Mercurial > hg > xemacs-beta

view src/casetab.c @ 853:2b6fa2618f76

Find changesets by keywords (author, files, the commit message), revision number or hash, or revset expression.
[xemacs-hg @ 2002-05-28 08:44:22 by ben] merge my stderr-proc ws make-docfile.c: Fix places where we forget to check for EOF. code-init.el: Don't use CRLF conversion by default on process output. CMD.EXE and friends work both ways but Cygwin programs don't like the CRs. code-process.el, multicast.el, process.el: Removed. Improvements to call-process-internal: -- allows a buffer to be specified for input and stderr output -- use it on all systems -- implement C-g as documented -- clean up and comment call-process-region uses new call-process facilities; no temp file. remove duplicate funs in process.el. comment exactly how coding systems work and fix various problems. open-multicast-group now does similar coding-system frobbing to open-network-stream. dumped-lisp.el, faces.el, msw-faces.el: Fix some hidden errors due to code not being defined at the right time. xemacs.mak: Add -DSTRICT. ================================================================ ALLOW SEPARATION OF STDOUT AND STDERR IN PROCESSES ================================================================ Standard output and standard error can be processed separately in a process. Each can have its own buffer, its own mark in that buffer, and its filter function. You can specify a separate buffer for stderr in `start-process' to get things started, or use the new primitives: set-process-stderr-buffer process-stderr-buffer process-stderr-mark set-process-stderr-filter process-stderr-filter Also, process-send-region takes a 4th optional arg, a buffer. Currently always uses a pipe() under Unix to read the error output. (#### Would a PTY be better?) sysdep.h, sysproc.h, unexfreebsd.c, unexsunos4.c, nt.c, emacs.c, callproc.c, symsinit.h, sysdep.c, Makefile.in.in, process-unix.c: Delete callproc.c. Move child_setup() to process-unix.c. wait_for_termination() now only needed on a few really old systems. console-msw.h, event-Xt.c, event-msw.c, event-stream.c, event-tty.c, event-unixoid.c, events.h, process-nt.c, process-unix.c, process.c, process.h, procimpl.h: Rewrite the process methods to handle a separate channel for error input. Create Lstreams for reading in the error channel. Many process methods need change. In general the changes are fairly clear as they involve duplicating what's used for reading the normal stdout and changing for stderr -- although tedious, as such changes are required throughout the entire process code. Rewrote the code that reads process output to do two loops, one for stdout and one for stderr. gpmevent.c, tooltalk.c: set_process_filter takes an argument for stderr. ================================================================ NEW ERROR-TRAPPING MECHANISM ================================================================ Totally rewrite error trapping code to be unified and support more features. Basic function is call_trapping_problems(), which lets you specify, by means of flags, what sorts of problems you want trapped. these can include -- quit -- errors -- throws past the function -- creation of "display objects" (e.g. buffers) -- deletion of already-existing "display objects" (e.g. buffers) -- modification of already-existing buffers -- entering the debugger -- gc -- errors->warnings (ala suspended errors) etc. All other error funs rewritten in terms of this one. Various older mechanisms removed or rewritten. window.c, insdel.c, console.c, buffer.c, device.c, frame.c: When creating a display object, added call to note_object_created(), for use with trapping_problems mechanism. When deleting, call check_allowed_operation() and note_object deleted(). The trapping-problems code records the objects created since the call-trapping-problems began. Those objects can be deleted, but none others (i.e. previously existing ones). bytecode.c, cmdloop.c: internal_catch takes another arg. eval.c: Add long comments describing the "five lists" used to maintain state (backtrace, gcpro, specbind, etc.) in the Lisp engine. backtrace.h, eval.c: Implement trapping-problems mechanism, eliminate old mechanisms or redo in terms of new one. frame.c, gutter.c: Flush out the concept of "critical display section", defined by the in_display() var. Use an internal_bind() to get it reset, rather than just doing it at end, because there may be a non-local exit. event-msw.c, event-stream.c, console-msw.h, device.c, dialog-msw.c, frame.c, frame.h, intl.c, toolbar.c, menubar-msw.c, redisplay.c, alloc.c, menubar-x.c: Make use of new trapping-errors stuff and rewrite code based on old mechanisms. glyphs-widget.c, redisplay.h: Protect calling Lisp in redisplay. insdel.c: Protect hooks against deleting existing buffers. frame-msw.c: Use EQ, not EQUAL in hash tables whose keys are just numbers. Otherwise we run into stickiness in redisplay because internal_equal() can QUIT. ================================================================ SIGNAL, C-G CHANGES ================================================================ Here we change the way that C-g interacts with event reading. The idea is that a C-g occurring while we're reading a user event should be read as C-g, but elsewhere should be a QUIT. The former code did all sorts of bizarreness -- requiring that no QUIT occurs anywhere in event-reading code (impossible to enforce given the stuff called or Lisp code invoked), and having some weird system involving enqueue/dequeue of a C-g and interaction with Vquit_flag -- and it didn't work. Now, we simply enclose all code where we want C-g read as an event with {begin/end}_dont_check_for_quit(). This completely turns off the mechanism that checks (and may remove or alter) C-g in the read-ahead queues, so we just get the C-g normal. Signal.c documents this very carefully. cmdloop.c: Correct use of dont_check_for_quit to new scheme, remove old out-of-date comments. event-stream.c: Fix C-g handling to actually work. device-x.c: Disable quit checking when err out. signal.c: Cleanup. Add large descriptive comment. process-unix.c, process-nt.c, sysdep.c: Use QUIT instead of REALLY_QUIT. It's not necessary to use REALLY_QUIT and just confuses the issue. lisp.h: Comment quit handlers. ================================================================ CONS CHANGES ================================================================ free_cons() now takes a Lisp_Object not the result of XCONS(). car and cdr have been renamed so that they don't get used directly; go through XCAR(), XCDR() instead. alloc.c, dired.c, editfns.c, emodules.c, fns.c, glyphs-msw.c, glyphs-x.c, glyphs.c, keymap.c, minibuf.c, search.c, eval.c, lread.c, lisp.h: Correct free_cons calling convention: now takes Lisp_Object, not Lisp_Cons chartab.c: Eliminate direct use of ->car, ->cdr, should be black box. callint.c: Rewrote using EXTERNAL_LIST_LOOP to avoid use of Lisp_Cons. ================================================================ USE INTERNAL-BIND-* ================================================================ eval.c: Cleanups of these funs. alloc.c, fileio.c, undo.c, specifier.c, text.c, profile.c, lread.c, redisplay.c, menubar-x.c, macros.c: Rewrote to use internal_bind_int() and internal_bind_lisp_object() in place of whatever varied and cumbersome mechanisms were formerly there. ================================================================ SPECBIND SANITY ================================================================ backtrace.h: - Improved comments backtrace.h, bytecode.c, eval.c: Add new mechanism check_specbind_stack_sanity() for sanity checking code each time the catchlist or specbind stack change. Removed older prototype of same mechanism. ================================================================ MISC ================================================================ lisp.h, insdel.c, window.c, device.c, console.c, buffer.c: Fleshed out authorship. device-msw.c: Correct bad Unicode-ization. print.c: Be more careful when not initialized or in fatal error handling. search.c: Eliminate running_asynch_code, an FSF holdover. alloc.c: Added comments about gc-cons-threshold. dialog-x.c: Use begin_gc_forbidden() around code to build up a widget value tree, like in menubar-x.c. gui.c: Use Qunbound not Qnil as the default for gethash. lisp-disunion.h, lisp-union.h: Added warnings on use of VOID_TO_LISP(). lisp.h: Use ERROR_CHECK_STRUCTURES to turn on ERROR_CHECK_TRAPPING_PROBLEMS and ERROR_CHECK_TYPECHECK lisp.h: Add assert_with_message. lisp.h: Add macros for gcproing entire arrays. (You could do this before but it required manual twiddling the gcpro structure.) lisp.h: Add prototypes for new functions defined elsewhere.
author ben
date Tue, 28 May 2002 08:45:36 +0000
parents 6728e641994e
children 804517e16990
line wrap: on
line source

/* XEmacs routines to deal with case tables.
   Copyright (C) 1987, 1992, 1993, 1994 Free Software Foundation, Inc.
   Copyright (C) 1995 Sun Microsystems, Inc.
   Copyright (C) 2002 Ben Wing.

This file is part of XEmacs.

XEmacs is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2, or (at your option) any
later version.

XEmacs is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
for more details.

You should have received a copy of the GNU General Public License
along with XEmacs; see the file COPYING.  If not, write to
the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.  */

/* Synched up with: FSF 19.28.  Between FSF 19.28 and 19.30, casetab.c
   was rewritten to use junky FSF char tables.  Meanwhile I rewrote it
   to use more logical char tables. --ben */

/* Written by Howard Gayle. */

/* Modified for Mule by Ben Wing. */

/* The four tables in a case table are downcase, upcase, canon, and eqv.
   Each is a char-table.  Their workings are rather non-obvious.

   (1) `downcase' is the only obvious table: Map a character to its
   lowercase equivalent.

   (2) `upcase' does *NOT* map a character to its uppercase equivalent,
   despite its name.  Rather, it maps lowercase characters to their
   uppercase equivalent, and uppercase characters to *ANYTHING BUT* their
   uppercase equivalent (currently, their lowercase equivalent), and
   characters without case to themselves.  It is used to determine if a
   character "has no case" (no uppercase or lowercase mapping). #### This
   is way bogus.  Just use the obvious implementation of uppercase mapping
   and of NOCASE_P.

   (3) `canon' maps each character to a "canonical" lowercase, such that if
   two different uppercase characters map to the same lowercase character,
   or vice versa, both characters will have the same entry in the canon
   table.

   (4) `equiv' lists the "equivalence classes" defined by `canon'.  Imagine
   that all characters are divided into groups having the same `canon'
   entry; these groups are called "equivalence classes" and `equiv' lists
   them by linking the characters in each equivalence class together in a
   circular list.

   `canon' is used when doing case-insensitive comparisons.  `equiv' is
   used in the Boyer-Moore search code.
   */

#include <config.h>
#include "lisp.h"
#include "buffer.h"
#include "opaque.h"
#include "chartab.h"
#include "casetab.h"

Lisp_Object Qcase_tablep, Qdowncase, Qupcase;
Lisp_Object Vstandard_case_table;

Lisp_Object case_table_char (Lisp_Object ch, Lisp_Object table);

#define STRING256_P(obj) ((STRINGP (obj) && string_char_length (obj) == 256))

static Lisp_Object
mark_case_table (Lisp_Object obj)
{
  Lisp_Case_Table *ct = XCASE_TABLE (obj);

  mark_object (CASE_TABLE_DOWNCASE (ct));
  mark_object (CASE_TABLE_UPCASE (ct));
  mark_object (CASE_TABLE_CANON (ct));
  mark_object (CASE_TABLE_EQV (ct));
  return Qnil;
}

static void
print_case_table (Lisp_Object obj, Lisp_Object printcharfun, int escapeflag)
{
  Lisp_Case_Table *ct = XCASE_TABLE (obj);
  if (print_readably)
    printing_unreadable_object ("#<case-table 0x%x>", ct->header.uid);
  write_fmt_string_lisp
    (printcharfun, "#<case-table downcase=%s upcase=%s canon=%s eqv=%s ", 4,
     CASE_TABLE_DOWNCASE (ct), CASE_TABLE_UPCASE (ct),
     CASE_TABLE_CANON (ct), CASE_TABLE_EQV (ct));
  write_fmt_string (printcharfun, "0x%x>", ct->header.uid);
}

static const struct lrecord_description case_table_description [] = {
  { XD_LISP_OBJECT, offsetof (Lisp_Case_Table, downcase_table) },
  { XD_LISP_OBJECT, offsetof (Lisp_Case_Table, upcase_table) },
  { XD_LISP_OBJECT, offsetof (Lisp_Case_Table, case_canon_table) },
  { XD_LISP_OBJECT, offsetof (Lisp_Case_Table, case_eqv_table) },
  { XD_END }
};

DEFINE_LRECORD_IMPLEMENTATION ("case-table", case_table,
			      mark_case_table, print_case_table, 0,
			      0, 0, case_table_description, Lisp_Case_Table);

static Lisp_Object
allocate_case_table (int init_tables)
{
  Lisp_Case_Table *ct =
    alloc_lcrecord_type (Lisp_Case_Table, &lrecord_case_table);

  if (init_tables)
    {
      SET_CASE_TABLE_DOWNCASE (ct, MAKE_TRT_TABLE ());
      SET_CASE_TABLE_UPCASE (ct, MAKE_TRT_TABLE ());
      SET_CASE_TABLE_CANON (ct, MAKE_TRT_TABLE ());
      SET_CASE_TABLE_EQV (ct, MAKE_TRT_TABLE ());
    }
  else
    {
      SET_CASE_TABLE_DOWNCASE (ct, Qnil);
      SET_CASE_TABLE_UPCASE (ct, Qnil);
      SET_CASE_TABLE_CANON (ct, Qnil);
      SET_CASE_TABLE_EQV (ct, Qnil);
    }
  return wrap_case_table (ct);
}

DEFUN ("make-case-table", Fmake_case_table, 0, 0, 0, /*
Create a new, empty case table.
*/
       ())
{
  return allocate_case_table (1);
}

DEFUN ("case-table-p", Fcase_table_p, 1, 1, 0, /*
Return t if OBJECT is a case table.
See `set-case-table' for more information on these data structures.
*/
       (object))
{
  if (CASE_TABLEP (object))
    return Qt;
  else
    {
      Lisp_Object down, up, canon, eqv;
      if (!CONSP (object))
	return Qnil;
      down = XCAR (object); object = XCDR (object);
      if (!CONSP (object))
	return Qnil;
      up = XCAR (object); object = XCDR (object);
      if (!CONSP (object))
	return Qnil;
      canon = XCAR (object); object = XCDR (object);
      if (!CONSP (object))
	return Qnil;
      eqv = XCAR (object);

      return ((STRING256_P (down)
	       && (NILP (up) || STRING256_P (up))
	       && ((NILP (canon) && NILP (eqv))
		   || STRING256_P (canon))
	       && (NILP (eqv) || STRING256_P (eqv)))
	      ? Qt : Qnil);

    }
}

static Lisp_Object
check_case_table (Lisp_Object object)
{
  /* This function can GC */
  while (NILP (Fcase_table_p (object)))
    object = wrong_type_argument (Qcase_tablep, object);
  return object;
}

Lisp_Object
case_table_char (Lisp_Object ch, Lisp_Object table)
{
  Lisp_Object ct_char;
  ct_char = get_char_table (XCHAR (ch), table);
  if (NILP (ct_char))
    return ch;
  else
    return ct_char;
}

DEFUN ("get-case-table", Fget_case_table, 3, 3, 0, /*
Return CHAR-CASE version of CHARACTER in CASE-TABLE.

CHAR-CASE is either `downcase' or `upcase'.
*/
       (char_case, character, case_table))
{
  CHECK_CHAR (character);
  CHECK_CASE_TABLE (case_table);
  if (EQ (char_case, Qdowncase))
    return case_table_char (character, XCASE_TABLE_DOWNCASE (case_table));
  else if (EQ (char_case, Qupcase))
    return case_table_char (character, XCASE_TABLE_UPCASE (case_table));
  else
    invalid_constant ("Char case must be downcase or upcase", char_case);

  return Qnil; /* Not reached. */
}

DEFUN ("put-case-table", Fput_case_table, 4, 4, 0, /*
Set CHAR-CASE version of CHARACTER to be VALUE in CASE-TABLE.

CHAR-CASE is either `downcase' or `upcase'.
See also `put-case-table-pair'.
*/
       (char_case, character, value, case_table))
{
  CHECK_CHAR (character);
  CHECK_CHAR (value);

  if (EQ (char_case, Qdowncase))
    {
      Fput_char_table (character, value, XCASE_TABLE_DOWNCASE (case_table));
      /* This one is not at all intuitive.  See comment at top of file. */
      Fput_char_table (character, value, XCASE_TABLE_UPCASE (case_table));
    }
  else if (EQ (char_case, Qupcase))
    {
      Fput_char_table (character, value, XCASE_TABLE_UPCASE (case_table));
      Fput_char_table (character, character,
		       XCASE_TABLE_DOWNCASE (case_table));
    }
  else
    invalid_constant ("CHAR-CASE must be downcase or upcase", char_case);

  XCASE_TABLE (case_table)->dirty = 1;
  return Qnil;
}

DEFUN ("put-case-table-pair", Fput_case_table_pair, 3, 3, 0, /*
Make UC and LC a pair of inter-case-converting letters in CASE-TABLE.
UC is an uppercase character and LC is a downcase character.
*/
       (uc, lc, case_table))
{
  CHECK_CHAR (uc);
  CHECK_CHAR (lc);
  CHECK_CASE_TABLE (case_table);

  Fput_char_table (lc, lc, XCASE_TABLE_DOWNCASE (case_table));
  Fput_char_table (uc, lc, XCASE_TABLE_UPCASE (case_table));
  Fput_char_table (uc, lc, XCASE_TABLE_DOWNCASE (case_table));
  Fput_char_table (lc, uc, XCASE_TABLE_UPCASE (case_table));

  XCASE_TABLE (case_table)->dirty = 1;
  return Qnil;
}

DEFUN ("copy-case-table", Fcopy_case_table, 1, 1, 0, /*
Return a new case table which is a copy of CASE-TABLE
*/
       (case_table))
{
  Lisp_Object new_obj;
  CHECK_CASE_TABLE (case_table);

  new_obj = allocate_case_table (0);
  XSET_CASE_TABLE_DOWNCASE
    (new_obj, Fcopy_char_table (XCASE_TABLE_DOWNCASE (case_table)));
  XSET_CASE_TABLE_UPCASE
    (new_obj, Fcopy_char_table (XCASE_TABLE_UPCASE (case_table)));
  XSET_CASE_TABLE_CANON
    (new_obj, Fcopy_char_table (XCASE_TABLE_CANON (case_table)));
  XSET_CASE_TABLE_EQV
    (new_obj, Fcopy_char_table (XCASE_TABLE_EQV (case_table)));
  return new_obj;
}

static int
compute_canon_mapper (struct chartab_range *range,
		      Lisp_Object table, Lisp_Object val, void *arg)
{
  Lisp_Object casetab = VOID_TO_LISP (arg);
  if (range->type == CHARTAB_RANGE_CHAR)
    SET_TRT_TABLE_OF (XCASE_TABLE_CANON (casetab), range->ch,
		      TRT_TABLE_OF (XCASE_TABLE_DOWNCASE (casetab),
				    TRT_TABLE_OF (XCASE_TABLE_UPCASE (casetab),
						  XCHAR (val))));

  return 0;
}

static int
initialize_identity_mapper (struct chartab_range *range,
			    Lisp_Object table, Lisp_Object val, void *arg)
{
  Lisp_Object trt = VOID_TO_LISP (arg);
  if (range->type == CHARTAB_RANGE_CHAR)
    SET_TRT_TABLE_OF (trt, range->ch, range->ch);
  
  return 0;
}

static int
compute_up_or_eqv_mapper (struct chartab_range *range,
			  Lisp_Object table, Lisp_Object val, void *arg)
{
  Lisp_Object inverse = VOID_TO_LISP (arg);
  Emchar toch = XCHAR (val);

  if (range->type == CHARTAB_RANGE_CHAR && range->ch != toch)
    {
      Emchar c = TRT_TABLE_OF (inverse, toch);
      SET_TRT_TABLE_OF (inverse, toch, range->ch);
      SET_TRT_TABLE_OF (inverse, range->ch, c);
    }
  
  return 0;
}

/* Recomputing the canonical and equivalency tables from scratch is a
   lengthy process, and doing them incrementally is extremely difficult or
   perhaps impossible -- and certainly not worth it.  To avoid lots of
   excessive recomputation when lots of stuff is incrementally added, we
   just store a dirty flag and then recompute when a value from the canon
   or eqv tables is actually needed. */

void
recompute_case_table (Lisp_Object casetab)
{
  struct chartab_range range;

  range.type = CHARTAB_RANGE_ALL;
  /* Turn off dirty flag first so we don't get infinite recursion when
     retrieving the values below! */
  XCASE_TABLE (casetab)->dirty = 0;
  map_char_table (XCASE_TABLE_DOWNCASE (casetab), &range,
		  compute_canon_mapper, LISP_TO_VOID (casetab));
  map_char_table (XCASE_TABLE_CANON (casetab), &range,
		  initialize_identity_mapper,
		  LISP_TO_VOID (XCASE_TABLE_EQV (casetab)));
  map_char_table (XCASE_TABLE_CANON (casetab), &range,
		  compute_up_or_eqv_mapper,
		  LISP_TO_VOID (XCASE_TABLE_EQV (casetab)));
}  

DEFUN ("current-case-table", Fcurrent_case_table, 0, 1, 0, /*
Return the case table of BUFFER, which defaults to the current buffer.
*/
       (buffer))
{
  struct buffer *buf = decode_buffer (buffer, 0);

  return buf->case_table;
}

DEFUN ("standard-case-table", Fstandard_case_table, 0, 0, 0, /*
Return the standard case table.
This is the one used for new buffers.
*/
       ())
{
  return Vstandard_case_table;
}

static void
convert_old_style_syntax_string (Lisp_Object table, Lisp_Object string)
{
  Emchar i;
  
  for (i = 0; i < 256; i++)
    SET_TRT_TABLE_OF (table, i, string_emchar (string, i));
}

static Lisp_Object
set_case_table (Lisp_Object table, int standard)
{
  /* This function can GC */
  struct buffer *buf =
    standard ? XBUFFER (Vbuffer_defaults) : current_buffer;

  check_case_table (table);

  if (CASE_TABLEP (table))
    {
      if (standard)
	Vstandard_case_table = table;

      buf->case_table = table;
    }
  else
    {
      /* For backward compatibility. */
      Lisp_Object down, up, canon, eqv, tail = table;
      Lisp_Object casetab =
	standard ? Vstandard_case_table :  buf->case_table;
      struct chartab_range range;

      range.type = CHARTAB_RANGE_ALL;

      Freset_char_table (XCASE_TABLE_DOWNCASE (casetab));
      Freset_char_table (XCASE_TABLE_UPCASE (casetab));
      Freset_char_table (XCASE_TABLE_CANON (casetab));
      Freset_char_table (XCASE_TABLE_EQV (casetab));

      down = XCAR (tail); tail = XCDR (tail);
      up = XCAR (tail); tail = XCDR (tail);
      canon = XCAR (tail); tail = XCDR (tail);
      eqv = XCAR (tail);

      convert_old_style_syntax_string (XCASE_TABLE_DOWNCASE (casetab), down);
      
      if (NILP (up))
	{
	  map_char_table (XCASE_TABLE_DOWNCASE (casetab), &range,
			  initialize_identity_mapper,
			  LISP_TO_VOID (XCASE_TABLE_UPCASE (casetab)));
	  map_char_table (XCASE_TABLE_DOWNCASE (casetab), &range,
			  compute_up_or_eqv_mapper,
			  LISP_TO_VOID (XCASE_TABLE_UPCASE (casetab)));
	}
      else
	convert_old_style_syntax_string (XCASE_TABLE_UPCASE (casetab), up);

      if (NILP (canon))
	map_char_table (XCASE_TABLE_DOWNCASE (casetab), &range,
			compute_canon_mapper, LISP_TO_VOID (casetab));
      else
	convert_old_style_syntax_string (XCASE_TABLE_CANON (casetab), canon);

      if (NILP (eqv))
	{
	  map_char_table (XCASE_TABLE_CANON (casetab), &range,
			  initialize_identity_mapper,
			  LISP_TO_VOID (XCASE_TABLE_EQV (casetab)));
	  map_char_table (XCASE_TABLE_CANON (casetab), &range,
			  compute_up_or_eqv_mapper,
			  LISP_TO_VOID (XCASE_TABLE_EQV (casetab)));
	}
      else
	convert_old_style_syntax_string (XCASE_TABLE_CANON (casetab), eqv);
    }

  return buf->case_table;
}

DEFUN ("set-case-table", Fset_case_table, 1, 1, 0, /*
Select CASE-TABLE as the new case table for the current buffer.
A case table is a case-table object or list
 (DOWNCASE UPCASE CANONICALIZE EQUIVALENCES)
 where each element is either nil or a string of length 256.
The latter is provided for backward-compatibility.
DOWNCASE maps each character to its lower-case equivalent.
UPCASE maps each character to its upper-case equivalent;
 if lower and upper case characters are in 1-1 correspondence,
 you may use nil and the upcase table will be deduced from DOWNCASE.
CANONICALIZE maps each character to a canonical equivalent;
 any two characters that are related by case-conversion have the same
 canonical equivalent character; it may be nil, in which case it is
 deduced from DOWNCASE and UPCASE.
EQUIVALENCES is a map that cyclicly permutes each equivalence class
 (of characters with the same canonical equivalent); it may be nil,
 in which case it is deduced from CANONICALIZE.

See also `get-case-table', `put-case-table' and `put-case-table-pair'.
*/
       (case_table))
{
  /* This function can GC */
  return set_case_table (case_table, 0);
}

DEFUN ("set-standard-case-table", Fset_standard_case_table, 1, 1, 0, /*
Select CASE-TABLE as the new standard case table for new buffers.
See `set-case-table' for more info on case tables.
*/
       (case_table))
{
  /* This function can GC */
  return set_case_table (case_table, 1);
}


void
syms_of_casetab (void)
{
  INIT_LRECORD_IMPLEMENTATION (case_table);

  DEFSYMBOL_MULTIWORD_PREDICATE (Qcase_tablep);
  DEFSYMBOL (Qdowncase);
  DEFSYMBOL (Qupcase);

  DEFSUBR (Fmake_case_table);
  DEFSUBR (Fcase_table_p);
  DEFSUBR (Fget_case_table);
  DEFSUBR (Fput_case_table);
  DEFSUBR (Fput_case_table_pair);
  DEFSUBR (Fcurrent_case_table);
  DEFSUBR (Fstandard_case_table);
  DEFSUBR (Fcopy_case_table);
  DEFSUBR (Fset_case_table);
  DEFSUBR (Fset_standard_case_table);
}

void
complex_vars_of_casetab (void)
{
  REGISTER Emchar i;

  staticpro (&Vstandard_case_table);

  Vstandard_case_table = allocate_case_table (1);

  for (i = 0; i < 256; i++)
    {
      unsigned char lowered = tolower (i);

      SET_TRT_TABLE_OF (XCASE_TABLE_DOWNCASE (Vstandard_case_table), i,
		        lowered);
    }

  for (i = 0; i < 256; i++)
    {
      unsigned char flipped = (isupper (i) ? tolower (i)
			       : (islower (i) ? toupper (i) : i));

      SET_TRT_TABLE_OF (XCASE_TABLE_UPCASE (Vstandard_case_table), i,
		        flipped);
    }

  recompute_case_table (Vstandard_case_table);
}