim/simple.el (yank-pop): mark-marker needs optional force @@ -6384,7 +6384,7 @@ Wed Apr 9 10:45:54 1997 Steven L Baur Tue Apr 8 12:57:05 1997 Steven L Baur * modes/lisp-mode.el (eval-defun): Evaluate defcustom in defconst - style instead of defvar style (patch derived from Emacs 19.35/Lars + style instead of defvar style (patch derived from Emacs 19.35/Lars Magne Ingebrigtsen). Mon Apr 7 16:38:43 1997 Steven L Baur @@ -6402,7 +6402,7 @@ Sun Apr 6 06:56:03 1997 Steven L Baur * x11/x-menubar.el (default-menubar): Use xmine not mine. - * prim/help.el (describe-variable): Some doc strings weren't being + * prim/help.el (describe-variable): Some doc strings weren't being terminated with a newline. Sat Apr 5 20:20:00 1997 Steven L Baur @@ -6411,7 +6411,7 @@ Sat Apr 5 20:20:00 1997 Steven L Baur Sat Apr 5 13:18:05 1997 Tomasz J. Cholewo - * packages/etags.el (tags-query-replace): Fixed DELIMITED argument + * packages/etags.el (tags-query-replace): Fixed DELIMITED argument bug. `with-caps-disable-folding' moved to isearch-mode.el. * packages/info.el (Info-search): Use `with-caps-disable-folding'. @@ -6506,8 +6506,8 @@ Sat Mar 22 14:25:47 1997 Tomasz J. Cholewo (fancy-diary-display): Use modeline-buffer-identification. * calendar/appt.el (appt-diary-entries): Do not display diary. - (appt-check): Display diary buffer at midnight. - + (appt-check): Display diary buffer at midnight. + Fri Mar 21 19:16:46 1997 Steven L Baur * mule/mule-coding.el (enable-multibyte-characters): MULE @@ -6636,7 +6636,7 @@ Sun Mar 9 12:38:53 1997 Noah Friedman * utils/eldoc.el (eldoc-pre-command-refresh-echo-area): Use eldoc-display-message-p, not eldoc-display-message-no-interference-p. - + Sat Mar 8 11:20:47 1997 Steven L Baur * prim/startup.el (startup-splash-frame-body): More text tweaking. @@ -6687,7 +6687,7 @@ Fri Mar 7 10:44:48 1997 Steven L Baur * x11/x-menubar.el (default-menubar): Reorganize again undoing previous change. Customize submenu moved to top of options menu. Edit faces restored to edit-faces and renamed to Browse faces. - + Thu Mar 6 08:43:27 1997 Steven L Baur * x11/x-menubar.el (options-menu): New variable. @@ -6743,7 +6743,7 @@ Sun Mar 2 10:10:31 1997 Steven L Baur * site-load.el: Move site-packages to the top level. Sun Mar 2 01:37:04 1997 Hrvoje Niksic - + * utils/mail-extr.el (all-top-level-domains): Added "hr" domain. * packages/ps-print.el (ps-print-color-p): Default to nil. @@ -7030,13 +7030,13 @@ Sat Feb 15 12:07:46 1997 Steven L Baur Sat Feb 15 11:05:29 1997 Kyle Jones * utils/redo.el: made before and after status messages so that the user is aware if a long action is still being processed. - + rolled version number up to 1.00, since the package seems to be stable. cosmetic changes so the file could be included in the XEmacs distribution. - + Sat Feb 15 11:13:05 1997 Hrvoje Niksic * prim/simple.el (line-move-ignore-invisible): Change default to @@ -7172,7 +7172,7 @@ Thu Feb 6 17:14:32 1997 Steven L Baur * packages/ps-print.el: Update maintainer address. Thu Feb 6 12:35:39 1997 Bill Dubuque - + * cl/cl-macs.el (cl-do-proclaim): Correct addition of bound variables to `byte-compile-bound-variables'. @@ -7222,7 +7222,7 @@ Fri Jan 31 09:50:51 1997 Hrvoje Niksic * x11/x-toolbar.el (toolbar-mail-commands-alist): Updated with a lot of new mailer possiblities. - + Fri Jan 31 09:28:49 1997 Martin Buchholz * x11/x-font-menu.el (reset-device-font-menus): Correct guard on @@ -7238,7 +7238,7 @@ Thu Jan 30 22:43:43 1997 David Moore * packages/compile.el: Speed up regexps. (compilation-parse-errors): replace re-search-forward with something faster. - + Thu Jan 30 20:33:56 1997 Hvoje Niksic * x11/x-toolbar.el @@ -7248,7 +7248,7 @@ Thu Jan 30 20:33:56 1997 Hvoje Niksic (toolbar-mail-commands-alist): New variable. (toolbar-mail-reader): Ditto. (toolbar-mail): Use them. - + * x11/x-menubar.el: Shorten help menu item names. Thu Jan 30 17:22:15 1997 Alexandre Oliva @@ -7306,15 +7306,15 @@ Thu Jan 9 13:32:01 1997 Jacques Duthen Prestataire (ps-print-version): Fix value. (cl lisp-float-type): Require them. (ps-number-of-columns ps-*-font-size): Try to select defaults - better suited when `ps-landscape-mode' is non-nil. + better suited when `ps-landscape-mode' is non-nil. (ps-*-faces): Change default for Font Lock mode faces when - `ps-print-color-p' is nil. + `ps-print-color-p' is nil. (ps-right-header): Replace `time-stamp-yy/mm/dd' - by `time-stamp-mon-dd-yyyy'. - (ps-end-file ps-begin-page): Fix bug in page count for Ghostview. + by `time-stamp-mon-dd-yyyy'. + (ps-end-file ps-begin-page): Fix bug in page count for Ghostview. (ps-generate-postscript-with-faces): Replace `ps-sorter' by - `car-less-than-car'. - (ps-plot ps-generate): Replace `%d' by `%3d'. + `car-less-than-car'. + (ps-plot ps-generate): Replace `%d' by `%3d'. Wed Jan 22 15:32:39 1997 Greg Klanderman @@ -7336,7 +7336,7 @@ Tue Jan 21 19:56:26 1997 Martin Buchholz * mule/mule-init.el (init-mule): Get Japanese man pages working. Fri Jan 17 17:22:54 1997 Hrvoje Niksic - + * man.el (Manual-mode): Don't mess with scrollbars if they aren't present. @@ -7806,7 +7806,7 @@ Thu Dec 12 14:46:47 1996 Christoph Wedler Let `buffers-menu-submenus-for-groups-p' be an integer : if there are more buffers than this value, use submenus, otherwise not. - + * packages/vc.el (vc-rename-this-file): New function (was missing, but referred to on the menubar). @@ -7871,7 +7871,7 @@ Tue Dec 10 10:11:55 1996 Steven L Baur * electric/ebuff-menu.el (electric-buffer-menu-mode-map): Correct bad 19.34 synch patch. - + * utils/pretty-print.el: New File. Sun Dec 8 13:59:40 1996 Steven L Baur @@ -8029,7 +8029,7 @@ Wed Dec 4 22:00:49 1996 Steven L Baur evaluated more than once. Comment formatting changes. - + * edebug/advise-eval-region.el: New File. Separate out advise for eval-region so it is only evaluated once. @@ -8037,7 +8037,7 @@ Wed Dec 4 22:00:49 1996 Steven L Baur icomplete-exhibit needs to be called in the setup-hook. - * packages/apropos.el: Correct a typo in button binding. + * packages/apropos.el: Correct a typo in button binding. Fixes the bug where if apropos-label-face is actually defined as face, apropos bombs with an error @@ -8050,7 +8050,5 @@ Wed Dec 4 22:00:49 1996 Steven L Baur Redefines the default faces for the various apropos faces so they come out in color by default (defaults are based on various standard font-lock faces). - - * version.el: Bumped up to b31. - + * version.el: Bumped up to b31. diff --git a/lisp/abbrev.el b/lisp/abbrev.el index dec62a1..110de33 100644 --- a/lisp/abbrev.el +++ b/lisp/abbrev.el @@ -419,6 +419,17 @@ The argument FILE is the file name to write." (write-region 1 (point-max) file) (erase-buffer))) +(defun abbrev-string-to-be-defined (arg) + "Return the string for which an abbrev will be defined. +ARG is the argument to `add-global-abbrev' or `add-mode-abbrev'." + (if (and (not arg) (region-active-p)) (setq arg 0) + (setq arg (prefix-numeric-value arg))) + (and (>= arg 0) + (buffer-substring + (point) + (if (= arg 0) (mark) + (save-excursion (forward-word (- arg)) (point)))))) + (defun add-mode-abbrev (arg) "Define mode-specific abbrev for last word(s) before point. Argument is how many words before point form the expansion; @@ -450,13 +461,7 @@ Don't use this function in a Lisp program; use `define-abbrev' instead." (defun add-abbrev (table type arg) ;; XEmacs change: - (if (and (not arg) (region-active-p)) (setq arg 0) - (setq arg (prefix-numeric-value arg))) - (let ((exp (and (>= arg 0) - (buffer-substring - (point) - (if (= arg 0) (mark) - (save-excursion (forward-word (- arg)) (point)))))) + (let ((exp (abbrev-string-to-be-defined arg)) name) (setq name (read-string (format (if exp "%s abbrev for \"%s\": " @@ -469,6 +474,14 @@ Don't use this function in a Lisp program; use `define-abbrev' instead." name (abbrev-expansion name table)))) (define-abbrev table (downcase name) exp)))) +(defun inverse-abbrev-string-to-be-defined (arg) + "Return the string for which an inverse abbrev will be defined. +ARG is the argument to `inverse-add-global-abbrev' or +`inverse-add-mode-abbrev'." + (save-excursion + (forward-word (- arg)) + (buffer-substring (point) (progn (forward-word 1) (point))))) + (defun inverse-add-mode-abbrev (arg) "Define last word before point as a mode-specific abbrev. With prefix argument N, defines the Nth word before point. diff --git a/lisp/about.el b/lisp/about.el index 47f7768..ea2061c 100644 --- a/lisp/about.el +++ b/lisp/about.el @@ -71,7 +71,7 @@ (jmiller "Jeff Miller" "jmiller@smart.net") (juhp "Jens-Ulrik Holger Petersen" "petersen@kurims.kyoto-u.ac.jp") (jwz "Jamie Zawinski" "jwz@jwz.org") - (kazz "IENAGA Kazuyuki" "ienaga@jsys.co.jp") + (kazz "IENAGA Kazuyuki" "ienaga@xemacs.org") (kyle "Kyle Jones" "kyle_jones@wonderworks.com") (larsi "Lars Magne Ingebrigtsen" "larsi@gnus.org") (marcpa "Marc Paquette" "marcpa@CAM.ORG") diff --git a/lisp/alist.el b/lisp/alist.el index fbd409a..05d1267 100644 --- a/lisp/alist.el +++ b/lisp/alist.el @@ -22,7 +22,18 @@ ;; Free Software Foundation, Inc., 59 Temple Place - Suite 330, ;; Boston, MA 02111-1307, USA. -;;; Code: + +;;;###autoload +(defun vassoc (key valist) + "Search VALIST for a vector whose first element is equal to KEY. +See also `assoc'." + ;; by Stig@hackvan.com + (let (el) + (catch 'done + (while (setq el (pop valist)) + (and (equal key (aref el 0)) + (throw 'done el)))))) + ;;;###autoload (defun put-alist (item value alist) diff --git a/lisp/auto-autoloads.el b/lisp/auto-autoloads.el index eceb685..5447edf 100644 --- a/lisp/auto-autoloads.el +++ b/lisp/auto-autoloads.el @@ -1,77 +1,7 @@ ;;; DO NOT MODIFY THIS FILE -(if (featurep 'Standard-autoloads) (error "Already loaded")) +(if (featurep 'lisp-autoloads) (error "Already loaded")) -;;;### (autoloads nil "abbrev" "lisp/abbrev.el") - -;;;*** - -;;;### (autoloads (about-xemacs) "about" "lisp/about.el") - -(autoload 'about-xemacs "about" "\ -Describe the True Editor and its minions." t nil) - -;;;*** - -;;;### (autoloads (set-modified-alist modify-alist remove-alist set-alist del-alist put-alist) "alist" "lisp/alist.el") - -(autoload 'put-alist "alist" "\ -Modify ALIST to set VALUE to ITEM. -If there is a pair whose car is ITEM, replace its cdr by VALUE. -If there is not such pair, create new pair (ITEM . VALUE) and -return new alist whose car is the new pair and cdr is ALIST. -[tomo's ELIS like function]" nil nil) - -(autoload 'del-alist "alist" "\ -If there is a pair whose key is ITEM, delete it from ALIST. -[tomo's ELIS emulating function]" nil nil) - -(autoload 'set-alist "alist" "\ -Modify a alist indicated by SYMBOL to set VALUE to ITEM." nil nil) - -(autoload 'remove-alist "alist" "\ -Remove ITEM from the alist indicated by SYMBOL." nil nil) - -(autoload 'modify-alist "alist" "\ -Modify alist DEFAULT into alist MODIFIER." nil nil) - -(autoload 'set-modified-alist "alist" "\ -Modify a value of a symbol SYM into alist MODIFIER. -The symbol SYM should be alist. If it is not bound, -its value regard as nil." nil nil) - -;;;*** - -;;;### (autoloads (apropos-documentation apropos-value apropos apropos-command) "apropos" "lisp/apropos.el") - -(fset 'command-apropos 'apropos-command) - -(autoload 'apropos-command "apropos" "\ -Shows commands (interactively callable functions) that match REGEXP. -With optional prefix ARG or if `apropos-do-all' is non-nil, also show -variables." t nil) - -(autoload 'apropos "apropos" "\ -Show all bound symbols whose names match REGEXP. -With optional prefix ARG or if `apropos-do-all' is non-nil, also show unbound -symbols and key bindings, which is a little more time-consuming. -Returns list of symbols and documentation found." t nil) - -(autoload 'apropos-value "apropos" "\ -Show all symbols whose value's printed image matches REGEXP. -With optional prefix ARG or if `apropos-do-all' is non-nil, also looks -at the function and at the names and values of properties. -Returns list of symbols and values found." t nil) - -(autoload 'apropos-documentation "apropos" "\ -Show symbols whose documentation contain matches for REGEXP. -With optional prefix ARG or if `apropos-do-all' is non-nil, also use -documentation that is not stored in the documentation file and show key -bindings. -Returns list of symbols and documentation found." t nil) - -;;;*** - -;;;### (autoloads (batch-update-directory batch-update-autoloads update-autoloads-from-directory update-autoloads-here update-file-autoloads generate-file-autoloads) "autoload" "lisp/autoload.el") +;;;### (autoloads (batch-update-one-directory batch-update-directory batch-update-autoloads update-autoloads-from-directory update-autoloads-here update-file-autoloads generate-file-autoloads) "autoload" "lisp/autoload.el") (autoload 'generate-file-autoloads "autoload" "\ Insert at point a loaddefs autoload section for FILE. @@ -83,7 +13,7 @@ are used." t nil) (autoload 'update-file-autoloads "autoload" "\ Update the autoloads for FILE in `generated-autoload-file' \(which FILE might bind in its local variables). -This functions refuses to update autoloads files." t nil) +This function refuses to update autoloads files." t nil) (autoload 'update-autoloads-here "autoload" "\ Update sections of the current buffer generated by `update-file-autoloads'." t nil) @@ -91,7 +21,9 @@ Update sections of the current buffer generated by `update-file-autoloads'." t n (autoload 'update-autoloads-from-directory "autoload" "\ Update `generated-autoload-file' with all the current autoloads from DIR. This runs `update-file-autoloads' on each .el file in DIR. -Obsolete autoload entries for files that no longer exist are deleted." t nil) +Obsolete autoload entries for files that no longer exist are deleted. +Note that, if this function is called from `batch-update-directory', +`generated-autoload-file' was rebound in that function." t nil) (autoload 'batch-update-autoloads "autoload" "\ Update the autoloads for the files or directories on the command line. @@ -103,21 +35,18 @@ The directory to which the auto-autoloads.el file must be the first parameter on the command line." nil nil) (autoload 'batch-update-directory "autoload" "\ -Update the autoloads for the directory on the command line. -Runs `update-file-autoloads' on each file in the given directory, must -be used only with -batch and kills XEmacs on completion." nil nil) - -;;;*** - -;;;### (autoloads nil "buff-menu" "lisp/buff-menu.el") - -(defvar list-buffers-directory nil) +Update the autoloads for the directories on the command line. +Runs `update-file-autoloads' on each file in the given directory, and must +be used only with -batch." nil nil) -(make-variable-buffer-local 'list-buffers-directory) +(autoload 'batch-update-one-directory "autoload" "\ +Update the autoloads for a single directory on the command line. +Runs `update-file-autoloads' on each file in the given directory, and must +be used only with -batch." nil nil) ;;;*** -;;;### (autoloads (batch-byte-recompile-directory batch-byte-recompile-directory-norecurse batch-byte-compile display-call-tree byte-compile-sexp byte-compile compile-defun byte-compile-buffer byte-compile-and-load-file byte-compile-file byte-recompile-file byte-recompile-directory byte-force-recompile) "bytecomp" "lisp/bytecomp.el") +;;;### (autoloads (batch-byte-recompile-directory batch-byte-recompile-directory-norecurse batch-byte-compile-one-file batch-byte-compile display-call-tree byte-compile-sexp byte-compile compile-defun byte-compile-buffer byte-compile-and-load-file byte-compile-file byte-recompile-file byte-recompile-directory byte-force-recompile) "bytecomp" "lisp/bytecomp.el") (autoload 'byte-force-recompile "bytecomp" "\ Recompile every `.el' file in DIRECTORY that already has a `.elc' file. @@ -194,6 +123,11 @@ it won't work in an interactive Emacs. Each file is processed even if an error occurred previously. For example, invoke \"xemacs -batch -f batch-byte-compile $emacs/ ~/*.el\"" nil nil) +(autoload 'batch-byte-compile-one-file "bytecomp" "\ +Run `byte-compile-file' on a single file remaining on the command line. +Use this from the command line, with `-batch'; +it won't work in an interactive Emacs." nil nil) + (autoload 'batch-byte-recompile-directory-norecurse "bytecomp" "\ Same as `batch-byte-recompile-directory' but without recursion." nil nil) @@ -204,1604 +138,1679 @@ For example, invoke `xemacs -batch -f batch-byte-recompile-directory .'." nil ni ;;;*** -;;;### (autoloads (compiler-macroexpand define-compiler-macro ignore-file-errors ignore-errors assert check-type typep deftype cl-struct-setf-expander defstruct define-modify-macro callf2 callf letf* letf rotatef shiftf remf cl-do-pop psetf setf get-setf-method defsetf define-setf-method declare the locally multiple-value-setq multiple-value-bind lexical-let* lexical-let symbol-macrolet macrolet labels flet progv psetq do-all-symbols do-symbols dotimes dolist do* do loop return-from return block etypecase typecase ecase case load-time-value eval-when destructuring-bind function* defmacro* defun* gentemp gensym cl-compile-time-init) "cl-macs" "lisp/cl-macs.el") +;;;### (autoloads (pop-tag-mark tags-apropos list-tags tags-query-replace tags-search tags-loop-continue next-file tag-complete-symbol find-tag-other-window find-tag find-tag-at-point visit-tags-table) "etags" "lisp/etags.el") -(autoload 'cl-compile-time-init "cl-macs" nil nil nil) +(autoload 'visit-tags-table "etags" "\ +Tell tags commands to use tags table file FILE when all else fails. +FILE should be the name of a file created with the `etags' program. +A directory name is ok too; it means file TAGS in that directory." t nil) -(autoload 'gensym "cl-macs" "\ -Generate a new uninterned symbol. -The name is made by appending a number to PREFIX, default \"G\"." nil nil) +(autoload 'find-tag-at-point "etags" "\ +*Find tag whose name contains TAGNAME. +Identical to `find-tag' but does not prompt for tag when called interactively; +instead, uses tag around or before point." t nil) -(autoload 'gentemp "cl-macs" "\ -Generate a new interned symbol with a unique name. -The name is made by appending a number to PREFIX, default \"G\"." nil nil) +(autoload 'find-tag "etags" "\ +*Find tag whose name contains TAGNAME. + Selects the buffer that the tag is contained in +and puts point at its definition. + If TAGNAME is a null string, the expression in the buffer +around or before point is used as the tag name. + If called interactively with a numeric argument, searches for the next tag +in the tag table that matches the tagname used in the previous find-tag. + If second arg OTHER-WINDOW is non-nil, uses another window to display +the tag. -(autoload 'defun* "cl-macs" "\ -(defun* NAME ARGLIST [DOCSTRING] BODY...): define NAME as a function. -Like normal `defun', except ARGLIST allows full Common Lisp conventions, -and BODY is implicitly surrounded by (block NAME ...)." nil 'macro) +This version of this function supports multiple active tags tables, +and completion. -(autoload 'defmacro* "cl-macs" "\ -(defmacro* NAME ARGLIST [DOCSTRING] BODY...): define NAME as a macro. -Like normal `defmacro', except ARGLIST allows full Common Lisp conventions, -and BODY is implicitly surrounded by (block NAME ...)." nil 'macro) +Variables of note: -(autoload 'function* "cl-macs" "\ -(function* SYMBOL-OR-LAMBDA): introduce a function. -Like normal `function', except that if argument is a lambda form, its -ARGLIST allows full Common Lisp conventions." nil 'macro) + tag-table-alist controls which tables apply to which buffers + tags-file-name a default tags table + tags-build-completion-table controls completion behavior + buffer-tag-table another way of specifying a buffer-local table + make-tags-files-invisible whether tags tables should be very hidden + tag-mark-stack-max how many tags-based hops to remember" t nil) -(autoload 'destructuring-bind "cl-macs" nil nil 'macro) +(autoload 'find-tag-other-window "etags" "\ +*Find tag whose name contains TAGNAME, in another window. + Selects the buffer that the tag is contained in in another window +and puts point at its definition. + If TAGNAME is a null string, the expression in the buffer +around or before point is used as the tag name. + If second arg NEXT is non-nil (interactively, with prefix arg), +searches for the next tag in the tag table +that matches the tagname used in the previous find-tag. -(autoload 'eval-when "cl-macs" "\ -(eval-when (WHEN...) BODY...): control when BODY is evaluated. -If `compile' is in WHEN, BODY is evaluated when compiled at top-level. -If `load' is in WHEN, BODY is evaluated when loaded after top-level compile. -If `eval' is in WHEN, BODY is evaluated when interpreted or at non-top-level." nil 'macro) +This version of this function supports multiple active tags tables, +and completion. -(autoload 'load-time-value "cl-macs" "\ -Like `progn', but evaluates the body at load time. -The result of the body appears to the compiler as a quoted constant." nil 'macro) +Variables of note: -(autoload 'case "cl-macs" "\ -(case EXPR CLAUSES...): evals EXPR, chooses from CLAUSES on that value. -Each clause looks like (KEYLIST BODY...). EXPR is evaluated and compared -against each key in each KEYLIST; the corresponding BODY is evaluated. -If no clause succeeds, case returns nil. A single atom may be used in -place of a KEYLIST of one atom. A KEYLIST of `t' or `otherwise' is -allowed only in the final clause, and matches if no other keys match. -Key values are compared by `eql'." nil 'macro) + tag-table-alist controls which tables apply to which buffers + tags-file-name a default tags table + tags-build-completion-table controls completion behavior + buffer-tag-table another way of specifying a buffer-local table + make-tags-files-invisible whether tags tables should be very hidden + tag-mark-stack-max how many tags-based hops to remember" t nil) -(autoload 'ecase "cl-macs" "\ -(ecase EXPR CLAUSES...): like `case', but error if no case fits. -`otherwise'-clauses are not allowed." nil 'macro) +(autoload 'tag-complete-symbol "etags" "\ +The function used to do tags-completion (using 'tag-completion-predicate)." t nil) -(autoload 'typecase "cl-macs" "\ -(typecase EXPR CLAUSES...): evals EXPR, chooses from CLAUSES on that value. -Each clause looks like (TYPE BODY...). EXPR is evaluated and, if it -satisfies TYPE, the corresponding BODY is evaluated. If no clause succeeds, -typecase returns nil. A TYPE of `t' or `otherwise' is allowed only in the -final clause, and matches if no other keys match." nil 'macro) +(autoload 'next-file "etags" "\ +Select next file among files in current tag table(s). -(autoload 'etypecase "cl-macs" "\ -(etypecase EXPR CLAUSES...): like `typecase', but error if no case fits. -`otherwise'-clauses are not allowed." nil 'macro) +A first argument of t (prefix arg, if interactive) initializes to the +beginning of the list of files in the (first) tags table. If the argument +is neither nil nor t, it is evalled to initialize the list of files. -(autoload 'block "cl-macs" "\ -(block NAME BODY...): define a lexically-scoped block named NAME. -NAME may be any symbol. Code inside the BODY forms can call `return-from' -to jump prematurely out of the block. This differs from `catch' and `throw' -in two respects: First, the NAME is an unevaluated symbol rather than a -quoted symbol or other form; and second, NAME is lexically rather than -dynamically scoped: Only references to it within BODY will work. These -references may appear inside macro expansions, but not inside functions -called from BODY." nil 'macro) +Non-nil second argument NOVISIT means use a temporary buffer +to save time and avoid uninteresting warnings. -(autoload 'return "cl-macs" "\ -(return [RESULT]): return from the block named nil. -This is equivalent to `(return-from nil RESULT)'." nil 'macro) +Value is nil if the file was already visited; +if the file was newly read in, the value is the filename." t nil) -(autoload 'return-from "cl-macs" "\ -(return-from NAME [RESULT]): return from the block named NAME. -This jumps out to the innermost enclosing `(block NAME ...)' form, -returning RESULT from that form (or nil if RESULT is omitted). -This is compatible with Common Lisp, but note that `defun' and -`defmacro' do not create implicit blocks as they do in Common Lisp." nil 'macro) +(autoload 'tags-loop-continue "etags" "\ +Continue last \\[tags-search] or \\[tags-query-replace] command. +Used noninteractively with non-nil argument to begin such a command (the +argument is passed to `next-file', which see). +Two variables control the processing we do on each file: +the value of `tags-loop-scan' is a form to be executed on each file +to see if it is interesting (it returns non-nil if so) +and `tags-loop-operate' is a form to execute to operate on an interesting file +If the latter returns non-nil, we exit; otherwise we scan the next file." t nil) -(autoload 'loop "cl-macs" "\ -(loop CLAUSE...): The Common Lisp `loop' macro. -Valid clauses are: - for VAR from/upfrom/downfrom NUM to/upto/downto/above/below NUM by NUM, - for VAR in LIST by FUNC, for VAR on LIST by FUNC, for VAR = INIT then EXPR, - for VAR across ARRAY, repeat NUM, with VAR = INIT, while COND, until COND, - always COND, never COND, thereis COND, collect EXPR into VAR, - append EXPR into VAR, nconc EXPR into VAR, sum EXPR into VAR, - count EXPR into VAR, maximize EXPR into VAR, minimize EXPR into VAR, - if COND CLAUSE [and CLAUSE]... else CLAUSE [and CLAUSE...], - unless COND CLAUSE [and CLAUSE]... else CLAUSE [and CLAUSE...], - do EXPRS..., initially EXPRS..., finally EXPRS..., return EXPR, - finally return EXPR, named NAME." nil 'macro) +(autoload 'tags-search "etags" "\ +Search through all files listed in tags table for match for REGEXP. +Stops when a match is found. +To continue searching for next match, use command \\[tags-loop-continue]. -(autoload 'do "cl-macs" "\ -The Common Lisp `do' loop. -Format is: (do ((VAR INIT [STEP])...) (END-TEST [RESULT...]) BODY...)" nil 'macro) +See documentation of variable `tag-table-alist'." t nil) -(autoload 'do* "cl-macs" "\ -The Common Lisp `do*' loop. -Format is: (do* ((VAR INIT [STEP])...) (END-TEST [RESULT...]) BODY...)" nil 'macro) +(autoload 'tags-query-replace "etags" "\ +Query-replace-regexp FROM with TO through all files listed in tags table. +Third arg DELIMITED (prefix arg) means replace only word-delimited matches. +If you exit (\\[keyboard-quit] or ESC), you can resume the query-replace +with the command \\[tags-loop-continue]. -(autoload 'dolist "cl-macs" "\ -(dolist (VAR LIST [RESULT]) BODY...): loop over a list. -Evaluate BODY with VAR bound to each `car' from LIST, in turn. -Then evaluate RESULT to get return value, default nil." nil 'macro) +See documentation of variable `tag-table-alist'." t nil) -(autoload 'dotimes "cl-macs" "\ -(dotimes (VAR COUNT [RESULT]) BODY...): loop a certain number of times. -Evaluate BODY with VAR bound to successive integers from 0, inclusive, -to COUNT, exclusive. Then evaluate RESULT to get return value, default -nil." nil 'macro) +(autoload 'list-tags "etags" "\ +Display list of tags in FILE." t nil) -(autoload 'do-symbols "cl-macs" "\ -(dosymbols (VAR [OBARRAY [RESULT]]) BODY...): loop over all symbols. -Evaluate BODY with VAR bound to each interned symbol, or to each symbol -from OBARRAY." nil 'macro) +(autoload 'tags-apropos "etags" "\ +Display list of all tags in tag table REGEXP matches." t nil) +(define-key esc-map "*" 'pop-tag-mark) -(autoload 'do-all-symbols "cl-macs" nil nil 'macro) +(autoload 'pop-tag-mark "etags" "\ +Go to last tag position. +`find-tag' maintains a mark-stack seperate from the \\[set-mark-command] mark-stack. +This function pops (and moves to) the tag at the top of this stack." t nil) -(autoload 'psetq "cl-macs" "\ -(psetq SYM VAL SYM VAL ...): set SYMs to the values VALs in parallel. -This is like `setq', except that all VAL forms are evaluated (in order) -before assigning any symbols SYM to the corresponding values." nil 'macro) +;;;*** + +;;;### (autoloads (finder-by-keyword) "finder" "lisp/finder.el") -(autoload 'progv "cl-macs" "\ -(progv SYMBOLS VALUES BODY...): bind SYMBOLS to VALUES dynamically in BODY. -The forms SYMBOLS and VALUES are evaluated, and must evaluate to lists. -Each SYMBOL in the first list is bound to the corresponding VALUE in the -second list (or made unbound if VALUES is shorter than SYMBOLS); then the -BODY forms are executed and their result is returned. This is much like -a `let' form, except that the list of symbols can be computed at run-time." nil 'macro) +(autoload 'finder-by-keyword "finder" "\ +Find packages matching a given keyword." t nil) -(autoload 'flet "cl-macs" "\ -(flet ((FUNC ARGLIST BODY...) ...) FORM...): make temporary function defns. -This is an analogue of `let' that operates on the function cell of FUNC -rather than its value cell. The FORMs are evaluated with the specified -function definitions in place, then the definitions are undone (the FUNCs -go back to their previous definitions, or lack thereof)." nil 'macro) +;;;*** + +;;;### (autoloads (font-lock-set-defaults-1 font-lock-fontify-buffer turn-off-font-lock turn-on-font-lock font-lock-mode) "font-lock" "lisp/font-lock.el") -(autoload 'labels "cl-macs" "\ -(labels ((FUNC ARGLIST BODY...) ...) FORM...): make temporary func bindings. -This is like `flet', except the bindings are lexical instead of dynamic. -Unlike `flet', this macro is fully compliant with the Common Lisp standard." nil 'macro) +(defcustom font-lock-auto-fontify t "*Whether font-lock should automatically fontify files as they're loaded.\nThis will only happen if font-lock has fontifying keywords for the major\nmode of the file. You can get finer-grained control over auto-fontification\nby using this variable in combination with `font-lock-mode-enable-list' or\n`font-lock-mode-disable-list'." :type 'boolean :group 'font-lock) -(autoload 'macrolet "cl-macs" "\ -(macrolet ((NAME ARGLIST BODY...) ...) FORM...): make temporary macro defns. -This is like `flet', but for macros instead of functions." nil 'macro) +(defcustom font-lock-mode-enable-list nil "*List of modes to auto-fontify, if `font-lock-auto-fontify' is nil." :type '(repeat (symbol :tag "Mode")) :group 'font-lock) -(autoload 'symbol-macrolet "cl-macs" "\ -(symbol-macrolet ((NAME EXPANSION) ...) FORM...): make symbol macro defns. -Within the body FORMs, references to the variable NAME will be replaced -by EXPANSION, and (setq NAME ...) will act like (setf EXPANSION ...)." nil 'macro) +(defcustom font-lock-mode-disable-list nil "*List of modes not to auto-fontify, if `font-lock-auto-fontify' is t." :type '(repeat (symbol :tag "Mode")) :group 'font-lock) -(autoload 'lexical-let "cl-macs" "\ -(lexical-let BINDINGS BODY...): like `let', but lexically scoped. -The main visible difference is that lambdas inside BODY will create -lexical closures as in Common Lisp." nil 'macro) +(defcustom font-lock-use-colors '(color) "*Specification for when Font Lock will set up color defaults.\nNormally this should be '(color), meaning that Font Lock will set up\ncolor defaults that are only used on color displays. Set this to nil\nif you don't want Font Lock to set up color defaults at all. This\nshould be one of\n\n-- a list of valid tags, meaning that the color defaults will be used\n when all of the tags apply. (e.g. '(color x))\n-- a list whose first element is 'or and whose remaining elements are\n lists of valid tags, meaning that the defaults will be used when\n any of the tag lists apply.\n-- nil, meaning that the defaults should not be set up at all.\n\n(If you specify face values in your init file, they will override any\nthat Font Lock specifies, regardless of whether you specify the face\nvalues before or after loading Font Lock.)\n\nSee also `font-lock-use-fonts'. If you want more control over the faces\nused for fontification, see the documentation of `font-lock-mode' for\nhow to do it." :type 'sexp :group 'font-lock) -(autoload 'lexical-let* "cl-macs" "\ -(lexical-let* BINDINGS BODY...): like `let*', but lexically scoped. -The main visible difference is that lambdas inside BODY will create -lexical closures as in Common Lisp." nil 'macro) +(defcustom font-lock-use-fonts '(or (mono) (grayscale)) "*Specification for when Font Lock will set up non-color defaults.\n\nNormally this should be '(or (mono) (grayscale)), meaning that Font\nLock will set up non-color defaults that are only used on either mono\nor grayscale displays. Set this to nil if you don't want Font Lock to\nset up non-color defaults at all. This should be one of\n\n-- a list of valid tags, meaning that the non-color defaults will be used\n when all of the tags apply. (e.g. '(grayscale x))\n-- a list whose first element is 'or and whose remaining elements are\n lists of valid tags, meaning that the defaults will be used when\n any of the tag lists apply.\n-- nil, meaning that the defaults should not be set up at all.\n\n(If you specify face values in your init file, they will override any\nthat Font Lock specifies, regardless of whether you specify the face\nvalues before or after loading Font Lock.)\n\nSee also `font-lock-use-colors'. If you want more control over the faces\nused for fontification, see the documentation of `font-lock-mode' for\nhow to do it." :type 'sexp :group 'font-lock) -(autoload 'multiple-value-bind "cl-macs" "\ -(multiple-value-bind (SYM SYM...) FORM BODY): collect multiple return values. -FORM must return a list; the BODY is then executed with the first N elements -of this list bound (`let'-style) to each of the symbols SYM in turn. This -is analogous to the Common Lisp `multiple-value-bind' macro, using lists to -simulate true multiple return values. For compatibility, (values A B C) is -a synonym for (list A B C)." nil 'macro) +(defcustom font-lock-maximum-decoration t "*If non-nil, the maximum decoration level for fontifying.\nIf nil, use the minimum decoration (equivalent to level 0).\nIf t, use the maximum decoration available.\nIf a number, use that level of decoration (or if not available the maximum).\nIf a list, each element should be a cons pair of the form (MAJOR-MODE . LEVEL),\nwhere MAJOR-MODE is a symbol or t (meaning the default). For example:\n ((c++-mode . 2) (c-mode . t) (t . 1))\nmeans use level 2 decoration for buffers in `c++-mode', the maximum decoration\navailable for buffers in `c-mode', and level 1 decoration otherwise." :type '(choice (const :tag "default" nil) (const :tag "maximum" t) (integer :tag "level" 1) (repeat :menu-tag "mode specific" :tag "mode specific" :value ((t . t)) (cons :tag "Instance" (radio :tag "Mode" (const :tag "all" t) (symbol :tag "name")) (radio :tag "Decoration" (const :tag "default" nil) (const :tag "maximum" t) (integer :tag "level" 1))))) :group 'font-lock) -(autoload 'multiple-value-setq "cl-macs" "\ -(multiple-value-setq (SYM SYM...) FORM): collect multiple return values. -FORM must return a list; the first N elements of this list are stored in -each of the symbols SYM in turn. This is analogous to the Common Lisp -`multiple-value-setq' macro, using lists to simulate true multiple return -values. For compatibility, (values A B C) is a synonym for (list A B C)." nil 'macro) +(define-obsolete-variable-alias 'font-lock-use-maximal-decoration 'font-lock-maximum-decoration) -(autoload 'locally "cl-macs" nil nil 'macro) +(defcustom font-lock-maximum-size (* 250 1024) "*If non-nil, the maximum size for buffers for fontifying.\nOnly buffers less than this can be fontified when Font Lock mode is turned on.\nIf nil, means size is irrelevant.\nIf a list, each element should be a cons pair of the form (MAJOR-MODE . SIZE),\nwhere MAJOR-MODE is a symbol or t (meaning the default). For example:\n ((c++-mode . 256000) (c-mode . 256000) (rmail-mode . 1048576))\nmeans that the maximum size is 250K for buffers in `c++-mode' or `c-mode', one\nmegabyte for buffers in `rmail-mode', and size is irrelevant otherwise." :type '(choice (const :tag "none" nil) (integer :tag "size") (repeat :menu-tag "mode specific" :tag "mode specific" :value ((t)) (cons :tag "Instance" (radio :tag "Mode" (const :tag "all" t) (symbol :tag "name")) (radio :tag "Size" (const :tag "none" nil) (integer :tag "size"))))) :group 'font-lock) -(autoload 'the "cl-macs" nil nil 'macro) +(defvar font-lock-keywords nil "\ +A list of the keywords to highlight. +Each element should be of the form: -(autoload 'declare "cl-macs" nil nil 'macro) + MATCHER + (MATCHER . MATCH) + (MATCHER . FACENAME) + (MATCHER . HIGHLIGHT) + (MATCHER HIGHLIGHT ...) + (eval . FORM) -(autoload 'define-setf-method "cl-macs" "\ -(define-setf-method NAME ARGLIST BODY...): define a `setf' method. -This method shows how to handle `setf's to places of the form (NAME ARGS...). -The argument forms ARGS are bound according to ARGLIST, as if NAME were -going to be expanded as a macro, then the BODY forms are executed and must -return a list of five elements: a temporary-variables list, a value-forms -list, a store-variables list (of length one), a store-form, and an access- -form. See `defsetf' for a simpler way to define most setf-methods." nil 'macro) +where HIGHLIGHT should be either MATCH-HIGHLIGHT or MATCH-ANCHORED. -(autoload 'defsetf "cl-macs" "\ -(defsetf NAME FUNC): define a `setf' method. -This macro is an easy-to-use substitute for `define-setf-method' that works -well for simple place forms. In the simple `defsetf' form, `setf's of -the form (setf (NAME ARGS...) VAL) are transformed to function or macro -calls of the form (FUNC ARGS... VAL). Example: (defsetf aref aset). -Alternate form: (defsetf NAME ARGLIST (STORE) BODY...). -Here, the above `setf' call is expanded by binding the argument forms ARGS -according to ARGLIST, binding the value form VAL to STORE, then executing -BODY, which must return a Lisp form that does the necessary `setf' operation. -Actually, ARGLIST and STORE may be bound to temporary variables which are -introduced automatically to preserve proper execution order of the arguments. -Example: (defsetf nth (n x) (v) (list 'setcar (list 'nthcdr n x) v))." nil 'macro) +FORM is an expression, whose value should be a keyword element, +evaluated when the keyword is (first) used in a buffer. This feature +can be used to provide a keyword that can only be generated when Font +Lock mode is actually turned on. -(autoload 'get-setf-method "cl-macs" "\ -Return a list of five values describing the setf-method for PLACE. -PLACE may be any Lisp form which can appear as the PLACE argument to -a macro like `setf' or `incf'." nil nil) +For highlighting single items, typically only MATCH-HIGHLIGHT is required. +However, if an item or (typically) items is to be highlighted following the +instance of another item (the anchor) then MATCH-ANCHORED may be required. -(autoload 'setf "cl-macs" "\ -(setf PLACE VAL PLACE VAL ...): set each PLACE to the value of its VAL. -This is a generalized version of `setq'; the PLACEs may be symbolic -references such as (car x) or (aref x i), as well as plain symbols. -For example, (setf (cadar x) y) is equivalent to (setcar (cdar x) y). -The return value is the last VAL in the list." nil 'macro) +MATCH-HIGHLIGHT should be of the form: -(autoload 'psetf "cl-macs" "\ -(psetf PLACE VAL PLACE VAL ...): set PLACEs to the values VALs in parallel. -This is like `setf', except that all VAL forms are evaluated (in order) -before assigning any PLACEs to the corresponding values." nil 'macro) + (MATCH FACENAME OVERRIDE LAXMATCH) -(autoload 'cl-do-pop "cl-macs" nil nil nil) +Where MATCHER can be either the regexp to search for, a variable +containing the regexp to search for, or the function to call to make +the search (called with one argument, the limit of the search). MATCH +is the subexpression of MATCHER to be highlighted. FACENAME is either +a symbol naming a face, or an expression whose value is the face name +to use. If you want FACENAME to be a symbol that evaluates to a face, +use a form like \"(progn sym)\". -(autoload 'remf "cl-macs" "\ -(remf PLACE TAG): remove TAG from property list PLACE. -PLACE may be a symbol, or any generalized variable allowed by `setf'. -The form returns true if TAG was found and removed, nil otherwise." nil 'macro) +OVERRIDE and LAXMATCH are flags. If OVERRIDE is t, existing fontification may +be overwritten. If `keep', only parts not already fontified are highlighted. +If `prepend' or `append', existing fontification is merged with the new, in +which the new or existing fontification, respectively, takes precedence. +If LAXMATCH is non-nil, no error is signalled if there is no MATCH in MATCHER. -(autoload 'shiftf "cl-macs" "\ -(shiftf PLACE PLACE... VAL): shift left among PLACEs. -Example: (shiftf A B C) sets A to B, B to C, and returns the old A. -Each PLACE may be a symbol, or any generalized variable allowed by `setf'." nil 'macro) +For example, an element of the form highlights (if not already highlighted): -(autoload 'rotatef "cl-macs" "\ -(rotatef PLACE...): rotate left among PLACEs. -Example: (rotatef A B C) sets A to B, B to C, and C to A. It returns nil. -Each PLACE may be a symbol, or any generalized variable allowed by `setf'." nil 'macro) + \"\\\\\\=\" Discrete occurrences of \"foo\" in the value of the + variable `font-lock-keyword-face'. + (\"fu\\\\(bar\\\\)\" . 1) Substring \"bar\" within all occurrences of \"fubar\" in + the value of `font-lock-keyword-face'. + (\"fubar\" . fubar-face) Occurrences of \"fubar\" in the value of `fubar-face'. + (\"foo\\\\|bar\" 0 foo-bar-face t) + Occurrences of either \"foo\" or \"bar\" in the value + of `foo-bar-face', even if already highlighted. -(autoload 'letf "cl-macs" "\ -(letf ((PLACE VALUE) ...) BODY...): temporarily bind to PLACEs. -This is the analogue of `let', but with generalized variables (in the -sense of `setf') for the PLACEs. Each PLACE is set to the corresponding -VALUE, then the BODY forms are executed. On exit, either normally or -because of a `throw' or error, the PLACEs are set back to their original -values. Note that this macro is *not* available in Common Lisp. -As a special case, if `(PLACE)' is used instead of `(PLACE VALUE)', -the PLACE is not modified before executing BODY." nil 'macro) +MATCH-ANCHORED should be of the form: -(autoload 'letf* "cl-macs" "\ -(letf* ((PLACE VALUE) ...) BODY...): temporarily bind to PLACEs. -This is the analogue of `let*', but with generalized variables (in the -sense of `setf') for the PLACEs. Each PLACE is set to the corresponding -VALUE, then the BODY forms are executed. On exit, either normally or -because of a `throw' or error, the PLACEs are set back to their original -values. Note that this macro is *not* available in Common Lisp. -As a special case, if `(PLACE)' is used instead of `(PLACE VALUE)', -the PLACE is not modified before executing BODY." nil 'macro) + (MATCHER PRE-MATCH-FORM POST-MATCH-FORM MATCH-HIGHLIGHT ...) -(autoload 'callf "cl-macs" "\ -(callf FUNC PLACE ARGS...): set PLACE to (FUNC PLACE ARGS...). -FUNC should be an unquoted function name. PLACE may be a symbol, -or any generalized variable allowed by `setf'." nil 'macro) +Where MATCHER is as for MATCH-HIGHLIGHT with one exception; see below. +PRE-MATCH-FORM and POST-MATCH-FORM are evaluated before the first, and after +the last, instance MATCH-ANCHORED's MATCHER is used. Therefore they can be +used to initialize before, and cleanup after, MATCHER is used. Typically, +PRE-MATCH-FORM is used to move to some position relative to the original +MATCHER, before starting with MATCH-ANCHORED's MATCHER. POST-MATCH-FORM might +be used to move, before resuming with MATCH-ANCHORED's parent's MATCHER. -(autoload 'callf2 "cl-macs" "\ -(callf2 FUNC ARG1 PLACE ARGS...): set PLACE to (FUNC ARG1 PLACE ARGS...). -Like `callf', but PLACE is the second argument of FUNC, not the first." nil 'macro) +For example, an element of the form highlights (if not already highlighted): -(autoload 'define-modify-macro "cl-macs" "\ -(define-modify-macro NAME ARGLIST FUNC): define a `setf'-like modify macro. -If NAME is called, it combines its PLACE argument with the other arguments -from ARGLIST using FUNC: (define-modify-macro incf (&optional (n 1)) +)" nil 'macro) + (\"\\\\\\=\" (0 anchor-face) (\"\\\\\\=\" nil nil (0 item-face))) -(autoload 'defstruct "cl-macs" "\ -(defstruct (NAME OPTIONS...) (SLOT SLOT-OPTS...)...): define a struct type. -This macro defines a new Lisp data type called NAME, which contains data -stored in SLOTs. This defines a `make-NAME' constructor, a `copy-NAME' -copier, a `NAME-p' predicate, and setf-able `NAME-SLOT' accessors." nil 'macro) + Discrete occurrences of \"anchor\" in the value of `anchor-face', and subsequent + discrete occurrences of \"item\" (on the same line) in the value of `item-face'. + (Here PRE-MATCH-FORM and POST-MATCH-FORM are nil. Therefore \"item\" is + initially searched for starting from the end of the match of \"anchor\", and + searching for subsequent instance of \"anchor\" resumes from where searching + for \"item\" concluded.) -(autoload 'cl-struct-setf-expander "cl-macs" nil nil nil) +The above-mentioned exception is as follows. The limit of the MATCHER search +defaults to the end of the line after PRE-MATCH-FORM is evaluated. +However, if PRE-MATCH-FORM returns a position greater than the position after +PRE-MATCH-FORM is evaluated, that position is used as the limit of the search. +It is generally a bad idea to return a position greater than the end of the +line, i.e., cause the MATCHER search to span lines. -(autoload 'deftype "cl-macs" "\ -(deftype NAME ARGLIST BODY...): define NAME as a new data type. -The type name can then be used in `typecase', `check-type', etc." nil 'macro) +Note that the MATCH-ANCHORED feature is experimental; in the future, we may +replace it with other ways of providing this functionality. -(autoload 'typep "cl-macs" "\ -Check that OBJECT is of type TYPE. -TYPE is a Common Lisp-style type specifier." nil nil) +These regular expressions should not match text which spans lines. While +\\[font-lock-fontify-buffer] handles multi-line patterns correctly, updating +when you edit the buffer does not, since it considers text one line at a time. -(autoload 'check-type "cl-macs" "\ -Verify that FORM is of type TYPE; signal an error if not. -STRING is an optional description of the desired type." nil 'macro) +Be very careful composing regexps for this list; +the wrong pattern can dramatically slow things down!") -(autoload 'assert "cl-macs" "\ -Verify that FORM returns non-nil; signal an error if not. -Second arg SHOW-ARGS means to include arguments of FORM in message. -Other args STRING and ARGS... are arguments to be passed to `error'. -They are not evaluated unless the assertion fails. If STRING is -omitted, a default message listing FORM itself is used." nil 'macro) +(make-variable-buffer-local 'font-lock-keywords) -(autoload 'ignore-errors "cl-macs" "\ -Execute FORMS; if an error occurs, return nil. -Otherwise, return result of last FORM." nil 'macro) +(defcustom font-lock-mode nil "Non nil means `font-lock-mode' is on" :group 'font-lock :type 'boolean :initialize 'custom-initialize-default :require 'font-lock :set (function (lambda (var val) (font-lock-mode (or val 0))))) -(autoload 'ignore-file-errors "cl-macs" "\ -Execute FORMS; if an error of type `file-error' occurs, return nil. -Otherwise, return result of last FORM." nil 'macro) +(defvar font-lock-mode-hook nil "\ +Function or functions to run on entry to font-lock-mode.") -(autoload 'define-compiler-macro "cl-macs" "\ -(define-compiler-macro FUNC ARGLIST BODY...): Define a compiler-only macro. -This is like `defmacro', but macro expansion occurs only if the call to -FUNC is compiled (i.e., not interpreted). Compiler macros should be used -for optimizing the way calls to FUNC are compiled; the form returned by -BODY should do the same thing as a call to the normal function called -FUNC, though possibly more efficiently. Note that, like regular macros, -compiler macros are expanded repeatedly until no further expansions are -possible. Unlike regular macros, BODY can decide to \"punt\" and leave the -original function call alone by declaring an initial `&whole foo' parameter -and then returning foo." nil 'macro) +(autoload 'font-lock-mode "font-lock" "\ +Toggle Font Lock Mode. +With arg, turn font-lock mode on if and only if arg is positive. -(autoload 'compiler-macroexpand "cl-macs" nil nil nil) +When Font Lock mode is enabled, text is fontified as you type it: -;;;*** - -;;;### (autoloads (batch-remove-old-elc) "cleantree" "lisp/cleantree.el") + - Comments are displayed in `font-lock-comment-face'; + - Strings are displayed in `font-lock-string-face'; + - Documentation strings (in Lisp-like languages) are displayed in + `font-lock-doc-string-face'; + - Language keywords (\"reserved words\") are displayed in + `font-lock-keyword-face'; + - Function names in their defining form are displayed in + `font-lock-function-name-face'; + - Variable names in their defining form are displayed in + `font-lock-variable-name-face'; + - Type names are displayed in `font-lock-type-face'; + - References appearing in help files and the like are displayed + in `font-lock-reference-face'; + - Preprocessor declarations are displayed in + `font-lock-preprocessor-face'; -(autoload 'batch-remove-old-elc "cleantree" nil nil nil) + and -;;;*** - -;;;### (autoloads (config-value config-value-hash-table) "config" "lisp/config.el") + - Certain other expressions are displayed in other faces according + to the value of the variable `font-lock-keywords'. -(autoload 'config-value-hash-table "config" "\ -Return hash table of configuration parameters and their values." nil nil) +Where modes support different levels of fontification, you can use the variable +`font-lock-maximum-decoration' to specify which level you generally prefer. +When you turn Font Lock mode on/off the buffer is fontified/defontified, though +fontification occurs only if the buffer is less than `font-lock-maximum-size'. +To fontify a buffer without turning on Font Lock mode, and regardless of buffer +size, you can use \\[font-lock-fontify-buffer]. -(autoload 'config-value "config" "\ -Return the value of the configuration parameter CONFIG_SYMBOL." nil nil) +See the variable `font-lock-keywords' for customization." t nil) -;;;*** - -;;;### (autoloads (Custom-make-dependencies) "cus-dep" "lisp/cus-dep.el") +(autoload 'turn-on-font-lock "font-lock" "\ +Unconditionally turn on Font Lock mode." nil nil) -(autoload 'Custom-make-dependencies "cus-dep" "\ -Extract custom dependencies from .el files in SUBDIRS. -SUBDIRS is a list of directories. If it is nil, the command-line -arguments are used. If it is a string, only that directory is -processed. This function is especially useful in batch mode. +(autoload 'turn-off-font-lock "font-lock" "\ +Unconditionally turn off Font Lock mode." nil nil) -Batch usage: xemacs -batch -l cus-dep.el -f Custom-make-dependencies DIRS" t nil) +(autoload 'font-lock-fontify-buffer "font-lock" "\ +Fontify the current buffer the way `font-lock-mode' would. +See `font-lock-mode' for details. + +This can take a while for large buffers." t nil) + +(autoload 'font-lock-set-defaults-1 "font-lock" nil nil nil) + +(add-minor-mode 'font-lock-mode " Font") ;;;*** -;;;### (autoloads (customize-menu-create custom-menu-create custom-save-all customize-save-customized customize-browse custom-buffer-create-other-window custom-buffer-create customize-apropos-groups customize-apropos-faces customize-apropos-options customize-apropos customize-saved customize-customized customize-face-other-window customize-face customize-option-other-window customize-changed-options customize-variable customize-other-window customize customize-save-variable customize-set-variable customize-set-value) "cus-edit" "lisp/cus-edit.el") +;;;### (autoloads (gnuserv-start gnuserv-running-p) "gnuserv" "lisp/gnuserv.el") -(autoload 'customize-set-value "cus-edit" "\ -Set VARIABLE to VALUE. VALUE is a Lisp object. +(defcustom gnuserv-frame nil "*The frame to be used to display all edited files.\nIf nil, then a new frame is created for each file edited.\nIf t, then the currently selected frame will be used.\nIf a function, then this will be called with a symbol `x' or `tty' as the\nonly argument, and its return value will be interpreted as above." :tag "Gnuserv Frame" :type '(radio (const :tag "Create new frame each time" nil) (const :tag "Use selected frame" t) (function-item :tag "Use main Emacs frame" gnuserv-main-frame-function) (function-item :tag "Use visible frame, otherwise create new" gnuserv-visible-frame-function) (function-item :tag "Create special Gnuserv frame and use it" gnuserv-special-frame-function) (function :tag "Other")) :group 'gnuserv :group 'frames) -If VARIABLE has a `variable-interactive' property, that is used as if -it were the arg to `interactive' (which see) to interactively read the value. +(autoload 'gnuserv-running-p "gnuserv" "\ +Return non-nil if a gnuserv process is running from this XEmacs session." nil nil) -If VARIABLE has a `custom-type' property, it must be a widget and the -`:prompt-value' property of that widget will be used for reading the value. +(autoload 'gnuserv-start "gnuserv" "\ +Allow this Emacs process to be a server for client processes. +This starts a gnuserv communications subprocess through which +client \"editors\" (gnuclient and gnudoit) can send editing commands to +this Emacs job. See the gnuserv(1) manual page for more details. -If given a prefix (or a COMMENT argument), also prompt for a comment." t nil) +Prefix arg means just kill any existing server communications subprocess." t nil) -(autoload 'customize-set-variable "cus-edit" "\ -Set the default for VARIABLE to VALUE. VALUE is a Lisp object. +;;;*** + +;;;### (autoloads nil "help-macro" "lisp/help-macro.el") -If VARIABLE has a `custom-set' property, that is used for setting -VARIABLE, otherwise `set-default' is used. +(defcustom three-step-help t "*Non-nil means give more info about Help command in three steps.\nThe three steps are simple prompt, prompt with all options,\nand window listing and describing the options.\nA value of nil means skip the middle step, so that\n\\[help-command] \\[help-command] gives the window that lists the options." :type 'boolean :group 'help-appearance) -The `customized-value' property of the VARIABLE will be set to a list -with a quoted VALUE as its sole list member. +;;;*** + +;;;### (autoloads (hyper-apropos-popup-menu hyper-apropos-set-variable hyper-set-variable hyper-apropos-read-variable-symbol hyper-describe-function hyper-where-is hyper-describe-variable hyper-describe-face hyper-describe-key-briefly hyper-describe-key hyper-apropos) "hyper-apropos" "lisp/hyper-apropos.el") -If VARIABLE has a `variable-interactive' property, that is used as if -it were the arg to `interactive' (which see) to interactively read the value. +(autoload 'hyper-apropos "hyper-apropos" "\ +Display lists of functions and variables matching REGEXP +in buffer \"*Hyper Apropos*\". If optional prefix arg is given, then the +value of `hyper-apropos-programming-apropos' is toggled for this search. +See also `hyper-apropos-mode'." t nil) -If VARIABLE has a `custom-type' property, it must be a widget and the -`:prompt-value' property of that widget will be used for reading the value. +(autoload 'hyper-describe-key "hyper-apropos" nil t nil) -If given a prefix (or a COMMENT argument), also prompt for a comment." t nil) +(autoload 'hyper-describe-key-briefly "hyper-apropos" nil t nil) -(autoload 'customize-save-variable "cus-edit" "\ -Set the default for VARIABLE to VALUE, and save it for future sessions. -If VARIABLE has a `custom-set' property, that is used for setting -VARIABLE, otherwise `set-default' is used. +(autoload 'hyper-describe-face "hyper-apropos" "\ +Describe face.. +See also `hyper-apropos' and `hyper-describe-function'." t nil) -The `customized-value' property of the VARIABLE will be set to a list -with a quoted VALUE as its sole list member. +(autoload 'hyper-describe-variable "hyper-apropos" "\ +Hypertext drop-in replacement for `describe-variable'. +See also `hyper-apropos' and `hyper-describe-function'." t nil) -If VARIABLE has a `variable-interactive' property, that is used as if -it were the arg to `interactive' (which see) to interactively read the value. +(autoload 'hyper-where-is "hyper-apropos" "\ +Print message listing key sequences that invoke specified command." t nil) -If VARIABLE has a `custom-type' property, it must be a widget and the -`:prompt-value' property of that widget will be used for reading the value. +(autoload 'hyper-describe-function "hyper-apropos" "\ +Hypertext replacement for `describe-function'. Unlike `describe-function' +in that the symbol under the cursor is the default if it is a function. +See also `hyper-apropos' and `hyper-describe-variable'." t nil) -If given a prefix (or a COMMENT argument), also prompt for a comment." t nil) +(autoload 'hyper-apropos-read-variable-symbol "hyper-apropos" "\ +Hypertext drop-in replacement for `describe-variable'. +See also `hyper-apropos' and `hyper-describe-function'." nil nil) -(autoload 'customize "cus-edit" "\ -Select a customization buffer which you can use to set user options. -User options are structured into \"groups\". -The default group is `Emacs'." t nil) +(define-obsolete-function-alias 'hypropos-read-variable-symbol 'hyper-apropos-read-variable-symbol) -(defalias 'customize-group 'customize) +(define-obsolete-function-alias 'hypropos-get-doc 'hyper-apropos-get-doc) -(autoload 'customize-other-window "cus-edit" "\ -Customize SYMBOL, which must be a customization group." t nil) +(autoload 'hyper-set-variable "hyper-apropos" nil t nil) -(defalias 'customize-group-other-window 'customize-other-window) +(autoload 'hyper-apropos-set-variable "hyper-apropos" "\ +Interactively set the variable on the current line." t nil) -(defalias 'customize-option 'customize-variable) +(define-obsolete-function-alias 'hypropos-set-variable 'hyper-apropos-set-variable) -(autoload 'customize-variable "cus-edit" "\ -Customize SYMBOL, which must be a user option variable." t nil) +(autoload 'hyper-apropos-popup-menu "hyper-apropos" nil t nil) -(autoload 'customize-changed-options "cus-edit" "\ -Customize all user option variables whose default values changed recently. -This means, in other words, variables defined with a `:version' keyword." t nil) +(define-obsolete-function-alias 'hypropos-popup-menu 'hyper-apropos-popup-menu) -(defalias 'customize-variable-other-window 'customize-option-other-window) +;;;*** + +;;;### (autoloads (Info-elisp-ref Info-emacs-key Info-goto-emacs-key-command-node Info-goto-emacs-command-node Info-emacs-command Info-search Info-visit-file Info-goto-node Info-batch-rebuild-dir Info-query info) "info" "lisp/info.el") -(autoload 'customize-option-other-window "cus-edit" "\ -Customize SYMBOL, which must be a user option variable. -Show the buffer in another window, but don't select it." t nil) +(defvar Info-directory-list nil "\ +List of directories to search for Info documentation files. -(autoload 'customize-face "cus-edit" "\ -Customize SYMBOL, which should be a face name or nil. -If SYMBOL is nil, customize all faces." t nil) +The first directory in this list, the \"dir\" file there will become +the (dir)Top node of the Info documentation tree. -(autoload 'customize-face-other-window "cus-edit" "\ -Show customization buffer for FACE in other window." t nil) +Note: DO NOT use the `customize' interface to change the value of this +variable. Its value is created dynamically on each startup, depending +on XEmacs packages installed on the system. If you want to change the +search path, make the needed modifications on the variable's value +from .emacs. For instance: -(autoload 'customize-customized "cus-edit" "\ -Customize all user options set since the last save in this session." t nil) + (setq Info-directory-list (cons \"~/info\" Info-directory-list))") -(autoload 'customize-saved "cus-edit" "\ -Customize all already saved user options." t nil) +(autoload 'info "info" "\ +Enter Info, the documentation browser. +Optional argument FILE specifies the file to examine; +the default is the top-level directory of Info. -(autoload 'customize-apropos "cus-edit" "\ -Customize all user options matching REGEXP. -If ALL is `options', include only options. -If ALL is `faces', include only faces. -If ALL is `groups', include only groups. -If ALL is t (interactively, with prefix arg), include options which are not -user-settable, as well as faces and groups." t nil) +In interactive use, a prefix argument directs this command +to read a file name from the minibuffer." t nil) -(autoload 'customize-apropos-options "cus-edit" "\ -Customize all user options matching REGEXP. -With prefix arg, include options which are not user-settable." t nil) +(autoload 'Info-query "info" "\ +Enter Info, the documentation browser. Prompt for name of Info file." t nil) -(autoload 'customize-apropos-faces "cus-edit" "\ -Customize all user faces matching REGEXP." t nil) +(autoload 'Info-batch-rebuild-dir "info" "\ +(Re)build info `dir' files in the directories remaining on the command line. +Use this from the command line, with `-batch'; +it won't work in an interactive Emacs. +Each file is processed even if an error occurred previously. +For example, invoke \"xemacs -batch -f Info-batch-rebuild-dir /usr/local/info\"" nil nil) -(autoload 'customize-apropos-groups "cus-edit" "\ -Customize all user groups matching REGEXP." t nil) +(autoload 'Info-goto-node "info" "\ +Go to info node named NAME. Give just NODENAME or (FILENAME)NODENAME. +Actually, the following interpretations of NAME are tried in order: + (FILENAME)NODENAME + (FILENAME) (using Top node) + NODENAME (in current file) + TAGNAME (see below) + FILENAME (using Top node) +where TAGNAME is a string that appears in quotes: \"TAGNAME\", in an +annotation for any node of any file. (See `a' and `x' commands.)" t nil) -(autoload 'custom-buffer-create "cus-edit" "\ -Create a buffer containing OPTIONS. -Optional NAME is the name of the buffer. -OPTIONS should be an alist of the form ((SYMBOL WIDGET)...), where -SYMBOL is a customization option, and WIDGET is a widget for editing -that option." nil nil) +(autoload 'Info-visit-file "info" "\ +Directly visit an info file." t nil) -(autoload 'custom-buffer-create-other-window "cus-edit" "\ -Create a buffer containing OPTIONS. -Optional NAME is the name of the buffer. -OPTIONS should be an alist of the form ((SYMBOL WIDGET)...), where -SYMBOL is a customization option, and WIDGET is a widget for editing -that option." nil nil) +(autoload 'Info-search "info" "\ +Search for REGEXP, starting from point, and select node it's found in." t nil) -(autoload 'customize-browse "cus-edit" "\ -Create a tree browser for the customize hierarchy." t nil) +(autoload 'Info-emacs-command "info" "\ +Look up an Emacs command in the Emacs manual in the Info system. +This command is designed to be used whether you are already in Info or not." t nil) -(defcustom custom-file "~/.emacs" "File used for storing customization information.\nIf you change this from the default \"~/.emacs\" you need to\nexplicitly load that file for the settings to take effect." :type 'file :group 'customize) +(autoload 'Info-goto-emacs-command-node "info" "\ +Look up an Emacs command in the Emacs manual in the Info system. +This command is designed to be used whether you are already in Info or not." t nil) -(autoload 'customize-save-customized "cus-edit" "\ -Save all user options which have been set in this session." t nil) +(autoload 'Info-goto-emacs-key-command-node "info" "\ +Look up an Emacs key sequence in the Emacs manual in the Info system. +This command is designed to be used whether you are already in Info or not." t nil) -(autoload 'custom-save-all "cus-edit" "\ -Save all customizations in `custom-file'." nil nil) +(autoload 'Info-emacs-key "info" "\ +Look up an Emacs key sequence in the Emacs manual in the Info system. +This command is designed to be used whether you are already in Info or not." t nil) -(autoload 'custom-menu-create "cus-edit" "\ -Create menu for customization group SYMBOL. -The menu is in a format applicable to `easy-menu-define'." nil nil) +(autoload 'Info-elisp-ref "info" "\ +Look up an Emacs Lisp function in the Elisp manual in the Info system. +This command is designed to be used whether you are already in Info or not." t nil) -(autoload 'customize-menu-create "cus-edit" "\ -Return a customize menu for customization group SYMBOL. -If optional NAME is given, use that as the name of the menu. -Otherwise the menu will be named `Customize'. -The format is suitable for use with `easy-menu-define'." nil nil) +;;;*** + +;;;### (autoloads nil "itimer-autosave" "lisp/itimer-autosave.el") ;;;*** -;;;### (autoloads (custom-reset-faces custom-theme-reset-faces custom-theme-face-value custom-theme-set-faces custom-set-faces custom-set-face-update-spec custom-declare-face) "cus-face" "lisp/cus-face.el") +;;;### (autoloads nil "loaddefs" "lisp/loaddefs.el") -(autoload 'custom-declare-face "cus-face" "\ -Like `defface', but FACE is evaluated as a normal argument." nil nil) +;;;*** + +;;;### (autoloads nil "loadhist" "lisp/loadhist.el") -(autoload 'custom-set-face-update-spec "cus-face" "\ -Customize the FACE for display types matching DISPLAY, merging - in the new items from PLIST" nil nil) - -(autoload 'custom-set-faces "cus-face" "\ -Initialize faces according to user preferences. -This asociates the setting with the USER theme. -The arguments should be a list where each entry has the form: - - (FACE SPEC [NOW [COMMENT]]) - -SPEC will be stored as the saved value for FACE. If NOW is present -and non-nil, FACE will also be created according to SPEC. -COMMENT is a string comment about FACE. +;;;*** + +;;;### (autoloads (mswindows-reset-device-font-menus) "msw-font-menu" "lisp/msw-font-menu.el") -See `defface' for the format of SPEC." nil nil) +(autoload 'mswindows-reset-device-font-menus "msw-font-menu" "\ +Generates the `Font', `Size', and `Weight' submenus for the Options menu. +This is run the first time that a font-menu is needed for each device. +If you don't like the lazy invocation of this function, you can add it to +`create-device-hook' and that will make the font menus respond more quickly +when they are selected for the first time. If you add fonts to your system, +or if you change your font path, you can call this to re-initialize the menus." nil nil) -(autoload 'custom-theme-set-faces "cus-face" "\ -Initialize faces according to settings specified by args. -Records the settings as belonging to THEME. +(defun* mswindows-font-menu-font-data (face dcache) (let* ((case-fold-search t) (domain (if font-menu-this-frame-only-p (selected-frame) (selected-device))) (name (font-instance-name (face-font-instance face domain))) (truename (font-instance-truename (face-font-instance face domain (if (featurep 'mule) 'ascii)))) family size weight entry slant) (when (string-match mswindows-font-regexp name) (setq family (match-string 1 name)) (setq entry (vassoc family (aref dcache 0)))) (when (and (null entry) (string-match mswindows-font-regexp truename)) (setq family (match-string 1 truename)) (setq entry (vassoc family (aref dcache 0)))) (when (null entry) (return-from mswindows-font-menu-font-data (make-vector 5 nil))) (when (string-match mswindows-font-regexp name) (setq weight (match-string 2 name)) (setq size (string-to-int (match-string 4 name)))) (when (string-match mswindows-font-regexp truename) (when (not (member weight (aref entry 1))) (setq weight (match-string 2 truename))) (when (not (member size (aref entry 2))) (setq size (string-to-int (match-string 4 truename)))) (setq slant (match-string 5 truename))) (vector entry family size weight slant))) -See `custom-set-faces' for a description of the arguments ARGS." nil nil) +;;;*** + +;;;### (autoloads (mwheel-install) "mwheel" "lisp/mwheel.el") -(autoload 'custom-theme-face-value "cus-face" "\ -Return spec of FACE in THEME if the THEME modifies the -FACE. Nil otherwise." nil nil) +(autoload 'mwheel-install "mwheel" "\ +Enable mouse wheel support." nil nil) -(autoload 'custom-theme-reset-faces "cus-face" nil nil nil) +;;;*** + +;;;### (autoloads (package-admin-add-binary-package package-admin-add-single-file-package) "package-admin" "lisp/package-admin.el") -(autoload 'custom-reset-faces "cus-face" "\ -Reset the value of the face to values previously defined. -Assosiate this setting with the 'user' theme. +(autoload 'package-admin-add-single-file-package "package-admin" "\ +Install a single file Lisp package into XEmacs package hierarchy. +`file' should be the full path to the lisp file to install. +`destdir' should be a simple directory name. +The optional `pkg-dir' can be used to override the default package hierarchy +\(car (last late-packages))." t nil) -ARGS is defined as for `custom-theme-reset-faces'" nil nil) +(autoload 'package-admin-add-binary-package "package-admin" "\ +Install a pre-bytecompiled XEmacs package into package hierarchy." t nil) ;;;*** -;;;### (autoloads (disassemble) "disass" "lisp/disass.el") +;;;### (autoloads (package-get-custom package-get-package-provider package-get package-get-dependencies package-get-all package-get-update-all package-get-delete-package package-get-save-base package-get-update-base-from-buffer package-get-update-base package-get-update-base-entry package-get-require-base package-get-download-menu) "package-get" "lisp/package-get.el") -(autoload 'disassemble "disass" "\ -Print disassembled code for OBJECT in (optional) BUFFER. -OBJECT can be a symbol defined as a function, or a function itself -\(a lambda expression or a compiled-function object). -If OBJECT is not already compiled, we compile it, but do not -redefine OBJECT if it is a symbol." t nil) +(defvar package-get-base nil "\ +List of packages that are installed at this site. +For each element in the alist, car is the package name and the cdr is +a plist containing information about the package. Typical fields +kept in the plist are: -;;;*** - -;;;### (autoloads (standard-display-european standard-display-underline standard-display-graphic standard-display-g1 standard-display-ascii standard-display-default standard-display-8bit make-display-table describe-current-display-table) "disp-table" "lisp/disp-table.el") +version - version of this package +provides - list of symbols provided +requires - list of symbols that are required. + These in turn are provided by other packages. +filename - name of the file. +size - size of the file (aka the bundled package) +md5sum - computed md5 checksum +description - What this package is for. +type - Whether this is a 'binary (default) or 'single file package -(autoload 'describe-current-display-table "disp-table" "\ -Describe the display table in use in the selected window and buffer." t nil) +More fields may be added as needed. An example: -(autoload 'make-display-table "disp-table" "\ -Return a new, empty display table." nil nil) +'( + (name + (version \"\" + file \"filename\" + description \"what this package is about.\" + provides () + requires () + size + md5sum \"\" + file \"filename\" + description \"what this package is about.\" + provides () + requires () + size + md5sum \"