/* See LICENSE file for copyright and license details. */ #include "libparsepcf.h" #include #include #include #include #include static char *file = NULL; static size_t len = 0; static size_t table_n; static size_t table_i; static struct libparsepcf_table *tables; static struct libparsepcf_font font; static void load_file(void) { size_t size = 0; ssize_t r; if (isatty(STDIN_FILENO)) { fprintf(stderr, "An uncompressed PCF file is required as standard input\n"); exit(1); } for (;;) { if (size == len) { file = realloc(file, size += 8096); if (!file) { perror("realloc"); exit(1); } } r = read(STDIN_FILENO, &file[len], size - len); if (r <= 0) { if (!r) break; perror("read"); exit(1); } len += (size_t)r; } } static void print_properties(void) { size_t prop_i; struct libparsepcf_properties props; struct libparsepcf_property_subtable *proptab; if (libparsepcf_get_properties(file, len, &tables[table_i], &props)) { perror("libparsepcf_get_properties"); exit(1); } printf(" PROPERTIES:\n"); printf("\tnprops: %zu\n", props.property_count); printf("\tstrlen: %zu\n", props.strings_size); if (!props.property_count) return; proptab = calloc(props.property_count, sizeof(*proptab)); if (!proptab) { perror("calloc"); exit(1); } if (libparsepcf_get_property_subtable(file, len, &tables[table_i], &props, proptab, 0, props.property_count)) { perror("libparsepcf_get_property_subtable"); exit(1); } for (prop_i = 0; prop_i < props.property_count; prop_i++) { printf("\t #%zu\n", prop_i); printf("\t\tname: %s\n", proptab[prop_i].name); if (proptab[prop_i].is_string_property) printf("\t\tvalue: \"%s\"\n", proptab[prop_i].value.string_value); else printf("\t\tvalue: %i\n", proptab[prop_i].value.signed_value); } free(proptab); } static void print_metrics(const char *header) { struct libparsepcf_metrics *metrics; size_t mtx_i, mtx_n; if (libparsepcf_get_metrics_count(file, len, &tables[table_i], &mtx_n)) { perror("libparsepcf_get_metrics_count"); exit(1); } metrics = calloc(mtx_n, sizeof(*metrics)); if (!metrics) { perror("calloc"); exit(1); } if (libparsepcf_get_metrics(file, len, &tables[table_i], metrics, 0, mtx_n)) { perror("libparsepcf_get_metrics"); exit(1); } printf(" %s:\n", header); printf("\tcount: %zu\n", mtx_n); for (mtx_i = 0; mtx_i < mtx_n; mtx_i++) { printf("\t#%zu: lsb=%i, rsb=%i, width=%i, ascent=%i, descent=%i, attributes=%x\n", mtx_i, metrics[mtx_i].left_side_bearing, metrics[mtx_i].right_side_bearing, metrics[mtx_i].character_width, metrics[mtx_i].character_ascent, metrics[mtx_i].character_descent, metrics[mtx_i].character_attributes); } free(metrics); } static void print_glyph_names(void) { size_t name_i; struct libparsepcf_glyph_names names; const char **nametab; if (libparsepcf_get_glyph_names(file, len, &tables[table_i], &names)) { perror("libparsepcf_get_glyph_names"); exit(1); } printf(" GLYPH NAMES:\n"); printf("\tnglyph: %zu\n", names.glyph_count); printf("\tstrlen: %zu\n", names.strings_size); if (!names.glyph_count) return; nametab = calloc(names.glyph_count, sizeof(*nametab)); if (!nametab) { perror("calloc"); exit(1); } if (libparsepcf_get_glyph_name_subtable(file, len, &tables[table_i], &names, nametab, 0, names.glyph_count)) { perror("libparsepcf_get_glyph_name_subtable"); exit(1); } for (name_i = 0; name_i < names.glyph_count; name_i++) printf("\t #%zu: %s\n", name_i, nametab[name_i]); free(nametab); } static void print_bitmaps(void) { size_t bitmap_i; struct libparsepcf_bitmaps bitmaps; size_t *bitmaptab; if (libparsepcf_get_bitmaps(file, len, &tables[table_i], &bitmaps)) { perror("libparsepcf_get_bitmaps"); exit(1); } printf(" BITMAPS:\n"); printf("\tnglyph: %zu\n", bitmaps.glyph_count); printf("\tsize: %zu\n", bitmaps.bitmap_size); printf("\tpacking: %zu\n", bitmaps.bit_packing); printf("\tpadding: %zu\n", bitmaps.row_padding); printf("\tmsbyte_first: %i\n", bitmaps.msbyte_first); printf("\tmsbit_first: %i\n", bitmaps.msbit_first); if (!bitmaps.glyph_count) return; bitmaptab = calloc(bitmaps.glyph_count, sizeof(*bitmaptab)); if (!bitmaptab) { perror("calloc"); exit(1); } if (libparsepcf_get_bitmap_offsets(file, len, &tables[table_i], &bitmaps, bitmaptab, 0, bitmaps.glyph_count)) { perror("libparsepcf_get_bitmap_offsets"); exit(1); } for (bitmap_i = 0; bitmap_i < bitmaps.glyph_count; bitmap_i++) { #if 0 printf("\t #%zu: %zu -> %p (maxsize=%zu)\n", bitmap_i, bitmaptab[bitmap_i], (const void *)&bitmaps.bitmap_data[bitmaptab[bitmap_i]], bitmaps.bitmap_size - bitmaptab[bitmap_i]); #endif } free(bitmaptab); } static void print_bdf_encodings(void) { struct libparsepcf_encoding encoding; size_t *indices; size_t index_i; if (libparsepcf_get_encoding(file, len, &tables[table_i], &encoding)) { perror("libparsepcf_get_encoding:"); exit(1); } printf(" BDF ENCODINGS:\n"); printf("\trange2: [%u, %u]\n", encoding.min_byte2, encoding.max_byte2); printf("\trange1: [%u, %u]\n", encoding.min_byte1, encoding.max_byte1); printf("\tdefault: %u\n", encoding.default_glyph); printf("\tnchar: %zu\n", encoding.char_count); if (!encoding.char_count) return; indices = calloc(encoding.char_count, sizeof(*indices)); if (libparsepcf_get_glyph_indices(file, len, &tables[table_i], &encoding, indices, 0, encoding.char_count)) { perror("libparsepcf_get_glyph_indices"); exit(1); } for (index_i = 0; index_i < encoding.char_count; index_i++) { if (indices[index_i] == LIBPARSEPCF_NOT_ENCODED) printf("\t#%#zx: not encoded\n", index_i); else printf("\t#%#zx: %zu\n", index_i, indices[index_i]); } free(indices); } static void print_accelerators(const char *header) { struct libparsepcf_accelerators accel; if (libparsepcf_get_accelerators(file, len, &tables[table_i], &accel)) { perror("libparsepcf_get_accelerators:"); exit(1); } printf(" %s:\n", header); printf("\tno overlap: %i\n", accel.no_overlap); printf("\tconstant metrics: %i\n", accel.constant_metrics); printf("\tterminal font: %i\n", accel.terminal_font); printf("\tconstant width: %i\n", accel.constant_width); printf("\tink inside: %i\n", accel.ink_inside); printf("\tink metrics: %i\n", accel.ink_metrics); printf("\tdraw rtl: %i\n", accel.draw_rtl); printf("\thave ink bounds: %i\n", accel.have_ink_bounds); printf("\tfont ascent: %i\n", accel.font_ascent); printf("\tfont descent: %i\n", accel.font_descent); printf("\tmax overlap: %i\n", accel.max_overlap); printf("\tmin bounds: lsb=%i, rsb=%i, width=%i, ascent=%i, descent=%i, attributes=%x\n", accel.min_bounds.left_side_bearing, accel.min_bounds.right_side_bearing, accel.min_bounds.character_width, accel.min_bounds.character_ascent, accel.min_bounds.character_descent, accel.min_bounds.character_attributes); printf("\tmax bounds: lsb=%i, rsb=%i, width=%i, ascent=%i, descent=%i, attributes=%x\n", accel.max_bounds.left_side_bearing, accel.max_bounds.right_side_bearing, accel.max_bounds.character_width, accel.max_bounds.character_ascent, accel.max_bounds.character_descent, accel.max_bounds.character_attributes); if (accel.have_ink_bounds) { printf("\tmin ink bounds: lsb=%i, rsb=%i, width=%i, ascent=%i, descent=%i, attributes=%x\n", accel.min_ink_bounds.left_side_bearing, accel.min_ink_bounds.right_side_bearing, accel.min_ink_bounds.character_width, accel.min_ink_bounds.character_ascent, accel.min_ink_bounds.character_descent, accel.min_ink_bounds.character_attributes); printf("\tmax ink bounds: lsb=%i, rsb=%i, width=%i, ascent=%i, descent=%i, attributes=%x\n", accel.max_ink_bounds.left_side_bearing, accel.max_ink_bounds.right_side_bearing, accel.max_ink_bounds.character_width, accel.max_ink_bounds.character_ascent, accel.max_ink_bounds.character_descent, accel.max_ink_bounds.character_attributes); } } static void print_swidths(void) { size_t sw_i, sw_n; int32_t *swidths; if (libparsepcf_get_swidth_count(file, len, &tables[table_i], &sw_n)) { perror("libparsepcf_get_swidth_count"); exit(1); } printf(" SWIDTHS:\n"); printf("\tnglyph: %zu\n", sw_n); if (!sw_n) return; swidths = calloc(sw_n, sizeof(*swidths)); if (libparsepcf_get_swidths(file, len, &tables[table_i], swidths, 0, sw_n)) { perror("libparsepcf_get_swidths"); exit(1); } for (sw_i = 0; sw_i < sw_n; sw_i++) printf("\t#%zu: %i milli-ems\n", sw_i, swidths[sw_i]); } static void print_font(void) { if (libparsepcf_get_table_count(file, len, &table_n)) { perror("libparsepcf_get_table_count"); exit(1); } printf("size: %zu\n", len); printf("ntables: %zu\n", table_n); tables = calloc(table_n, sizeof(*tables)); if (!tables) { perror("calloc"); exit(1); } if (libparsepcf_get_tables(file, len, tables, 0, table_n)) { perror("libparsepcf_get_tables"); exit(1); } for (table_i = 0; table_i < table_n; table_i++) { printf("table #%zu: type=%#x, format=%#x, offset=%u, size=%u, (end=%u)\n", table_i, tables[table_i].type, tables[table_i].format, tables[table_i].offset, tables[table_i].size, tables[table_i].offset + tables[table_i].size); switch (tables[table_i].type) { #if 1 case LIBPARSEPCF_PROPERTIES: /* X font atoms */ print_properties(); break; #endif #if 0 case LIBPARSEPCF_METRICS: /* bitmap size */ print_metrics("METRICS"); break; #endif #if 0 case LIBPARSEPCF_INK_METRICS: /* minimium bounding box metrics */ print_metrics("INK METRICS"); break; #endif #if 0 case LIBPARSEPCF_GLYPH_NAMES: /* PostScript names */ print_glyph_names(); break; #endif #if 1 case LIBPARSEPCF_BITMAPS: print_bitmaps(); break; #endif #if 0 case LIBPARSEPCF_BDF_ENCODINGS: print_bdf_encodings(); break; #endif #if 1 case LIBPARSEPCF_ACCELERATORS: print_accelerators("ACCELERATORS"); break; #endif #if 1 case LIBPARSEPCF_BDF_ACCELERATORS: /* prefered over LIBPARSEPCF_ACCELERATORS */ print_accelerators("BDF ACCELERATORS"); break; #endif #if 0 case LIBPARSEPCF_SWIDTHS: print_swidths(); break; #endif default: (void) print_properties; (void) print_metrics; (void) print_glyph_names; (void) print_bitmaps; (void) print_bdf_encodings; (void) print_accelerators; (void) print_swidths; break; } } free(tables); } static void print_glyph_info(size_t glyph, const struct libparsepcf_metrics *mtx) { struct libparsepcf_metrics inkmtx; const char *name; int32_t s32; if (font.name_table) { if (libparsepcf_get_glyph_name_subtable(file, len, font.name_table, &font.names, &name, glyph, 1)) { perror("libparsepcf_get_glyph_name_subtable"); exit(1); } printf("glyph name: %s\n", name); } if (font.swidth_table) { if (libparsepcf_get_swidths(file, len, font.swidth_table, &s32, glyph, 1)) { perror("libparsepcf_get_swidths"); exit(1); } printf("scalable width: %i milli-ems\n", s32); } printf("metrics:\n"); printf(" left side bearing: %i\n", mtx->left_side_bearing); printf(" right side bearing: %i\n", mtx->right_side_bearing); printf(" character width: %i\n", mtx->character_width); printf(" character ascent: %i\n", mtx->character_ascent); printf(" character descent: %i\n", mtx->character_descent); printf(" character attributes: %u\n", mtx->character_attributes); if (font.inkmtx_table) { if (libparsepcf_get_metrics(file, len, font.inkmtx_table, &inkmtx, glyph, 1)) { perror("libparsepcf_get_metrics"); exit(1); } printf("ink metrics:\n"); printf(" left side bearing: %i\n", inkmtx.left_side_bearing); printf(" right side bearing: %i\n", inkmtx.right_side_bearing); printf(" character width: %i\n", inkmtx.character_width); printf(" character ascent: %i\n", inkmtx.character_ascent); printf(" character descent: %i\n", inkmtx.character_descent); printf(" character attributes: %u\n", inkmtx.character_attributes); } if (font.accel_table) { printf("font ascent: %i\n", font.accels.font_ascent); printf("font descent: %i\n", font.accels.font_descent); } } static void print_glyph(size_t glyph) { struct libparsepcf_metrics mtx; size_t width, height, bitmap_size, bitmap_offset; size_t row_size, padding, y, x, bit, byte, packing; int32_t font_ascent, font_descent; size_t extra_left, extra_right, print_width; const uint8_t *bitmap; const char *pixel; if (glyph >= font.glyph_count) { fprintf(stderr, "specified glyph does not exist\n"); exit(1); } if (libparsepcf_get_metrics(file, len, font.mtx_table, &mtx, glyph, 1)) { perror("libparsepcf_get_metrics"); exit(1); } padding = font.bitmaps.row_padding - 1; packing = font.bitmaps.bit_packing - 1; width = (size_t)((int32_t)mtx.right_side_bearing - (int32_t)mtx.left_side_bearing); height = (size_t)((int32_t)mtx.character_ascent + (int32_t)mtx.character_descent); row_size = width / 8 + !!(width & 7); row_size = row_size + ((font.bitmaps.row_padding - (row_size & padding)) & padding); if (font.accel_table) { font_ascent = font.accels.font_ascent; font_descent = font.accels.font_descent; } else { font_ascent = mtx.character_ascent; font_descent = mtx.character_descent; } print_glyph_info(glyph, &mtx); if (libparsepcf_get_bitmap_offsets(file, len, font.bitmap_table, &font.bitmaps, &bitmap_offset, glyph, 1)) { perror("libparsepcf_get_bitmap_offsets"); exit(1); } bitmap_size = font.bitmaps.bitmap_size - bitmap_offset; bitmap = &font.bitmaps.bitmap_data[bitmap_offset]; if (height && row_size > bitmap_size / height) { perror("bitmap is smaller than expected"); exit(1); } printf("\n"); extra_left = mtx.left_side_bearing > 0 ? (size_t)mtx.left_side_bearing : 0; extra_right = mtx.character_width > mtx.right_side_bearing ? (size_t)(mtx.character_width - mtx.right_side_bearing) : 0; print_width = extra_left + width + extra_right; /* If the font's ascent is greater than the character's, print the excees in black */ if (font_ascent > mtx.character_ascent) { for (y = 0; y < (size_t)(font_ascent - mtx.character_ascent); y++) { for (x = 0; x < print_width; x++) printf("\033[1;30m[]"); printf("\033[0m\n"); } } for (y = 0; y < height; y++, bitmap += row_size) { /* Draw baseline */ if ((int64_t)y + 1 == (int64_t)mtx.character_ascent) printf("\033[4m"); /* If glyph is offset for caret, print offset in black */ for (x = 0; x < extra_left; x++) printf("\033[1;30m[]"); /* Draw glyph */ for (x = 0; x < width; x++) { bit = font.bitmaps.msbit_first ? 7 - x % 8 : x % 8; byte = x / 8; if (font.bitmaps.msbyte_first != font.bitmaps.msbit_first) byte ^= packing; /* Use <> to mark dots outside of the glyph box */ if (mtx.left_side_bearing < 0 && x < (size_t)-mtx.left_side_bearing) { pixel = "<>"; } else if (mtx.right_side_bearing > mtx.character_width && x >= (size_t)(mtx.character_width + mtx.left_side_bearing)) { pixel = "<>"; } else if (mtx.character_ascent > font_ascent && y < (size_t)(mtx.character_ascent - font_ascent)) { pixel = "<>"; } else if (mtx.character_descent > font_descent && y >= (size_t)(mtx.character_ascent + font_descent)) { pixel = "<>"; } else { pixel = "[]"; } printf("\033[%sm%s\033[%sm", (bitmap[byte] & (1 << bit)) ? "1;37" : "2;37", pixel, (int64_t)y + 1 == (int64_t)mtx.character_ascent ? "0;4" : "0"); } /* If horizontal advance is larger than character width, print extent in black */ for (x = 0; x < extra_right; x++) printf("\033[1;30m[]"); printf("\033[0m\n"); } /* If the font's descent is greater than the character's, print the excees in black */ if (font_descent > mtx.character_descent) { for (y = 0; y < (size_t)(font_descent - mtx.character_descent); y++) { for (x = 0; x < print_width; x++) printf("\033[1;30m[]"); printf("\033[0m\n"); } } } static void draw_glyph(size_t glyph, int32_t *xp, char ***linesp, int32_t *leftp, int32_t *rightp, int32_t *ascentp, int32_t *descentp) { struct libparsepcf_metrics mtx; const uint8_t *bitmap; int32_t left, right; size_t height, width, old_height, old_width, y, x, ypos, xpos; size_t padding, packing, row_size, bit, byte, bitmap_offset, bitmap_size; if (libparsepcf_get_metrics(file, len, font.mtx_table, &mtx, glyph, 1)) { perror("libparsepcf_get_metrics"); exit(1); } xpos = (size_t)*xp; left = *xp + mtx.left_side_bearing; right = *xp + mtx.right_side_bearing; *xp += mtx.character_width; height = (size_t)(*ascentp + *descentp); width = (size_t)(*leftp + *rightp); if (-left > *leftp) { *leftp = -left; old_width = width; width = (size_t)(*leftp + *rightp); for (y = 0; y < height; y++) { (*linesp)[y] = realloc((*linesp)[y], width); if (!(*linesp)[y]) { perror("realloc"); exit(1); } memmove(&(*linesp)[y][width - old_width], (*linesp)[y], old_width); memset((*linesp)[y], 0, width - old_width); } } xpos += (size_t)*leftp; if (right > *rightp) { *rightp = right; old_width = width; width = (size_t)(*leftp + *rightp); for (y = 0; y < height; y++) { (*linesp)[y] = realloc((*linesp)[y], width); if (!(*linesp)[y]) { perror("realloc"); exit(1); } memset(&(*linesp)[y][old_width], 0, width - old_width); } } if (mtx.character_ascent > *ascentp) { *ascentp = mtx.character_ascent; old_height = height; height = (size_t)(*ascentp + *descentp); *linesp = realloc(*linesp, height * sizeof(**linesp)); memmove(&(*linesp)[height - old_height], *linesp, old_height * sizeof(**linesp)); for (y = 0; y < height - old_height; y++) { (*linesp)[y] = NULL; if (width) { (*linesp)[y] = calloc(width, 1); if (!(*linesp)[y]) { perror("calloc"); exit(1); } } } } if (mtx.character_descent > *descentp) { *descentp = mtx.character_descent; old_height = height; height = (size_t)(*ascentp + *descentp); *linesp = realloc(*linesp, height * sizeof(**linesp)); for (y = old_height; y < height; y++) { (*linesp)[y] = NULL; if (width) { (*linesp)[y] = calloc(width, 1); if (!(*linesp)[y]) { perror("calloc"); exit(1); } } } } padding = font.bitmaps.row_padding - 1; packing = font.bitmaps.bit_packing - 1; width = (size_t)((int32_t)mtx.right_side_bearing - (int32_t)mtx.left_side_bearing); height = (size_t)((int32_t)mtx.character_ascent + (int32_t)mtx.character_descent); row_size = width / 8 + !!(width & 7); row_size = row_size + ((font.bitmaps.row_padding - (row_size & padding)) & padding); if (libparsepcf_get_bitmap_offsets(file, len, font.bitmap_table, &font.bitmaps, &bitmap_offset, glyph, 1)) { perror("libparsepcf_get_bitmap_offsets"); exit(1); } bitmap_size = font.bitmaps.bitmap_size - bitmap_offset; bitmap = &font.bitmaps.bitmap_data[bitmap_offset]; if (height && row_size > bitmap_size / height) { perror("bitmap is smaller than expected"); exit(1); } ypos = (size_t)(*ascentp - mtx.character_ascent); for (y = 0; y < height; y++, bitmap += row_size) { for (x = 0; x < width; x++) { bit = font.bitmaps.msbit_first ? 7 - x % 8 : x % 8; byte = x / 8; if (font.bitmaps.msbyte_first != font.bitmaps.msbit_first) byte ^= packing; if (bitmap[byte] & (1 << bit)) (*linesp)[y + ypos][x + xpos] |= 1; } } } static void print_line(const char *str) { const uint8_t *s = (const void *)str; int32_t xpos = 0, left = 0, right = 0, ascent = 0, descent = 0; char **lines = NULL; uint32_t codepoint = 0; uint16_t hi, lo, k, m; size_t glyph, n = 0, y, x, width, height; k = (uint16_t)(font.encoding.max_byte2 - font.encoding.min_byte2); m = (uint16_t)(font.encoding.min_byte1 * k + font.encoding.min_byte2); while (*s) { /* Very sloppy UTF-8 decoding */ if (n) { if ((*s & 0xC0) != 0x80) { n = 0; glyph = (size_t)font.encoding.default_glyph; goto have_glyph; } else { n -= 1; codepoint <<= 6; codepoint |= *s++ & 0x3F; } } else if ((*s & 0xC0) == 0x80) { glyph = (size_t)font.encoding.default_glyph; s++; goto have_glyph; } else if (*s & 0x80) { codepoint = (uint32_t)*s++; n = 0; while (codepoint & 0x80) { codepoint <<= 1; n += 1; } codepoint &= 0xFF; codepoint >>= n--; continue; } else { codepoint = (uint32_t)*s++; } /* Map codepoint to glyph index */ if (font.encoding.min_byte1 || font.encoding.max_byte1) { if (codepoint > UINT32_C(0xFFFF) || codepoint < (uint32_t)font.encoding.min_byte2 || codepoint > (uint32_t)font.encoding.max_byte2) { glyph = (size_t)font.encoding.default_glyph; goto have_glyph; } glyph = codepoint - (uint32_t)font.encoding.min_byte2; } else { hi = (uint16_t)((codepoint >> 8) & 0xFFU); lo = (uint16_t)((codepoint >> 0) & 0xFFU); if (codepoint > UINT16_C(0xFF) || hi < (uint32_t)font.encoding.min_byte1 || hi > (uint32_t)font.encoding.max_byte1 || lo < (uint32_t)font.encoding.min_byte2 || lo > (uint32_t)font.encoding.max_byte2) { glyph = (size_t)font.encoding.default_glyph; goto have_glyph; } glyph = (size_t)(uint16_t)(hi * k + lo - m); } /* For the purpose of the demo we are assuming ASCII/UCS-2 */ if (libparsepcf_get_glyph_indices(file, len, font.enc_table, &font.encoding, &glyph, glyph, 1)) { perror("libparsepcf_get_glyph_indices"); exit(1); } have_glyph: if (glyph == LIBPARSEPCF_NOT_ENCODED) glyph = (size_t)font.encoding.default_glyph; draw_glyph(glyph, &xpos, &lines, &left, &right, &ascent, &descent); } width = (size_t)(left + right); height = (size_t)(ascent + descent); for (y = 0; y < height; y++) { if ((int64_t)y + 1 == (int64_t)ascent) printf("\033[4m"); for (x = 0; x < width; x++) printf("\033[%sm[]", lines[y][x] ? "1;37" : "1;30"); printf("\033[0m\n"); free(lines[y]); } free(lines); } int main(int argc, char *argv[]) { size_t glyph; if (argc) { argc--; argv++; } load_file(); if (!argc) { print_font(); } else { if (libparsepcf_preparse_font(file, len, &font)) { perror("libparsepcf_preparse_font"); exit(1); } if (argc == 2 && !strcmp(argv[0], "-g")) { glyph = (size_t)strtoul(argv[1], NULL, 0); print_glyph(glyph); } else if (argc == 2 && !strcmp(argv[0], "-x")) { glyph = (size_t)strtoul(argv[1], NULL, 16); print_glyph(glyph); } else { printf("This demo assumes the font uses ASCII or UCS-2 encoding\n"); for (; argc--; argv++) { print_line(*argv); printf("\n"); } } libparsepcf_destroy_preparsed_font(&font); } free(file); return 0; }