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/* Composite sequence support.
Copyright (C) 2001, 2002, 2003, 2004, 2005,
2006, 2007, 2008, 2009, 2010 Free Software Foundation, Inc.
Copyright (C) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010
National Institute of Advanced Industrial Science and Technology (AIST)
Registration Number H14PRO021
Copyright (C) 2003, 2006
National Institute of Advanced Industrial Science and Technology (AIST)
Registration Number H13PRO009
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
the Free Software Foundation, either version 3 of the License, or
(at your option) 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. If not, see <http://www.gnu.org/licenses/>. */
#include <config.h>
#include <setjmp.h>
#include "lisp.h"
#include "buffer.h"
#include "character.h"
#include "coding.h"
#include "intervals.h"
#include "window.h"
#include "frame.h"
#include "dispextern.h"
#include "font.h"
#include "termhooks.h"
/* Emacs uses special text property `composition' to support character
composition. A sequence of characters that have the same (i.e. eq)
`composition' property value is treated as a single composite
sequence (we call it just `composition' here after). Characters in
a composition are all composed somehow on the screen.
The property value has this form when the composition is made:
((LENGTH . COMPONENTS) . MODIFICATION-FUNC)
then turns to this form:
(COMPOSITION-ID . (LENGTH COMPONENTS-VEC . MODIFICATION-FUNC))
when the composition is registered in composition_hash_table and
composition_table. These rather peculiar structures were designed
to make it easy to distinguish them quickly (we can do that by
checking only the first element) and to extract LENGTH (from the
former form) and COMPOSITION-ID (from the latter form).
We register a composition when it is displayed, or when the width
is required (for instance, to calculate columns).
LENGTH -- Length of the composition. This information is used to
check the validity of the composition.
COMPONENTS -- Character, string, vector, list, or nil.
If it is nil, characters in the text are composed relatively
according to their metrics in font glyphs.
If it is a character or a string, the character or characters
in the string are composed relatively.
If it is a vector or list of integers, the element is a
character or an encoded composition rule. The characters are
composed according to the rules. (2N)th elements are
characters to be composed and (2N+1)th elements are
composition rules to tell how to compose (2N+2)th element with
the previously composed 2N glyphs.
COMPONENTS-VEC -- Vector of integers. In relative composition, the
elements are characters to be composed. In rule-base
composition, the elements are characters or encoded
composition rules.
MODIFICATION-FUNC -- If non nil, it is a function to call when the
composition gets invalid after a modification in a buffer. If
it is nil, a function in `composition-function-table' of the
first character in the sequence is called.
COMPOSITION-ID --Identification number of the composition. It is
used as an index to composition_table for the composition.
When Emacs has to display a composition or has to know its
displaying width, the function get_composition_id is called. It
returns COMPOSITION-ID so that the caller can access the
information about the composition through composition_table. If a
COMPOSITION-ID has not yet been assigned to the composition,
get_composition_id checks the validity of `composition' property,
and, if valid, assigns a new ID, registers the information in
composition_hash_table and composition_table, and changes the form
of the property value. If the property is invalid, return -1
without changing the property value.
We use two tables to keep information about composition;
composition_hash_table and composition_table.
The former is a hash table in which keys are COMPONENTS-VECs and
values are the corresponding COMPOSITION-IDs. This hash table is
weak, but as each key (COMPONENTS-VEC) is also kept as a value of the
`composition' property, it won't be collected as garbage until all
bits of text that have the same COMPONENTS-VEC are deleted.
The latter is a table of pointers to `struct composition' indexed
by COMPOSITION-ID. This structure keeps the other information (see
composite.h).
In general, a text property holds information about individual
characters. But, a `composition' property holds information about
a sequence of characters (in this sense, it is like the `intangible'
property). That means that we should not share the property value
in adjacent compositions -- we can't distinguish them if they have the
same property. So, after any changes, we call
`update_compositions' and change a property of one of adjacent
compositions to a copy of it. This function also runs a proper
composition modification function to make a composition that gets
invalid by the change valid again.
As the value of the `composition' property holds information about a
specific range of text, the value gets invalid if we change the
text in the range. We treat the `composition' property as always
rear-nonsticky (currently by setting default-text-properties to
(rear-nonsticky (composition))) and we never make properties of
adjacent compositions identical. Thus, any such changes make the
range just shorter. So, we can check the validity of the `composition'
property by comparing LENGTH information with the actual length of
the composition.
*/
Lisp_Object Qcomposition;
/* Table of pointers to the structure `composition' indexed by
COMPOSITION-ID. This structure is for storing information about
each composition except for COMPONENTS-VEC. */
struct composition **composition_table;
/* The current size of `composition_table'. */
static int composition_table_size;
/* Number of compositions currently made. */
int n_compositions;
/* Hash table for compositions. The key is COMPONENTS-VEC of
`composition' property. The value is the corresponding
COMPOSITION-ID. */
Lisp_Object composition_hash_table;
/* Function to call to adjust composition. */
Lisp_Object Vcompose_chars_after_function;
Lisp_Object Qauto_composed;
Lisp_Object Vauto_composition_mode;
Lisp_Object Vauto_composition_function;
Lisp_Object Qauto_composition_function;
Lisp_Object Vcomposition_function_table;
/* Maxinum number of characters to lookback to check
auto-composition. */
#define MAX_AUTO_COMPOSITION_LOOKBACK 3
EXFUN (Fremove_list_of_text_properties, 4);
/* Temporary variable used in macros COMPOSITION_XXX. */
Lisp_Object composition_temp;
/* Return COMPOSITION-ID of a composition at buffer position
CHARPOS/BYTEPOS and length NCHARS. The `composition' property of
the sequence is PROP. STRING, if non-nil, is a string that
contains the composition instead of the current buffer.
If the composition is invalid, return -1. */
int
get_composition_id (charpos, bytepos, nchars, prop, string)
int charpos, bytepos, nchars;
Lisp_Object prop, string;
{
Lisp_Object id, length, components, key, *key_contents;
int glyph_len;
struct Lisp_Hash_Table *hash_table = XHASH_TABLE (composition_hash_table);
int hash_index;
unsigned hash_code;
struct composition *cmp;
int i, ch;
/* PROP should be
Form-A: ((LENGTH . COMPONENTS) . MODIFICATION-FUNC)
or
Form-B: (COMPOSITION-ID . (LENGTH COMPONENTS-VEC . MODIFICATION-FUNC))
*/
if (nchars == 0 || !CONSP (prop))
goto invalid_composition;
id = XCAR (prop);
if (INTEGERP (id))
{
/* PROP should be Form-B. */
if (XINT (id) < 0 || XINT (id) >= n_compositions)
goto invalid_composition;
return XINT (id);
}
/* PROP should be Form-A.
Thus, ID should be (LENGTH . COMPONENTS). */
if (!CONSP (id))
goto invalid_composition;
length = XCAR (id);
if (!INTEGERP (length) || XINT (length) != nchars)
goto invalid_composition;
components = XCDR (id);
/* Check if the same composition has already been registered or not
by consulting composition_hash_table. The key for this table is
COMPONENTS (converted to a vector COMPONENTS-VEC) or, if it is
nil, vector of characters in the composition range. */
if (INTEGERP (components))
key = Fmake_vector (make_number (1), components);
else if (STRINGP (components) || CONSP (components))
key = Fvconcat (1, &components);
else if (VECTORP (components))
key = components;
else if (NILP (components))
{
key = Fmake_vector (make_number (nchars), Qnil);
if (STRINGP (string))
for (i = 0; i < nchars; i++)
{
FETCH_STRING_CHAR_ADVANCE (ch, string, charpos, bytepos);
XVECTOR (key)->contents[i] = make_number (ch);
}
else
for (i = 0; i < nchars; i++)
{
FETCH_CHAR_ADVANCE (ch, charpos, bytepos);
XVECTOR (key)->contents[i] = make_number (ch);
}
}
else
goto invalid_composition;
hash_index = hash_lookup (hash_table, key, &hash_code);
if (hash_index >= 0)
{
/* We have already registered the same composition. Change PROP
from Form-A above to Form-B while replacing COMPONENTS with
COMPONENTS-VEC stored in the hash table. We can directly
modify the cons cell of PROP because it is not shared. */
key = HASH_KEY (hash_table, hash_index);
id = HASH_VALUE (hash_table, hash_index);
XSETCAR (prop, id);
XSETCDR (prop, Fcons (make_number (nchars), Fcons (key, XCDR (prop))));
return XINT (id);
}
/* This composition is a new one. We must register it. */
/* Check if we have sufficient memory to store this information. */
if (composition_table_size == 0)
{
composition_table_size = 256;
composition_table
= (struct composition **) xmalloc (sizeof (composition_table[0])
* composition_table_size);
}
else if (composition_table_size <= n_compositions)
{
composition_table_size += 256;
composition_table
= (struct composition **) xrealloc (composition_table,
sizeof (composition_table[0])
* composition_table_size);
}
key_contents = XVECTOR (key)->contents;
/* Check if the contents of COMPONENTS are valid if COMPONENTS is a
vector or a list. It should be a sequence of:
char1 rule1 char2 rule2 char3 ... ruleN charN+1 */
if (VECTORP (components)
&& ASIZE (components) >= 2
&& VECTORP (AREF (components, 0)))
{
/* COMPONENTS is a glyph-string. */
int len = ASIZE (key);
for (i = 1; i < len; i++)
if (! VECTORP (AREF (key, i)))
goto invalid_composition;
}
else if (VECTORP (components) || CONSP (components))
{
int len = XVECTOR (key)->size;
/* The number of elements should be odd. */
if ((len % 2) == 0)
goto invalid_composition;
/* All elements should be integers (character or encoded
composition rule). */
for (i = 0; i < len; i++)
{
if (!INTEGERP (key_contents[i]))
goto invalid_composition;
}
}
/* Change PROP from Form-A above to Form-B. We can directly modify
the cons cell of PROP because it is not shared. */
XSETFASTINT (id, n_compositions);
XSETCAR (prop, id);
XSETCDR (prop, Fcons (make_number (nchars), Fcons (key, XCDR (prop))));
/* Register the composition in composition_hash_table. */
hash_index = hash_put (hash_table, key, id, hash_code);
/* Register the composition in composition_table. */
cmp = (struct composition *) xmalloc (sizeof (struct composition));
cmp->method = (NILP (components)
? COMPOSITION_RELATIVE
: ((INTEGERP (components) || STRINGP (components))
? COMPOSITION_WITH_ALTCHARS
: COMPOSITION_WITH_RULE_ALTCHARS));
cmp->hash_index = hash_index;
glyph_len = (cmp->method == COMPOSITION_WITH_RULE_ALTCHARS
? (XVECTOR (key)->size + 1) / 2
: XVECTOR (key)->size);
cmp->glyph_len = glyph_len;
cmp->offsets = (short *) xmalloc (sizeof (short) * glyph_len * 2);
cmp->font = NULL;
if (cmp->method != COMPOSITION_WITH_RULE_ALTCHARS)
{
/* Relative composition. */
cmp->width = 0;
for (i = 0; i < glyph_len; i++)
{
int this_width;
ch = XINT (key_contents[i]);
this_width = (ch == '\t' ? 1 : CHAR_WIDTH (ch));
if (cmp->width < this_width)
cmp->width = this_width;
}
}
else
{
/* Rule-base composition. */
float leftmost = 0.0, rightmost;
ch = XINT (key_contents[0]);
rightmost = ch != '\t' ? CHAR_WIDTH (ch) : 1;
for (i = 1; i < glyph_len; i += 2)
{
int rule, gref, nref, xoff, yoff;
int this_width;
float this_left;
rule = XINT (key_contents[i]);
ch = XINT (key_contents[i + 1]);
this_width = ch != '\t' ? CHAR_WIDTH (ch) : 1;
/* A composition rule is specified by an integer value
that encodes global and new reference points (GREF and
NREF). GREF and NREF are specified by numbers as
below:
0---1---2 -- ascent
| |
| |
| |
9--10--11 -- center
| |
---3---4---5--- baseline
| |
6---7---8 -- descent
*/
COMPOSITION_DECODE_RULE (rule, gref, nref, xoff, yoff);
this_left = (leftmost
+ (gref % 3) * (rightmost - leftmost) / 2.0
- (nref % 3) * this_width / 2.0);
if (this_left < leftmost)
leftmost = this_left;
if (this_left + this_width > rightmost)
rightmost = this_left + this_width;
}
cmp->width = rightmost - leftmost;
if (cmp->width < (rightmost - leftmost))
/* To get a ceiling integer value. */
cmp->width++;
}
composition_table[n_compositions] = cmp;
return n_compositions++;
invalid_composition:
/* Would it be better to remove this `composition' property? */
return -1;
}
/* Find a static composition at or nearest to position POS of OBJECT
(buffer or string).
OBJECT defaults to the current buffer. If there's a composition at
POS, set *START and *END to the start and end of the sequence,
*PROP to the `composition' property, and return 1.
If there's no composition at POS and LIMIT is negative, return 0.
Otherwise, search for a composition forward (LIMIT > POS) or
backward (LIMIT < POS). In this case, LIMIT bounds the search.
If a composition is found, set *START, *END, and *PROP as above,
and return 1, else return 0.
This doesn't check the validity of composition. */
int
find_composition (pos, limit, start, end, prop, object)
int pos, limit;
EMACS_INT *start, *end;
Lisp_Object *prop, object;
{
Lisp_Object val;
if (get_property_and_range (pos, Qcomposition, prop, start, end, object))
return 1;
if (limit < 0 || limit == pos)
return 0;
if (limit > pos) /* search forward */
{
val = Fnext_single_property_change (make_number (pos), Qcomposition,
object, make_number (limit));
pos = XINT (val);
if (pos == limit)
return 0;
}
else /* search backward */
{
if (get_property_and_range (pos - 1, Qcomposition, prop, start, end,
object))
return 1;
val = Fprevious_single_property_change (make_number (pos), Qcomposition,
object, make_number (limit));
pos = XINT (val);
if (pos == limit)
return 0;
pos--;
}
get_property_and_range (pos, Qcomposition, prop, start, end, object);
return 1;
}
/* Run a proper function to adjust the composition sitting between
FROM and TO with property PROP. */
static void
run_composition_function (from, to, prop)
int from, to;
Lisp_Object prop;
{
Lisp_Object func;
EMACS_INT start, end;
func = COMPOSITION_MODIFICATION_FUNC (prop);
/* If an invalid composition precedes or follows, try to make them
valid too. */
if (from > BEGV
&& find_composition (from - 1, -1, &start, &end, &prop, Qnil)
&& !COMPOSITION_VALID_P (start, end, prop))
from = start;
if (to < ZV
&& find_composition (to, -1, &start, &end, &prop, Qnil)
&& !COMPOSITION_VALID_P (start, end, prop))
to = end;
if (!NILP (Ffboundp (func)))
call2 (func, make_number (from), make_number (to));
}
/* Make invalid compositions adjacent to or inside FROM and TO valid.
CHECK_MASK is bitwise `or' of mask bits defined by macros
CHECK_XXX (see the comment in composite.h).
It also resets the text-property `auto-composed' to a proper region
so that automatic character composition works correctly later while
displaying the region.
This function is called when a buffer text is changed. If the
change is deletion, FROM == TO. Otherwise, FROM < TO. */
void
update_compositions (from, to, check_mask)
EMACS_INT from, to;
int check_mask;
{
Lisp_Object prop;
EMACS_INT start, end;
/* The beginning and end of the region to set the property
`auto-composed' to nil. */
EMACS_INT min_pos = from, max_pos = to;
if (inhibit_modification_hooks)
return;
/* If FROM and TO are not in a valid range, do nothing. */
if (! (BEGV <= from && from <= to && to <= ZV))
return;
if (check_mask & CHECK_HEAD)
{
/* FROM should be at composition boundary. But, insertion or
deletion will make two compositions adjacent and
indistinguishable when they have same (eq) property. To
avoid it, in such a case, we change the property of the
latter to the copy of it. */
if (from > BEGV
&& find_composition (from - 1, -1, &start, &end, &prop, Qnil)
&& COMPOSITION_VALID_P (start, end, prop))
{
min_pos = start;
if (end > to)
max_pos = end;
if (from < end)
Fput_text_property (make_number (from), make_number (end),
Qcomposition,
Fcons (XCAR (prop), XCDR (prop)), Qnil);
run_composition_function (start, end, prop);
from = end;
}
else if (from < ZV
&& find_composition (from, -1, &start, &from, &prop, Qnil)
&& COMPOSITION_VALID_P (start, from, prop))
{
if (from > to)
max_pos = from;
run_composition_function (start, from, prop);
}
}
if (check_mask & CHECK_INSIDE)
{
/* In this case, we are sure that (check & CHECK_TAIL) is also
nonzero. Thus, here we should check only compositions before
(to - 1). */
while (from < to - 1
&& find_composition (from, to, &start, &from, &prop, Qnil)
&& COMPOSITION_VALID_P (start, from, prop)
&& from < to - 1)
run_composition_function (start, from, prop);
}
if (check_mask & CHECK_TAIL)
{
if (from < to
&& find_composition (to - 1, -1, &start, &end, &prop, Qnil)
&& COMPOSITION_VALID_P (start, end, prop))
{
/* TO should be also at composition boundary. But,
insertion or deletion will make two compositions adjacent
and indistinguishable when they have same (eq) property.
To avoid it, in such a case, we change the property of
the former to the copy of it. */
if (to < end)
{
Fput_text_property (make_number (start), make_number (to),
Qcomposition,
Fcons (XCAR (prop), XCDR (prop)), Qnil);
max_pos = end;
}
run_composition_function (start, end, prop);
}
else if (to < ZV
&& find_composition (to, -1, &start, &end, &prop, Qnil)
&& COMPOSITION_VALID_P (start, end, prop))
{
run_composition_function (start, end, prop);
max_pos = end;
}
}
if (min_pos < max_pos)
{
int count = SPECPDL_INDEX ();
specbind (Qinhibit_read_only, Qt);
specbind (Qinhibit_modification_hooks, Qt);
specbind (Qinhibit_point_motion_hooks, Qt);
Fremove_list_of_text_properties (make_number (min_pos),
make_number (max_pos),
Fcons (Qauto_composed, Qnil), Qnil);
unbind_to (count, Qnil);
}
}
/* Modify composition property values in LIST destructively. LIST is
a list as returned from text_property_list. Change values to the
top-level copies of them so that none of them are `eq'. */
void
make_composition_value_copy (list)
Lisp_Object list;
{
Lisp_Object plist, val;
for (; CONSP (list); list = XCDR (list))
{
plist = XCAR (XCDR (XCDR (XCAR (list))));
while (CONSP (plist) && CONSP (XCDR (plist)))
{
if (EQ (XCAR (plist), Qcomposition)
&& (val = XCAR (XCDR (plist)), CONSP (val)))
XSETCAR (XCDR (plist), Fcons (XCAR (val), XCDR (val)));
plist = XCDR (XCDR (plist));
}
}
}
/* Make text in the region between START and END a composition that
has COMPONENTS and MODIFICATION-FUNC.
If STRING is non-nil, then operate on characters contained between
indices START and END in STRING. */
void
compose_text (start, end, components, modification_func, string)
int start, end;
Lisp_Object components, modification_func, string;
{
Lisp_Object prop;
prop = Fcons (Fcons (make_number (end - start), components),
modification_func);
Fput_text_property (make_number (start), make_number (end),
Qcomposition, prop, string);
}
static Lisp_Object autocmp_chars P_ ((Lisp_Object, EMACS_INT, EMACS_INT,
EMACS_INT, struct window *,
struct face *, Lisp_Object));
/* Lisp glyph-string handlers */
/* Hash table for automatic composition. The key is a header of a
lgstring (Lispy glyph-string), and the value is a body of a
lgstring. */
static Lisp_Object gstring_hash_table;
static Lisp_Object gstring_lookup_cache P_ ((Lisp_Object));
static Lisp_Object
gstring_lookup_cache (header)
Lisp_Object header;
{
struct Lisp_Hash_Table *h = XHASH_TABLE (gstring_hash_table);
int i = hash_lookup (h, header, NULL);
return (i >= 0 ? HASH_VALUE (h, i) : Qnil);
}
Lisp_Object
composition_gstring_put_cache (gstring, len)
Lisp_Object gstring;
int len;
{
struct Lisp_Hash_Table *h = XHASH_TABLE (gstring_hash_table);
unsigned hash;
Lisp_Object header, copy;
int i;
header = LGSTRING_HEADER (gstring);
hash = h->hashfn (h, header);
if (len < 0)
{
len = LGSTRING_GLYPH_LEN (gstring);
for (i = 0; i < len; i++)
if (NILP (LGSTRING_GLYPH (gstring, i)))
break;
len = i;
}
copy = Fmake_vector (make_number (len + 2), Qnil);
LGSTRING_SET_HEADER (copy, Fcopy_sequence (header));
for (i = 0; i < len; i++)
LGSTRING_SET_GLYPH (copy, i, Fcopy_sequence (LGSTRING_GLYPH (gstring, i)));
i = hash_put (h, LGSTRING_HEADER (copy), copy, hash);
LGSTRING_SET_ID (copy, make_number (i));
return copy;
}
Lisp_Object
composition_gstring_from_id (id)
int id;
{
struct Lisp_Hash_Table *h = XHASH_TABLE (gstring_hash_table);
return HASH_VALUE (h, id);
}
static Lisp_Object fill_gstring_header P_ ((Lisp_Object, Lisp_Object,
Lisp_Object, Lisp_Object,
Lisp_Object));
int
composition_gstring_p (gstring)
Lisp_Object gstring;
{
Lisp_Object header;
int i;
if (! VECTORP (gstring) || ASIZE (gstring) < 2)
return 0;
header = LGSTRING_HEADER (gstring);
if (! VECTORP (header) || ASIZE (header) < 2)
return 0;
if (! NILP (LGSTRING_FONT (gstring))
&& (! FONT_OBJECT_P (LGSTRING_FONT (gstring))
&& ! CODING_SYSTEM_P (LGSTRING_FONT (gstring))))
return 0;
for (i = 1; i < ASIZE (LGSTRING_HEADER (gstring)); i++)
if (! NATNUMP (AREF (LGSTRING_HEADER (gstring), i)))
return 0;
if (! NILP (LGSTRING_ID (gstring)) && ! NATNUMP (LGSTRING_ID (gstring)))
return 0;
for (i = 0; i < LGSTRING_GLYPH_LEN (gstring); i++)
{
Lisp_Object glyph = LGSTRING_GLYPH (gstring, i);
if (NILP (glyph))
break;
if (! VECTORP (glyph) || ASIZE (glyph) != LGLYPH_SIZE)
return 0;
}
return 1;
}
int
composition_gstring_width (gstring, from, to, metrics)
Lisp_Object gstring;
int from, to;
struct font_metrics *metrics;
{
Lisp_Object *glyph;
int width = 0;
if (metrics)
{
Lisp_Object font_object = LGSTRING_FONT (gstring);
if (FONT_OBJECT_P (font_object))
{
struct font *font = XFONT_OBJECT (font_object);
metrics->ascent = font->ascent;
metrics->descent = font->descent;
}
else
{
metrics->ascent = 1;
metrics->descent = 0;
}
metrics->width = metrics->lbearing = metrics->rbearing = 0;
}
for (glyph = &LGSTRING_GLYPH (gstring, from); from < to; from++, glyph++)
{
int x;
if (NILP (LGLYPH_ADJUSTMENT (*glyph)))
width += LGLYPH_WIDTH (*glyph);
else
width += LGLYPH_WADJUST (*glyph);
if (metrics)
{
x = metrics->width + LGLYPH_LBEARING (*glyph) + LGLYPH_XOFF (*glyph);
if (metrics->lbearing > x)
metrics->lbearing = x;
x = metrics->width + LGLYPH_RBEARING (*glyph) + LGLYPH_XOFF (*glyph);
if (metrics->rbearing < x)
metrics->rbearing = x;
metrics->width = width;
x = LGLYPH_ASCENT (*glyph) - LGLYPH_YOFF (*glyph);
if (metrics->ascent < x)
metrics->ascent = x;
x = LGLYPH_DESCENT (*glyph) + LGLYPH_YOFF (*glyph);
if (metrics->descent < x)
metrics->descent = x;
}
}
return width;
}
static Lisp_Object gstring_work;
static Lisp_Object gstring_work_headers;
static Lisp_Object
fill_gstring_header (header, start, end, font_object, string)
Lisp_Object header, start, end, font_object, string;
{
EMACS_INT from, to, from_byte;
EMACS_INT len, i;
if (NILP (string))
{
if (NILP (current_buffer->enable_multibyte_characters))
error ("Attempt to shape unibyte text");
validate_region (&start, &end);
from = XFASTINT (start);
to = XFASTINT (end);
from_byte = CHAR_TO_BYTE (from);
}
else
{
CHECK_STRING (string);
if (! STRING_MULTIBYTE (string))
error ("Attempt to shape unibyte text");
/* FROM and TO are checked by the caller. */
from = XINT (start);
to = XINT (end);
if (from < 0 || from > to || to > SCHARS (string))
args_out_of_range_3 (string, start, end);
from_byte = string_char_to_byte (string, from);
}
len = to - from;
if (len == 0)
error ("Attempt to shape zero-length text");
if (VECTORP (header))
{
if (ASIZE (header) != len + 1)
args_out_of_range (header, make_number (len + 1));
}
else
{
if (len <= 8)
header = AREF (gstring_work_headers, len - 1);
else
header = Fmake_vector (make_number (len + 1), Qnil);
}
ASET (header, 0, font_object);
for (i = 0; i < len; i++)
{
int c;
if (NILP (string))
FETCH_CHAR_ADVANCE_NO_CHECK (c, from, from_byte);
else
FETCH_STRING_CHAR_ADVANCE_NO_CHECK (c, string, from, from_byte);
ASET (header, i + 1, make_number (c));
}
return header;
}
extern void font_fill_lglyph_metrics P_ ((Lisp_Object, Lisp_Object));
static void
fill_gstring_body (gstring)
Lisp_Object gstring;
{
Lisp_Object font_object = LGSTRING_FONT (gstring);
Lisp_Object header = AREF (gstring, 0);
EMACS_INT len = LGSTRING_CHAR_LEN (gstring);
EMACS_INT i;
for (i = 0; i < len; i++)
{
Lisp_Object g = LGSTRING_GLYPH (gstring, i);
EMACS_INT c = XINT (AREF (header, i + 1));
if (NILP (g))
{
g = LGLYPH_NEW ();
LGSTRING_SET_GLYPH (gstring, i, g);
}
LGLYPH_SET_FROM (g, i);
LGLYPH_SET_TO (g, i);
LGLYPH_SET_CHAR (g, c);
if (FONT_OBJECT_P (font_object))
{
font_fill_lglyph_metrics (g, font_object);
}
else
{
int width = XFASTINT (CHAR_TABLE_REF (Vchar_width_table, c));
LGLYPH_SET_CODE (g, c);
LGLYPH_SET_LBEARING (g, 0);
LGLYPH_SET_RBEARING (g, width);
LGLYPH_SET_WIDTH (g, width);
LGLYPH_SET_ASCENT (g, 1);
LGLYPH_SET_DESCENT (g, 0);
}
LGLYPH_SET_ADJUSTMENT (g, Qnil);
}
if (i < LGSTRING_GLYPH_LEN (gstring))
LGSTRING_SET_GLYPH (gstring, i, Qnil);
}
/* Try to compose the characters at CHARPOS according to CFT_ELEMENT
which is an element of composition-function-table (which see).
LIMIT limits the characters to compose. STRING, if not nil, is a
target string. WIN is a window where the characters are being
displayed. */
static Lisp_Object
autocmp_chars (cft_element, charpos, bytepos, limit, win, face, string)
Lisp_Object cft_element;
EMACS_INT charpos, bytepos, limit;
struct window *win;
struct face *face;
Lisp_Object string;
{
int count = SPECPDL_INDEX ();
FRAME_PTR f = XFRAME (win->frame);
Lisp_Object pos = make_number (charpos);
EMACS_INT pt = PT, pt_byte = PT_BYTE;
int lookback;
record_unwind_save_match_data ();
for (lookback = -1; CONSP (cft_element); cft_element = XCDR (cft_element))
{
Lisp_Object elt = XCAR (cft_element);
Lisp_Object re;
Lisp_Object font_object = Qnil, gstring;
EMACS_INT len, to;
if (! VECTORP (elt) || ASIZE (elt) != 3)
continue;
if (lookback < 0)
{
lookback = XFASTINT (AREF (elt, 1));
if (limit > charpos + MAX_COMPOSITION_COMPONENTS)
limit = charpos + MAX_COMPOSITION_COMPONENTS;
}
else if (lookback != XFASTINT (AREF (elt, 1)))
break;
re = AREF (elt, 0);
if (NILP (re))
len = 1;
else if ((len = fast_looking_at (re, charpos, bytepos, limit, -1, string))
> 0)
{
if (NILP (string))
len = BYTE_TO_CHAR (bytepos + len) - charpos;
else
len = string_byte_to_char (string, bytepos + len) - charpos;
}
if (len > 0)
{
limit = to = charpos + len;
#ifdef HAVE_WINDOW_SYSTEM
if (FRAME_WINDOW_P (f))
{
font_object = font_range (charpos, &to, win, face, string);
if (! FONT_OBJECT_P (font_object)
|| (! NILP (re)
&& to < limit
&& (fast_looking_at (re, charpos, bytepos, to, -1, string) <= 0)))
{
if (NILP (string))
TEMP_SET_PT_BOTH (pt, pt_byte);
return unbind_to (count, Qnil);
}
}
else
#endif /* not HAVE_WINDOW_SYSTEM */
font_object = win->frame;
gstring = Fcomposition_get_gstring (pos, make_number (to),
font_object, string);
if (NILP (LGSTRING_ID (gstring)))
{
Lisp_Object args[6];
/* Save point as marker before calling out to lisp. */
if (NILP (string))
{
Lisp_Object m = Fmake_marker ();
set_marker_both (m, Qnil, pt, pt_byte);
record_unwind_protect (restore_point_unwind, m);
}
args[0] = Vauto_composition_function;
args[1] = AREF (elt, 2);
args[2] = pos;
args[3] = make_number (to);
args[4] = font_object;
args[5] = string;
gstring = safe_call (6, args);
}
else if (NILP (string))
{
TEMP_SET_PT_BOTH (pt, pt_byte);
}
return unbind_to (count, gstring);
}
}
if (NILP (string))
TEMP_SET_PT_BOTH (pt, pt_byte);
return unbind_to (count, Qnil);
}
/* Update cmp_it->stop_pos to the next position after CHARPOS (and
BYTEPOS) where character composition may happen. If BYTEPOS is
negative, compoute it. If it is a static composition, set
cmp_it->ch to -1. Otherwise, set cmp_it->ch to the character that
triggers a automatic composition. */
void
composition_compute_stop_pos (cmp_it, charpos, bytepos, endpos, string)
struct composition_it *cmp_it;
EMACS_INT charpos, bytepos, endpos;
Lisp_Object string;
{
EMACS_INT start, end, c;
Lisp_Object prop, val;
/* This is from forward_to_next_line_start in xdisp.c. */
const int MAX_NEWLINE_DISTANCE = 500;
if (endpos > charpos + MAX_NEWLINE_DISTANCE)
endpos = charpos + MAX_NEWLINE_DISTANCE;
cmp_it->stop_pos = endpos;
cmp_it->id = -1;
cmp_it->ch = -2;
if (find_composition (charpos, endpos, &start, &end, &prop, string)
&& COMPOSITION_VALID_P (start, end, prop))
{
cmp_it->stop_pos = endpos = start;
cmp_it->ch = -1;
}
if (NILP (string) && PT > charpos && PT < endpos)
cmp_it->stop_pos = PT;
if (NILP (current_buffer->enable_multibyte_characters)
|| NILP (Vauto_composition_mode))
return;
if (bytepos < 0)
{
if (STRINGP (string))
bytepos = string_char_to_byte (string, charpos);
else
bytepos = CHAR_TO_BYTE (charpos);
}
start = charpos;
while (charpos < endpos)
{
if (STRINGP (string))
FETCH_STRING_CHAR_ADVANCE (c, string, charpos, bytepos);
else
FETCH_CHAR_ADVANCE (c, charpos, bytepos);
if (c == '\n')
{
cmp_it->ch = -2;
break;
}
val = CHAR_TABLE_REF (Vcomposition_function_table, c);
if (! NILP (val))
{
Lisp_Object elt;
for (; CONSP (val); val = XCDR (val))
{
elt = XCAR (val);
if (VECTORP (elt) && ASIZE (elt) == 3 && NATNUMP (AREF (elt, 1))
&& charpos - 1 - XFASTINT (AREF (elt, 1)) >= start)
break;
}
if (CONSP (val))
{
cmp_it->lookback = XFASTINT (AREF (elt, 1));
cmp_it->stop_pos = charpos - 1 - cmp_it->lookback;
cmp_it->ch = c;
return;
}
}
}
cmp_it->stop_pos = charpos;
}
/* Check if the character at CHARPOS (and BYTEPOS) is composed
(possibly with the following characters) on window W. ENDPOS limits
characters to be composed. FACE, in non-NULL, is a base face of
the character. If STRING is not nil, it is a string containing the
character to check, and CHARPOS and BYTEPOS are indices in the
string. In that case, FACE must not be NULL.
If the character is composed, setup members of CMP_IT (id, nglyphs,
and from), and return 1. Otherwise, update CMP_IT->stop_pos, and
return 0. */
int
composition_reseat_it (cmp_it, charpos, bytepos, endpos, w, face, string)
struct composition_it *cmp_it;
EMACS_INT charpos, bytepos, endpos;
struct window *w;
struct face *face;
Lisp_Object string;
{
if (NILP (string) && charpos < PT && PT < endpos)
endpos = PT;
if (cmp_it->ch == -2)
{
composition_compute_stop_pos (cmp_it, charpos, bytepos, endpos, string);
if (cmp_it->ch == -2)
return 0;
}
if (cmp_it->ch < 0)
{
/* We are looking at a static composition. */
EMACS_INT start, end;
Lisp_Object prop;
find_composition (charpos, -1, &start, &end, &prop, string);
cmp_it->id = get_composition_id (charpos, bytepos, end - start,
prop, string);
if (cmp_it->id < 0)
goto no_composition;
cmp_it->nchars = end - start;
cmp_it->nglyphs = composition_table[cmp_it->id]->glyph_len;
}
else if (w)
{
Lisp_Object val, elt;
int i;
val = CHAR_TABLE_REF (Vcomposition_function_table, cmp_it->ch);
for (; CONSP (val); val = XCDR (val))
{
elt = XCAR (val);
if (cmp_it->lookback == XFASTINT (AREF (elt, 1)))
break;
}
if (NILP (val))
goto no_composition;
val = autocmp_chars (val, charpos, bytepos, endpos, w, face, string);
if (! composition_gstring_p (val))
goto no_composition;
if (NILP (LGSTRING_ID (val)))
val = composition_gstring_put_cache (val, -1);
cmp_it->id = XINT (LGSTRING_ID (val));
for (i = 0; i < LGSTRING_GLYPH_LEN (val); i++)
if (NILP (LGSTRING_GLYPH (val, i)))
break;
cmp_it->nglyphs = i;
}
else
goto no_composition;
cmp_it->from = 0;
return 1;
no_composition:
charpos++;
if (STRINGP (string))
bytepos += MULTIBYTE_LENGTH_NO_CHECK (SDATA (string) + bytepos);
else
INC_POS (bytepos);
composition_compute_stop_pos (cmp_it, charpos, bytepos, endpos, string);
return 0;
}
int
composition_update_it (cmp_it, charpos, bytepos, string)
struct composition_it *cmp_it;
EMACS_INT charpos, bytepos;
Lisp_Object string;
{
int i, c;
if (cmp_it->ch < 0)
{
struct composition *cmp = composition_table[cmp_it->id];
cmp_it->to = cmp_it->nglyphs;
if (cmp_it->nglyphs == 0)
c = -1;
else
{
for (i = 0; i < cmp->glyph_len; i++)
if ((c = COMPOSITION_GLYPH (cmp, i)) != '\t')
break;
if (c == '\t')
c = ' ';
}
cmp_it->width = cmp->width;
}
else
{
Lisp_Object gstring = composition_gstring_from_id (cmp_it->id);
if (cmp_it->nglyphs == 0)
{
c = -1;
cmp_it->nchars = LGSTRING_CHAR_LEN (gstring);
cmp_it->width = 0;
}
else
{
Lisp_Object glyph = LGSTRING_GLYPH (gstring, cmp_it->from);
int from = LGLYPH_FROM (glyph);
c = XINT (LGSTRING_CHAR (gstring, from));
cmp_it->nchars = LGLYPH_TO (glyph) - from + 1;
cmp_it->width = (LGLYPH_WIDTH (glyph) > 0
? CHAR_WIDTH (LGLYPH_CHAR (glyph)) : 0);
for (cmp_it->to = cmp_it->from + 1; cmp_it->to < cmp_it->nglyphs;
cmp_it->to++)
{
glyph = LGSTRING_GLYPH (gstring, cmp_it->to);
if (LGLYPH_FROM (glyph) != from)
break;
if (LGLYPH_WIDTH (glyph) > 0)
cmp_it->width += CHAR_WIDTH (LGLYPH_CHAR (glyph));
}
}
}
charpos += cmp_it->nchars;
if (STRINGP (string))
cmp_it->nbytes = string_char_to_byte (string, charpos) - bytepos;
else
cmp_it->nbytes = CHAR_TO_BYTE (charpos) - bytepos;
return c;
}
struct position_record
{
EMACS_INT pos, pos_byte;
unsigned char *p;
};
/* Update the members of POSTION to the next character boundary. */
#define FORWARD_CHAR(POSITION, STOP) \
do { \
(POSITION).pos++; \
if ((POSITION).pos == (STOP)) \
{ \
(POSITION).p = GAP_END_ADDR; \
(POSITION).pos_byte = GPT_BYTE; \
} \
else \
{ \
(POSITION).pos_byte += BYTES_BY_CHAR_HEAD (*((POSITION).p)); \
(POSITION).p += BYTES_BY_CHAR_HEAD (*((POSITION).p)); \
} \
} while (0)
/* Update the members of POSTION to the previous character boundary. */
#define BACKWARD_CHAR(POSITION, STOP) \
do { \
if ((POSITION).pos == STOP) \
(POSITION).p = GPT_ADDR; \
do { \
(POSITION).pos_byte--; \
(POSITION).p--; \
} while (! CHAR_HEAD_P (*((POSITION).p))); \
(POSITION).pos--; \
} while (0)
static Lisp_Object _work_val;
static int _work_char;
/* 1 iff the character C is composable. */
#define CHAR_COMPOSABLE_P(C) \
((C) == 0x200C || (C) == 0x200D \
|| (_work_val = CHAR_TABLE_REF (Vunicode_category_table, (C)), \
(SYMBOLP (_work_val) \
&& (_work_char = SDATA (SYMBOL_NAME (_work_val))[0]) != 'C' \
&& _work_char != 'Z')))
/* This is like find_composition, but find an automatic composition
instead. If found, set *GSTRING to the glyph-string representing
the composition, and return 1. Otherwise, return 0. */
static int
find_automatic_composition (pos, limit, start, end, gstring, string)
EMACS_INT pos, limit, *start, *end;
Lisp_Object *gstring, string;
{
EMACS_INT head, tail, stop;
/* Limit to check a composition after POS. */
EMACS_INT fore_check_limit;
struct position_record orig, cur, check, prev;
Lisp_Object check_val, val, elt;
int check_lookback;
int c;
Lisp_Object window;
struct window *w;
window = Fget_buffer_window (Fcurrent_buffer (), Qnil);
if (NILP (window))
return 0;
w = XWINDOW (window);
orig.pos = pos;
if (NILP (string))
{
head = BEGV, tail = ZV, stop = GPT;
orig.pos_byte = CHAR_TO_BYTE (orig.pos);
orig.p = BYTE_POS_ADDR (orig.pos_byte);
}
else
{
head = 0, tail = SCHARS (string), stop = -1;
orig.pos_byte = string_char_to_byte (string, orig.pos);
orig.p = SDATA (string) + orig.pos_byte;
}
if (limit < pos)
fore_check_limit = min (tail, pos + MAX_AUTO_COMPOSITION_LOOKBACK);
else
fore_check_limit = min (tail, limit + MAX_AUTO_COMPOSITION_LOOKBACK);
cur = orig;
retry:
check_val = Qnil;
/* At first, check if POS is composable. */
c = STRING_CHAR (cur.p);
if (! CHAR_COMPOSABLE_P (c))
{
if (limit < 0)
return 0;
if (limit >= cur.pos)
goto search_forward;
}
else
{
val = CHAR_TABLE_REF (Vcomposition_function_table, c);
if (! NILP (val))
check_val = val, check = cur;
else
while (cur.pos + 1 < fore_check_limit)
{
EMACS_INT b, e;
FORWARD_CHAR (cur, stop);
if (get_property_and_range (cur.pos, Qcomposition, &val, &b, &e,
Qnil)
&& COMPOSITION_VALID_P (b, e, val))
{
fore_check_limit = cur.pos;
break;
}
c = STRING_CHAR (cur.p);
if (! CHAR_COMPOSABLE_P (c))
break;
val = CHAR_TABLE_REF (Vcomposition_function_table, c);
if (NILP (val))
continue;
check_val = val, check = cur;
break;
}
cur = orig;
}
/* Rewind back to the position where we can safely search forward
for compositions. */
while (cur.pos > head)
{
EMACS_INT b, e;
BACKWARD_CHAR (cur, stop);
if (get_property_and_range (cur.pos, Qcomposition, &val, &b, &e, Qnil)
&& COMPOSITION_VALID_P (b, e, val))
break;
c = STRING_CHAR (cur.p);
if (! CHAR_COMPOSABLE_P (c))
break;
val = CHAR_TABLE_REF (Vcomposition_function_table, c);
if (! NILP (val))
check_val = val, check = cur;
}
prev = cur;
/* Now search forward. */
search_forward:
*gstring = Qnil;
if (! NILP (check_val) || limit >= orig.pos)
{
if (NILP (check_val))
cur = orig;
else
cur = check;
while (cur.pos < fore_check_limit)
{
int need_adjustment = 0;
if (NILP (check_val))
{
c = STRING_CHAR (cur.p);
check_val = CHAR_TABLE_REF (Vcomposition_function_table, c);
}
for (; CONSP (check_val); check_val = XCDR (check_val))
{
elt = XCAR (check_val);
if (VECTORP (elt) && ASIZE (elt) == 3 && NATNUMP (AREF (elt, 1))
&& cur.pos - XFASTINT (AREF (elt, 1)) >= head)
{
check.pos = cur.pos - XFASTINT (AREF (elt, 1));
if (check.pos == cur.pos)
check.pos_byte = cur.pos_byte;
else
check.pos_byte = CHAR_TO_BYTE (check.pos);
val = autocmp_chars (check_val, check.pos, check.pos_byte,
tail, w, NULL, string);
need_adjustment = 1;
if (! NILP (val))
{
*gstring = val;
*start = check.pos;
*end = check.pos + LGSTRING_CHAR_LEN (*gstring);
if (*start <= orig.pos ? *end > orig.pos
: limit >= orig.pos)
return 1;
cur.pos = *end;
cur.pos_byte = CHAR_TO_BYTE (cur.pos);
break;
}
}
}
if (need_adjustment)
{
/* As we have called Lisp, there's a possibilily that
buffer/string is relocated. */
if (NILP (string))
cur.p = BYTE_POS_ADDR (cur.pos_byte);
else
cur.p = SDATA (string) + cur.pos_byte;
}
if (! CONSP (check_val))
FORWARD_CHAR (cur, stop);
check_val = Qnil;
}
}
if (! NILP (*gstring))
return (limit >= 0 || (*start <= orig.pos && *end > orig.pos));
if (limit >= 0 && limit < orig.pos && prev.pos > head)
{
cur = prev;
BACKWARD_CHAR (cur, stop);
orig = cur;
fore_check_limit = orig.pos;
goto retry;
}
return 0;
}
/* Return the adjusted point provided that point is moved from LAST_PT
to NEW_PT. */
int
composition_adjust_point (last_pt, new_pt)
EMACS_INT last_pt, new_pt;
{
EMACS_INT charpos, bytepos, startpos, beg, end, pos;
Lisp_Object val;
int i;
if (new_pt == BEGV || new_pt == ZV)
return new_pt;
/* At first check the static composition. */
if (get_property_and_range (new_pt, Qcomposition, &val, &beg, &end, Qnil)
&& COMPOSITION_VALID_P (beg, end, val))
{
if (beg < new_pt /* && end > new_pt <- It's always the case. */
&& (last_pt <= beg || last_pt >= end))
return (new_pt < last_pt ? beg : end);
return new_pt;
}
if (NILP (current_buffer->enable_multibyte_characters)
|| NILP (Vauto_composition_mode))
return new_pt;
/* Next check the automatic composition. */
if (! find_automatic_composition (new_pt, (EMACS_INT) -1, &beg, &end, &val,
Qnil)
|| beg == new_pt)
return new_pt;
for (i = 0; i < LGSTRING_GLYPH_LEN (val); i++)
{
Lisp_Object glyph = LGSTRING_GLYPH (val, i);
if (NILP (glyph))
break;
if (beg + LGLYPH_FROM (glyph) == new_pt)
return new_pt;
if (beg + LGLYPH_TO (glyph) >= new_pt)
return (new_pt < last_pt
? beg + LGLYPH_FROM (glyph)
: beg + LGLYPH_TO (glyph) + 1);
}
return new_pt;
}
DEFUN ("composition-get-gstring", Fcomposition_get_gstring,
Scomposition_get_gstring, 4, 4, 0,
doc: /* Return a glyph-string for characters between FROM and TO.
If the glyph string is for graphic display, FONT-OBJECT must be
a font-object to use for those characters.
Otherwise (for terminal display), FONT-OBJECT must be a terminal ID, a
frame, or nil for the selected frame's terminal device.
If the optional 4th argument STRING is not nil, it is a string
containing the target characters between indices FROM and TO.
A glyph-string is a vector containing information about how to display
a specific character sequence. The format is:
[HEADER ID GLYPH ...]
HEADER is a vector of this form:
[FONT-OBJECT CHAR ...]
where
FONT-OBJECT is a font-object for all glyphs in the glyph-string,
or the terminal coding system of the specified terminal.
CHARs are characters to be composed by GLYPHs.
ID is an identification number of the glyph-string. It may be nil if
not yet shaped.
GLYPH is a vector whose elements have this form:
[ FROM-IDX TO-IDX C CODE WIDTH LBEARING RBEARING ASCENT DESCENT
[ [X-OFF Y-OFF WADJUST] | nil] ]
where
FROM-IDX and TO-IDX are used internally and should not be touched.
C is the character of the glyph.
CODE is the glyph-code of C in FONT-OBJECT.
WIDTH thru DESCENT are the metrics (in pixels) of the glyph.
X-OFF and Y-OFF are offsets to the base position for the glyph.
WADJUST is the adjustment to the normal width of the glyph.
If GLYPH is nil, the remaining elements of the glyph-string vector
should be ignored. */)
(from, to, font_object, string)
Lisp_Object font_object, from, to, string;
{
Lisp_Object gstring, header;
EMACS_INT frompos, topos;
CHECK_NATNUM (from);
CHECK_NATNUM (to);
if (XINT (to) > XINT (from) + MAX_COMPOSITION_COMPONENTS)
to = make_number (XINT (from) + MAX_COMPOSITION_COMPONENTS);
if (! FONT_OBJECT_P (font_object))
{
struct coding_system *coding;
struct terminal *terminal = get_terminal (font_object, 1);
coding = ((TERMINAL_TERMINAL_CODING (terminal)->common_flags
& CODING_REQUIRE_ENCODING_MASK)
? TERMINAL_TERMINAL_CODING (terminal) : &safe_terminal_coding);
font_object = CODING_ID_NAME (coding->id);
}
header = fill_gstring_header (Qnil, from, to, font_object, string);
gstring = gstring_lookup_cache (header);
if (! NILP (gstring))
return gstring;
frompos = XINT (from);
topos = XINT (to);
if (LGSTRING_GLYPH_LEN (gstring_work) < topos - frompos)
gstring_work = Fmake_vector (make_number (topos - frompos + 2), Qnil);
LGSTRING_SET_HEADER (gstring_work, header);
LGSTRING_SET_ID (gstring_work, Qnil);
fill_gstring_body (gstring_work);
return gstring_work;
}
/* Emacs Lisp APIs. */
DEFUN ("compose-region-internal", Fcompose_region_internal,
Scompose_region_internal, 2, 4, 0,
doc: /* Internal use only.
Compose text in the region between START and END.
Optional 3rd and 4th arguments are COMPONENTS and MODIFICATION-FUNC
for the composition. See `compose-region' for more details. */)
(start, end, components, modification_func)
Lisp_Object start, end, components, modification_func;
{
validate_region (&start, &end);
if (!NILP (components)
&& !INTEGERP (components)
&& !CONSP (components)
&& !STRINGP (components))
CHECK_VECTOR (components);
compose_text (XINT (start), XINT (end), components, modification_func, Qnil);
return Qnil;
}
DEFUN ("compose-string-internal", Fcompose_string_internal,
Scompose_string_internal, 3, 5, 0,
doc: /* Internal use only.
Compose text between indices START and END of STRING.
Optional 4th and 5th arguments are COMPONENTS and MODIFICATION-FUNC
for the composition. See `compose-string' for more details. */)
(string, start, end, components, modification_func)
Lisp_Object string, start, end, components, modification_func;
{
CHECK_STRING (string);
CHECK_NUMBER (start);
CHECK_NUMBER (end);
if (XINT (start) < 0 ||
XINT (start) > XINT (end)
|| XINT (end) > SCHARS (string))
args_out_of_range (start, end);
compose_text (XINT (start), XINT (end), components, modification_func, string);
return string;
}
DEFUN ("find-composition-internal", Ffind_composition_internal,
Sfind_composition_internal, 4, 4, 0,
doc: /* Internal use only.
Return information about composition at or nearest to position POS.
See `find-composition' for more details. */)
(pos, limit, string, detail_p)
Lisp_Object pos, limit, string, detail_p;
{
Lisp_Object prop, tail, gstring;
EMACS_INT start, end, from, to;
int id;
CHECK_NUMBER_COERCE_MARKER (pos);
from = XINT (pos);
if (!NILP (limit))
{
CHECK_NUMBER_COERCE_MARKER (limit);
to = XINT (limit);
}
else
to = -1;
if (!NILP (string))
{
CHECK_STRING (string);
if (XINT (pos) < 0 || XINT (pos) > SCHARS (string))
args_out_of_range (string, pos);
}
else
{
if (XINT (pos) < BEGV || XINT (pos) > ZV)
args_out_of_range (Fcurrent_buffer (), pos);
}
if (!find_composition (from, to, &start, &end, &prop, string))
{
if (!NILP (current_buffer->enable_multibyte_characters)
&& ! NILP (Vauto_composition_mode)
&& find_automatic_composition (from, to, &start, &end, &gstring,
string))
return list3 (make_number (start), make_number (end), gstring);
return Qnil;
}
if ((end <= XINT (pos) || start > XINT (pos)))
{
EMACS_INT s, e;
if (find_automatic_composition (from, to, &s, &e, &gstring, string)
&& (e <= XINT (pos) ? e > end : s < start))
return list3 (make_number (start), make_number (end), gstring);
}
if (!COMPOSITION_VALID_P (start, end, prop))
return Fcons (make_number (start), Fcons (make_number (end),
Fcons (Qnil, Qnil)));
if (NILP (detail_p))
return Fcons (make_number (start), Fcons (make_number (end),
Fcons (Qt, Qnil)));
if (COMPOSITION_REGISTERD_P (prop))
id = COMPOSITION_ID (prop);
else
{
int start_byte = (NILP (string)
? CHAR_TO_BYTE (start)
: string_char_to_byte (string, start));
id = get_composition_id (start, start_byte, end - start, prop, string);
}
if (id >= 0)
{
Lisp_Object components, relative_p, mod_func;
enum composition_method method = COMPOSITION_METHOD (prop);
int width = composition_table[id]->width;
components = Fcopy_sequence (COMPOSITION_COMPONENTS (prop));
relative_p = (method == COMPOSITION_WITH_RULE_ALTCHARS
? Qnil : Qt);
mod_func = COMPOSITION_MODIFICATION_FUNC (prop);
tail = Fcons (components,
Fcons (relative_p,
Fcons (mod_func,
Fcons (make_number (width), Qnil))));
}
else
tail = Qnil;
return Fcons (make_number (start), Fcons (make_number (end), tail));
}
void
syms_of_composite ()
{
int i;
Qcomposition = intern_c_string ("composition");
staticpro (&Qcomposition);
/* Make a hash table for static composition. */
{
Lisp_Object args[6];
extern Lisp_Object QCsize;
args[0] = QCtest;
args[1] = Qequal;
args[2] = QCweakness;
/* We used to make the hash table weak so that unreferenced
compositions can be garbage-collected. But, usually once
created compositions are repeatedly used in an Emacs session,
and thus it's not worth to save memory in such a way. So, we
make the table not weak. */
args[3] = Qnil;
args[4] = QCsize;
args[5] = make_number (311);
composition_hash_table = Fmake_hash_table (6, args);
staticpro (&composition_hash_table);
}
/* Make a hash table for glyph-string. */
{
Lisp_Object args[6];
extern Lisp_Object QCsize;
args[0] = QCtest;
args[1] = Qequal;
args[2] = QCweakness;
args[3] = Qnil;
args[4] = QCsize;
args[5] = make_number (311);
gstring_hash_table = Fmake_hash_table (6, args);
staticpro (&gstring_hash_table);
}
staticpro (&gstring_work_headers);
gstring_work_headers = Fmake_vector (make_number (8), Qnil);
for (i = 0; i < 8; i++)
ASET (gstring_work_headers, i, Fmake_vector (make_number (i + 2), Qnil));
staticpro (&gstring_work);
gstring_work = Fmake_vector (make_number (10), Qnil);
/* Text property `composition' should be nonsticky by default. */
Vtext_property_default_nonsticky
= Fcons (Fcons (Qcomposition, Qt), Vtext_property_default_nonsticky);
DEFVAR_LISP ("compose-chars-after-function", &Vcompose_chars_after_function,
doc: /* Function to adjust composition of buffer text.
This function is called with three arguments: FROM, TO, and OBJECT.
FROM and TO specify the range of text whose composition should be
adjusted. OBJECT, if non-nil, is a string that contains the text.
This function is called after a text with `composition' property is
inserted or deleted to keep `composition' property of buffer text
valid.
The default value is the function `compose-chars-after'. */);
Vcompose_chars_after_function = intern_c_string ("compose-chars-after");
Qauto_composed = intern_c_string ("auto-composed");
staticpro (&Qauto_composed);
Qauto_composition_function = intern_c_string ("auto-composition-function");
staticpro (&Qauto_composition_function);
DEFVAR_LISP ("auto-composition-mode", &Vauto_composition_mode,
doc: /* Non-nil if Auto-Composition mode is enabled.
Use the command `auto-composition-mode' to change this variable. */);
Vauto_composition_mode = Qt;
DEFVAR_LISP ("auto-composition-function", &Vauto_composition_function,
doc: /* Function to call to compose characters automatically.
This function is called from the display routine with four arguments:
FROM, TO, WINDOW, and STRING.
If STRING is nil, the function must compose characters in the region
between FROM and TO in the current buffer.
Otherwise, STRING is a string, and FROM and TO are indices into the
string. In this case, the function must compose characters in the
string. */);
Vauto_composition_function = Qnil;
DEFVAR_LISP ("composition-function-table", &Vcomposition_function_table,
doc: /* Char-table of functions for automatic character composition.
For each character that has to be composed automatically with
preceding and/or following characters, this char-table contains
a function to call to compose that character.
The element at index C in the table, if non-nil, is a list of
this form: ([PATTERN PREV-CHARS FUNC] ...)
PATTERN is a regular expression which C and the surrounding
characters must match.
PREV-CHARS is a non-negative integer (less than 4) specifying how many
characters before C to check the matching with PATTERN. If it is 0,
PATTERN must match C and the following characters. If it is 1,
PATTERN must match a character before C and the following characters.
If PREV-CHARS is 0, PATTERN can be nil, which means that the
single character C should be composed.
FUNC is a function to return a glyph-string representing a
composition of the characters that match PATTERN. It is
called with one argument GSTRING.
GSTRING is a template of a glyph-string to return. It is already
filled with a proper header for the characters to compose, and
glyphs corresponding to those characters one by one. The
function must return a new glyph-string with the same header as
GSTRING, or modify GSTRING itself and return it.
See also the documentation of `auto-composition-mode'. */);
Vcomposition_function_table = Fmake_char_table (Qnil, Qnil);
defsubr (&Scompose_region_internal);
defsubr (&Scompose_string_internal);
defsubr (&Sfind_composition_internal);
defsubr (&Scomposition_get_gstring);
}
/* arch-tag: 79cefaf8-ca48-4eed-97e5-d5afb290d272
(do not change this comment) */
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