/* cmapdump.c -- parse a CMap file and dump it as a c-struct */ /* We never want to build memento versions of the cmapdump util */ #undef MEMENTO /* We never want large file access here */ #undef FZ_LARGEFILE #include #include #include "mupdf/pdf.h" #include "../source/fitz/context.c" #include "../source/fitz/error.c" #include "../source/fitz/memory.c" #include "../source/fitz/string.c" #include "../source/fitz/buffer.c" #include "../source/fitz/stream-open.c" #include "../source/fitz/stream-read.c" #include "../source/fitz/strtod.c" #include "../source/fitz/ftoa.c" #include "../source/fitz/printf.c" #ifdef _WIN32 #include "../source/fitz/time.c" #endif #include "../source/pdf/pdf-lex.c" #include "../source/pdf/pdf-cmap.c" #include "../source/pdf/pdf-cmap-parse.c" static void clean(char *p) { while (*p) { if ((*p == '/') || (*p == '.') || (*p == '\\') || (*p == '-')) *p = '_'; p ++; } } int main(int argc, char **argv) { pdf_cmap *cmap; fz_stream *fi; FILE *fo; char name[256]; char *realname; int i, k, m; fz_context *ctx; if (argc < 3) { fprintf(stderr, "usage: cmapdump output.c lots of cmap files\n"); return 1; } ctx = fz_new_context(NULL, NULL, FZ_STORE_UNLIMITED); if (!ctx) { fprintf(stderr, "cannot initialise context\n"); return 1; } #undef fopen fo = fopen(argv[1], "wb"); if (!fo) { fprintf(stderr, "cmapdump: could not open output file '%s'\n", argv[1]); return 1; } fprintf(fo, "/* This is an automatically generated file. Do not edit. */\n"); for (i = 2; i < argc; i++) { realname = strrchr(argv[i], '/'); if (!realname) realname = strrchr(argv[i], '\\'); if (realname) realname ++; else realname = argv[i]; /* ignore VCS folders (such as .svn) */ if (*realname == '.') continue; if (strlen(realname) > (sizeof name - 1)) { fprintf(stderr, "cmapdump: file name too long\n"); if (fclose(fo)) { fprintf(stderr, "cmapdump: could not close output file '%s'\n", argv[1]); return 1; } return 1; } strcpy(name, realname); clean(name); fi = fz_open_file(ctx, argv[i]); cmap = pdf_load_cmap(ctx, fi); fz_drop_stream(ctx, fi); fprintf(fo, "\n/* %s */\n\n", cmap->cmap_name); if (cmap->rlen) { fprintf(fo, "static const pdf_range cmap_%s_ranges[] = {", name); for (k = 0; k < cmap->rlen; k++) { if (k % 4 == 0) fprintf(fo, "\n"); fprintf(fo, "{%uu,%uu,%uu},", cmap->ranges[k].low, cmap->ranges[k].high, cmap->ranges[k].out); } fprintf(fo, "\n};\n\n"); } if (cmap->xlen) { fprintf(fo, "static const pdf_xrange cmap_%s_xranges[] = {", name); for (k = 0; k < cmap->xlen; k++) { if (k % 4 == 0) fprintf(fo, "\n"); fprintf(fo, "{%uu,%uu,%uu},", cmap->xranges[k].low, cmap->xranges[k].high, cmap->xranges[k].out); } fprintf(fo, "\n};\n\n"); } if (cmap->mlen > 0) { fprintf(fo, "static const pdf_mrange cmap_%s_mranges[] = {", name); for (k = 0; k < cmap->mlen; k++) { fprintf(fo, "\n{%uu,%uu,{", cmap->mranges[k].low, cmap->mranges[k].len); for (m = 0; m < PDF_MRANGE_CAP; ++m) fprintf(fo, "%uu,", cmap->mranges[k].out[m]); fprintf(fo, "}},"); } fprintf(fo, "\n};\n\n"); } fprintf(fo, "static pdf_cmap cmap_%s = {\n", name); fprintf(fo, "\t{-1, pdf_drop_cmap_imp}, "); fprintf(fo, "\"%s\", ", cmap->cmap_name); fprintf(fo, "\"%s\", 0, ", cmap->usecmap_name); fprintf(fo, "%u, ", cmap->wmode); fprintf(fo, "%u,\n\t{ ", cmap->codespace_len); if (cmap->codespace_len == 0) { fprintf(fo, "{0,0,0},"); } for (k = 0; k < cmap->codespace_len; k++) { fprintf(fo, "{%u,%uu,%uu},", cmap->codespace[k].n, cmap->codespace[k].low, cmap->codespace[k].high); } fprintf(fo, " },\n"); if (cmap->rlen) fprintf(fo, "\t%u, %u, (pdf_range*) cmap_%s_ranges,\n", cmap->rlen, cmap->rlen, name); else fprintf(fo, "\t0, 0, NULL,\n"); if (cmap->xlen) fprintf(fo, "\t%u, %u, (pdf_xrange*) cmap_%s_xranges,\n", cmap->xlen, cmap->xlen, name); else fprintf(fo, "\t0, 0, NULL,\n"); if (cmap->mlen) fprintf(fo, "\t%u, %u, (pdf_mrange*) cmap_%s_mranges,\n", cmap->mlen, cmap->mlen, name); else fprintf(fo, "\t0, 0, NULL,\n"); fprintf(fo, "};\n"); if (getenv("verbose")) printf("\t{\"%s\",&cmap_%s},\n", cmap->cmap_name, name); } if (fclose(fo)) { fprintf(stderr, "cmapdump: could not close output file '%s'\n", argv[1]); return 1; } fz_drop_context(ctx); return 0; } void fz_new_font_context(fz_context *ctx) { } void fz_drop_font_context(fz_context *ctx) { } fz_font_context *fz_keep_font_context(fz_context *ctx) { return NULL; } void fz_new_colorspace_context(fz_context *ctx) { } void fz_drop_colorspace_context(fz_context *ctx) { } fz_colorspace_context *fz_keep_colorspace_context(fz_context *ctx) { return NULL; } void fz_new_aa_context(fz_context *ctx) { } void fz_drop_aa_context(fz_context *ctx) { } void fz_copy_aa_context(fz_context *dst, fz_context *src) { } void *fz_keep_storable(fz_context *ctx, const fz_storable *sc) { fz_storable *s = (fz_storable *)sc; return s; } void fz_drop_storable(fz_context *ctx, const fz_storable *s) { } void fz_new_store_context(fz_context *ctx, unsigned int max) { } void fz_drop_store_context(fz_context *ctx) { } fz_store *fz_keep_store_context(fz_context *ctx) { return NULL; } int fz_store_scavenge(fz_context *ctx, unsigned int size, int *phase) { return 0; } void fz_new_glyph_cache_context(fz_context *ctx) { } void fz_drop_glyph_cache_context(fz_context *ctx) { } fz_glyph_cache *fz_keep_glyph_cache(fz_context *ctx) { return NULL; } void fz_new_document_handler_context(fz_context *ctx) { } void fz_drop_document_handler_context(fz_context *ctx) { } fz_document_handler_context *fz_keep_document_handler_context(fz_context *ctx) { return NULL; }