tools means that a greater variety of development tools are available to
the developer.
-Almost every module contains a @code{syms_of_*()} function and a
-@code{vars_of_*()} function. The former declares any Lisp primitives
-you have defined and defines any symbols you will be using. The latter
-declares any global Lisp variables you have added and initializes global
-C variables in the module. For each such function, declare it in
-@file{symsinit.h} and make sure it's called in the appropriate place in
-@file{emacs.c}. @strong{Important}: There are stringent requirements on
-exactly what can go into these functions. See the comment in
-@file{emacs.c}. The reason for this is to avoid obscure unwanted
-interactions during initialization. If you don't follow these rules,
-you'll be sorry! If you want to do anything that isn't allowed, create
-a @code{complex_vars_of_*()} function for it. Doing this is tricky,
-though: You have to make sure your function is called at the right time
-so that all the initialization dependencies work out.
-
Every module includes @file{<config.h>} (angle brackets so that
@samp{--srcdir} works correctly; @file{config.h} may or may not be in
the same directory as the C sources) and @file{lisp.h}. @file{config.h}
@file{config.h} files. Which one will be used if you @samp{#include
"config.h"}?
+Almost every module contains a @code{syms_of_*()} function and a
+@code{vars_of_*()} function. The former declares any Lisp primitives
+you have defined and defines any symbols you will be using. The latter
+declares any global Lisp variables you have added and initializes global
+C variables in the module. @strong{Important}: There are stringent
+requirements on exactly what can go into these functions. See the
+comment in @file{emacs.c}. The reason for this is to avoid obscure
+unwanted interactions during initialization. If you don't follow these
+rules, you'll be sorry! If you want to do anything that isn't allowed,
+create a @code{complex_vars_of_*()} function for it. Doing this is
+tricky, though: you have to make sure your function is called at the
+right time so that all the initialization dependencies work out.
+
+Declare each function of these kinds in @file{symsinit.h}. Make sure
+it's called in the appropriate place in @file{emacs.c}. You never need
+to include @file{symsinit.h} directly, because it is included by
+@file{lisp.h}.
+
@strong{All global and static variables that are to be modifiable must
be declared uninitialized.} This means that you may not use the
``declare with initializer'' form for these variables, such as @code{int
@itemize @bullet
@item
all constant symbols and static variables that are registered via
-@code{staticpro}@ in the array @code{staticvec}.
+@code{staticpro}@ in the dynarr @code{staticpros}.
@xref{Adding Global Lisp Variables}.
@item
all Lisp objects that are created in C functions and that must be
@enumerate
@item
We do not use the mark bit (which does not exist for C structures
-anyway), we use a big hash table instead.
+anyway); we use a big hash table instead.
@item
We do not use the mark function of lrecords but instead rely on the
Lisp_Object members.
@end enumerate
-This is done by @code{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.
+This is done by @code{pdump_register_object()}, which handles Lisp_Object
+variables, and @code{pdump_register_struct()} which handles C structures,
+which both delegate the description management to @code{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 @code{pdump_add_entry()} and looked up with
@code{pdump_get_entry()}. There is no need for entry removal. The hash
-value is computed quite basically from the object pointer by
+value is computed quite simply from the object pointer by
@code{pdump_make_hash()}.
The roots for the marking are:
call for protected variables we do not want to dump).
@item
-the @code{pdump_wire}'d variables (@code{staticpro} is equivalent to
-@code{staticpro_nodump()} + @code{pdump_wire()}).
+the variables registered via @code{dump_add_root_object}
+(@code{staticpro()} is equivalent to @code{staticpro_nodump()} +
+@code{dump_add_root_object()}).
@item
-the @code{dumpstruct}'ed variables, which points to C structures.
+the variables registered via @code{dump_add_root_struct_ptr}, each of
+which points to a C structure.
@end enumerate
This does not include the GCPRO'ed variables, the specbinds, the
@item
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
+can have an array of them next to each other. This means you can have an
upper bound of the alignment requirements of a given structure by
looking at which power of two its size is a multiple.
The maximum alignment requirement we take into account is 2^8.
@code{pdump_allocate_offset()} only has to do a linear allocation,
-starting at offset 256 (this leaves room for the header and keep the
+starting at offset 256 (this leaves room for the header and keeps the
alignments happy).
@node The header, Data dumping, Address allocation, Dumping phase
@subsection 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).
+some random information in it. The @code{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).
@node Data dumping, Pointers dumping, The header, Dumping phase
@subsection Data dumping
@enumerate
@item
-the staticpro array
-@item
-the dumpstruct array
+the pdump_root_struct_ptrs dynarr
@item
-the lrecord_implementation_table array
+the pdump_opaques dynarr
@item
a vector of all the offsets to the objects in the file that include a
description (for faster relocation at reload time)
@item
-the pdump_wired and pdump_wired_list arrays
+the pdump_root_objects and pdump_weak_object_chains dynarrs.
@end enumerate
-For each of the arrays we write both the pointer to the variables and
+For each of the dynarrs 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 @code{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.
+The @code{pdump_weak_object_chains} dynarr 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.
+
+Some very important information like the @code{staticpros} and
+@code{lrecord_implementations_table} are handled indirectly using
+@code{dump_add_opaque} or @code{dump_add_root_struct_ptr}.
This is the end of the dumping part.
is computed and will be used for all the relocations.
-@subsection 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.
-
-
-@subsection Putting back the dumpstructed variables
+@subsection Putting back the pdump_opaques
-The variables pointed to by dumpstruct in the dump phase are reset to
-the right relocated object addresses.
+The memory contents are restored in the obvious and trivial way.
-@subsection lrecord_implementations_table
+@subsection Putting back the pdump_root_struct_ptrs
-The lrecord_implementations_table is reset to its dump time state and
-the right lrecord_type_index values are put in.
+The variables pointed to by pdump_root_struct_ptrs in the dump phase are
+reset to the right relocated object addresses.
@subsection Object relocation
reloc_address is equal to the file loading address.
-@subsection Putting back the pdump_wire and pdump_wire_list variables
+@subsection Putting back the pdump_root_objects and pdump_weak_object_chains
-Same as Putting back the dumpstructed variables.
+Same as Putting back the pdump_root_struct_ptrs.
@subsection Reorganize the hash tables
projects / chise / xemacs-chise.git- / blobdiff