#include "fitz_base.h" #include "fitz_tree.h" #include "fitz_draw.h" /* for type3 font rendering */ #include #include FT_FREETYPE_H static fz_font * fz_newfont(void) { fz_font *font; font = fz_malloc(sizeof(fz_font)); if (!font) return nil; font->refs = 1; strcpy(font->name, ""); font->ftface = nil; font->ftsubstitute = 0; font->fthint = 0; font->t3matrix = fz_identity(); font->t3procs = nil; font->bbox.x0 = 0; font->bbox.y0 = 0; font->bbox.x1 = 1000; font->bbox.y1 = 1000; return font; } fz_font * fz_keepfont(fz_font *font) { font->refs ++; return font; } void fz_dropfont(fz_font *font) { int i; if (font && --font->refs == 0) { if (font->t3procs) { for (i = 0; i < 256; i++) if (font->t3procs[i]) fz_droptree(font->t3procs[i]); fz_free(font->t3procs); } if (font->ftface) { FT_Done_Face((FT_Face)font->ftface); } fz_free(font); } } void fz_setfontbbox(fz_font *font, int xmin, int ymin, int xmax, int ymax) { font->bbox.x0 = xmin; font->bbox.y0 = ymin; font->bbox.x1 = xmax; font->bbox.y1 = ymax; } /* * Freetype hooks */ static FT_Library fz_ftlib = nil; #undef __FTERRORS_H__ #define FT_ERRORDEF(e, v, s) { (e), (s) }, #define FT_ERROR_START_LIST #define FT_ERROR_END_LIST { 0, NULL } struct ft_error { int err; char *str; }; const struct ft_error ft_errors[] = { #include FT_ERRORS_H }; char *ft_errorstring(int err) { const struct ft_error *e; for (e = ft_errors; e->str != NULL; e++) if (e->err == err) return e->str; return "Unknown error"; } static fz_error * fz_initfreetype(void) { int code; int maj, min, pat; if (fz_ftlib) return fz_okay; code = FT_Init_FreeType(&fz_ftlib); if (code) return fz_throw("cannot init freetype: %s", ft_errorstring(code)); FT_Library_Version(fz_ftlib, &maj, &min, &pat); if (maj == 2 && min == 1 && pat < 7) return fz_throw("freetype version too old: %d.%d.%d", maj, min, pat); return fz_okay; } fz_error * fz_newfontfromfile(fz_font **fontp, char *path, int index) { fz_error *error; fz_font *font; int code; error = fz_initfreetype(); if (error) return fz_rethrow(error, "cannot init freetype library"); font = fz_newfont(); if (!font) return fz_throw("outofmem: font struct"); code = FT_New_Face(fz_ftlib, path, index, (FT_Face*)&font->ftface); if (code) { fz_free(font); return fz_throw("freetype: cannot load font: %s", ft_errorstring(code)); } *fontp = font; return fz_okay; } fz_error * fz_newfontfrombuffer(fz_font **fontp, unsigned char *data, int len, int index) { fz_error *error; fz_font *font; int code; error = fz_initfreetype(); if (error) return fz_rethrow(error, "cannot init freetype library"); font = fz_newfont(); if (!font) return fz_throw("outofmem: font struct"); code = FT_New_Memory_Face(fz_ftlib, data, len, index, (FT_Face*)&font->ftface); if (code) { fz_free(font); return fz_throw("freetype: cannot load font: %s", ft_errorstring(code)); } *fontp = font; return fz_okay; } fz_error * fz_renderftglyph(fz_glyph *glyph, fz_font *font, int gid, fz_matrix trm) { FT_Face face = font->ftface; FT_Matrix m; FT_Vector v; FT_Error fterr; int x, y; #if 0 /* We lost this feature in refactoring. * We can't access pdf_fontdesc metrics from fz_font. * The pdf_fontdesc metrics are character based (cid), * where the glyph being rendered is given by glyph (gid). */ if (font->ftsubstitute && font->wmode == 0) { fz_hmtx subw; int realw; float scale; FT_Set_Char_Size(face, 1000, 1000, 72, 72); fterr = FT_Load_Glyph(font->ftface, gid, FT_LOAD_NO_HINTING | FT_LOAD_NO_BITMAP | FT_LOAD_IGNORE_TRANSFORM); if (fterr) return fz_throw("freetype failed to load glyph: %s", ft_errorstring(fterr)); realw = ((FT_Face)font->ftface)->glyph->advance.x; subw = fz_gethmtx(font, cid); // <-- this is the offender if (realw) scale = (float) subw.w / realw; else scale = 1.0; trm = fz_concat(fz_scale(scale, 1.0), trm); } #endif glyph->w = 0; glyph->h = 0; glyph->x = 0; glyph->y = 0; glyph->samples = nil; /* freetype mutilates complex glyphs if they are loaded * with FT_Set_Char_Size 1.0. it rounds the coordinates * before applying transformation. to get more precision in * freetype, we shift part of the scale in the matrix * into FT_Set_Char_Size instead */ m.xx = trm.a * 64; /* should be 65536 */ m.yx = trm.b * 64; m.xy = trm.c * 64; m.yy = trm.d * 64; v.x = trm.e * 64; v.y = trm.f * 64; FT_Set_Char_Size(face, 65536, 65536, 72, 72); /* should be 64, 64 */ FT_Set_Transform(face, &m, &v); if (font->fthint) { /* Enable hinting, but keep the huge char size so that * it is hinted for a character. This will in effect nullify * the effect of grid fitting. This form of hinting should * only be used for DynaLab and similar tricky TrueType fonts, * so that we get the correct outline shape. */ #ifdef USE_HINTING /* If you really want grid fitting, enable this code. */ float scale = fz_matrixexpansion(trm); m.xx = trm.a * 65536 / scale; m.xy = trm.b * 65536 / scale; m.yx = trm.c * 65536 / scale; m.yy = trm.d * 65536 / scale; v.x = 0; v.y = 0; FT_Set_Char_Size(face, 64 * scale, 64 * scale, 72, 72); FT_Set_Transform(face, &m, &v); #endif fterr = FT_Load_Glyph(face, gid, FT_LOAD_NO_BITMAP); if (fterr) fz_warn("freetype load glyph (gid %d): %s", gid, ft_errorstring(fterr)); } else { fterr = FT_Load_Glyph(face, gid, FT_LOAD_NO_BITMAP | FT_LOAD_NO_HINTING); if (fterr) fz_warn("freetype load glyph (gid %d): %s", gid, ft_errorstring(fterr)); } fterr = FT_Render_Glyph(face->glyph, ft_render_mode_normal); if (fterr) fz_warn("freetype render glyph (gid %d): %s", gid, ft_errorstring(fterr)); glyph->w = face->glyph->bitmap.width; glyph->h = face->glyph->bitmap.rows; glyph->x = face->glyph->bitmap_left; glyph->y = face->glyph->bitmap_top - glyph->h; glyph->samples = face->glyph->bitmap.buffer; for (y = 0; y < glyph->h / 2; y++) { for (x = 0; x < glyph->w; x++) { unsigned char a = glyph->samples[y * glyph->w + x ]; unsigned char b = glyph->samples[(glyph->h - y - 1) * glyph->w + x]; glyph->samples[y * glyph->w + x ] = b; glyph->samples[(glyph->h - y - 1) * glyph->w + x] = a; } } return fz_okay; } /* * Type 3 fonts... */ fz_error * fz_newtype3font(fz_font **fontp, char *name, fz_matrix matrix) { fz_font *font; int i; font = fz_newfont(); if (!font) return fz_throw("outofmem: font struct"); font->t3procs = fz_malloc(sizeof(fz_tree*) * 256); if (!font->t3procs) { fz_free(font); return fz_throw("outofmem: type3 font charproc array"); } font->t3matrix = matrix; for (i = 0; i < 256; i++) font->t3procs[i] = nil; strlcpy(font->name, name, sizeof(font->name)); *fontp = font; return fz_okay; } fz_error * fz_rendert3glyph(fz_glyph *glyph, fz_font *font, int gid, fz_matrix trm) { fz_error *error; fz_renderer *gc; fz_tree *tree; fz_matrix ctm; fz_irect bbox; /* TODO: make it reentrant */ static fz_pixmap *pixmap = nil; if (pixmap) { fz_droppixmap(pixmap); pixmap = nil; } if (gid < 0 || gid > 255) return fz_throw("assert: glyph out of range"); tree = font->t3procs[gid]; if (!tree) { glyph->w = 0; glyph->h = 0; return fz_okay; } /* XXX UGLY HACK XXX */ extern fz_colorspace *pdf_devicegray; ctm = fz_concat(font->t3matrix, trm); bbox = fz_roundrect(fz_boundtree(tree, ctm)); error = fz_newrenderer(&gc, pdf_devicegray, 1, 4096); if (error) return fz_rethrow(error, "cannot create renderer"); error = fz_rendertree(&pixmap, gc, tree, ctm, bbox, 0); fz_droprenderer(gc); if (error) return fz_rethrow(error, "cannot render glyph"); assert(pixmap->n == 1); glyph->x = pixmap->x; glyph->y = pixmap->y; glyph->w = pixmap->w; glyph->h = pixmap->h; glyph->samples = pixmap->samples; return fz_okay; } void fz_debugfont(fz_font *font) { printf("font '%s' {\n", font->name); if (font->ftface) { printf(" freetype face %p\n", font->ftface); if (font->ftsubstitute) printf(" substitute font\n"); } if (font->t3procs) { printf(" type3 matrix [%g %g %g %g]\n", font->t3matrix.a, font->t3matrix.b, font->t3matrix.c, font->t3matrix.d); } printf(" bbox [%d %d %d %d]\n", font->bbox.x0, font->bbox.y0, font->bbox.x1, font->bbox.y1); printf("}\n"); }