/* * Copyright © 2000 Keith Packard * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of Keith Packard not be used in * advertising or publicity pertaining to distribution of the software without * specific, written prior permission. Keith Packard makes no * representations about the suitability of this software for any purpose. It * is provided "as is" without express or implied warranty. * * KEITH PACKARD DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, * INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO * EVENT SHALL KEITH PACKARD BE LIABLE FOR ANY SPECIAL, INDIRECT OR * CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, * DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER * TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include "xftint.h" _X_HIDDEN FT_Library _XftFTlibrary; #define FT_Matrix_Equal(a,b) ((a)->xx == (b)->xx && \ (a)->yy == (b)->yy && \ (a)->xy == (b)->xy && \ (a)->yx == (b)->yx) /* * List of all open files (each face in a file is managed separately) */ static XftFtFile *_XftFtFiles; static int XftMaxFreeTypeFiles = 5; static XftFtFile * _XftGetFile (const FcChar8 *file, int id) { XftFtFile *f; if (!XftInitFtLibrary ()) return NULL; for (f = _XftFtFiles; f; f = f->next) { if (!strcmp (f->file, (const char *) file) && f->id == id) { ++f->ref; if (XftDebug () & XFT_DBG_REF) printf ("FontFile %s/%d matches existing (%d)\n", file, id, f->ref); return f; } } f = malloc (sizeof (XftFtFile) + strlen ((const char *) file) + 1); if (!f) return NULL; XftMemAlloc (XFT_MEM_FILE, sizeof (XftFtFile) + strlen ((const char *) file) + 1); if (XftDebug () & XFT_DBG_REF) printf ("FontFile %s/%d matches new\n", file, id); f->next = _XftFtFiles; _XftFtFiles = f; f->ref = 1; f->file = (char *) (f+1); strcpy (f->file, (const char *) file); f->id = id; f->lock = 0; f->face = NULL; f->xsize = 0; f->ysize = 0; f->matrix.xx = f->matrix.xy = f->matrix.yx = f->matrix.yy = 0; return f; } static XftFtFile * _XftGetFaceFile (FT_Face face) { XftFtFile *f; f = malloc (sizeof (XftFtFile)); if (!f) return NULL; XftMemAlloc (XFT_MEM_FILE, sizeof (XftFtFile)); f->next = NULL; f->ref = 1; f->file = NULL; f->id = 0; f->lock = 0; f->face = face; f->xsize = 0; f->ysize = 0; f->matrix.xx = f->matrix.xy = f->matrix.yx = f->matrix.yy = 0; return f; } static int _XftNumFiles (void) { XftFtFile *f; int count = 0; for (f = _XftFtFiles; f; f = f->next) if (f->face && !f->lock) ++count; return count; } static XftFtFile * _XftNthFile (int n) { XftFtFile *f; int count = 0; for (f = _XftFtFiles; f; f = f->next) if (f->face && !f->lock) if (count++ == n) break; return f; } static void _XftUncacheFiles (void) { int n; XftFtFile *f; while ((n = _XftNumFiles ()) > XftMaxFreeTypeFiles) { f = _XftNthFile (rand () % n); if (f) { if (XftDebug() & XFT_DBG_REF) printf ("Discard file %s/%d from cache\n", f->file, f->id); FT_Done_Face (f->face); f->face = NULL; } } } static FT_Face _XftLockFile (XftFtFile *f) { ++f->lock; if (!f->face) { if (XftDebug() & XFT_DBG_REF) printf ("Loading file %s/%d\n", f->file, f->id); if (FT_New_Face (_XftFTlibrary, f->file, f->id, &f->face)) --f->lock; f->xsize = 0; f->ysize = 0; f->matrix.xx = f->matrix.xy = f->matrix.yx = f->matrix.yy = 0; _XftUncacheFiles (); } return f->face; } static void _XftLockError (const char *reason) { fprintf (stderr, "Xft: locking error %s\n", reason); } static void _XftUnlockFile (XftFtFile *f) { if (--f->lock < 0) _XftLockError ("too many file unlocks"); } #define X_SIZE(face,i) ((face)->available_sizes[i].x_ppem) #define Y_SIZE(face,i) ((face)->available_sizes[i].y_ppem) _X_HIDDEN FcBool _XftSetFace (XftFtFile *f, FT_F26Dot6 xsize, FT_F26Dot6 ysize, FT_Matrix *matrix) { FT_Face face = f->face; if (f->xsize != xsize || f->ysize != ysize) { if (XftDebug() & XFT_DBG_GLYPH) printf ("Set face size to %dx%d (%dx%d)\n", (int) (xsize >> 6), (int) (ysize >> 6), (int) xsize, (int) ysize); /* * Bitmap only faces must match exactly, so find the closest * one (height dominant search) */ if (!(face->face_flags & FT_FACE_FLAG_SCALABLE)) { int i, best = 0; #define xft_abs(a) ((a) < 0 ? -(a) : (a)) #define dist(a,b) (xft_abs((a)-(b))) for (i = 1; i < face->num_fixed_sizes; i++) { if (dist (ysize, Y_SIZE(face,i)) < dist (ysize, Y_SIZE(face, best)) || (dist (ysize, Y_SIZE(face, i)) == dist (ysize, Y_SIZE(face, best)) && dist (xsize, X_SIZE(face, i)) < dist (xsize, X_SIZE(face, best)))) { best = i; } } /* * Freetype 2.1.7 and earlier used width/height * for matching sizes in the BDF and PCF loaders. * This has been fixed for 2.1.8. Because BDF and PCF * files have but a single strike per file, we can * simply try both sizes. */ if (FT_Set_Char_Size (face, face->available_sizes[best].x_ppem, face->available_sizes[best].y_ppem, 0, 0) != 0 && FT_Set_Char_Size (face, face->available_sizes[best].width << 6, face->available_sizes[best].height << 6, 0, 0) != 0) { return False; } } else { if (FT_Set_Char_Size (face, xsize, ysize, 0, 0)) { return False; } } f->xsize = xsize; f->ysize = ysize; } if (!FT_Matrix_Equal (&f->matrix, matrix)) { if (XftDebug() & XFT_DBG_GLYPH) printf ("Set face matrix to (%g,%g,%g,%g)\n", (double) matrix->xx / 0x10000, (double) matrix->xy / 0x10000, (double) matrix->yx / 0x10000, (double) matrix->yy / 0x10000); FT_Set_Transform (face, matrix, NULL); f->matrix = *matrix; } return True; } static void _XftReleaseFile (XftFtFile *f) { XftFtFile **prev; if (--f->ref != 0) return; if (f->lock) _XftLockError ("Attempt to close locked file"); if (f->file) { for (prev = &_XftFtFiles; *prev; prev = &(*prev)->next) { if (*prev == f) { *prev = f->next; break; } } if (f->face) FT_Done_Face (f->face); } XftMemFree (XFT_MEM_FILE, (sizeof (XftFtFile) + (f->file ? strlen (f->file) + 1 : 0))); free (f); } /* * Find a prime larger than the minimum reasonable hash size */ static FcChar32 _XftSqrt (FcChar32 a) { FcChar32 l, h, m; l = 2; h = a/2; while ((h-l) > 1) { m = (h+l) >> 1; if (m * m < a) l = m; else h = m; } return h; } static FcBool _XftIsPrime (FcChar32 i) { FcChar32 l, t; if (i < 2) return FcFalse; if ((i & 1) == 0) { if (i == 2) return FcTrue; return FcFalse; } l = _XftSqrt (i) + 1; for (t = 3; t <= l; t += 2) if (i % t == 0) return FcFalse; return FcTrue; } static FcChar32 _XftHashSize (FcChar32 num_unicode) { /* at least 31.25 % extra space */ FcChar32 hash = num_unicode + (num_unicode >> 2) + (num_unicode >> 4); if ((hash & 1) == 0) hash++; while (!_XftIsPrime (hash)) hash += 2; return hash; } _X_EXPORT FT_Face XftLockFace (XftFont *public) { XftFontInt *font = (XftFontInt *) public; XftFontInfo *fi = &font->info; FT_Face face; face = _XftLockFile (fi->file); /* * Make sure the face is usable at the requested size */ if (face && !_XftSetFace (fi->file, fi->xsize, fi->ysize, &fi->matrix)) { _XftUnlockFile (fi->file); face = NULL; } return face; } _X_EXPORT void XftUnlockFace (XftFont *public) { XftFontInt *font = (XftFontInt *) public; _XftUnlockFile (font->info.file); } static FcBool XftFontInfoFill (Display *dpy, _Xconst FcPattern *pattern, XftFontInfo *fi) { XftDisplayInfo *info = _XftDisplayInfoGet (dpy, True); FcChar8 *filename; int id; double dsize; double aspect; FcMatrix *font_matrix; FcBool hinting, vertical_layout, autohint, global_advance; int hint_style; FcChar32 hash, *hashp; FT_Face face; int nhash; FcBool bitmap; if (!info) return FcFalse; /* * Initialize the whole XftFontInfo so that padding doesn't interfere with * hash or XftFontInfoEqual(). */ memset (fi, '\0', sizeof (*fi)); /* * Find the associated file */ switch (FcPatternGetString (pattern, FC_FILE, 0, &filename)) { case FcResultNoMatch: filename = NULL; break; case FcResultMatch: break; default: goto bail0; } switch (FcPatternGetInteger (pattern, FC_INDEX, 0, &id)) { case FcResultNoMatch: id = 0; break; case FcResultMatch: break; default: goto bail0; } if (filename) fi->file = _XftGetFile (filename, id); else if (FcPatternGetFTFace (pattern, FC_FT_FACE, 0, &face) == FcResultMatch && face) fi->file = _XftGetFaceFile (face); if (!fi->file) goto bail0; /* * Compute pixel size */ if (FcPatternGetDouble (pattern, FC_PIXEL_SIZE, 0, &dsize) != FcResultMatch) goto bail1; if (FcPatternGetDouble (pattern, FC_ASPECT, 0, &aspect) != FcResultMatch) aspect = 1.0; fi->ysize = (FT_F26Dot6) (dsize * 64.0); fi->xsize = (FT_F26Dot6) (dsize * aspect * 64.0); if (XftDebug() & XFT_DBG_OPEN) printf ("XftFontInfoFill: %s: %d (%g pixels)\n", (filename ? filename : (const FcChar8 *) ""), id, dsize); /* * Get antialias value */ switch (FcPatternGetBool (pattern, FC_ANTIALIAS, 0, &fi->antialias)) { case FcResultNoMatch: fi->antialias = True; break; case FcResultMatch: break; default: goto bail1; } /* * Get rgba value */ switch (FcPatternGetInteger (pattern, FC_RGBA, 0, &fi->rgba)) { case FcResultNoMatch: fi->rgba = FC_RGBA_UNKNOWN; break; case FcResultMatch: break; default: goto bail1; } /* * Get lcd_filter value */ switch (FcPatternGetInteger (pattern, FC_LCD_FILTER, 0, &fi->lcd_filter)) { case FcResultNoMatch: fi->lcd_filter = FC_LCD_DEFAULT; break; case FcResultMatch: break; default: goto bail1; } /* * Get matrix and transform values */ switch (FcPatternGetMatrix (pattern, FC_MATRIX, 0, &font_matrix)) { case FcResultNoMatch: fi->matrix.xx = fi->matrix.yy = 0x10000; fi->matrix.xy = fi->matrix.yx = 0; break; case FcResultMatch: fi->matrix.xx = (FT_Fixed)(0x10000L * font_matrix->xx); fi->matrix.yy = (FT_Fixed)(0x10000L * font_matrix->yy); fi->matrix.xy = (FT_Fixed)(0x10000L * font_matrix->xy); fi->matrix.yx = (FT_Fixed)(0x10000L * font_matrix->yx); break; default: goto bail1; } fi->transform = (fi->matrix.xx != 0x10000 || fi->matrix.xy != 0 || fi->matrix.yx != 0 || fi->matrix.yy != 0x10000); /* * Get render value, set to false if no Render extension present */ if (info->hasRender) { switch (FcPatternGetBool (pattern, XFT_RENDER, 0, &fi->render)) { case FcResultTypeMismatch: /* * Fontconfig no longer supports xft's custom values in * text patterns, so any name specifying render:true or * render:false will have an invalid type in the resulting * pattern. Just ignore that case so that the app doesn't * just fail */ /* fall through ... */ case FcResultNoMatch: fi->render = info->hasRender; break; case FcResultMatch: break; default: goto bail1; } } else fi->render = FcFalse; /* * Compute glyph load flags */ fi->load_flags = FT_LOAD_DEFAULT; #ifndef XFT_EMBEDDED_BITMAP #define XFT_EMBEDDED_BITMAP "embeddedbitmap" #endif switch (FcPatternGetBool (pattern, XFT_EMBEDDED_BITMAP, 0, &bitmap)) { case FcResultNoMatch: bitmap = FcFalse; break; case FcResultMatch: break; default: goto bail1; } /* disable bitmaps when anti-aliasing or transforming glyphs */ if ((!bitmap && fi->antialias) || fi->transform) fi->load_flags |= FT_LOAD_NO_BITMAP; /* disable hinting if requested */ switch (FcPatternGetBool (pattern, FC_HINTING, 0, &hinting)) { case FcResultNoMatch: hinting = FcTrue; break; case FcResultMatch: break; default: goto bail1; } switch (FcPatternGetBool (pattern, FC_EMBOLDEN, 0, &fi->embolden)) { case FcResultNoMatch: fi->embolden = FcFalse; break; case FcResultMatch: break; default: goto bail1; } switch (FcPatternGetInteger (pattern, FC_HINT_STYLE, 0, &hint_style)) { case FcResultNoMatch: hint_style = FC_HINT_FULL; break; case FcResultMatch: break; default: goto bail1; } if (!hinting || hint_style == FC_HINT_NONE ) { fi->load_flags |= FT_LOAD_NO_HINTING; } /* Figure out the load target, which modifies the hinting * behavior of FreeType based on the intended use of the glyphs. */ if (fi->antialias) { if (FC_HINT_NONE < hint_style && hint_style < FC_HINT_FULL) { fi->load_flags |= FT_LOAD_TARGET_LIGHT; } else { /* autohinter will snap stems to integer widths, when * the LCD targets are used. */ switch (fi->rgba) { case FC_RGBA_RGB: case FC_RGBA_BGR: fi->load_flags |= FT_LOAD_TARGET_LCD; break; case FC_RGBA_VRGB: case FC_RGBA_VBGR: fi->load_flags |= FT_LOAD_TARGET_LCD_V; break; } } } else fi->load_flags |= FT_LOAD_TARGET_MONO; /* set vertical layout if requested */ switch (FcPatternGetBool (pattern, FC_VERTICAL_LAYOUT, 0, &vertical_layout)) { case FcResultNoMatch: vertical_layout = FcFalse; break; case FcResultMatch: break; default: goto bail1; } if (vertical_layout) fi->load_flags |= FT_LOAD_VERTICAL_LAYOUT; /* force autohinting if requested */ switch (FcPatternGetBool (pattern, FC_AUTOHINT, 0, &autohint)) { case FcResultNoMatch: autohint = FcFalse; break; case FcResultMatch: break; default: goto bail1; } if (autohint) fi->load_flags |= FT_LOAD_FORCE_AUTOHINT; /* disable global advance width (for broken DynaLab TT CJK fonts) */ switch (FcPatternGetBool (pattern, FC_GLOBAL_ADVANCE, 0, &global_advance)) { case FcResultNoMatch: global_advance = FcTrue; break; case FcResultMatch: break; default: goto bail1; } if (!global_advance) fi->load_flags |= FT_LOAD_IGNORE_GLOBAL_ADVANCE_WIDTH; /* * Get requested spacing value */ switch (FcPatternGetInteger (pattern, FC_SPACING, 0, &fi->spacing)) { case FcResultNoMatch: fi->spacing = FC_PROPORTIONAL; break; case FcResultMatch: break; default: goto bail1; } /* * Check for minspace */ switch (FcPatternGetBool (pattern, FC_MINSPACE, 0, &fi->minspace)) { case FcResultNoMatch: fi->minspace = FcFalse; break; case FcResultMatch: break; default: goto bail1; } /* * Check for fixed pixel spacing */ switch (FcPatternGetInteger (pattern, FC_CHAR_WIDTH, 0, &fi->char_width)) { case FcResultNoMatch: fi->char_width = 0; break; case FcResultMatch: if (fi->char_width) fi->spacing = FC_MONO; break; default: goto bail1; } /* * Step over hash value in the structure */ hash = 0; hashp = (FcChar32 *) fi + 1; nhash = (sizeof (XftFontInfo) / sizeof (FcChar32)) - 1; while (nhash--) hash += *hashp++; fi->hash = hash; /* * All done */ return FcTrue; bail1: _XftReleaseFile (fi->file); fi->file = NULL; bail0: return FcFalse; } static void XftFontInfoEmpty (Display *dpy _X_UNUSED, XftFontInfo *fi) { if (fi->file) _XftReleaseFile (fi->file); } XftFontInfo * XftFontInfoCreate (Display *dpy, _Xconst FcPattern *pattern) { XftFontInfo *fi = malloc (sizeof (XftFontInfo)); if (!fi) return NULL; if (!XftFontInfoFill (dpy, pattern, fi)) { free (fi); fi = NULL; } XftMemAlloc (XFT_MEM_FONT, sizeof (XftFontInfo)); return fi; } _X_EXPORT void XftFontInfoDestroy (Display *dpy, XftFontInfo *fi) { XftFontInfoEmpty (dpy, fi); XftMemFree (XFT_MEM_FONT, sizeof (XftFontInfo)); free (fi); } _X_EXPORT FcChar32 XftFontInfoHash (_Xconst XftFontInfo *fi) { return fi->hash; } _X_EXPORT FcBool XftFontInfoEqual (_Xconst XftFontInfo *a, _Xconst XftFontInfo *b) { return memcmp ((const void *) a, (const void *) b, sizeof (XftFontInfo)) == 0; } _X_EXPORT XftFont * XftFontOpenInfo (Display *dpy, FcPattern *pattern, XftFontInfo *fi) { XftDisplayInfo *info = _XftDisplayInfoGet (dpy, True); FT_Face face; XftFont **bucket; XftFontInt *font; XRenderPictFormat *format; FcCharSet *charset; FcChar32 num_unicode; FcChar32 hash_value; FcChar32 rehash_value; FcBool antialias; int max_glyph_memory; size_t alloc_size; int ascent, descent, height; int i; FT_UInt num_glyphs; if (!info) return NULL; /* * Find a matching previously opened font */ bucket = &info->fontHash[fi->hash % XFT_NUM_FONT_HASH]; for (font = (XftFontInt *) *bucket; font; font = (XftFontInt *) font->hash_next) if (XftFontInfoEqual (&font->info, fi)) { if (!font->ref++) --info->num_unref_fonts; FcPatternDestroy (pattern); return &font->public; } /* * No existing font, create another. */ if (XftDebug () & XFT_DBG_CACHE) printf ("New font %s/%d size %dx%d\n", fi->file->file, fi->file->id, (int) fi->xsize >> 6, (int) fi->ysize >> 6); if (FcPatternGetInteger (pattern, XFT_MAX_GLYPH_MEMORY, 0, &max_glyph_memory) != FcResultMatch) max_glyph_memory = XFT_FONT_MAX_GLYPH_MEMORY; face = _XftLockFile (fi->file); if (!face) goto bail0; if (!_XftSetFace (fi->file, fi->xsize, fi->ysize, &fi->matrix)) goto bail1; /* * Get the set of Unicode codepoints covered by the font. * If the incoming pattern doesn't provide this data, go * off and compute it. Yes, this is expensive, but it's * required to map Unicode to glyph indices. */ if (FcPatternGetCharSet (pattern, FC_CHARSET, 0, &charset) == FcResultMatch) charset = FcCharSetCopy (charset); else charset = FcFreeTypeCharSet (face, FcConfigGetBlanks (NULL)); antialias = fi->antialias; if (!(face->face_flags & FT_FACE_FLAG_SCALABLE)) antialias = FcFalse; /* * Find the appropriate picture format */ if (fi->render) { if (antialias) { switch (fi->rgba) { case FC_RGBA_RGB: case FC_RGBA_BGR: case FC_RGBA_VRGB: case FC_RGBA_VBGR: format = XRenderFindStandardFormat (dpy, PictStandardARGB32); break; default: format = XRenderFindStandardFormat (dpy, PictStandardA8); break; } } else { format = XRenderFindStandardFormat (dpy, PictStandardA1); } if (!format) goto bail2; } else format = NULL; if (charset) { num_unicode = FcCharSetCount (charset); hash_value = _XftHashSize (num_unicode); rehash_value = hash_value - 2; } else { num_unicode = 0; hash_value = 0; rehash_value = 0; } /* * Sometimes the glyphs are numbered 1..n, other times 0..n-1, * accept either numbering scheme by making room in the table */ num_glyphs = (FT_UInt)face->num_glyphs + 1; alloc_size = (sizeof (XftFontInt) + (size_t)num_glyphs * sizeof (XftGlyph *) + hash_value * sizeof (XftUcsHash)); font = malloc (alloc_size); if (!font) goto bail2; XftMemAlloc (XFT_MEM_FONT, alloc_size); /* * Public fields */ if (fi->transform) { FT_Vector vector; vector.x = 0; vector.y = face->size->metrics.descender; FT_Vector_Transform (&vector, &fi->matrix); descent = (int)(-(vector.y >> 6)); vector.x = 0; vector.y = face->size->metrics.ascender; FT_Vector_Transform (&vector, &fi->matrix); ascent = (int)(vector.y >> 6); if (fi->minspace) height = ascent + descent; else { vector.x = 0; vector.y = face->size->metrics.height; FT_Vector_Transform (&vector, &fi->matrix); height = (int)(vector.y >> 6); } } else { descent = -(int)(face->size->metrics.descender >> 6); ascent = (int)(face->size->metrics.ascender >> 6); if (fi->minspace) height = ascent + descent; else height = (int)(face->size->metrics.height >> 6); } font->public.ascent = ascent; font->public.descent = descent; font->public.height = height; if (fi->char_width) font->public.max_advance_width = fi->char_width; else { if (fi->transform) { FT_Vector vector; vector.x = face->size->metrics.max_advance; vector.y = 0; FT_Vector_Transform (&vector, &fi->matrix); font->public.max_advance_width = (int)(vector.x >> 6); } else font->public.max_advance_width = (int)(face->size->metrics.max_advance >> 6); } font->public.charset = charset; font->public.pattern = pattern; /* * Management fields */ font->ref = 1; font->next = info->fonts; info->fonts = &font->public; font->hash_next = *bucket; *bucket = &font->public; /* * Copy the info over */ font->info = *fi; /* * reset the antialias field. It can't * be set correctly until the font is opened, * which doesn't happen in XftFontInfoFill */ font->info.antialias = antialias; /* * bump XftFile reference count */ font->info.file->ref++; /* * Per glyph information */ font->glyphs = (XftGlyph **) (font + 1); memset (font->glyphs, '\0', (size_t)num_glyphs * sizeof (XftGlyph *)); font->num_glyphs = num_glyphs; /* * Memory-usage tracking */ font->newest = FT_UINT_MAX; font->total_inuse = 0; /* * Unicode hash table information */ font->hash_table = (XftUcsHash *) (font->glyphs + font->num_glyphs); for (i = 0; (FcChar32) i < hash_value; i++) { font->hash_table[i].ucs4 = ((FcChar32) ~0); font->hash_table[i].glyph = 0; } font->hash_value = (int)hash_value; font->rehash_value = (int)rehash_value; /* * X specific fields */ font->glyphset = 0; font->format = format; /* * Glyph memory management fields */ font->glyph_memory = 0; font->max_glyph_memory = (unsigned long)max_glyph_memory; font->track_mem_usage = info->track_mem_usage; font->use_free_glyphs = info->use_free_glyphs; font->sizeof_glyph = (font->track_mem_usage ? sizeof(XftGlyphUsage) : sizeof(XftGlyph)); _XftUnlockFile (fi->file); return &font->public; bail2: FcCharSetDestroy (charset); bail1: _XftUnlockFile (fi->file); bail0: return NULL; } _X_EXPORT XftFont * XftFontOpenPattern (Display *dpy, FcPattern *pattern) { XftFontInfo info; XftFont *font; if (!XftFontInfoFill (dpy, pattern, &info)) return NULL; font = XftFontOpenInfo (dpy, pattern, &info); XftFontInfoEmpty (dpy, &info); return font; } _X_EXPORT XftFont * XftFontCopy (Display *dpy _X_UNUSED, XftFont *public) { XftFontInt *font = (XftFontInt *) public; font->ref++; return public; } static void XftFontDestroy (Display *dpy, XftFont *public) { XftDisplayInfo *info = _XftDisplayInfoGet (dpy, False); XftFontInt *font = (XftFontInt *) public; FT_UInt i; /* note reduction in memory use */ if (info) info->glyph_memory -= font->glyph_memory; /* Clean up the info */ XftFontInfoEmpty (dpy, &font->info); /* Free the glyphset */ if (font->glyphset) XRenderFreeGlyphSet (dpy, font->glyphset); /* Free the glyphs */ for (i = 0; i < font->num_glyphs; i++) { XftGlyph *xftg = font->glyphs[i]; if (xftg) { if (xftg->bitmap) free (xftg->bitmap); free (xftg); } } /* Free the pattern and the charset */ FcPatternDestroy (font->public.pattern); FcCharSetDestroy (font->public.charset); /* Finally, free the font structure */ XftMemFree (XFT_MEM_FONT, (sizeof (XftFontInt) + (size_t)font->num_glyphs * sizeof (XftGlyph *) + (size_t)font->hash_value * sizeof (XftUcsHash))); free (font); } static XftFont * XftFontFindNthUnref (XftDisplayInfo *info, int n) { XftFont *public; XftFontInt *font; for (public = info->fonts; public; public = font->next) { font = (XftFontInt*) public; if (!font->ref && !n--) break; } return public; } _X_HIDDEN void XftFontManageMemory (Display *dpy) { XftDisplayInfo *info = _XftDisplayInfoGet (dpy, False); XftFont **prev; XftFont *public; XftFontInt *font; if (!info) return; while (info->num_unref_fonts > info->max_unref_fonts) { public = XftFontFindNthUnref (info, rand() % info->num_unref_fonts); font = (XftFontInt *) public; if (XftDebug () & XFT_DBG_CACHE) printf ("freeing unreferenced font %s/%d size %dx%d\n", font->info.file->file, font->info.file->id, (int) font->info.xsize >> 6, (int) font->info.ysize >> 6); /* Unhook from display list */ for (prev = &info->fonts; *prev; prev = &(*(XftFontInt **) prev)->next) { if (*prev == public) { *prev = font->next; break; } } /* Unhook from hash list */ for (prev = &info->fontHash[font->info.hash % XFT_NUM_FONT_HASH]; *prev; prev = &(*(XftFontInt **) prev)->hash_next) { if (*prev == public) { *prev = font->hash_next; break; } } /* Destroy the font */ XftFontDestroy (dpy, public); --info->num_unref_fonts; } } _X_EXPORT void XftFontClose (Display *dpy, XftFont *public) { XftDisplayInfo *info = _XftDisplayInfoGet (dpy, False); XftFontInt *font = (XftFontInt *) public; if (--font->ref != 0) return; if (info) { ++info->num_unref_fonts; XftFontManageMemory (dpy); } else { XftFontDestroy (dpy, public); } } _X_EXPORT FcBool XftInitFtLibrary (void) { if (_XftFTlibrary) return FcTrue; if (FT_Init_FreeType (&_XftFTlibrary)) return FcFalse; return FcTrue; }