X-Git-Url: http://git.chise.org/gitweb/?p=chise%2Fxemacs-chise.git.1;a=blobdiff_plain;f=info%2Ftermcap.info-1;fp=info%2Ftermcap.info-1;h=0000000000000000000000000000000000000000;hp=d24e7ac37a8374cf349f8009629b2502c13e4196;hb=a5812bf2ff9a9cf40f4ff78dcb83f5b4c295bd18;hpb=ccce6217f84987dff10ed3d2b60b9f0f65d8f25a diff --git a/info/termcap.info-1 b/info/termcap.info-1 deleted file mode 100644 index d24e7ac..0000000 --- a/info/termcap.info-1 +++ /dev/null @@ -1,1151 +0,0 @@ -This is Info file ../info/termcap.info, produced by Makeinfo version -1.68 from the input file termcap.texi. - -START-INFO-DIR-ENTRY -* Termcap: (termcap). Termcap library of the GNU system. -END-INFO-DIR-ENTRY - - This file documents the termcap library of the GNU system. - - Copyright (C) 1988 Free Software Foundation, Inc. - - Permission is granted to make and distribute verbatim copies of this -manual provided the copyright notice and this permission notice are -preserved on all copies. - - Permission is granted to copy and distribute modified versions of -this manual under the conditions for verbatim copying, provided that -the entire resulting derived work is distributed under the terms of a -permission notice identical to this one. - - Permission is granted to copy and distribute translations of this -manual into another language, under the above conditions for modified -versions, except that this permission notice may be stated in a -translation approved by the Foundation. - - -File: termcap.info, Node: Top, Next: Introduction, Prev: (DIR), Up: (DIR) - -* Menu: - -* Introduction::What is termcap? Why this manual? -* Library:: The termcap library functions. -* Data Base:: What terminal descriptions in `/etc/termcap' look like. -* Capabilities::Definitions of the individual terminal capabilities: - how to write them in descriptions, and how to use - their values to do display updating. -* Summary:: Brief table of capability names and their meanings. -* Var Index:: Index of C functions and variables. -* Cap Index:: Index of termcap capabilities. -* Index:: Concept index. - - -File: termcap.info, Node: Introduction, Next: Library, Prev: Top, Up: Top - -Introduction -************ - - "Termcap" is a library and data base that enables programs to use -display terminals in a terminal-independent manner. It originated in -Berkeley Unix. - - The termcap data base describes the capabilities of hundreds of -different display terminals in great detail. Some examples of the -information recorded for a terminal could include how many columns wide -it is, what string to send to move the cursor to an arbitrary position -(including how to encode the row and column numbers), how to scroll the -screen up one or several lines, and how much padding is needed for such -a scrolling operation. - - The termcap library is provided for easy access this data base in -programs that want to do terminal-independent character-based display -output. - - This manual describes the GNU version of the termcap library, which -has some extensions over the Unix version. All the extensions are -identified as such, so this manual also tells you how to use the Unix -termcap. - - The GNU version of the termcap library is available free as source -code, for use in free programs, and runs on Unix and VMS systems (at -least). You can find it in the GNU Emacs distribution in the files -`termcap.c' and `tparam.c'. - - This manual was written for the GNU project, whose goal is to -develop a complete free operating system upward-compatible with Unix -for user programs. The project is approximately two thirds complete. -For more information on the GNU project, including the GNU Emacs editor -and the mostly-portable optimizing C compiler, send one dollar to - - Free Software Foundation - 675 Mass Ave - Cambridge, MA 02139 - - -File: termcap.info, Node: Library, Next: Data Base, Prev: Introduction, Up: Top - -The Termcap Library -******************* - - The termcap library is the application programmer's interface to the -termcap data base. It contains functions for the following purposes: - - * Finding the description of the user's terminal type (`tgetent'). - - * Interrogating the description for information on various topics - (`tgetnum', `tgetflag', `tgetstr'). - - * Computing and performing padding (`tputs'). - - * Encoding numeric parameters such as cursor positions into the - terminal-specific form required for display commands (`tparam', - `tgoto'). - -* Menu: - -* Preparation:: Preparing to use the termcap library. -* Find:: Finding the description of the terminal being used. -* Interrogate:: Interrogating the description for particular capabilities. -* Initialize:: Initialization for output using termcap. -* Padding:: Outputting padding. -* Parameters:: Encoding parameters such as cursor positions. - - -File: termcap.info, Node: Preparation, Next: Find, Prev: Library, Up: Library - -Preparing to Use the Termcap Library -==================================== - - To use the termcap library in a program, you need two kinds of -preparation: - - * The compiler needs declarations of the functions and variables in - the library. - - On GNU systems, it suffices to include the header file `termcap.h' - in each source file that uses these functions and variables. - - On Unix systems, there is often no such header file. Then you must - explictly declare the variables as external. You can do likewise - for the functions, or let them be implicitly declared and cast - their values from type `int' to the appropriate type. - - We illustrate the declarations of the individual termcap library - functions with ANSI C prototypes because they show how to pass the - arguments. If you are not using the GNU C compiler, you probably - cannot use function prototypes, so omit the argument types and - names from your declarations. - - * The linker needs to search the library. Usually either - `-ltermcap' or `-ltermlib' as an argument when linking will do - this. - - -File: termcap.info, Node: Find, Next: Interrogate, Prev: Preparation, Up: Library - -Finding a Terminal Description: `tgetent' -========================================= - - An application program that is going to use termcap must first look -up the description of the terminal type in use. This is done by calling -`tgetent', whose declaration in ANSI Standard C looks like: - - int tgetent (char *BUFFER, char *TERMTYPE); - -This function finds the description and remembers it internally so that -you can interrogate it about specific terminal capabilities (*note -Interrogate::.). - - The argument TERMTYPE is a string which is the name for the type of -terminal to look up. Usually you would obtain this from the environment -variable `TERM' using `getenv ("TERM")'. - - If you are using the GNU version of termcap, you can alternatively -ask `tgetent' to allocate enough space. Pass a null pointer for -BUFFER, and `tgetent' itself allocates the storage using `malloc'. In -this case the returned value on success is the address of the storage, -cast to `int'. But normally there is no need for you to look at the -address. Do not free the storage yourself. - - With the Unix version of termcap, you must allocate space for the -description yourself and pass the address of the space as the argument -BUFFER. There is no way you can tell how much space is needed, so the -convention is to allocate a buffer 2048 characters long and assume that -is enough. (Formerly the convention was to allocate 1024 characters and -assume that was enough. But one day, for one kind of terminal, that was -not enough.) - - No matter how the space to store the description has been obtained, -termcap records its address internally for use when you later -interrogate the description with `tgetnum', `tgetstr' or `tgetflag'. If -the buffer was allocated by termcap, it will be freed by termcap too if -you call `tgetent' again. If the buffer was provided by you, you must -make sure that its contents remain unchanged for as long as you still -plan to interrogate the description. - - The return value of `tgetent' is -1 if there is some difficulty -accessing the data base of terminal types, 0 if the data base is -accessible but the specified type is not defined in it, and some other -value otherwise. - - Here is how you might use the function `tgetent': - - #ifdef unix - static char term_buffer[2048]; - #else - #define term_buffer 0 - #endif - - init_terminal_data () - { - char *termtype = getenv ("TERM"); - int success; - - if (termtype == 0) - fatal ("Specify a terminal type with `setenv TERM '.\n"); - - success = tgetent (term_buffer, termtype); - if (success < 0) - fatal ("Could not access the termcap data base.\n"); - if (success == 0) - fatal ("Terminal type `%s' is not defined.\n", termtype); - } - -Here we assume the function `fatal' prints an error message and exits. - - If the environment variable `TERMCAP' is defined, its value is used -to override the terminal type data base. The function `tgetent' checks -the value of `TERMCAP' automatically. If the value starts with `/' -then it is taken as a file name to use as the data base file, instead -of `/etc/termcap' which is the standard data base. If the value does -not start with `/' then it is itself used as the terminal description, -provided that the terminal type TERMTYPE is among the types it claims -to apply to. *Note Data Base::, for information on the format of a -terminal description. - - -File: termcap.info, Node: Interrogate, Next: Initialize, Prev: Find, Up: Library - -Interrogating the Terminal Description -====================================== - - Each piece of information recorded in a terminal description is -called a "capability". Each defined terminal capability has a -two-letter code name and a specific meaning. For example, the number -of columns is named `co'. *Note Capabilities::, for definitions of all -the standard capability names. - - Once you have found the proper terminal description with `tgetent' -(*note Find::.), your application program must "interrogate" it for -various terminal capabilities. You must specify the two-letter code of -the capability whose value you seek. - - Capability values can be numeric, boolean (capability is either -present or absent) or strings. Any particular capability always has -the same value type; for example, `co' always has a numeric value, -while `am' (automatic wrap at margin) is always a flag, and `cm' -(cursor motion command) always has a string value. The documentation -of each capability says which type of value it has. - - There are three functions to use to get the value of a capability, -depending on the type of value the capability has. Here are their -declarations in ANSI C: - - int tgetnum (char *NAME); - int tgetflag (char *NAME); - char *tgetstr (char *NAME, char **AREA); - -`tgetnum' - Use `tgetnum' to get a capability value that is numeric. The - argument NAME is the two-letter code name of the capability. If - the capability is present, `tgetnum' returns the numeric value - (which is nonnegative). If the capability is not mentioned in the - terminal description, `tgetnum' returns -1. - -`tgetflag' - Use `tgetflag' to get a boolean value. If the capability NAME is - present in the terminal description, `tgetflag' returns 1; - otherwise, it returns 0. - -`tgetstr' - Use `tgetstr' to get a string value. It returns a pointer to a - string which is the capability value, or a null pointer if the - capability is not present in the terminal description. - - There are two ways `tgetstr' can find space to store the string - value: - - * You can ask `tgetstr' to allocate the space. Pass a null - pointer for the argument AREA, and `tgetstr' will use - `malloc' to allocate storage big enough for the value. - Termcap will never free this storage or refer to it again; you - should free it when you are finished with it. - - This method is more robust, since there is no need to guess - how much space is needed. But it is supported only by the GNU - termcap library. - - * You can provide the space. Provide for the argument AREA the - address of a pointer variable of type `char *'. Before - calling `tgetstr', initialize the variable to point at - available space. Then `tgetstr' will store the string value - in that space and will increment the pointer variable to - point after the space that has been used. You can use the - same pointer variable for many calls to `tgetstr'. - - There is no way to determine how much space is needed for a - single string, and no way for you to prevent or handle - overflow of the area you have provided. However, you can be - sure that the total size of all the string values you will - obtain from the terminal description is no greater than the - size of the description (unless you get the same capability - twice). You can determine that size with `strlen' on the - buffer you provided to `tgetent'. See below for an example. - - Providing the space yourself is the only method supported by - the Unix version of termcap. - - Note that you do not have to specify a terminal type or terminal -description for the interrogation functions. They automatically use the -description found by the most recent call to `tgetent'. - - Here is an example of interrogating a terminal description for -various capabilities, with conditionals to select between the Unix and -GNU methods of providing buffer space. - - char *tgetstr (); - - char *cl_string, *cm_string; - int height; - int width; - int auto_wrap; - - char PC; /* For tputs. */ - char *BC; /* For tgoto. */ - char *UP; - - interrogate_terminal () - { - #ifdef UNIX - /* Here we assume that an explicit term_buffer - was provided to tgetent. */ - char *buffer - = (char *) malloc (strlen (term_buffer)); - #define BUFFADDR &buffer - #else - #define BUFFADDR 0 - #endif - - char *temp; - - /* Extract information we will use. */ - cl_string = tgetstr ("cl", BUFFADDR); - cm_string = tgetstr ("cm", BUFFADDR); - auto_wrap = tgetflag ("am"); - height = tgetnum ("li"); - width = tgetnum ("co"); - - /* Extract information that termcap functions use. */ - temp = tgetstr ("pc", BUFFADDR); - PC = temp ? *temp : 0; - BC = tgetstr ("le", BUFFADDR); - UP = tgetstr ("up", BUFFADDR); - } - -*Note Padding::, for information on the variable `PC'. *Note Using -Parameters::, for information on `UP' and `BC'. - - -File: termcap.info, Node: Initialize, Next: Padding, Prev: Interrogate, Up: Library - -Initialization for Use of Termcap -================================= - - Before starting to output commands to a terminal using termcap, an -application program should do two things: - - * Initialize various global variables which termcap library output - functions refer to. These include `PC' and `ospeed' for padding - (*note Output Padding::.) and `UP' and `BC' for cursor motion - (*note tgoto::.). - - * Tell the kernel to turn off alteration and padding of - horizontal-tab characters sent to the terminal. - - To turn off output processing in Berkeley Unix you would use `ioctl' -with code `TIOCLSET' to set the bit named `LLITOUT', and clear the bits -`ANYDELAY' using `TIOCSETN'. In POSIX or System V, you must clear the -bit named `OPOST'. Refer to the system documentation for details. - - If you do not set the terminal flags properly, some older terminals -will not work. This is because their commands may contain the -characters that normally signify newline, carriage return and -horizontal tab--characters which the kernel thinks it ought to modify -before output. - - When you change the kernel's terminal flags, you must arrange to -restore them to their normal state when your program exits. This -implies that the program must catch fatal signals such as `SIGQUIT' and -`SIGINT' and restore the old terminal flags before actually terminating. - - Modern terminals' commands do not use these special characters, so -if you do not care about problems with old terminals, you can leave the -kernel's terminal flags unaltered. - - -File: termcap.info, Node: Padding, Next: Parameters, Prev: Initialize, Up: Library - -Padding -======= - - "Padding" means outputting null characters following a terminal -display command that takes a long time to execute. The terminal -description says which commands require padding and how much; the -function `tputs', described below, outputs a terminal command while -extracting from it the padding information, and then outputs the -padding that is necessary. - -* Menu: - -* Why Pad:: Explanation of padding. -* Describe Padding:: The data base says how much padding a terminal needs. -* Output Padding:: Using `tputs' to output the needed padding. - - -File: termcap.info, Node: Why Pad, Next: Describe Padding, Prev: Padding, Up: Padding - -Why Pad, and How ----------------- - - Most types of terminal have commands that take longer to execute -than they do to send over a high-speed line. For example, clearing the -screen may take 20msec once the entire command is received. During -that time, on a 9600 bps line, the terminal could receive about 20 -additional output characters while still busy clearing the screen. -Every terminal has a certain amount of buffering capacity to remember -output characters that cannot be processed yet, but too many slow -commands in a row can cause the buffer to fill up. Then any additional -output that cannot be processed immediately will be lost. - - To avoid this problem, we normally follow each display command with -enough useless charaters (usually null characters) to fill up the time -that the display command needs to execute. This does the job if the -terminal throws away null characters without using up space in the -buffer (which most terminals do). If enough padding is used, no output -can ever be lost. The right amount of padding avoids loss of output -without slowing down operation, since the time used to transmit padding -is time that nothing else could be done. - - The number of padding characters needed for an operation depends on -the line speed. In fact, it is proportional to the line speed. A 9600 -baud line transmits about one character per msec, so the clear screen -command in the example above would need about 20 characters of padding. -At 1200 baud, however, only about 3 characters of padding are needed -to fill up 20msec. - - -File: termcap.info, Node: Describe Padding, Next: Output Padding, Prev: Why Pad, Up: Padding - -Specifying Padding in a Terminal Description --------------------------------------------- - - In the terminal description, the amount of padding required by each -display command is recorded as a sequence of digits at the front of the -command. These digits specify the padding time in msec. They can be -followed optionally by a decimal point and one more digit, which is a -number of tenths of msec. - - Sometimes the padding needed by a command depends on the cursor -position. For example, the time taken by an "insert line" command is -usually proportional to the number of lines that need to be moved down -or cleared. An asterisk (`*') following the padding time says that the -time should be multiplied by the number of screen lines affected by the -command. - - :al=1.3*\E[L: - -is used to describe the "insert line" command for a certain terminal. -The padding required is 1.3 msec per line affected. The command itself -is ` [ L'. - - The padding time specified in this way tells `tputs' how many pad -characters to output. *Note Output Padding::. - - Two special capability values affect padding for all commands. -These are the `pc' and `pb'. The variable `pc' specifies the character -to pad with, and `pb' the speed below which no padding is needed. The -defaults for these variables, a null character and 0, are correct for -most terminals. *Note Pad Specs::. - - -File: termcap.info, Node: Output Padding, Prev: Describe Padding, Up: Padding - -Performing Padding with `tputs' -------------------------------- - - Use the termcap function `tputs' to output a string containing an -optional padding spec of the form described above (*note Describe -Padding::.). The function `tputs' strips off and decodes the padding -spec, outputs the rest of the string, and then outputs the appropriate -padding. Here is its declaration in ANSI C: - - char PC; - short ospeed; - - int tputs (char *STRING, int NLINES, int (*OUTFUN) ()); - - Here STRING is the string (including padding spec) to be output; -NLINES is the number of lines affected by the operation, which is used -to multiply the amount of padding if the padding spec ends with a `*'. -Finally, OUTFUN is a function (such as `fputchar') that is called to -output each character. When actually called, OUTFUN should expect one -argument, a character. - - The operation of `tputs' is controlled by two global variables, -`ospeed' and `PC'. The value of `ospeed' is supposed to be the -terminal output speed, encoded as in the `ioctl' system call which gets -the speed information. This is needed to compute the number of padding -characters. The value of `PC' is the character used for padding. - - You are responsible for storing suitable values into these variables -before using `tputs'. The value stored into the `PC' variable should be -taken from the `pc' capability in the terminal description (*note Pad -Specs::.). Store zero in `PC' if there is no `pc' capability. - - The argument NLINES requires some thought. Normally, it should be -the number of lines whose contents will be cleared or moved by the -command. For cursor motion commands, or commands that do editing -within one line, use the value 1. For most commands that affect -multiple lines, such as `al' (insert a line) and `cd' (clear from the -cursor to the end of the screen), NLINES should be the screen height -minus the current vertical position (origin 0). For multiple insert -and scroll commands such as `AL' (insert multiple lines), that same -value for NLINES is correct; the number of lines being inserted is not -correct. - - If a "scroll window" feature is used to reduce the number of lines -affected by a command, the value of NLINES should take this into -account. This is because the delay time required depends on how much -work the terminal has to do, and the scroll window feature reduces the -work. *Note Scrolling::. - - Commands such as `ic' and `dc' (insert or delete characters) are -problematical because the padding needed by these commands is -proportional to the number of characters affected, which is the number -of columns from the cursor to the end of the line. It would be nice to -have a way to specify such a dependence, and there is no need for -dependence on vertical position in these commands, so it is an obvious -idea to say that for these commands NLINES should really be the number -of columns affected. However, the definition of termcap clearly says -that NLINES is always the number of lines affected, even in this case, -where it is always 1. It is not easy to change this rule now, because -too many programs and terminal descriptions have been written to follow -it. - - Because NLINES is always 1 for the `ic' and `dc' strings, there is -no reason for them to use `*', but some of them do. These should be -corrected by deleting the `*'. If, some day, such entries have -disappeared, it may be possible to change to a more useful convention -for the NLINES argument for these operations without breaking any -programs. - - -File: termcap.info, Node: Parameters, Prev: Padding, Up: Library - -Filling In Parameters -===================== - - Some terminal control strings require numeric "parameters". For -example, when you move the cursor, you need to say what horizontal and -vertical positions to move it to. The value of the terminal's `cm' -capability, which says how to move the cursor, cannot simply be a -string of characters; it must say how to express the cursor position -numbers and where to put them within the command. - - The specifications of termcap include conventions as to which -string-valued capabilities require parameters, how many parameters, and -what the parameters mean; for example, it defines the `cm' string to -take two parameters, the vertical and horizontal positions, with 0,0 -being the upper left corner. These conventions are described where the -individual commands are documented. - - Termcap also defines a language used within the capability -definition for specifying how and where to encode the parameters for -output. This language uses character sequences starting with `%'. -(This is the same idea as `printf', but the details are different.) -The language for parameter encoding is described in this section. - - A program that is doing display output calls the functions `tparam' -or `tgoto' to encode parameters according to the specifications. These -functions produce a string containing the actual commands to be output -(as well a padding spec which must be processed with `tputs'; *note -Padding::.). - -* Menu: - -* Encode Parameters:: The language for encoding parameters. -* Using Parameters:: Outputting a string command with parameters. - - -File: termcap.info, Node: Encode Parameters, Next: Using Parameters, Prev: Parameters, Up: Parameters - -Describing the Encoding ------------------------ - - A terminal command string that requires parameters contains special -character sequences starting with `%' to say how to encode the -parameters. These sequences control the actions of `tparam' and -`tgoto'. - - The parameters values passed to `tparam' or `tgoto' are considered -to form a vector. A pointer into this vector determines the next -parameter to be processed. Some of the `%'-sequences encode one -parameter and advance the pointer to the next parameter. Other -`%'-sequences alter the pointer or alter the parameter values without -generating output. - - For example, the `cm' string for a standard ANSI terminal is written -as `\E[%i%d;%dH'. (`\E' stands for .) `cm' by convention always -requires two parameters, the vertical and horizontal goal positions, so -this string specifies the encoding of two parameters. Here `%i' -increments the two values supplied, and each `%d' encodes one of the -values in decimal. If the cursor position values 20,58 are encoded -with this string, the result is `\E[21;59H'. - - First, here are the `%'-sequences that generate output. Except for -`%%', each of them encodes one parameter and advances the pointer to -the following parameter. - -`%%' - Output a single `%'. This is the only way to represent a literal - `%' in a terminal command with parameters. `%%' does not use up a - parameter. - -`%d' - As in `printf', output the next parameter in decimal. - -`%2' - Like `%02d' in `printf': output the next parameter in decimal, and - always use at least two digits. - -`%3' - Like `%03d' in `printf': output the next parameter in decimal, and - always use at least three digits. Note that `%4' and so on are - *not* defined. - -`%.' - Output the next parameter as a single character whose ASCII code is - the parameter value. Like `%c' in `printf'. - -`%+CHAR' - Add the next parameter to the character CHAR, and output the - resulting character. For example, `%+ ' represents 0 as a space, - 1 as `!', etc. - - The following `%'-sequences specify alteration of the parameters -(their values, or their order) rather than encoding a parameter for -output. They generate no output; they are used only for their side -effects on the parameters. Also, they do not advance the "next -parameter" pointer except as explicitly stated. Only `%i', `%r' and -`%>' are defined in standard Unix termcap. The others are GNU -extensions. - -`%i' - Increment the next two parameters. This is used for terminals that - expect cursor positions in origin 1. For example, `%i%d,%d' would - output two parameters with `1' for 0, `2' for 1, etc. - -`%r' - Interchange the next two parameters. This is used for terminals - whose cursor positioning command expects the horizontal position - first. - -`%s' - Skip the next parameter. Do not output anything. - -`%b' - Back up one parameter. The last parameter used will become once - again the next parameter to be output, and the next output command - will use it. Using `%b' more than once, you can back up any - number of parameters, and you can refer to each parameter any - number of times. - -`%>C1C2' - Conditionally increment the next parameter. Here C1 and C2 are - characters which stand for their ASCII codes as numbers. If the - next parameter is greater than the ASCII code of C1, the ASCII - code of C2 is added to it. - -`%a OP TYPE POS' - Perform arithmetic on the next parameter, do not use it up, and do - not output anything. Here OP specifies the arithmetic operation, - while TYPE and POS together specify the other operand. - - Spaces are used above to separate the operands for clarity; the - spaces don't appear in the data base, where this sequence is - exactly five characters long. - - The character OP says what kind of arithmetic operation to - perform. It can be any of these characters: - - `=' - assign a value to the next parameter, ignoring its old value. - The new value comes from the other operand. - - `+' - add the other operand to the next parameter. - - `-' - subtract the other operand from the next parameter. - - `*' - multiply the next parameter by the other operand. - - `/' - divide the next parameter by the other operand. - - The "other operand" may be another parameter's value or a constant; - the character TYPE says which. It can be: - - `p' - Use another parameter. The character POS says which - parameter to use. Subtract 64 from its ASCII code to get the - position of the desired parameter relative to this one. Thus, - the character `A' as POS means the parameter after the next - one; the character `?' means the parameter before the next - one. - - `c' - Use a constant value. The character POS specifies the value - of the constant. The 0200 bit is cleared out, so that 0200 - can be used to represent zero. - - The following `%'-sequences are special purpose hacks to compensate -for the weird designs of obscure terminals. They modify the next -parameter or the next two parameters but do not generate output and do -not use up any parameters. `%m' is a GNU extension; the others are -defined in standard Unix termcap. - -`%n' - Exclusive-or the next parameter with 0140, and likewise the - parameter after next. - -`%m' - Complement all the bits of the next parameter and the parameter - after next. - -`%B' - Encode the next parameter in BCD. It alters the value of the - parameter by adding six times the quotient of the parameter by ten. - Here is a C statement that shows how the new value is computed: - - PARM = (PARM / 10) * 16 + PARM % 10; - -`%D' - Transform the next parameter as needed by Delta Data terminals. - This involves subtracting twice the remainder of the parameter by - 16. - - PARM -= 2 * (PARM % 16); - - -File: termcap.info, Node: Using Parameters, Prev: Encode Parameters, Up: Parameters - -Sending Display Commands with Parameters ----------------------------------------- - - The termcap library functions `tparam' and `tgoto' serve as the -analog of `printf' for terminal string parameters. The newer function -`tparam' is a GNU extension, more general but missing from Unix -termcap. The original parameter-encoding function is `tgoto', which is -preferable for cursor motion. - -* Menu: - -* tparam:: The general case, for GNU termcap only. -* tgoto:: The special case of cursor motion. - - -File: termcap.info, Node: tparam, Next: tgoto, Prev: Using Parameters, Up: Using Parameters - -`tparam' -........ - - The function `tparam' can encode display commands with any number of -parameters and allows you to specify the buffer space. It is the -preferred function for encoding parameters for all but the `cm' -capability. Its ANSI C declaration is as follows: - - char *tparam (char *CTLSTRING, char *BUFFER, int SIZE, int PARM1,...) - - The arguments are a control string CTLSTRING (the value of a terminal -capability, presumably), an output buffer BUFFER and SIZE, and any -number of integer parameters to be encoded. The effect of `tparam' is -to copy the control string into the buffer, encoding parameters -according to the `%' sequences in the control string. - - You describe the output buffer by its address, BUFFER, and its size -in bytes, SIZE. If the buffer is not big enough for the data to be -stored in it, `tparam' calls `malloc' to get a larger buffer. In -either case, `tparam' returns the address of the buffer it ultimately -uses. If the value equals BUFFER, your original buffer was used. -Otherwise, a new buffer was allocated, and you must free it after you -are done with printing the results. If you pass zero for SIZE and -BUFFER, `tparam' always allocates the space with `malloc'. - - All capabilities that require parameters also have the ability to -specify padding, so you should use `tputs' to output the string -produced by `tparam'. *Note Padding::. Here is an example. - - { - char *buf; - char buffer[40]; - - buf = tparam (command, buffer, 40, parm); - tputs (buf, 1, fputchar); - if (buf != buffer) - free (buf); - } - - If a parameter whose value is zero is encoded with `%.'-style -encoding, the result is a null character, which will confuse `tputs'. -This would be a serious problem, but luckily `%.' encoding is used only -by a few old models of terminal, and only for the `cm' capability. To -solve the problem, use `tgoto' rather than `tparam' to encode the `cm' -capability. - - -File: termcap.info, Node: tgoto, Prev: tparam, Up: Using Parameters - -`tgoto' -....... - - The special case of cursor motion is handled by `tgoto'. There are -two reasons why you might choose to use `tgoto': - - * For Unix compatibility, because Unix termcap does not have - `tparam'. - - * For the `cm' capability, since `tgoto' has a special feature to - avoid problems with null characters, tabs and newlines on certain - old terminal types that use `%.' encoding for that capability. - - Here is how `tgoto' might be declared in ANSI C: - - char *tgoto (char *CSTRING, int HPOS, int VPOS) - - There are three arguments, the terminal description's `cm' string and -the two cursor position numbers; `tgoto' computes the parametrized -string in an internal static buffer and returns the address of that -buffer. The next time you use `tgoto' the same buffer will be reused. - - Parameters encoded with `%.' encoding can generate null characters, -tabs or newlines. These might cause trouble: the null character because -`tputs' would think that was the end of the string, the tab because the -kernel or other software might expand it into spaces, and the newline -becaue the kernel might add a carriage-return, or padding characters -normally used for a newline. To prevent such problems, `tgoto' is -careful to avoid these characters. Here is how this works: if the -target cursor position value is such as to cause a problem (that is to -say, zero, nine or ten), `tgoto' increments it by one, then compensates -by appending a string to move the cursor back or up one position. - - The compensation strings to use for moving back or up are found in -global variables named `BC' and `UP'. These are actual external C -variables with upper case names; they are declared `char *'. It is up -to you to store suitable values in them, normally obtained from the -`le' and `up' terminal capabilities in the terminal description with -`tgetstr'. Alternatively, if these two variables are both zero, the -feature of avoiding nulls, tabs and newlines is turned off. - - It is safe to use `tgoto' for commands other than `cm' only if you -have stored zero in `BC' and `UP'. - - Note that `tgoto' reverses the order of its operands: the horizontal -position comes before the vertical position in the arguments to -`tgoto', even though the vertical position comes before the horizontal -in the parameters of the `cm' string. If you use `tgoto' with a -command such as `AL' that takes one parameter, you must pass the -parameter to `tgoto' as the "vertical position". - - -File: termcap.info, Node: Data Base, Next: Capabilities, Prev: Library, Up: Top - -The Format of the Data Base -*************************** - - The termcap data base of terminal descriptions is stored in the file -`/etc/termcap'. It contains terminal descriptions, blank lines, and -comments. - - A terminal description starts with one or more names for the -terminal type. The information in the description is a series of -"capability names" and values. The capability names have standard -meanings (*note Capabilities::.) and their values describe the terminal. - -* Menu: - -* Format:: Overall format of a terminal description. -* Capability Format:: Format of capabilities within a description. -* Naming:: Naming conventions for terminal types. -* Inheriting:: Inheriting part of a description from - a related terminal type. - - -File: termcap.info, Node: Format, Next: Capability Format, Prev: Data Base, Up: Data Base - -Terminal Description Format -=========================== - - Aside from comments (lines starting with `#', which are ignored), -each nonblank line in the termcap data base is a terminal description. -A terminal description is nominally a single line, but it can be split -into multiple lines by inserting the two characters `\ newline'. This -sequence is ignored wherever it appears in a description. - - The preferred way to split the description is between capabilities: -insert the four characters `: \ newline tab' immediately before any -colon. This allows each sub-line to start with some indentation. This -works because, after the `\ newline' are ignored, the result is `: tab -:'; the first colon ends the preceding capability and the second colon -starts the next capability. If you split with `\ newline' alone, you -may not add any indentation after them. - - Here is a real example of a terminal description: - - dw|vt52|DEC vt52:\ - :cr=^M:do=^J:nl=^J:bl=^G:\ - :le=^H:bs:cd=\EJ:ce=\EK:cl=\EH\EJ:cm=\EY%+ %+ :co#80:li#24:\ - :nd=\EC:ta=^I:pt:sr=\EI:up=\EA:\ - :ku=\EA:kd=\EB:kr=\EC:kl=\ED:kb=^H: - - Each terminal description begins with several names for the terminal -type. The names are separated by `|' characters, and a colon ends the -last name. The first name should be two characters long; it exists -only for the sake of very old Unix systems and is never used in modern -systems. The last name should be a fully verbose name such as "DEC -vt52" or "Ann Arbor Ambassador with 48 lines". The other names should -include whatever the user ought to be able to specify to get this -terminal type, such as `vt52' or `aaa-48'. *Note Naming::, for -information on how to choose terminal type names. - - After the terminal type names come the terminal capabilities, -separated by colons and with a colon after the last one. Each -capability has a two-letter name, such as `cm' for "cursor motion -string" or `li' for "number of display lines". - - -File: termcap.info, Node: Capability Format, Next: Naming, Prev: Format, Up: Data Base - -Writing the Capabilities -======================== - - There are three kinds of capabilities: flags, numbers, and strings. -Each kind has its own way of being written in the description. Each -defined capability has by convention a particular kind of value; for -example, `li' always has a numeric value and `cm' always a string value. - - A flag capability is thought of as having a boolean value: the value -is true if the capability is present, false if not. When the -capability is present, just write its name between two colons. - - A numeric capability has a value which is a nonnegative number. -Write the capability name, a `#', and the number, between two colons. -For example, `...:li#48:...' is how you specify the `li' capability for -48 lines. - - A string-valued capability has a value which is a sequence of -characters. Usually these are the characters used to perform some -display operation. Write the capability name, a `=', and the -characters of the value, between two colons. For example, -`...:cm=\E[%i%d;%dH:...' is how the cursor motion command for a -standard ANSI terminal would be specified. - - Special characters in the string value can be expressed using -`\'-escape sequences as in C; in addition, `\E' stands for . `^' -is also a kind of escape character; `^' followed by CHAR stands for the -control-equivalent of CHAR. Thus, `^a' stands for the character -control-a, just like `\001'. `\' and `^' themselves can be represented -as `\\' and `\^'. - - To include a colon in the string, you must write `\072'. You might -ask, "Why can't `\:' be used to represent a colon?" The reason is that -the interrogation functions do not count slashes while looking for a -capability. Even if `:ce=ab\:cd:' were interpreted as giving the `ce' -capability the value `ab:cd', it would also appear to define `cd' as a -flag. - - The string value will often contain digits at the front to specify -padding (*note Padding::.) and/or `%'-sequences within to specify how -to encode parameters (*note Parameters::.). Although these things are -not to be output literally to the terminal, they are considered part of -the value of the capability. They are special only when the string -value is processed by `tputs', `tparam' or `tgoto'. By contrast, `\' -and `^' are considered part of the syntax for specifying the characters -in the string. - - Let's look at the VT52 example again: - - dw|vt52|DEC vt52:\ - :cr=^M:do=^J:nl=^J:bl=^G:\ - :le=^H:bs:cd=\EJ:ce=\EK:cl=\EH\EJ:cm=\EY%+ %+ :co#80:li#24:\ - :nd=\EC:ta=^I:pt:sr=\EI:up=\EA:\ - :ku=\EA:kd=\EB:kr=\EC:kl=\ED:kb=^H: - - Here we see the numeric-valued capabilities `co' and `li', the flags -`bs' and `pt', and many string-valued capabilities. Most of the -strings start with represented as `\E'. The rest contain control -characters represented using `^'. The meanings of the individual -capabilities are defined elsewhere (*note Capabilities::.). - - -File: termcap.info, Node: Naming, Next: Inheriting, Prev: Capability Format, Up: Data Base - -Terminal Type Name Conventions -============================== - - There are conventions for choosing names of terminal types. For one -thing, all letters should be in lower case. The terminal type for a -terminal in its most usual or most fundamental mode of operation should -not have a hyphen in it. - - If the same terminal has other modes of operation which require -different terminal descriptions, these variant descriptions are given -names made by adding suffixes with hyphens. Such alternate descriptions -are used for two reasons: - - * When the terminal has a switch that changes its behavior. Since - the computer cannot tell how the switch is set, the user must tell - the computer by choosing the appropriate terminal type name. - - For example, the VT-100 has a setup flag that controls whether the - cursor wraps at the right margin. If this flag is set to "wrap", - you must use the terminal type `vt100-am'. Otherwise you must use - `vt100-nam'. Plain `vt100' is defined as a synonym for either - `vt100-am' or `vt100-nam' depending on the preferences of the - local site. - - The standard suffix `-am' stands for "automatic margins". - - * To give the user a choice in how to use the terminal. This is done - when the terminal has a switch that the computer normally controls. - - For example, the Ann Arbor Ambassador can be configured with many - screen sizes ranging from 20 to 60 lines. Fewer lines make bigger - characters but more lines let you see more of what you are editing. - As a result, users have different preferences. Therefore, termcap - provides terminal types for many screen sizes. If you choose type - `aaa-30', the terminal will be configured to use 30 lines; if you - choose `aaa-48', 48 lines will be used, and so on. - - Here is a list of standard suffixes and their conventional meanings: - -`-w' - Short for "wide". This is a mode that gives the terminal more - columns than usual. This is normally a user option. - -`-am' - "Automatic margins". This is an alternate description for use when - the terminal's margin-wrap switch is on; it contains the `am' - flag. The implication is that normally the switch is off and the - usual description for the terminal says that the switch is off. - -`-nam' - "No automatic margins". The opposite of `-am', this names an - alternative description which lacks the `am' flag. This implies - that the terminal is normally operated with the margin-wrap switch - turned on, and the normal description of the terminal says so. - -`-na' - "No arrows". This terminal description initializes the terminal to - keep its arrow keys in local mode. This is a user option. - -`-rv' - "Reverse video". This terminal description causes text output for - normal video to appear as reverse, and text output for reverse - video to come out as normal. Often this description differs from - the usual one by interchanging the two strings which turn reverse - video on and off. - - This is a user option; you can choose either the "reverse video" - variant terminal type or the normal terminal type, and termcap will - obey. - -`-s' - "Status". Says to enable use of a status line which ordinary - output does not touch (*note Status Line::.). - - Some terminals have a special line that is used only as a status - line. For these terminals, there is no need for an `-s' variant; - the status line commands should be defined by default. On other - terminals, enabling a status line means removing one screen line - from ordinary use and reducing the effective screen height. For - these terminals, the user can choose the `-s' variant type to - request use of a status line. - -`-NLINES' - Says to operate with NLINES lines on the screen, for terminals - such as the Ambassador which provide this as an option. Normally - this is a user option; by choosing the terminal type, you control - how many lines termcap will use. - -`-NPAGESp' - Says that the terminal has NPAGES pages worth of screen memory, - for terminals where this is a hardware option. - -`-unk' - Says that description is not for direct use, but only for - reference in `tc' capabilities. Such a description is a kind of - subroutine, because it describes the common characteristics of - several variant descriptions that would use other suffixes in - place of `-unk'. - - -File: termcap.info, Node: Inheriting, Prev: Naming, Up: Data Base - -Inheriting from Related Descriptions -==================================== - - When two terminal descriptions are similar, their identical parts do -not need to be given twice. Instead, one of the two can be defined in -terms of the other, using the `tc' capability. We say that one -description "refers to" the other, or "inherits from" the other. - - The `tc' capability must be the last one in the terminal description, -and its value is a string which is the name of another terminal type -which is referred to. For example, - - N9|aaa|ambassador|aaa-30|ann arbor ambassador/30 lines:\ - :ti=\E[2J\E[30;0;0;30p:\ - :te=\E[60;0;0;30p\E[30;1H\E[J:\ - :li#30:tc=aaa-unk: - -defines the terminal type `aaa-30' (also known as plain `aaa') in terms -of `aaa-unk', which defines everything about the Ambassador that is -independent of screen height. The types `aaa-36', `aaa-48' and so on -for other screen heights are likewise defined to inherit from `aaa-unk'. - - The capabilities overridden by `aaa-30' include `li', which says how -many lines there are, and `ti' and `te', which configure the terminal -to use that many lines. - - The effective terminal description for type `aaa' consists of the -text shown above followed by the text of the description of `aaa-unk'. -The `tc' capability is handled automatically by `tgetent', which finds -the description thus referenced and combines the two descriptions -(*note Find::.). Therefore, only the implementor of the terminal -descriptions needs to think about using `tc'. Users and application -programmers do not need to be concerned with it. - - Since the reference terminal description is used last, capabilities -specified in the referring description override any specifications of -the same capabilities in the reference description. - - The referring description can cancel out a capability without -specifying any new value for it by means of a special trick. Write the -capability in the referring description, with the character `@' after -the capability name, as follows: - - NZ|aaa-30-nam|ann arbor ambassador/30 lines/no automatic-margins:\ - :am@:tc=aaa-30: -