X-Git-Url: http://git.tdb.fi/?a=blobdiff_plain;f=ttf2png.c;h=ebc0ccce76f43fee0e93b3c43d756bc129a900bc;hb=9d1111afe554231e89dcaa574234ecd1813526a4;hp=b61d51d6ac31702de6259438516b6ea33c3868cc;hpb=8c890869ac0dc6aa6714b3276519f1703fbfb66e;p=ttf2png.git diff --git a/ttf2png.c b/ttf2png.c index b61d51d..ebc0ccc 100644 --- a/ttf2png.c +++ b/ttf2png.c @@ -33,6 +33,7 @@ typedef struct sImage typedef struct sGlyph { + unsigned index; unsigned code; Image image; unsigned x, y; @@ -41,6 +42,13 @@ typedef struct sGlyph int advance; } Glyph; +typedef struct sKerning +{ + unsigned left_code; + unsigned right_code; + int distance; +} Kerning; + typedef struct sFont { unsigned size; @@ -48,6 +56,8 @@ typedef struct sFont int descent; unsigned n_glyphs; Glyph *glyphs; + unsigned n_kerning; + Kerning *kerning; Image image; } Font; @@ -73,6 +83,7 @@ int main(int argc, char **argv) char autohinter = 0; char seq = 0; char alpha = 0; + char invert = 0; char pack = 0; FT_Library freetype; @@ -92,7 +103,7 @@ int main(int argc, char **argv) return 1; } - while((i = getopt(argc, argv, "r:s:l:c:o:atvh?ed:p")) != -1) + while((i = getopt(argc, argv, "r:s:l:c:o:atvh?ed:pi")) != -1) { char *ptr; int temp; @@ -175,6 +186,9 @@ int main(int argc, char **argv) case 'p': pack = 1; break; + case 'i': + invert = 1; + break; } } if(!strcmp(out_fn, "-")) @@ -224,11 +238,16 @@ int main(int argc, char **argv) render_packed(&font); else render_grid(&font, cellw, cellh, cpl, seq); + if(invert) + { + for(i=0; (unsigned)i\n\n" - "Accepted options (default values in [brackets])\n" - " -r Range of characters to convert in the format low,high [0,255]\n" + "Distributed under the GNU General Public License\n\n"); + + printf("Usage: ttf2png [options] \n\n"); + + printf("Accepted options (default values in [brackets])\n" + " -r Range of characters to convert [0,255]\n" " -s Font size to use, in pixels [10]\n" " -l Number of characters to put in one line [auto]\n" " -c Character cell size, in pixels [auto]\n" - " -o Output file name (or - for stdout) [font.png]\n" - " -a Force autohinter\n" - " -t Render font to alpha channel\n" + " -o Output file name (or - for stdout) [font.png]\n"); + printf(" -a Force autohinter\n" + " -t Render glyphs to alpha channel\n" + " -i Invert colors of the glyphs\n" " -v Increase the level of verbosity\n" - " -e Use cells in sequence, rather than by code\n" + " -e Use cells in sequence, without gaps\n" " -p Pack the glyphs tightly instead of in a grid\n" - " -d Write a definition to the given file\n" + " -d File name for writing glyph definitions\n" " -h Print this message\n"); } void init_font(Font *font, FT_Face face, unsigned first, unsigned last, int autohinter) { - unsigned i; + unsigned i, j; unsigned size = 0; font->ascent = (face->size->metrics.ascender+63)>>6; @@ -321,6 +343,7 @@ void init_font(Font *font, FT_Face face, unsigned first, unsigned last, int auto } glyph = &font->glyphs[font->n_glyphs++]; + glyph->index = n; glyph->code = i; glyph->image.w = bmp->width; glyph->image.h = bmp->rows; @@ -329,6 +352,9 @@ void init_font(Font *font, FT_Face face, unsigned first, unsigned last, int auto glyph->offset_y = face->glyph->bitmap_top-bmp->rows; glyph->advance = (int)(face->glyph->advance.x+32)/64; + /* Copy the glyph image since FreeType uses a global buffer, which would + be overwritten by the next glyph. Negative pitch means the scanlines + start from the bottom */ if(bmp->pitch<0) { for(y=0; yrows; ++y) for(x=0; xwidth; ++x) @@ -343,6 +369,37 @@ void init_font(Font *font, FT_Face face, unsigned first, unsigned last, int auto if(verbose>=1) printf("Loaded %u glyphs\n", font->n_glyphs); + + size = 0; + font->n_kerning = 0; + font->kerning = NULL; + for(i=0; in_glyphs; ++i) for(j=0; jn_glyphs; ++j) + if(j!=i) + { + FT_Vector kerning; + FT_Get_Kerning(face, font->glyphs[i].index, font->glyphs[j].index, FT_KERNING_DEFAULT, &kerning); + + /* FreeType documentation says that vertical kerning is practically + never used, so we ignore it. */ + if(kerning.x) + { + Kerning *kern; + + if(font->n_kerning>=size) + { + size += 16; + font->kerning = (Kerning *)realloc(font->kerning, size*sizeof(Kerning)); + } + + kern = &font->kerning[font->n_kerning++]; + kern->left_code = font->glyphs[i].code; + kern->right_code = font->glyphs[j].code; + kern->distance = kerning.x/64; + } + } + + if(verbose>=1) + printf("Loaded %d kerning pairs\n", font->n_kerning); } void render_grid(Font *font, unsigned cellw, unsigned cellh, unsigned cpl, int seq) @@ -352,14 +409,7 @@ void render_grid(Font *font, unsigned cellw, unsigned cellh, unsigned cpl, int s unsigned first, last; unsigned maxw = 0, maxh = 0; - for(i=1;; i<<=1) - { - first = font->glyphs[0].code&~(i-1); - last = first+i-1; - if(last>=font->glyphs[font->n_glyphs-1].code) - break; - } - + /* Find extremes of the glyph images. */ for(i=0; in_glyphs; ++i) { int y; @@ -377,6 +427,7 @@ void render_grid(Font *font, unsigned cellw, unsigned cellh, unsigned cpl, int s if(cellw==0) { + /* Establish a large enough cell to hold all glyphs in the range. */ int square = (cellh==cellw); cellw = maxw; cellh = top-bot; @@ -394,27 +445,29 @@ void render_grid(Font *font, unsigned cellw, unsigned cellh, unsigned cpl, int s printf("Max size: %u x %u\n", maxw, maxh); printf("Y range: [%d %d]\n", bot, top); printf("Cell size: %u x %u\n", cellw, cellh); - if(maxw>cellw || top-bot>cellh) + if(maxw>cellw || (unsigned)(top-bot)>cellh) fprintf(stderr, "Warning: character size exceeds cell size\n"); } if(cpl==0) { - unsigned count = (seq ? font->n_glyphs : last-first+1); + /* Determine number of characters per line, trying to fit all the glyphs + in a square image. */ for(i=1;; i<<=1) { cpl = i/cellw; - if(cpl>0 && (count+cpl-1)/cpl*cellh<=cpl*cellw) + if(cpl>0 && font->n_glyphs/cpl*cellh<=cpl*cellw) break; } } + first = font->glyphs[0].code; + if(!seq) + first -= first%cpl; + last = font->glyphs[font->n_glyphs-1].code; + font->image.w = round_to_pot(cpl*cellw); - if(seq && font->n_glyphsimage.h = (font->n_glyphs+cpl-1)/cpl*cellh; - else - font->image.h = (last-first+cpl)/cpl*cellh; - font->image.h = round_to_pot(font->image.h); + font->image.h = round_to_pot((last-first+cpl)/cpl*cellh); font->image.data = (char *)malloc(font->image.w*font->image.h); memset(font->image.data, 255, font->image.w*font->image.h); @@ -422,7 +475,7 @@ void render_grid(Font *font, unsigned cellw, unsigned cellh, unsigned cpl, int s for(i=0; in_glyphs; ++i) { Glyph *glyph; - int ci, cx, cy; + unsigned ci, cx, cy; unsigned x, y; glyph = &font->glyphs[i]; @@ -444,7 +497,7 @@ void render_grid(Font *font, unsigned cellw, unsigned cellh, unsigned cpl, int s for(y=0; yimage.h; ++y) for(x=0; ximage.w; ++x) { - if(cx+x<0 || cx+x>=font->image.w || cy+y<0 || cy+y>=font->image.h) + if(cx+x>=font->image.w || cy+y>=font->image.h) continue; font->image.data[cx+x+(cy+y)*font->image.w] = 255-glyph->image.data[x+y*glyph->image.w]; } @@ -455,14 +508,17 @@ void render_packed(Font *font) { unsigned i; unsigned area = 0; - unsigned last_h = 0xFFFF; char *used_glyphs; - char *used_pixels; + unsigned *used_pixels; unsigned cx = 0, cy; + unsigned used_h = 0; + /* Compute the total area occupied by glyphs and padding. */ for(i=0; in_glyphs; ++i) - area+=(font->glyphs[i].image.w+1)*(font->glyphs[i].image.h+1); + area += (font->glyphs[i].image.w+1)*(font->glyphs[i].image.h+1); + /* Find an image size that's no higher than wide, allowing for some + imperfections in the packing. */ for(font->image.w=1;; font->image.w<<=1) { font->image.h = (area*5/4)/font->image.w; @@ -471,10 +527,14 @@ void render_packed(Font *font) } font->image.h = round_to_pot(font->image.h); + /* Allocate arrays for storing the image and keeping track of used pixels and + glyphs. Since glyphs are rectangular and the image is filled starting from + the top, it's enough to track the number of used pixels at the top of each + column. */ font->image.data = (char *)malloc(font->image.w*font->image.h); memset(font->image.data, 255, font->image.w*font->image.h); - used_pixels = (char *)malloc(font->image.w*font->image.h); - memset(used_pixels, 0, font->image.w*font->image.h); + used_pixels = (unsigned *)malloc(font->image.w*sizeof(unsigned)); + memset(used_pixels, 0, font->image.w*sizeof(unsigned)); used_glyphs = (char *)malloc(font->n_glyphs); memset(used_glyphs, 0, font->n_glyphs); @@ -484,17 +544,25 @@ void render_packed(Font *font) unsigned x, y; Glyph *glyph = NULL; unsigned best_score = 0; + unsigned target_h = 0; + + /* Find the leftmost free pixel on this row. Also record the lowest extent of glyphs + to the left of the free position. */ + for(; (cximage.w && used_pixels[cx]>cy); ++cx) + if(used_pixels[cx]-cy-1>target_h) + target_h = used_pixels[cx]-cy-1; - for(; (cximage.w && used_pixels[cx+cy*font->image.w]); ++cx) ; if(cx>=font->image.w) { cx = 0; ++cy; - last_h = 0xFFFF; continue; } - for(w=0; (cx+wimage.w && !used_pixels[cx+w+cy*font->image.w]); ++w) ; + /* Count the free pixel at this position. */ + for(w=0; (cx+wimage.w && used_pixels[cx+w]<=cy); ++w) ; + + /* Find a suitable glyph to put here. */ for(i=0; in_glyphs; ++i) { Glyph *g; @@ -504,8 +572,11 @@ void render_packed(Font *font) { unsigned score; + /* Prefer glyphs that would reach exactly as low as the ones left + of here. This aims to create a straight edge at the bottom for + lining up further glyphs. */ score = g->image.h+1; - if(g->image.h==last_h) + if(g->image.h==target_h) score *= g->image.w; else score += g->image.w; @@ -530,19 +601,25 @@ void render_packed(Font *font) for(y=0; yimage.h; ++y) for(x=0; ximage.w; ++x) { - if(cx+x<0 || cx+x>=font->image.w || cy+y<0 || cy+y>=font->image.h) + if(cx+x>=font->image.w || cy+y>=font->image.h) continue; font->image.data[cx+x+(cy+y)*font->image.w] = 255-glyph->image.data[x+y*glyph->image.w]; } - for(y=0; yimage.h+2; ++y) for(x=0; ximage.w+2; ++x) + for(x=0; ximage.w+2; ++x) { - if(cx+x<1 || cx+x>font->image.w || cy+y<1 || cy+y>font->image.h) + if(cx+x<1 || cx+x>font->image.w) continue; - used_pixels[cx+x-1+(cy+y-1)*font->image.w] = 1; + if(used_pixels[cx+x-1]image.h+1) + used_pixels[cx+x-1] = cy+glyph->image.h+1; } - last_h = glyph->image.h; + if(cy+glyph->image.h>used_h) + used_h = cy+glyph->image.h; } + + /* Trim the image to the actually used size, in case the original estimate + was too pessimistic. */ + font->image.h = round_to_pot(used_h); } int save_defs(const char *fn, const Font *font) @@ -557,11 +634,22 @@ int save_defs(const char *fn, const Font *font) return -1; } - fprintf(out, "%d %d %d %d %d\n", font->image.w, font->image.h, font->size, font->ascent, font->descent); + fprintf(out, "# Image/font info:\n"); + fprintf(out, "# width height size ascent descent\n"); + fprintf(out, "font %d %d %d %d %d\n", font->image.w, font->image.h, font->size, font->ascent, font->descent); + fprintf(out, "\n# Glyph info:\n"); + fprintf(out, "# code x y width height offset_x offset_y advance\n"); for(i=0; in_glyphs; ++i) { const Glyph *g = &font->glyphs[i]; - fprintf(out, "%u %u %u %u %u %d %d %d\n", g->code, g->x, g->y, g->image.w, g->image.h, g->offset_x, g->offset_y, g->advance); + fprintf(out, "glyph %u %u %u %u %u %d %d %d\n", g->code, g->x, g->y, g->image.w, g->image.h, g->offset_x, g->offset_y, g->advance); + } + fprintf(out, "\n# Kerning info:\n"); + fprintf(out, "# left right distance\n"); + for(i=0; in_kerning; ++i) + { + const Kerning *k = &font->kerning[i]; + fprintf(out, "kern %u %u %d\n", k->left_code, k->right_code, k->distance); } fclose(out); @@ -574,8 +662,8 @@ int save_png(const char *fn, const Image *image, char alpha) FILE *out; png_struct *pngs; png_info *pngi; - png_byte *rows[image->h]; - int i; + png_byte **rows; + unsigned i; png_byte *data2; int color; @@ -606,6 +694,7 @@ int save_png(const char *fn, const Image *image, char alpha) } png_init_io(pngs, out); + rows = (png_byte **)malloc(image->h*sizeof(png_byte *)); if(alpha) { data2 = (png_byte *)malloc(image->w*image->h*2); @@ -628,6 +717,7 @@ int save_png(const char *fn, const Image *image, char alpha) png_set_rows(pngs, pngi, rows); png_write_png(pngs, pngi, PNG_TRANSFORM_IDENTITY, NULL); png_destroy_write_struct(&pngs, &pngi); + free(rows); if(alpha) free(data2);