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Comparing rxvt-unicode/src/rxvtfont.C (file contents):
Revision 1.163 by root, Wed Mar 31 23:01:51 2010 UTC vs.
Revision 1.221 by root, Thu Aug 26 03:58:29 2021 UTC

1/*----------------------------------------------------------------------* 1/*----------------------------------------------------------------------*
2 * File: rxvtfont.C 2 * File: rxvtfont.C
3 *----------------------------------------------------------------------* 3 *----------------------------------------------------------------------*
4 * Copyright (c) 2003-2008 Marc Lehmann <pcg@goof.com> 4 * Copyright (c) 2003-2008 Marc Lehmann <schmorp@schmorp.de>
5 * - original version. 5 * - original version.
6 * 6 *
7 * This program is free software; you can redistribute it and/or modify 7 * This program is free software; you can redistribute it and/or modify
8 * it under the terms of the GNU General Public License as published by 8 * it under the terms of the GNU General Public License as published by
9 * the Free Software Foundation; either version 2 of the License, or 9 * the Free Software Foundation; either version 3 of the License, or
10 * (at your option) any later version. 10 * (at your option) any later version.
11 * 11 *
12 * This program is distributed in the hope that it will be useful, 12 * This program is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of 13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
22#include "../config.h" 22#include "../config.h"
23#include "rxvt.h" 23#include "rxvt.h"
24#include "rxvtutil.h" 24#include "rxvtutil.h"
25#include "rxvtfont.h" 25#include "rxvtfont.h"
26 26
27#include <cstdlib> 27#include <stdlib.h>
28 28
29#include <inttypes.h> 29#include <inttypes.h>
30
31#if XFT
32# include <fontconfig/fontconfig.h>
33#endif
30 34
31#define MAX_OVERLAP_ROMAN (8 + 2) // max. character width in 8ths of the base width 35#define MAX_OVERLAP_ROMAN (8 + 2) // max. character width in 8ths of the base width
32#define MAX_OVERLAP_ITALIC (8 + 3) // max. overlap for italic fonts 36#define MAX_OVERLAP_ITALIC (8 + 3) // max. overlap for italic fonts
33 37
34#define OVERLAP_OK(w,wcw,prop) ((w) <= ( \ 38#define OVERLAP_OK(w,wcw,prop) ((w) <= ( \
35 (prop)->slant >= rxvt_fontprop::italic \ 39 (prop)->slant >= rxvt_fontprop::italic \
36 ? ((prop)->width * (wcw) * MAX_OVERLAP_ITALIC + 7) >> 3 \ 40 ? ((prop)->width * (wcw) * MAX_OVERLAP_ITALIC + 7) >> 3 \
37 : ((prop)->width * (wcw) * MAX_OVERLAP_ROMAN + 7) >> 3 \ 41 : ((prop)->width * (wcw) * MAX_OVERLAP_ROMAN + 7) >> 3 \
38 )) 42 ))
39 43
40const struct rxvt_fallback_font { 44static const struct rxvt_fallback_font {
41 codeset cs; 45 codeset cs;
42 const char *name; 46 const char *name;
43} fallback_fonts[] = { 47} fallback_fonts[] = {
44 { CS_ISO8859_1, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-1" }, 48 { CS_ISO8859_1, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-1" },
45 { CS_ISO8859_15, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-15" }, 49 { CS_ISO8859_15, "-*-*-*-r-*--*-*-*-*-c-*-iso8859-15" },
128 { CS_KSC5601_1987_0, "xft:Baekmuk Gulim:antialias=false" }, 132 { CS_KSC5601_1987_0, "xft:Baekmuk Gulim:antialias=false" },
129 { CS_KSC5601_1987_0, "xft::lang=ko:antialias=false" }, 133 { CS_KSC5601_1987_0, "xft::lang=ko:antialias=false" },
130# endif 134# endif
131#endif 135#endif
132 136
133 { CS_UNICODE, "-*-lucidatypewriter-*-*-*-*-*-*-*-*-m-*-iso10646-1" },
134 //{ CS_UNICODE, "-*-unifont-*-*-*-*-*-*-*-*-c-*-iso10646-1" }, // this gem of a font has actual dotted circles within the combining character glyphs. 137 //{ CS_UNICODE, "-*-unifont-*-*-*-*-*-*-*-*-c-*-iso10646-1" }, // this gem of a font has actual dotted circles within the combining character glyphs.
135#if XFT 138#if XFT
136 { CS_UNICODE, "xft:Bitstream Vera Sans Mono:antialias=false:autohint=true" }, 139 { CS_UNICODE, "xft:DejaVu Sans Mono:antialias=false:autohint=true" },
137 { CS_UNICODE, "xft:Courier New:antialias=false:autohint=true" }, 140 { CS_UNICODE, "xft:Courier New:antialias=false:autohint=true" },
138 { CS_UNICODE, "xft:Andale Mono:antialias=false:autohint=false" }, 141 { CS_UNICODE, "xft:Andale Mono:antialias=false:autohint=false" },
139 { CS_UNICODE, "xft:Arial Unicode MS:antialias=false:autohint=false" }, 142 { CS_UNICODE, "xft:Arial Unicode MS:antialias=false:autohint=false" },
140 143
141 // FreeMono is usually uglier than x fonts, so try after the others 144 // FreeMono is usually uglier than x fonts, so try after the others
142 { CS_UNICODE, "xft:FreeMono:autohint=true" }, 145 { CS_UNICODE, "xft:FreeMono:autohint=true" },
143#endif 146#endif
144 147
155 '0', '1', '8', 'a', 'd', 'x', 'm', 'y', 'g', 'W', 'X', '\'', '_', 158 '0', '1', '8', 'a', 'd', 'x', 'm', 'y', 'g', 'W', 'X', '\'', '_',
156 0x00cd, 0x00d5, 0x0114, 0x0177, 0x0643, // ÍÕĔŷﻙ 159 0x00cd, 0x00d5, 0x0114, 0x0177, 0x0643, // ÍÕĔŷﻙ
157 0x304c, 0x672c, // が本 160 0x304c, 0x672c, // が本
158}; 161};
159 162
160#define NUM_EXTENT_TEST_CHARS (sizeof (extent_test_chars) / sizeof (extent_test_chars[0]))
161
162#define dTermDisplay Display *disp = term->dpy 163#define dTermDisplay Display *disp = term->dpy
163#define dTermGC GC gc = term->gc 164#define dTermGC GC gc = term->gc
164 165
165///////////////////////////////////////////////////////////////////////////// 166/////////////////////////////////////////////////////////////////////////////
166 167
238 else if (color >= 0) 239 else if (color >= 0)
239 { 240 {
240#if XFT 241#if XFT
241 Picture dst; 242 Picture dst;
242 243
243# ifdef HAVE_BG_PIXMAP 244# ifdef HAVE_IMG
244 if (term->bgPixmap.pixmap 245 if (term->bg_img
245 && !term->pix_colors[color].is_opaque () 246 && !term->pix_colors[color].is_opaque ()
246 && ((dst = XftDrawPicture (d)))) 247 && ((dst = XftDrawPicture (d))))
247 { 248 {
248 XClearArea (disp, d, x, y, w, h, false); 249 XClearArea (disp, d, x, y, w, h, false);
249 250
261 } 262 }
262} 263}
263 264
264///////////////////////////////////////////////////////////////////////////// 265/////////////////////////////////////////////////////////////////////////////
265 266
266struct rxvt_font_default : rxvt_font { 267struct rxvt_font_default : rxvt_font
268{
267 struct rxvt_fontset *fs; 269 struct rxvt_fontset *fs;
268 270
269 rxvt_font_default (rxvt_fontset *fs) 271 rxvt_font_default (rxvt_fontset *fs)
270 : rxvt_font () 272 : rxvt_font ()
271 { 273 {
311 if (unicode >= 0x2500 && unicode <= 0x259f && 313 if (unicode >= 0x2500 && unicode <= 0x259f &&
312 !term->option (Opt_skipBuiltinGlyphs)) 314 !term->option (Opt_skipBuiltinGlyphs))
313 return true; 315 return true;
314#endif 316#endif
315 317
316 if (IS_COMPOSE (unicode)) 318 // we do not check for IS_COMPOSE here, as this would
317 return true; 319 // rob other fonts from taking over.
318 320
319 switch (unicode) 321 switch (unicode)
320 { 322 {
321 case ZERO_WIDTH_CHAR: 323 case ZERO_WIDTH_CHAR:
322 case NOCHAR: 324 case NOCHAR:
343 345
344 XSetForeground (disp, gc, term->pix_colors[fg]); 346 XSetForeground (disp, gc, term->pix_colors[fg]);
345 347
346 while (len) 348 while (len)
347 { 349 {
350 const text_t *tp = text;
351 text_t t = *tp;
352
353 while (++text, --len && *text == NOCHAR)
354 ;
355
348#if ENABLE_COMBINING 356#if ENABLE_COMBINING
349 compose_char *cc; 357 compose_char *cc;
350#endif 358#endif
351 const text_t *tp = text;
352 text_t t = *tp;
353
354 while (++text, --len && *text == NOCHAR)
355 ;
356
357 int width = text - tp; 359 int width = text - tp;
358 int fwidth = term->fwidth * width; 360 int fwidth = term->fwidth * width;
359 361
360#ifdef BUILTIN_GLYPHS 362#ifdef BUILTIN_GLYPHS
361 if (0x2500 <= t && t <= 0x259f) 363 if (0x2500 <= t && t <= 0x259f)
443#endif 445#endif
444#if ENABLE_COMBINING 446#if ENABLE_COMBINING
445 else if (IS_COMPOSE (t) && (cc = rxvt_composite[t])) 447 else if (IS_COMPOSE (t) && (cc = rxvt_composite[t]))
446 { 448 {
447 min_it (width, 2); // we only support wcwidth up to 2 449 min_it (width, 2); // we only support wcwidth up to 2
448
449 text_t chrs[2]; 450 text_t chrs[2];
450 chrs [1] = NOCHAR; 451 chrs [1] = NOCHAR;
451 452
452 *chrs = cc->c1; 453 *chrs = cc->c1;
453 rxvt_font *f1 = (*fs)[fs->find_font (cc->c1)]; 454 rxvt_font *f1 = (*fs)[fs->find_font_idx (cc->c1)];
454 f1->draw (d, x, y, chrs, width, fg, bg); 455 f1->draw (d, x, y, chrs, width, fg, bg);
455 456
456 if (cc->c2 != NOCHAR) 457 if (cc->c2 != NOCHAR)
457 { 458 {
458 bool careful; 459 bool careful;
459 460
460 // prefer font of first character, for no good reasons 461 // prefer font of first character, for no good reasons
461 *chrs = cc->c2; 462 *chrs = cc->c2;
462 rxvt_font *f2 = (f1->has_char (cc->c2, 0, careful) && !careful) 463 rxvt_font *f2 = (f1->has_char (cc->c2, 0, careful) && !careful)
463 ? f1 464 ? f1
464 : (*fs)[fs->find_font (cc->c2)]; 465 : (*fs)[fs->find_font_idx (cc->c2)];
465 466
466 f2->draw (d, x, y, chrs, width, fg, Color_none); 467 f2->draw (d, x, y, chrs, width, fg, Color_none);
467 } 468 }
468 } 469 }
469#endif 470#endif
473 case '\t': 474 case '\t':
474 case ZERO_WIDTH_CHAR: 475 case ZERO_WIDTH_CHAR:
475 case NOCHAR: 476 case NOCHAR:
476 break; 477 break;
477 478
479 /*
480 * If the base font does not support variation selectors, treat them as ZWC.
481 * a point could be made to do this for all wcwidth == 0 characters, but I
482 * decided against that until more data is available.
483 */
484 case 0xfe00: case 0xfe01: case 0xfe02: case 0xfe03: case 0xfe04: case 0xfe05: case 0xfe06: case 0xfe07:
485 case 0xfe08: case 0xfe09: case 0xfe0a: case 0xfe0b: case 0xfe0c: case 0xfe0d: case 0xfe0e: case 0xfe0f:
486 break;
487
478 default: 488 default:
479 XDrawRectangle (disp, d, gc, x + 2, y + 2, 489 XDrawRectangle (disp, d, gc, x + 2, y + 2,
480 fwidth - 4, term->fheight - 4); 490 fwidth - 4, term->fheight - 4);
481 } 491 }
482 492
483 x += fwidth; 493 x += fwidth;
484 } 494 }
485} 495}
486 496
487struct rxvt_font_overflow : rxvt_font { 497struct rxvt_font_overflow : rxvt_font
498{
488 struct rxvt_fontset *fs; 499 struct rxvt_fontset *fs;
489 500
490 rxvt_font_overflow (rxvt_fontset *fs) 501 rxvt_font_overflow (rxvt_fontset *fs)
491 : rxvt_font () 502 : rxvt_font ()
492 { 503 {
522 533
523 void draw (rxvt_drawable &d, int x, int y, 534 void draw (rxvt_drawable &d, int x, int y,
524 const text_t *text, int len, 535 const text_t *text, int len,
525 int fg, int bg) 536 int fg, int bg)
526 { 537 {
527 while (len--) 538 while (len)
528 { 539 {
529 int fid = fs->find_font_idx (*text); 540 int fid = fs->find_font_idx (*text);
541 int w = 1;
542 while (w < len && text[w] == NOCHAR)
543 w++;
530 (*fs)[fid]->draw (d, x, y, text, 1, fg, bg); 544 (*fs)[fid]->draw (d, x, y, text, w, fg, bg);
531 ++text; 545 text += w;
546 len -= w;
532 x += term->fwidth; 547 x += term->fwidth * w;
533 } 548 }
534 } 549 }
535}; 550};
536 551
537///////////////////////////////////////////////////////////////////////////// 552/////////////////////////////////////////////////////////////////////////////
538 553
539struct rxvt_font_x11 : rxvt_font { 554struct rxvt_font_x11 : rxvt_font
555{
540 rxvt_font_x11 () { f = 0; } 556 rxvt_font_x11 () { f = 0; }
541 557
542 void clear (); 558 void clear ();
543 559
544 rxvt_fontprop properties (); 560 rxvt_fontprop properties ();
716 f = XLoadQueryFont (disp, name); 732 f = XLoadQueryFont (disp, name);
717 733
718 if (!f) 734 if (!f)
719 return false; 735 return false;
720 736
721 char *new_name = get_property (f, XA_FONT, name); 737 char *new_name = get_property (f, XA_FONT, 0);
722 738
723 if (new_name) 739 if (new_name)
724 set_name (new_name); 740 set_name (new_name);
725 else 741 else
726 rxvt_warn ("font '%s' has no FONT property, continuing without.", name); 742 rxvt_warn ("font '%s' has no FONT property, continuing without.\n", name);
727 743
728 XFreeFont (disp, f); 744 XFreeFont (disp, f);
729 f = 0; 745 f = 0;
730 } 746 }
731 747
788 free (fname); 804 free (fname);
789 if (replace_field (&fname, list[i], 11, '0', "0")) 805 if (replace_field (&fname, list[i], 11, '0', "0"))
790 diff += 300; // more heavily penalize what looks like scaled bitmap fonts 806 diff += 300; // more heavily penalize what looks like scaled bitmap fonts
791 } 807 }
792 808
793 if (!set_properties (p, fname)) 809 if (!set_properties (p, fname)
810 // also weed out too large fonts
811 || (prop.height != rxvt_fontprop::unset
812 && p.height > prop.height))
813 {
814 free (fname);
794 continue; 815 continue;
795 816 }
796 if (prop.height != rxvt_fontprop::unset
797 && p.height > prop.height) // weed out too large fonts
798 continue;
799 817
800 if (prop.height != rxvt_fontprop::unset) diff += (prop.height - p.height) * 128; 818 if (prop.height != rxvt_fontprop::unset) diff += (prop.height - p.height) * 128;
801 if (prop.weight != rxvt_fontprop::unset) diff += abs (prop.weight - p.weight); 819 if (prop.weight != rxvt_fontprop::unset) diff += abs (prop.weight - p.weight);
802 if (prop.slant != rxvt_fontprop::unset) diff += abs (prop.slant - p.slant); 820 if (prop.slant != rxvt_fontprop::unset) diff += abs (prop.slant - p.slant);
803 //if (prop.width != rxvt_fontprop::unset) diff += abs (prop.width - p.width); 821 //if (prop.width != rxvt_fontprop::unset) diff += abs (prop.width - p.width);
809 XFreeFontNames (list); 827 XFreeFontNames (list);
810 828
811 // this loop only iterates when the guessed font-size is too small 829 // this loop only iterates when the guessed font-size is too small
812 for (;;) 830 for (;;)
813 { 831 {
814 font_weight *best = fonts + count - 1; 832 font_weight *best = fonts;
815 833
816 for (font_weight *w = best; w-- > fonts; ) 834 for (font_weight *w = fonts + 1; w < fonts + count; w++)
817 if (w->diff <= best->diff) 835 if (w->diff < best->diff)
818 best = w; 836 best = w;
819 837
820 if (!best->name 838 if (!best->name
821 || !(f = XLoadQueryFont (disp, best->name))) 839 || !(f = XLoadQueryFont (disp, best->name)))
822 break; 840 break;
860 free (registry); 878 free (registry);
861 free (encoding); 879 free (encoding);
862 880
863 if (cs == CS_UNKNOWN) 881 if (cs == CS_UNKNOWN)
864 { 882 {
865 const char *charset = get_property (f, XA_FONT, 0); 883 char *value = get_property (f, XA_FONT, 0);
884 const char *charset = value;
866 885
867 if (!charset) 886 if (!charset)
868 charset = name; 887 charset = name;
869 888
870 int count = 13; 889 int count = 13;
873 break; 892 break;
874 893
875 cs = codeset_from_name (charset); 894 cs = codeset_from_name (charset);
876 if (cs == CS_UNKNOWN) 895 if (cs == CS_UNKNOWN)
877 rxvt_warn ("%s: cannot deduce encoding from font name property \"%s\", ignoring font.\n", name, charset); 896 rxvt_warn ("%s: cannot deduce encoding from font name property \"%s\", ignoring font.\n", name, charset);
897
898 free (value);
878 } 899 }
879 900
880 if (cs == CS_UNKNOWN) 901 if (cs == CS_UNKNOWN)
881 { 902 {
882 clear (); 903 clear ();
914 } 935 }
915#endif 936#endif
916 937
917 width = 1; 938 width = 1;
918 939
919 for (uint16_t *t = extent_test_chars + NUM_EXTENT_TEST_CHARS; t-- > extent_test_chars; ) 940 for (uint16_t *t = extent_test_chars; t < extent_test_chars + ecb_array_length (extent_test_chars); t++)
920 { 941 {
921 if (FROM_UNICODE (cs, *t) == NOCHAR) 942 if (FROM_UNICODE (cs, *t) == NOCHAR)
922 continue; 943 continue;
923 944
924 // ignore characters we wouldn't use anyways 945 // ignore characters we wouldn't use anyways
925 bool careful; 946 bool careful;
926 if (!has_char (*t, &prop, careful)) 947 if (!has_char (*t, &prop, careful))
927 continue; 948 continue;
928 949
929 XChar2b ch = { *t >> 8, *t }; 950 // the casts are needed in C++11 (see 8.5.1)
951 XChar2b ch = { (unsigned char)(*t >> 8), (unsigned char)*t };
930 952
931 XCharStruct g; 953 XCharStruct g;
932 int dir_ret, asc_ret, des_ret; 954 int dir_ret, asc_ret, des_ret;
933 XTextExtents16 (f, &ch, 1, &dir_ret, &asc_ret, &des_ret, &g); 955 XTextExtents16 (f, &ch, 1, &dir_ret, &asc_ret, &des_ret, &g);
934 956
960} 982}
961 983
962bool 984bool
963rxvt_font_x11::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const 985rxvt_font_x11::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const
964{ 986{
987 careful = false;
988
965 uint32_t ch = FROM_UNICODE (cs, unicode); 989 uint32_t ch = FROM_UNICODE (cs, unicode);
966 990
967 if (ch == NOCHAR) 991 if (ch == NOCHAR)
968 return false; 992 return false;
969 993
1032 dTermDisplay; 1056 dTermDisplay;
1033 dTermGC; 1057 dTermGC;
1034 1058
1035 bool slow = this->slow 1059 bool slow = this->slow
1036 || width != term->fwidth 1060 || width != term->fwidth
1037 || height != term->fheight; 1061 || height != term->fheight
1062 || ascent != f->ascent;
1038 1063
1039 int base = ascent; // sorry, incorrect: term->fbase; 1064 int base = ascent; // sorry, incorrect: term->fbase;
1040 1065
1041 XGCValues v; 1066 XGCValues v;
1042 v.foreground = term->pix_colors[fg]; 1067 v.foreground = term->pix_colors[fg];
1110 1135
1111///////////////////////////////////////////////////////////////////////////// 1136/////////////////////////////////////////////////////////////////////////////
1112 1137
1113#if XFT 1138#if XFT
1114 1139
1115struct rxvt_font_xft : rxvt_font { 1140struct rxvt_font_xft : rxvt_font
1141{
1142#if XFT_CHAR_CACHE
1143 // we cache the qascii range xoffsets in the name of speed,
1144 // expecting terminals to deal mostly with these characters
1145 // we also assume the xoff always fits into uint8_t,
1146 // which is questionable, but let's see...
1147 // also, it is uncomfortably big, due to the uints.
1148 enum { char_cache_min = 0x20, char_cache_max = 0x7e };
1149 uint8_t xoff_cache [char_cache_max - char_cache_min + 1];
1150 FT_UInt glyph_cache [char_cache_max - char_cache_min + 1];
1151#endif
1152
1116 rxvt_font_xft () { f = 0; } 1153 rxvt_font_xft ()
1154 {
1155 f = 0;
1156 }
1117 1157
1118 void clear (); 1158 void clear ();
1119 1159
1120 rxvt_fontprop properties (); 1160 rxvt_fontprop properties ();
1121 1161
1211 int ftheight = 0; 1251 int ftheight = 0;
1212 bool success = true; 1252 bool success = true;
1213 1253
1214 for (;;) 1254 for (;;)
1215 { 1255 {
1256 p = FcPatternDuplicate (match);
1216 f = XftFontOpenPattern (disp, FcPatternDuplicate (match)); 1257 f = XftFontOpenPattern (disp, p);
1217 1258
1218 if (!f) 1259 if (!f)
1219 { 1260 {
1261 FcPatternDestroy (p);
1220 success = false; 1262 success = false;
1221 break; 1263 break;
1222 } 1264 }
1223 1265
1224 FT_Face face = XftLockFace (f); 1266 FT_Face face = XftLockFace (f);
1267
1268 // fuck me plenty: XftLockFace can actually return 0. try not to crash.
1269 // we also assume blindly that if the first lock succeeeds, then subsequent
1270 // locks will also succeed.
1271 if (!face)
1272 {
1273 XftFontClose (disp, f);
1274 success = false;
1275 break;
1276 }
1225 1277
1226 ascent = (face->size->metrics.ascender + 63) >> 6; 1278 ascent = (face->size->metrics.ascender + 63) >> 6;
1227 descent = (-face->size->metrics.descender + 63) >> 6; 1279 descent = (-face->size->metrics.descender + 63) >> 6;
1228 height = max (ascent + descent, (face->size->metrics.height + 63) >> 6); 1280 height = max (ascent + descent, (face->size->metrics.height + 63) >> 6);
1229 width = 0; 1281 width = 0;
1232 1284
1233 XftUnlockFace (f); 1285 XftUnlockFace (f);
1234 1286
1235 int glheight = height; 1287 int glheight = height;
1236 1288
1237 for (uint16_t *t = extent_test_chars + NUM_EXTENT_TEST_CHARS; t-- > extent_test_chars; ) 1289 for (uint16_t *t = extent_test_chars; t < extent_test_chars + ecb_array_length (extent_test_chars); t++)
1238 { 1290 {
1239 FcChar16 ch = *t; 1291 FcChar16 ch = *t;
1240 1292
1241 if (cs != CS_UNICODE 1293 if (cs != CS_UNICODE
1242 && ch > 0x100 1294 && ch > 0x100
1261 if (glheight < g.height - g.y) glheight = g.height - g.y; 1313 if (glheight < g.height - g.y) glheight = g.height - g.y;
1262 } 1314 }
1263 1315
1264 if (!width) 1316 if (!width)
1265 { 1317 {
1266 rxvt_warn ("unable to calculate font width for '%s', ignoring.\n", name); 1318 rxvt_warn ("unable to calculate font width for '%s', using max_advance_width.\n", name);
1267 1319 width = f->max_advance_width;
1268 XftFontClose (disp, f);
1269 f = 0;
1270
1271 success = false;
1272 break; 1320 break;
1273 } 1321 }
1274 1322
1275 if (prop.height == rxvt_fontprop::unset 1323 if (prop.height == rxvt_fontprop::unset
1276 || (height <= prop.height && glheight <= prop.height) 1324 || (height <= prop.height && glheight <= prop.height)
1303 clear (); 1351 clear ();
1304 success = false; 1352 success = false;
1305 } 1353 }
1306#endif 1354#endif
1307 1355
1356#if XFT_CHAR_CACHE
1357 // populate char cache
1358 for (FcChar16 ch = char_cache_min; ch <= char_cache_max; ++ch)
1359 {
1360 FT_UInt glyph = XftCharIndex (disp, f, ch);
1361 glyph_cache [ch - char_cache_min] = glyph;
1362
1363 XGlyphInfo g;
1364 XftGlyphExtents (disp, f, &glyph, 1, &g);
1365 xoff_cache [ch - char_cache_min] = g.xOff;
1366 }
1367#endif
1368
1308 return success; 1369 return success;
1309} 1370}
1310 1371
1311bool 1372bool
1312rxvt_font_xft::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const 1373rxvt_font_xft::has_char (unicode_t unicode, const rxvt_fontprop *prop, bool &careful) const
1313{ 1374{
1314 careful = false; 1375 careful = false;
1315 1376
1377 // handle non-bmp chars when text_t is 16 bit
1378#if ENABLE_COMBINING && !UNICODE_3
1379 if (ecb_expect_false (IS_COMPOSE (unicode)))
1380 if (compose_char *cc = rxvt_composite [unicode])
1381 if (cc->c2 == NOCHAR)
1382 unicode = cc->c1;
1383 else
1384 return false;
1385 else
1386 return false;
1387#endif
1388
1389 FcChar32 chr = unicode;
1390
1316 if (!XftCharExists (term->dpy, f, unicode)) 1391 if (!XftCharExists (term->dpy, f, chr))
1317 return false; 1392 return false;
1318 1393
1319 if (!prop || prop->width == rxvt_fontprop::unset) 1394 if (!prop || prop->width == rxvt_fontprop::unset)
1320 return true; 1395 return true;
1321 1396
1322 // check character against base font bounding box 1397 int wcw = max (WCWIDTH (chr), 1);
1323 FcChar32 ch = unicode; 1398
1324 XGlyphInfo g; 1399 XGlyphInfo g;
1325 XftTextExtents32 (term->dpy, f, &ch, 1, &g); 1400 XftTextExtents32 (term->dpy, f, &chr, 1, &g);
1401
1402 int cwidth = prop->width * wcw;
1403
1404 // use same adjustments as in ->draw, see there
1405 g.x += g.xOff ? cwidth - g.xOff >> 1 : 0;
1406 g.x += g.xOff ? 0 : cwidth;
1326 1407
1327 int w = g.width - g.x; 1408 int w = g.width - g.x;
1328 int wcw = max (WCWIDTH (unicode), 1);
1329 1409
1330 careful = g.x > 0 || w > prop->width * wcw; 1410 careful = g.x > 0 || w > cwidth;
1331 1411
1332 if (careful && !OVERLAP_OK (w, wcw, prop)) 1412 if (careful && !OVERLAP_OK (w, wcw, prop))
1333 return false; 1413 return false;
1334 1414
1335 // this weeds out _totally_ broken fonts, or glyphs 1415 // this weeds out _totally_ broken fonts, or glyphs
1342void 1422void
1343rxvt_font_xft::draw (rxvt_drawable &d, int x, int y, 1423rxvt_font_xft::draw (rxvt_drawable &d, int x, int y,
1344 const text_t *text, int len, 1424 const text_t *text, int len,
1345 int fg, int bg) 1425 int fg, int bg)
1346{ 1426{
1347 XGlyphInfo extents;
1348 XftGlyphSpec *enc = rxvt_temp_buf<XftGlyphSpec> (len); 1427 XftGlyphSpec *enc = rxvt_temp_buf<XftGlyphSpec> (len);
1349 XftGlyphSpec *ep = enc; 1428 XftGlyphSpec *ep = enc;
1350 1429
1351 dTermDisplay; 1430 dTermDisplay;
1352 dTermGC; 1431 dTermGC;
1365 int y_ = buffered ? 0 : y; 1444 int y_ = buffered ? 0 : y;
1366 1445
1367 while (len) 1446 while (len)
1368 { 1447 {
1369 int cwidth = term->fwidth; 1448 int cwidth = term->fwidth;
1370 FcChar32 fc = *text++; len--; 1449 FcChar32 chr = *text++; len--;
1371 1450
1372 while (len && *text == NOCHAR) 1451 while (len && *text == NOCHAR)
1373 text++, len--, cwidth += term->fwidth; 1452 text++, len--, cwidth += term->fwidth;
1374 1453
1375 if (fc != ' ') // skip spaces 1454 if (chr != ' ') // skip spaces
1455 {
1456 // handle non-bmp chars when text_t is 16 bit
1457 #if ENABLE_COMBINING && !UNICODE_3
1458 if (ecb_expect_false (IS_COMPOSE (chr)))
1459 if (compose_char *cc = rxvt_composite [chr])
1460 if (cc->c2 == NOCHAR)
1461 chr = cc->c1;
1462 #endif
1463
1464 #if 0
1465 FT_UInt glyphs [decltype (exp)::max_size];
1466
1467 for (int i = 0; i < nchrs; ++i)
1468 glyphs [i] = XftCharIndex (disp, f, chrs [i]);
1469
1470 for (int i = 0; i < nchrs; ++i)
1376 { 1471 {
1472 XGlyphInfo ep;
1473 XftGlyphExtents (disp, f, glyphs+i, 1, &ep);
1474 printf ("gs %4x g %4x + %3d,%3d o %3d,%3d wh %3d,%3d\n", chrs[i],glyphs[i],ep.x,ep.y,ep.xOff,ep.yOff,ep.width,ep.height);
1475 }
1476 #endif
1477
1478 FT_UInt glyph;
1479 int xOff;
1480
1481 #if XFT_CHAR_CACHE
1482 if (ecb_expect_true (IN_RANGE_INC (chr, char_cache_min, char_cache_max)))
1483 {
1484 glyph = glyph_cache [chr - char_cache_min];
1485 xOff = xoff_cache [chr - char_cache_min];
1486 }
1487 else
1488 #endif
1489 {
1377 FT_UInt glyph = XftCharIndex (disp, f, fc); 1490 glyph = XftCharIndex (disp, f, chr);
1491 XGlyphInfo extents;
1378 XftGlyphExtents (disp, f, &glyph, 1, &extents); 1492 XftGlyphExtents (disp, f, &glyph, 1, &extents);
1493 xOff = extents.xOff;
1494 }
1379 1495
1380 ep->glyph = glyph; 1496 ep->glyph = glyph;
1381 ep->x = x_ + (cwidth - extents.xOff >> 1); 1497 ep->x = x_;
1382 ep->y = y_ + ascent; 1498 ep->y = y_ + ascent;
1383 1499
1384 if (extents.xOff == 0) 1500 // the xft font cell might differ from the terminal font cell,
1501 // in which case we use the average between the two.
1502 ep->x += xOff ? cwidth - xOff >> 1 : 0;
1503
1504 // xft/freetype represent combining characters as characters with zero
1505 // width rendered over the previous character with some fonts, while
1506 // in other fonts, they are considered normal characters, while yet
1507 // in other fonts, they are shifted all over the place.
1508 // we handle the first two cases by keying off on xOff being 0
1509 // for zero-width chars. normally, we would add extents.xOff
1510 // of the base character here, but we don't have that, so we use cwidth.
1385 ep->x = x_ + cwidth; 1511 ep->x += xOff ? 0 : cwidth;
1386 1512
1387 ep++; 1513 ++ep;
1388 } 1514 }
1389 1515
1390 x_ += cwidth; 1516 x_ += cwidth;
1391 } 1517 }
1392 1518
1394 { 1520 {
1395 if (ep != enc) 1521 if (ep != enc)
1396 { 1522 {
1397 rxvt_drawable &d2 = d.screen->scratch_drawable (w, h); 1523 rxvt_drawable &d2 = d.screen->scratch_drawable (w, h);
1398 1524
1399#ifdef HAVE_BG_PIXMAP 1525#ifdef HAVE_IMG
1400 Picture dst = 0; // the only assignment is done conditionally in the following if condition 1526 Picture dst = 0; // the only assignment is done conditionally in the following if condition
1401 1527
1402 if (term->bgPixmap.pixmap 1528 if (term->bg_img
1403 && (bg == Color_transparent || bg == Color_bg 1529 && (bg == Color_transparent || bg == Color_bg
1404 || (bg >= 0 && !term->pix_colors[bg].is_opaque () && ((dst = XftDrawPicture (d2)))))) 1530 || (bg >= 0 && !term->pix_colors[bg].is_opaque () && ((dst = XftDrawPicture (d2))))))
1405 { 1531 {
1406 int src_x = x, src_y = y; 1532 int src_x = x, src_y = y;
1407 1533
1408 if (term->bgPixmap.is_parentOrigin ()) 1534 if (term->bg_flags & rxvt_term::BG_IS_TRANSPARENT)
1409 { 1535 {
1410 src_x += term->window_vt_x; 1536 src_x += term->window_vt_x;
1411 src_y += term->window_vt_y; 1537 src_y += term->window_vt_y;
1412 } 1538 }
1413 1539
1414 if (term->bgPixmap.pmap_width >= src_x + w 1540 if (term->bg_img->w >= src_x + w
1415 && term->bgPixmap.pmap_height >= src_y + h) 1541 && term->bg_img->h >= src_y + h)
1416 { 1542 {
1417 XCopyArea (disp, term->bgPixmap.pixmap, d2, gc, 1543 XCopyArea (disp, term->bg_img->pm, d2, gc,
1418 src_x, src_y, w, h, 0, 0); 1544 src_x, src_y, w, h, 0, 0);
1419 } 1545 }
1420 else 1546 else
1421 { 1547 {
1422 XGCValues gcv; 1548 XGCValues gcv;
1423 1549
1424 gcv.fill_style = FillTiled; 1550 gcv.fill_style = FillTiled;
1425 gcv.tile = term->bgPixmap.pixmap; 1551 gcv.tile = term->bg_img->pm;
1426 gcv.ts_x_origin = -src_x; 1552 gcv.ts_x_origin = -src_x;
1427 gcv.ts_y_origin = -src_y; 1553 gcv.ts_y_origin = -src_y;
1428 1554
1429 XChangeGC (disp, gc, 1555 XChangeGC (disp, gc,
1430 GCTile | GCTileStipXOrigin | GCTileStipYOrigin | GCFillStyle, 1556 GCTile | GCTileStipXOrigin | GCTileStipYOrigin | GCFillStyle,
1482 prop.width = prop.height = prop.ascent = prop.weight = prop.slant 1608 prop.width = prop.height = prop.ascent = prop.weight = prop.slant
1483 = rxvt_fontprop::unset; 1609 = rxvt_fontprop::unset;
1484 force_prop = false; 1610 force_prop = false;
1485 1611
1486 for (rxvt_font **i = fonts.begin (); i != fonts.end (); i++) 1612 for (rxvt_font **i = fonts.begin (); i != fonts.end (); i++)
1487 FONT_UNREF (*i); 1613 (*i)->unref ();
1488 1614
1489 for (pagemap **p = fmap.begin (); p != fmap.end (); p++) 1615 for (pagemap **p = fmap.begin (); p != fmap.end (); p++)
1490 delete *p; 1616 delete *p;
1491 1617
1492 free (fontdesc); fontdesc = 0; 1618 free (fontdesc); fontdesc = 0;
1590 cs = codeset_from_name (spec + sizeof ("codeset=") - 1); 1716 cs = codeset_from_name (spec + sizeof ("codeset=") - 1);
1591 else 1717 else
1592 rxvt_warn ("unknown parameter '%s' in font specification, skipping.\n", spec); 1718 rxvt_warn ("unknown parameter '%s' in font specification, skipping.\n", spec);
1593 1719
1594 desc++; 1720 desc++;
1595 while (*desc <= ' ') desc++; 1721 while (*desc <= ' ' && *desc) desc++;
1596 } 1722 }
1597 1723
1598 end = strchr (desc, ','); 1724 end = strchr (desc, ',');
1599 if (!end) 1725 if (!end)
1600 end = desc + strlen (desc); 1726 end = desc + strlen (desc);
1605 buf[end - desc] = 0; 1731 buf[end - desc] = 0;
1606 1732
1607 push_font (new_font (buf, cs)); 1733 push_font (new_font (buf, cs));
1608 } 1734 }
1609 else 1735 else
1610 rxvt_warn ("fontset element too long (>511 bytes), ignored."); 1736 rxvt_warn ("fontset element too long (>511 bytes), ignored.\n");
1611 1737
1612 desc = end + 1; 1738 desc = end + 1;
1613 } 1739 }
1614 while (*end); 1740 while (*end);
1615 } 1741 }
1661} 1787}
1662 1788
1663int 1789int
1664rxvt_fontset::find_font_idx (unicode_t unicode) 1790rxvt_fontset::find_font_idx (unicode_t unicode)
1665{ 1791{
1666 if (unicode >= 1<<20) 1792 // this limits fmap size. it has to accommodate COMPOSE_HI when UNICODE_3
1793 if (unicode > 0x1fffff)
1667 return 0; 1794 return 0;
1668 1795
1669 unicode_t hi = unicode >> 8; 1796 unicode_t hi = unicode >> 8;
1670 1797
1671 if (hi < fmap.size () 1798 if (hi < fmap.size ())
1672 && fmap[hi] 1799 if (pagemap *pm = fmap[hi])
1673 && (*fmap[hi])[unicode & 0xff] != 0xff) 1800 if ((*pm)[unicode & 0xff] != 0xff)
1674 return (*fmap[hi])[unicode & 0xff]; 1801 return (*pm)[unicode & 0xff];
1675 1802
1676 unsigned int i; 1803 unsigned int i;
1677 1804
1678 for (i = 0; i < fonts.size (); i++) 1805 for (i = 0; i < fonts.size (); i++)
1679 { 1806 {
1703 } 1830 }
1704 1831
1705 next_font: 1832 next_font:
1706 if (i == fonts.size () - 1) 1833 if (i == fonts.size () - 1)
1707 { 1834 {
1835 // compose characters are handled by the default font, unless another font takes over
1836 // we do not go via the fallback list for speed reasons.
1837 if (IS_COMPOSE (unicode))
1838 return 0;
1839
1708 if (fallback->name) 1840 if (fallback->name)
1709 { 1841 {
1710 // search through the fallback list 1842 // search through the fallback list
1711 push_font (new_font (fallback->name, fallback->cs)); 1843 push_font (new_font (fallback->name, fallback->cs));
1712 fallback++; 1844 fallback++;
1718 // way to configure this and xft is easier to hack in, 1850 // way to configure this and xft is easier to hack in,
1719 // while x11 has more framework in place already. 1851 // while x11 has more framework in place already.
1720 // TODO: this is a real resource hog, xft takes ages(?) 1852 // TODO: this is a real resource hog, xft takes ages(?)
1721#if XFT && USE_SLOW_LOOKUP 1853#if XFT && USE_SLOW_LOOKUP
1722 // grab the first xft font that seems suitable 1854 // grab the first xft font that seems suitable
1855 // TOOD: should go first for cellchar (spacing 110) then mono, then else
1723 FcPattern *p = FcPatternCreate (); 1856 FcPattern *p = FcPatternCreate ();
1724 1857
1725 FcCharSet *s = FcCharSetCreate (); 1858 FcCharSet *s = FcCharSetCreate ();
1726 FcCharSetAddChar (s, unicode); 1859 FcCharSetAddChar (s, unicode);
1727 FcPatternAddCharSet (p, FC_CHARSET, s); 1860 FcPatternAddCharSet (p, FC_CHARSET, s);
1771 while (hi >= fmap.size ()) 1904 while (hi >= fmap.size ())
1772 fmap.push_back (0); 1905 fmap.push_back (0);
1773 1906
1774 if (!fmap[hi]) 1907 if (!fmap[hi])
1775 { 1908 {
1776 fmap[hi] = (pagemap *)new pagemap; 1909 fmap[hi] = new pagemap;
1777 memset (fmap[hi], 0xff, sizeof (pagemap)); 1910 memset (fmap[hi], 0xff, sizeof (pagemap));
1778 } 1911 }
1779 1912
1780 (*fmap[hi])[unicode & 0xff] = i; 1913 (*fmap[hi])[unicode & 0xff] = i;
1781 } 1914 }

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