keymap.c 87.9 KB
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/* Manipulation of keymaps
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   Copyright (C) 1985, 86, 87, 88, 93, 94, 95 Free Software Foundation, Inc.
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This file is part of GNU Emacs.

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

GNU Emacs 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 GNU Emacs; see the file COPYING.  If not, write to
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the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
Boston, MA 02111-1307, USA.  */
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#include <config.h>
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#include <stdio.h>
#undef NULL
#include "lisp.h"
#include "commands.h"
#include "buffer.h"
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#include "charset.h"
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#include "keyboard.h"
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#include "termhooks.h"
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#include "blockinput.h"
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#include "puresize.h"
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#define min(a, b) ((a) < (b) ? (a) : (b))

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/* The number of elements in keymap vectors.  */
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#define DENSE_TABLE_SIZE (0200)

/* Actually allocate storage for these variables */

Lisp_Object current_global_map;	/* Current global keymap */

Lisp_Object global_map;		/* default global key bindings */

Lisp_Object meta_map;		/* The keymap used for globally bound
				   ESC-prefixed default commands */

Lisp_Object control_x_map;	/* The keymap used for globally bound
				   C-x-prefixed default commands */

/* was MinibufLocalMap */
Lisp_Object Vminibuffer_local_map;
				/* The keymap used by the minibuf for local
				   bindings when spaces are allowed in the
				   minibuf */

/* was MinibufLocalNSMap */
Lisp_Object Vminibuffer_local_ns_map;			
				/* The keymap used by the minibuf for local
				   bindings when spaces are not encouraged
				   in the minibuf */

/* keymap used for minibuffers when doing completion */
/* was MinibufLocalCompletionMap */
Lisp_Object Vminibuffer_local_completion_map;

/* keymap used for minibuffers when doing completion and require a match */
/* was MinibufLocalMustMatchMap */
Lisp_Object Vminibuffer_local_must_match_map;

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/* Alist of minor mode variables and keymaps.  */
Lisp_Object Vminor_mode_map_alist;

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/* Keymap mapping ASCII function key sequences onto their preferred forms.
   Initialized by the terminal-specific lisp files.  See DEFVAR for more
   documentation.  */
Lisp_Object Vfunction_key_map;

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/* Keymap mapping ASCII function key sequences onto their preferred forms.  */
Lisp_Object Vkey_translation_map;

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/* A list of all commands given new bindings since a certain time
   when nil was stored here.
   This is used to speed up recomputation of menu key equivalents
   when Emacs starts up.   t means don't record anything here.  */
Lisp_Object Vdefine_key_rebound_commands;

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Lisp_Object Qkeymapp, Qkeymap, Qnon_ascii;
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/* A char with the CHAR_META bit set in a vector or the 0200 bit set
   in a string key sequence is equivalent to prefixing with this
   character.  */
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extern Lisp_Object meta_prefix_char;

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extern Lisp_Object Voverriding_local_map;

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static Lisp_Object define_as_prefix ();
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static Lisp_Object describe_buffer_bindings ();
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static void describe_command (), describe_translation ();
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static void describe_map ();
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Lisp_Object Fcopy_keymap ();
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102

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/* Keymap object support - constructors and predicates.			*/

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DEFUN ("make-keymap", Fmake_keymap, Smake_keymap, 0, 1, 0,
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  "Construct and return a new keymap, of the form (keymap VECTOR . ALIST).\n\
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VECTOR is a vector which holds the bindings for the ASCII\n\
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characters.  ALIST is an assoc-list which holds bindings for function keys,\n\
mouse events, and any other things that appear in the input stream.\n\
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All entries in it are initially nil, meaning \"command undefined\".\n\n\
The optional arg STRING supplies a menu name for the keymap\n\
in case you use it as a menu with `x-popup-menu'.")
  (string)
     Lisp_Object string;
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{
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  Lisp_Object tail;
  if (!NILP (string))
    tail = Fcons (string, Qnil);
  else
    tail = Qnil;
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  return Fcons (Qkeymap,
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		Fcons (Fmake_char_table (Qkeymap, Qnil), tail));
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}

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DEFUN ("make-sparse-keymap", Fmake_sparse_keymap, Smake_sparse_keymap, 0, 1, 0,
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  "Construct and return a new sparse-keymap list.\n\
Its car is `keymap' and its cdr is an alist of (CHAR . DEFINITION),\n\
which binds the character CHAR to DEFINITION, or (SYMBOL . DEFINITION),\n\
which binds the function key or mouse event SYMBOL to DEFINITION.\n\
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Initially the alist is nil.\n\n\
The optional arg STRING supplies a menu name for the keymap\n\
in case you use it as a menu with `x-popup-menu'.")
  (string)
     Lisp_Object string;
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{
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  if (!NILP (string))
    return Fcons (Qkeymap, Fcons (string, Qnil));
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  return Fcons (Qkeymap, Qnil);
}

/* This function is used for installing the standard key bindings
   at initialization time.

   For example:

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   initial_define_key (control_x_map, Ctl('X'), "exchange-point-and-mark");  */
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void
initial_define_key (keymap, key, defname)
     Lisp_Object keymap;
     int key;
     char *defname;
{
  store_in_keymap (keymap, make_number (key), intern (defname));
}

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void
initial_define_lispy_key (keymap, keyname, defname)
     Lisp_Object keymap;
     char *keyname;
     char *defname;
{
  store_in_keymap (keymap, intern (keyname), intern (defname));
}

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/* Define character fromchar in map frommap as an alias for character
   tochar in map tomap.  Subsequent redefinitions of the latter WILL
   affect the former. */

#if 0
void
synkey (frommap, fromchar, tomap, tochar)
     struct Lisp_Vector *frommap, *tomap;
     int fromchar, tochar;
{
  Lisp_Object v, c;
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  XSETVECTOR (v, tomap);
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  XSETFASTINT (c, tochar);
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  frommap->contents[fromchar] = Fcons (v, c);
}
#endif /* 0 */

DEFUN ("keymapp", Fkeymapp, Skeymapp, 1, 1, 0,
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  "Return t if OBJECT is a keymap.\n\
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\n\
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A keymap is a list (keymap . ALIST),\n\
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or a symbol whose function definition is itself a keymap.\n\
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ALIST elements look like (CHAR . DEFN) or (SYMBOL . DEFN);\n\
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a vector of densely packed bindings for small character codes\n\
is also allowed as an element.")
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  (object)
     Lisp_Object object;
{
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  return (NILP (get_keymap_1 (object, 0, 0)) ? Qnil : Qt);
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}

/* Check that OBJECT is a keymap (after dereferencing through any
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   symbols).  If it is, return it.

   If AUTOLOAD is non-zero and OBJECT is a symbol whose function value
   is an autoload form, do the autoload and try again.
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   If AUTOLOAD is nonzero, callers must assume GC is possible.
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   ERROR controls how we respond if OBJECT isn't a keymap.
   If ERROR is non-zero, signal an error; otherwise, just return Qnil.

   Note that most of the time, we don't want to pursue autoloads.
   Functions like Faccessible_keymaps which scan entire keymap trees
   shouldn't load every autoloaded keymap.  I'm not sure about this,
   but it seems to me that only read_key_sequence, Flookup_key, and
   Fdefine_key should cause keymaps to be autoloaded.  */

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Lisp_Object
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get_keymap_1 (object, error, autoload)
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     Lisp_Object object;
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     int error, autoload;
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{
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  Lisp_Object tem;
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 autoload_retry:
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  tem = indirect_function (object);
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  if (CONSP (tem) && EQ (XCONS (tem)->car, Qkeymap))
    return tem;
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  /* Should we do an autoload?  Autoload forms for keymaps have
     Qkeymap as their fifth element.  */
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  if (autoload
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      && SYMBOLP (object)
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      && CONSP (tem)
      && EQ (XCONS (tem)->car, Qautoload))
    {
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      Lisp_Object tail;
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      tail = Fnth (make_number (4), tem);
      if (EQ (tail, Qkeymap))
	{
	  struct gcpro gcpro1, gcpro2;
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	  GCPRO2 (tem, object);
	  do_autoload (tem, object);
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	  UNGCPRO;

	  goto autoload_retry;
	}
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    }

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  if (error)
    wrong_type_argument (Qkeymapp, object);
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  else
    return Qnil;
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}

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/* Follow any symbol chaining, and return the keymap denoted by OBJECT.
   If OBJECT doesn't denote a keymap at all, signal an error.  */
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Lisp_Object
get_keymap (object)
     Lisp_Object object;
{
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  return get_keymap_1 (object, 1, 0);
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}
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/* Return the parent map of the keymap MAP, or nil if it has none.
   We assume that MAP is a valid keymap.  */

DEFUN ("keymap-parent", Fkeymap_parent, Skeymap_parent, 1, 1, 0,
  "Return the parent keymap of KEYMAP.")
  (keymap)
     Lisp_Object keymap;
{
  Lisp_Object list;

  keymap = get_keymap_1 (keymap, 1, 1);

  /* Skip past the initial element `keymap'.  */
  list = XCONS (keymap)->cdr;
  for (; CONSP (list); list = XCONS (list)->cdr)
    {
      /* See if there is another `keymap'.  */
      if (EQ (Qkeymap, XCONS (list)->car))
	return list;
    }

  return Qnil;
}

/* Set the parent keymap of MAP to PARENT.  */

DEFUN ("set-keymap-parent", Fset_keymap_parent, Sset_keymap_parent, 2, 2, 0,
  "Modify KEYMAP to set its parent map to PARENT.\n\
PARENT should be nil or another keymap.")
  (keymap, parent)
     Lisp_Object keymap, parent;
{
  Lisp_Object list, prev;
  int i;
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  keymap = get_keymap_1 (keymap, 1, 1);
  if (!NILP (parent))
    parent = get_keymap_1 (parent, 1, 1);
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  /* Skip past the initial element `keymap'.  */
  prev = keymap;
  while (1)
    {
      list = XCONS (prev)->cdr;
      /* If there is a parent keymap here, replace it.
	 If we came to the end, add the parent in PREV.  */
      if (! CONSP (list) || EQ (Qkeymap, XCONS (list)->car))
	{
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	  /* If we already have the right parent, return now
	     so that we avoid the loops below.  */
	  if (EQ (XCONS (prev)->cdr, parent))
	    return parent;

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	  XCONS (prev)->cdr = parent;
	  break;
	}
      prev = list;
    }

  /* Scan through for submaps, and set their parents too.  */

  for (list = XCONS (keymap)->cdr; CONSP (list); list = XCONS (list)->cdr)
    {
      /* Stop the scan when we come to the parent.  */
      if (EQ (XCONS (list)->car, Qkeymap))
	break;

      /* If this element holds a prefix map, deal with it.  */
      if (CONSP (XCONS (list)->car)
	  && CONSP (XCONS (XCONS (list)->car)->cdr))
	fix_submap_inheritance (keymap, XCONS (XCONS (list)->car)->car,
				XCONS (XCONS (list)->car)->cdr);

      if (VECTORP (XCONS (list)->car))
	for (i = 0; i < XVECTOR (XCONS (list)->car)->size; i++)
	  if (CONSP (XVECTOR (XCONS (list)->car)->contents[i]))
	    fix_submap_inheritance (keymap, make_number (i),
				    XVECTOR (XCONS (list)->car)->contents[i]);
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      if (CHAR_TABLE_P (XCONS (list)->car))
	{
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	  Lisp_Object indices[3];
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	  map_char_table (fix_submap_inheritance, Qnil, XCONS (list)->car,
			  keymap, 0, indices);
	}
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    }

  return parent;
}

/* EVENT is defined in MAP as a prefix, and SUBMAP is its definition.
   if EVENT is also a prefix in MAP's parent,
   make sure that SUBMAP inherits that definition as its own parent.  */

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void
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fix_submap_inheritance (map, event, submap)
     Lisp_Object map, event, submap;
{
  Lisp_Object map_parent, parent_entry;

  /* SUBMAP is a cons that we found as a key binding.
     Discard the other things found in a menu key binding.  */

  if (CONSP (submap)
      && STRINGP (XCONS (submap)->car))
    {
      submap = XCONS (submap)->cdr;
      /* Also remove a menu help string, if any,
	 following the menu item name.  */
      if (CONSP (submap) && STRINGP (XCONS (submap)->car))
	submap = XCONS (submap)->cdr;
      /* Also remove the sublist that caches key equivalences, if any.  */
      if (CONSP (submap)
	  && CONSP (XCONS (submap)->car))
	{
	  Lisp_Object carcar;
	  carcar = XCONS (XCONS (submap)->car)->car;
	  if (NILP (carcar) || VECTORP (carcar))
	    submap = XCONS (submap)->cdr;
	}
    }

  /* If it isn't a keymap now, there's no work to do.  */
  if (! CONSP (submap)
      || ! EQ (XCONS (submap)->car, Qkeymap))
    return;

  map_parent = Fkeymap_parent (map);
  if (! NILP (map_parent))
    parent_entry = access_keymap (map_parent, event, 0, 0);
  else
    parent_entry = Qnil;

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  /* If MAP's parent has something other than a keymap,
     our own submap shadows it completely, so use nil as SUBMAP's parent.  */
  if (! (CONSP (parent_entry) && EQ (XCONS (parent_entry)->car, Qkeymap)))
    parent_entry = Qnil;

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  if (! EQ (parent_entry, submap))
    Fset_keymap_parent (submap, parent_entry);
}

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/* Look up IDX in MAP.  IDX may be any sort of event.
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   Note that this does only one level of lookup; IDX must be a single
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   event, not a sequence. 

   If T_OK is non-zero, bindings for Qt are treated as default
   bindings; any key left unmentioned by other tables and bindings is
   given the binding of Qt.  

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   If T_OK is zero, bindings for Qt are not treated specially.

   If NOINHERIT, don't accept a subkeymap found in an inherited keymap.  */
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Lisp_Object
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access_keymap (map, idx, t_ok, noinherit)
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     Lisp_Object map;
     Lisp_Object idx;
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     int t_ok;
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     int noinherit;
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{
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  int noprefix = 0;
  Lisp_Object val;

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  /* If idx is a list (some sort of mouse click, perhaps?),
     the index we want to use is the car of the list, which
     ought to be a symbol.  */
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  idx = EVENT_HEAD (idx);
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  /* If idx is a symbol, it might have modifiers, which need to
     be put in the canonical order.  */
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  if (SYMBOLP (idx))
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    idx = reorder_modifiers (idx);
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  else if (INTEGERP (idx))
    /* Clobber the high bits that can be present on a machine
       with more than 24 bits of integer.  */
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    XSETFASTINT (idx, XINT (idx) & (CHAR_META | (CHAR_META - 1)));
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  {
    Lisp_Object tail;
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    Lisp_Object t_binding;
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    t_binding = Qnil;
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    for (tail = map; CONSP (tail); tail = XCONS (tail)->cdr)
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      {
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	Lisp_Object binding;
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	binding = XCONS (tail)->car;
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	if (SYMBOLP (binding))
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	  {
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	    /* If NOINHERIT, stop finding prefix definitions
	       after we pass a second occurrence of the `keymap' symbol.  */
	    if (noinherit && EQ (binding, Qkeymap) && ! EQ (tail, map))
	      noprefix = 1;
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	  }
	else if (CONSP (binding))
	  {
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	    if (EQ (XCONS (binding)->car, idx))
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	      {
		val = XCONS (binding)->cdr;
		if (noprefix && CONSP (val) && EQ (XCONS (val)->car, Qkeymap))
		  return Qnil;
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		if (CONSP (val))
		  fix_submap_inheritance (map, idx, val);
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		return val;
	      }
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	    if (t_ok && EQ (XCONS (binding)->car, Qt))
	      t_binding = XCONS (binding)->cdr;
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	  }
	else if (VECTORP (binding))
	  {
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	    if (NATNUMP (idx) && XFASTINT (idx) < XVECTOR (binding)->size)
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	      {
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		val = XVECTOR (binding)->contents[XFASTINT (idx)];
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		if (noprefix && CONSP (val) && EQ (XCONS (val)->car, Qkeymap))
		  return Qnil;
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		if (CONSP (val))
		  fix_submap_inheritance (map, idx, val);
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		return val;
	      }
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	  }
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	else if (CHAR_TABLE_P (binding))
	  {
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	    /* Character codes with modifiers
	       are not included in a char-table.
	       All character codes without modifiers are included.  */
	    if (NATNUMP (idx)
		&& ! (XFASTINT (idx)
		      & (CHAR_ALT | CHAR_SUPER | CHAR_HYPER
			 | CHAR_SHIFT | CHAR_CTL | CHAR_META)))
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	      {
		val = Faref (binding, idx);
		if (noprefix && CONSP (val) && EQ (XCONS (val)->car, Qkeymap))
		  return Qnil;
		if (CONSP (val))
		  fix_submap_inheritance (map, idx, val);
		return val;
	      }
	  }
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	QUIT;
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      }
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    return t_binding;
  }
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}

/* Given OBJECT which was found in a slot in a keymap,
   trace indirect definitions to get the actual definition of that slot.
   An indirect definition is a list of the form
   (KEYMAP . INDEX), where KEYMAP is a keymap or a symbol defined as one
   and INDEX is the object to look up in KEYMAP to yield the definition.

   Also if OBJECT has a menu string as the first element,
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   remove that.  Also remove a menu help string as second element.

   If AUTOLOAD is nonzero, load autoloadable keymaps
   that are referred to with indirection.  */
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Lisp_Object
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get_keyelt (object, autoload)
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     register Lisp_Object object;
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     int autoload;
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{
  while (1)
    {
      register Lisp_Object map, tem;

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      /* If the contents are (KEYMAP . ELEMENT), go indirect.  */
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      map = get_keymap_1 (Fcar_safe (object), 0, autoload);
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      tem = Fkeymapp (map);
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      if (!NILP (tem))
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	{
	  Lisp_Object key;
	  key = Fcdr (object);
	  if (INTEGERP (key) && (XINT (key) & meta_modifier))
	    {
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	      object = access_keymap (map, meta_prefix_char, 0, 0);
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	      map = get_keymap_1 (object, 0, autoload);
	      object = access_keymap (map,
				      make_number (XINT (key) & ~meta_modifier),
				      0, 0);
	    }
	  else
	    object = access_keymap (map, key, 0, 0);
	}

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      /* If the keymap contents looks like (STRING . DEFN),
	 use DEFN.
	 Keymap alist elements like (CHAR MENUSTRING . DEFN)
	 will be used by HierarKey menus.  */
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      else if (CONSP (object)
	       && STRINGP (XCONS (object)->car))
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	{
	  object = XCONS (object)->cdr;
	  /* Also remove a menu help string, if any,
	     following the menu item name.  */
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	  if (CONSP (object) && STRINGP (XCONS (object)->car))
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	    object = XCONS (object)->cdr;
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	  /* Also remove the sublist that caches key equivalences, if any.  */
	  if (CONSP (object)
	      && CONSP (XCONS (object)->car))
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	    {
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	      Lisp_Object carcar;
	      carcar = XCONS (XCONS (object)->car)->car;
	      if (NILP (carcar) || VECTORP (carcar))
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		object = XCONS (object)->cdr;
	    }
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	}
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      else
	/* Anything else is really the value.  */
	return object;
    }
}

Lisp_Object
store_in_keymap (keymap, idx, def)
     Lisp_Object keymap;
     register Lisp_Object idx;
     register Lisp_Object def;
{
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  /* If we are preparing to dump, and DEF is a menu element
     with a menu item string, copy it to ensure it is not pure.  */
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  if (CONSP (def) && PURE_P (def) && STRINGP (XCONS (def)->car))
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    def = Fcons (XCONS (def)->car, XCONS (def)->cdr);

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  if (!CONSP (keymap) || ! EQ (XCONS (keymap)->car, Qkeymap))
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    error ("attempt to define a key in a non-keymap");

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  /* If idx is a list (some sort of mouse click, perhaps?),
     the index we want to use is the car of the list, which
     ought to be a symbol.  */
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  idx = EVENT_HEAD (idx);
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  /* If idx is a symbol, it might have modifiers, which need to
     be put in the canonical order.  */
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  if (SYMBOLP (idx))
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    idx = reorder_modifiers (idx);
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  else if (INTEGERP (idx))
    /* Clobber the high bits that can be present on a machine
       with more than 24 bits of integer.  */
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    XSETFASTINT (idx, XINT (idx) & (CHAR_META | (CHAR_META - 1)));
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  /* Scan the keymap for a binding of idx.  */
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  {
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    Lisp_Object tail;
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    /* The cons after which we should insert new bindings.  If the
       keymap has a table element, we record its position here, so new
       bindings will go after it; this way, the table will stay
       towards the front of the alist and character lookups in dense
       keymaps will remain fast.  Otherwise, this just points at the
       front of the keymap.  */
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    Lisp_Object insertion_point;
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    insertion_point = keymap;
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    for (tail = XCONS (keymap)->cdr; CONSP (tail); tail = XCONS (tail)->cdr)
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      {
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	Lisp_Object elt;
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	elt = XCONS (tail)->car;
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	if (VECTORP (elt))
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	  {
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	    if (NATNUMP (idx) && XFASTINT (idx) < XVECTOR (elt)->size)
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	      {
		XVECTOR (elt)->contents[XFASTINT (idx)] = def;
		return def;
	      }
	    insertion_point = tail;
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	  }
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	else if (CHAR_TABLE_P (elt))
	  {
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	    /* Character codes with modifiers
	       are not included in a char-table.
	       All character codes without modifiers are included.  */
	    if (NATNUMP (idx)
		&& ! (XFASTINT (idx)
		      & (CHAR_ALT | CHAR_SUPER | CHAR_HYPER
			 | CHAR_SHIFT | CHAR_CTL | CHAR_META)))
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	      {
		Faset (elt, idx, def);
		return def;
	      }
	    insertion_point = tail;
	  }
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	else if (CONSP (elt))
	  {
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	    if (EQ (idx, XCONS (elt)->car))
	      {
		XCONS (elt)->cdr = def;
		return def;
	      }
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	  }
	else if (SYMBOLP (elt))
	  {
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	    /* If we find a 'keymap' symbol in the spine of KEYMAP,
               then we must have found the start of a second keymap
               being used as the tail of KEYMAP, and a binding for IDX
               should be inserted before it.  */
	    if (EQ (elt, Qkeymap))
	      goto keymap_end;
	  }
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	QUIT;
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      }

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  keymap_end:
    /* We have scanned the entire keymap, and not found a binding for
       IDX.  Let's add one.  */
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    XCONS (insertion_point)->cdr
      = Fcons (Fcons (idx, def), XCONS (insertion_point)->cdr);
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  }
	  
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  return def;
}

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void
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copy_keymap_1 (chartable, idx, elt)
     Lisp_Object chartable, idx, elt;
{
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  if (!SYMBOLP (elt) && ! NILP (Fkeymapp (elt)))
    Faset (chartable, idx, Fcopy_keymap (elt));
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}
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DEFUN ("copy-keymap", Fcopy_keymap, Scopy_keymap, 1, 1, 0,
  "Return a copy of the keymap KEYMAP.\n\
The copy starts out with the same definitions of KEYMAP,\n\
but changing either the copy or KEYMAP does not affect the other.\n\
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Any key definitions that are subkeymaps are recursively copied.\n\
However, a key definition which is a symbol whose definition is a keymap\n\
is not copied.")
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  (keymap)
     Lisp_Object keymap;
{
  register Lisp_Object copy, tail;

  copy = Fcopy_alist (get_keymap (keymap));

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  for (tail = copy; CONSP (tail); tail = XCONS (tail)->cdr)
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    {
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      Lisp_Object elt;
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      elt = XCONS (tail)->car;
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      if (CHAR_TABLE_P (elt))
	{
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	  Lisp_Object indices[3];
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	  elt = Fcopy_sequence (elt);
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	  XCONS (tail)->car = elt;

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	  map_char_table (copy_keymap_1, Qnil, elt, elt, 0, indices);
	}
      else if (VECTORP (elt))
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	{
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	  int i;
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	  elt = Fcopy_sequence (elt);
	  XCONS (tail)->car = elt;
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	  for (i = 0; i < XVECTOR (elt)->size; i++)
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	    if (!SYMBOLP (XVECTOR (elt)->contents[i])
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		&& ! NILP (Fkeymapp (XVECTOR (elt)->contents[i])))
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	      XVECTOR (elt)->contents[i]
		= Fcopy_keymap (XVECTOR (elt)->contents[i]);
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	}
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      else if (CONSP (elt))
	{
	  /* Skip the optional menu string.  */
	  if (CONSP (XCONS (elt)->cdr)
	      && STRINGP (XCONS (XCONS (elt)->cdr)->car))
	    {
	      Lisp_Object tem;

	      /* Copy the cell, since copy-alist didn't go this deep.  */
	      XCONS (elt)->cdr = Fcons (XCONS (XCONS (elt)->cdr)->car,
					XCONS (XCONS (elt)->cdr)->cdr);
	      elt = XCONS (elt)->cdr;

	      /* Also skip the optional menu help string.  */
	      if (CONSP (XCONS (elt)->cdr)
		  && STRINGP (XCONS (XCONS (elt)->cdr)->car))
		{
		  XCONS (elt)->cdr = Fcons (XCONS (XCONS (elt)->cdr)->car,
					    XCONS (XCONS (elt)->cdr)->cdr);
		  elt = XCONS (elt)->cdr;
		}
	      /* There may also be a list that caches key equivalences.
		 Just delete it for the new keymap.  */
	      if (CONSP (XCONS (elt)->cdr)
		  && CONSP (XCONS (XCONS (elt)->cdr)->car)
		  && (NILP (tem = XCONS (XCONS (XCONS (elt)->cdr)->car)->car)
		      || VECTORP (tem)))
		XCONS (elt)->cdr = XCONS (XCONS (elt)->cdr)->cdr;
	    }
	  if (CONSP (elt)
	      && ! SYMBOLP (XCONS (elt)->cdr)
	      && ! NILP (Fkeymapp (XCONS (elt)->cdr)))
	    XCONS (elt)->cdr = Fcopy_keymap (XCONS (elt)->cdr);
	}
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    }

  return copy;
}

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/* Simple Keymap mutators and accessors.				*/

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/* GC is possible in this function if it autoloads a keymap.  */

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DEFUN ("define-key", Fdefine_key, Sdefine_key, 3, 3, 0,
  "Args KEYMAP, KEY, DEF.  Define key sequence KEY, in KEYMAP, as DEF.\n\
KEYMAP is a keymap.  KEY is a string or a vector of symbols and characters\n\
meaning a sequence of keystrokes and events.\n\
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Non-ASCII characters with codes above 127 (such as ISO Latin-1)\n\
can be included if you use a vector.\n\
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DEF is anything that can be a key's definition:\n\
 nil (means key is undefined in this keymap),\n\
 a command (a Lisp function suitable for interactive calling)\n\
 a string (treated as a keyboard macro),\n\
 a keymap (to define a prefix key),\n\
 a symbol.  When the key is looked up, the symbol will stand for its\n\
    function definition, which should at that time be one of the above,\n\
    or another symbol whose function definition is used, etc.\n\
 a cons (STRING . DEFN), meaning that DEFN is the definition\n\
    (DEFN should be a valid definition in its own right),\n\
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 or a cons (KEYMAP . CHAR), meaning use definition of CHAR in map KEYMAP.\n\
\n\
If KEYMAP is a sparse keymap, the pair binding KEY to DEF is added at\n\
the front of KEYMAP.")
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  (keymap, key, def)
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     Lisp_Object keymap;
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     Lisp_Object key;
     Lisp_Object def;
{
  register int idx;
  register Lisp_Object c;
  register Lisp_Object tem;
  register Lisp_Object cmd;
  int metized = 0;
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  int meta_bit;
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  int length;
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  struct gcpro gcpro1, gcpro2, gcpro3;
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  keymap = get_keymap_1 (keymap, 1, 1);
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  if (!VECTORP (key) && !STRINGP (key))
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    key = wrong_type_argument (Qarrayp, key);

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  length = XFASTINT (Flength (key));
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  if (length == 0)
    return Qnil;

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  if (SYMBOLP (def) && !EQ (Vdefine_key_rebound_commands, Qt))
    Vdefine_key_rebound_commands = Fcons (def, Vdefine_key_rebound_commands);

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  GCPRO3 (keymap, key, def);

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  if (VECTORP (key))
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    meta_bit = meta_modifier;
  else
    meta_bit = 0x80;

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  idx = 0;
  while (1)
    {
      c = Faref (key, make_number (idx));

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      if (CONSP (c) && lucid_event_type_list_p (c))
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	c = Fevent_convert_list (c);
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      if (INTEGERP (c)
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	  && (XINT (c) & meta_bit)
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	  && !metized)
	{
	  c = meta_prefix_char;
	  metized = 1;
	}
      else
	{
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	  if (INTEGERP (c))
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	    XSETINT (c, XINT (c) & ~meta_bit);
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	  metized = 0;
	  idx++;
	}

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      if (! INTEGERP (c) && ! SYMBOLP (c) && ! CONSP (c))
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	error ("Key sequence contains invalid events");
852

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      if (idx == length)
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	RETURN_UNGCPRO (store_in_keymap (keymap, c, def));
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      cmd = get_keyelt (access_keymap (keymap, c, 0, 1), 1);
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      /* If this key is undefined, make it a prefix.  */
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      if (NILP (cmd))
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	cmd = define_as_prefix (keymap, c);
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      keymap = get_keymap_1 (cmd, 0, 1);
      if (NILP (keymap))
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	/* We must use Fkey_description rather than just passing key to
	   error; key might be a vector, not a string.  */
	error ("Key sequence %s uses invalid prefix characters",
	       XSTRING (Fkey_description (key))->data);
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    }
}

/* Value is number if KEY is too long; NIL if valid but has no definition. */
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/* GC is possible in this function if it autoloads a keymap.  */
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DEFUN ("lookup-key", Flookup_key, Slookup_key, 2, 3, 0,
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  "In keymap KEYMAP, look up key sequence KEY.  Return the definition.\n\
nil means undefined.  See doc of `define-key' for kinds of definitions.\n\
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\n\
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A number as value means KEY is \"too long\";\n\
that is, characters or symbols in it except for the last one\n\
fail to be a valid sequence of prefix characters in KEYMAP.\n\
The number is how many characters at the front of KEY\n\
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it takes to reach a non-prefix command.\n\
\n\
Normally, `lookup-key' ignores bindings for t, which act as default\n\
bindings, used when nothing else in the keymap applies; this makes it\n\
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usable as a general function for probing keymaps.  However, if the\n\
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third optional argument ACCEPT-DEFAULT is non-nil, `lookup-key' will\n\
recognize the default bindings, just as `read-key-sequence' does.")
  (keymap, key, accept_default)
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     register Lisp_Object keymap;
     Lisp_Object key;
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     Lisp_Object accept_default;
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{
  register int idx;
  register Lisp_Object tem;
  register Lisp_Object cmd;
  register Lisp_Object c;
  int metized = 0;
  int length;
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  int t_ok = ! NILP (accept_default);
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  int meta_bit;
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  struct gcpro gcpro1;
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  keymap = get_keymap_1 (keymap, 1, 1);
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  if (!VECTORP (key) && !STRINGP (key))
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    key = wrong_type_argument (Qarrayp, key);

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  length = XFASTINT (Flength (key));
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  if (length == 0)
    return keymap;

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  if (VECTORP (key))
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    meta_bit = meta_modifier;
  else
    meta_bit = 0x80;

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  GCPRO1 (key);

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  idx = 0;
  while (1)
    {
      c = Faref (key, make_number (idx));

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      if (CONSP (c) && lucid_event_type_list_p (c))
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	c = Fevent_convert_list (c);
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      if (INTEGERP (c)
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	  && (XINT (c) & meta_bit)
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	  && !metized)
	{
	  c = meta_prefix_char;
	  metized = 1;
	}
      else
	{
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	  if (INTEGERP (c))
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	    XSETINT (c, XINT (c) & ~meta_bit);
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	  metized = 0;
	  idx++;
	}

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      cmd = get_keyelt (access_keymap (keymap, c, t_ok, 0), 1);
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      if (idx == length)
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	RETURN_UNGCPRO (cmd);
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      keymap = get_keymap_1 (cmd, 0, 1);
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      if (NILP (keymap))
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	RETURN_UNGCPRO (make_number (idx));
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      QUIT;
    }
}

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/* Make KEYMAP define event C as a keymap (i.e., as a prefix).
   Assume that currently it does not define C at all.
   Return the keymap.  */

static Lisp_Object
define_as_prefix (keymap, c)
     Lisp_Object keymap, c;
{
  Lisp_Object inherit, cmd;

  cmd = Fmake_sparse_keymap (Qnil);
  /* If this key is defined as a prefix in an inherited keymap,
     make it a prefix in this map, and make its definition
     inherit the other prefix definition.  */
  inherit = access_keymap (keymap, c, 0, 0);
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#if 0
  /* This code is needed to do the right thing in the following case:
     keymap A inherits from B,
     you define KEY as a prefix in A,
     then later you define KEY as a prefix in B.
     We want the old prefix definition in A to inherit from that in B.
     It is hard to do that retroactively, so this code
     creates the prefix in B right away.

     But it turns out that this code causes problems immediately
     when the prefix in A is defined: it causes B to define KEY
     as a prefix with no subcommands.

     So I took out this code.  */
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  if (NILP (inherit))
    {
      /* If there's an inherited keymap
	 and it doesn't define this key,
	 make it define this key.  */
      Lisp_Object tail;

      for (tail = Fcdr (keymap); CONSP (tail); tail = XCONS (tail)->cdr)
	if (EQ (XCONS (tail)->car, Qkeymap))
	  break;

      if (!NILP (tail))
	inherit = define_as_prefix (tail, c);
    }
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#endif
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  cmd = nconc2 (cmd, inherit);
  store_in_keymap (keymap, c, cmd);

  return cmd;
}

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/* Append a key to the end of a key sequence.  We always make a vector.  */

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Lisp_Object
append_key (key_sequence, key)
     Lisp_Object key_sequence, key;
{
  Lisp_Object args[2];

  args[0] = key_sequence;

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  args[1] = Fcons (key, Qnil);
  return Fvconcat (2, args);
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}


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/* Global, local, and minor mode keymap stuff.				*/

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/* We can't put these variables inside current_minor_maps, since under
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   some systems, static gets macro-defined to be the empty string.
   Ickypoo.  */
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static Lisp_Object *cmm_modes, *cmm_maps;
static int cmm_size;

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/* Error handler used in current_minor_maps.  */
static Lisp_Object
current_minor_maps_error ()
{
  return Qnil;
}

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/* Store a pointer to an array of the keymaps of the currently active
   minor modes in *buf, and return the number of maps it contains.

   This function always returns a pointer to the same buffer, and may
   free or reallocate it, so if you want to keep it for a long time or
   hand it out to lisp code, copy it.  This procedure will be called
   for every key sequence read, so the nice lispy approach (return a
   new assoclist, list, what have you) for each invocation would
   result in a lot of consing over time.

   If we used xrealloc/xmalloc and ran out of memory, they would throw
   back to the command loop, which would try to read a key sequence,
   which would call this function again, resulting in an infinite
   loop.  Instead, we'll use realloc/malloc and silently truncate the
   list, let the key sequence be read, and hope some other piece of
   code signals the error.  */
int
current_minor_maps (modeptr, mapptr)
     Lisp_Object **modeptr, **mapptr;
{
  int i = 0;
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  Lisp_Object alist, assoc, var, val;
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  for (alist = Vminor_mode_map_alist;
       CONSP (alist);
       alist = XCONS (alist)->cdr)
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    if ((assoc = XCONS (alist)->car, CONSP (assoc))
	&& (var = XCONS (assoc)->car, SYMBOLP (var))
	&& (val = find_symbol_value (var), ! EQ (val, Qunbound))
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	&& ! NILP (val))
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      {
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	Lisp_Object temp;

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	if (i >= cmm_size)
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	  {
	    Lisp_Object *newmodes, *newmaps;

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	    if (cmm_maps)
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	      {
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		BLOCK_INPUT;
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		cmm_size *= 2;
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		newmodes
		  = (Lisp_Object *) realloc (cmm_modes,
					     cmm_size * sizeof (Lisp_Object));
		newmaps
		  = (Lisp_Object *) realloc (cmm_maps,
					     cmm_size * sizeof (Lisp_Object));
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		UNBLOCK_INPUT;
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	      }
	    else
	      {
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		BLOCK_INPUT;
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		cmm_size = 30;
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		newmodes
		  = (Lisp_Object *) malloc (cmm_size * sizeof (Lisp_Object));
		newmaps
		  = (Lisp_Object *) malloc (cmm_size * sizeof (Lisp_Object));
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		UNBLOCK_INPUT;
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	      }

	    if (newmaps && newmodes)
	      {
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		cmm_modes = newmodes;
		cmm_maps = newmaps;
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