/* Copyright (C) 2001-2019 Peter Selinger. This file is part of Potrace. It is free software and it is covered by the GNU General Public License. See the file COPYING for details. */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include "main.h" #include "potracelib.h" #include "backend_pdf.h" #include "backend_eps.h" #include "backend_pgm.h" #include "backend_svg.h" #include "backend_xfig.h" #include "backend_dxf.h" #include "backend_geojson.h" #include "potracelib.h" #include "bitmap_io.h" #include "bitmap.h" #include "platform.h" #include "auxiliary.h" #include "progress_bar.h" #include "trans.h" #ifndef M_PI #define M_PI 3.14159265358979323846 #endif #define UNDEF ((double)(1e30)) /* a value to represent "undefined" */ struct info_s info; /* ---------------------------------------------------------------------- */ /* some data structures for option processing */ struct pageformat_s { const char *name; int w, h; }; typedef struct pageformat_s pageformat_t; /* dimensions of the various page formats, in postscript points */ static pageformat_t pageformat[] = { { "a4", 595, 842 }, { "a3", 842, 1191 }, { "a5", 421, 595 }, { "b5", 516, 729 }, { "letter", 612, 792 }, { "legal", 612, 1008 }, { "tabloid", 792, 1224 }, { "statement", 396, 612 }, { "executive", 540, 720 }, { "folio", 612, 936 }, { "quarto", 610, 780 }, { "10x14", 720, 1008 }, { NULL, 0, 0 }, }; struct turnpolicy_s { const char *name; int n; }; typedef struct turnpolicy_s turnpolicy_t; /* names of turn policies */ static turnpolicy_t turnpolicy[] = { {"black", POTRACE_TURNPOLICY_BLACK}, {"white", POTRACE_TURNPOLICY_WHITE}, {"left", POTRACE_TURNPOLICY_LEFT}, {"right", POTRACE_TURNPOLICY_RIGHT}, {"minority", POTRACE_TURNPOLICY_MINORITY}, {"majority", POTRACE_TURNPOLICY_MAJORITY}, {"random", POTRACE_TURNPOLICY_RANDOM}, {NULL, 0}, }; /* backends and their characteristics */ struct backend_s { const char *name; /* name of this backend */ const char *ext; /* file extension */ int fixed; /* fixed page size backend? */ int pixel; /* pixel-based backend? */ int multi; /* multi-page backend? */ int (*init_f)(FILE *fout); /* initialization function */ int (*page_f)(FILE *fout, potrace_path_t *plist, imginfo_t *imginfo); /* per-bitmap function */ int (*term_f)(FILE *fout); /* finalization function */ int opticurve; /* opticurve capable (true Bezier curves?) */ }; typedef struct backend_s backend_t; static backend_t backend[] = { { "svg", ".svg", 0, 0, 0, NULL, page_svg, NULL, 1 }, { "pdf", ".pdf", 0, 0, 1, init_pdf, page_pdf, term_pdf, 1 }, { "pdfpage", ".pdf", 1, 0, 1, init_pdf, page_pdfpage, term_pdf, 1 }, { "eps", ".eps", 0, 0, 0, NULL, page_eps, NULL, 1 }, { "postscript", ".ps", 1, 0, 1, init_ps, page_ps, term_ps, 1 }, { "ps", ".ps", 1, 0, 1, init_ps, page_ps, term_ps, 1 }, { "dxf", ".dxf", 0, 1, 0, NULL, page_dxf, NULL, 1 }, { "geojson", ".json",0, 1, 0, NULL, page_geojson, NULL, 1 }, { "pgm", ".pgm", 0, 1, 1, NULL, page_pgm, NULL, 1 }, { "gimppath", ".svg", 0, 1, 0, NULL, page_gimp, NULL, 1 }, { "xfig", ".fig", 1, 0, 0, NULL, page_xfig, NULL, 0 }, { NULL, NULL, 0, 0, 0, NULL, NULL, NULL, 0 }, }; /* look up a backend by name. If found, return 0 and set *bp. If not found leave *bp unchanged and return 1, or 2 on ambiguous prefix. */ static int backend_lookup(const char *name, backend_t **bp) { int i; int m=0; /* prefix matches */ backend_t *b = NULL; for (i=0; backend[i].name; i++) { if (strcasecmp(backend[i].name, name)==0) { *bp = &backend[i]; return 0; } else if (strncasecmp(backend[i].name, name, strlen(name))==0) { m++; b = &backend[i]; } } /* if there was no exact match, and exactly one prefix match, use that */ if (m==1) { *bp = b; return 0; } else if (m) { return 2; } else { return 1; } } /* list all available backends by name, in a comma separated list. Assume the cursor starts in column j, and break lines at length linelen. Do not output any trailing punctuation. Return the column the cursor is in. */ static int backend_list(FILE *fout, int j, int linelen) { int i; for (i=0; backend[i].name; i++) { if (j + (int)strlen(backend[i].name) > linelen) { fprintf(fout, "\n"); j = 0; } j += fprintf(fout, "%s", backend[i].name); if (backend[i+1].name) { j += fprintf(fout, ", "); } } return j; } /* ---------------------------------------------------------------------- */ /* some info functions */ static void license(FILE *f) { fprintf(f, "This program is free software; you can redistribute it and/or modify\n" "it under the terms of the GNU General Public License as published by\n" "the Free Software Foundation; either version 2 of the License, or\n" "(at your option) any later version.\n" "\n" "This program is distributed in the hope that it will be useful,\n" "but WITHOUT ANY WARRANTY; without even the implied warranty of\n" "MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the\n" "GNU General Public License for more details.\n" "\n" "You should have received a copy of the GNU General Public License\n" "along with this program; if not, write to the Free Software Foundation\n" "Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.\n" ); } static void show_defaults(FILE *f) { fprintf(f, "Default unit: " DEFAULT_DIM_NAME "\n"); fprintf(f, "Default page size: " DEFAULT_PAPERFORMAT "\n"); } static void usage(FILE *f) { int j; fprintf(f, "Usage: " POTRACE " [options] [filename...]\n"); fprintf(f, "General options:\n"); fprintf(f, " -h, --help - print this help message and exit\n"); fprintf(f, " -v, --version - print version info and exit\n"); fprintf(f, " -l, --license - print license info and exit\n"); fprintf(f, "File selection:\n"); fprintf(f, " - an input file\n"); fprintf(f, " -o, --output - write all output to this file\n"); fprintf(f, " -- - end of options; 0 or more input filenames follow\n"); fprintf(f, "Backend selection:\n"); fprintf(f, " -b, --backend - select backend by name\n"); fprintf(f, " -b svg, -s, --svg - SVG backend (scalable vector graphics)\n"); fprintf(f, " -b pdf - PDF backend (portable document format)\n"); fprintf(f, " -b pdfpage - fixed page-size PDF backend\n"); fprintf(f, " -b eps, -e, --eps - EPS backend (encapsulated PostScript) (default)\n"); fprintf(f, " -b ps, -p, --postscript - PostScript backend\n"); fprintf(f, " -b pgm, -g, --pgm - PGM backend (portable greymap)\n"); fprintf(f, " -b dxf - DXF backend (drawing interchange format)\n"); fprintf(f, " -b geojson - GeoJSON backend\n"); fprintf(f, " -b gimppath - Gimppath backend (GNU Gimp)\n"); fprintf(f, " -b xfig - XFig backend\n"); fprintf(f, "Algorithm options:\n"); fprintf(f, " -z, --turnpolicy - how to resolve ambiguities in path decomposition\n"); fprintf(f, " -t, --turdsize - suppress speckles of up to this size (default 2)\n"); fprintf(f, " -a, --alphamax - corner threshold parameter (default 1)\n"); fprintf(f, " -n, --longcurve - turn off curve optimization\n"); fprintf(f, " -O, --opttolerance - curve optimization tolerance (default 0.2)\n"); fprintf(f, " -u, --unit - quantize output to 1/unit pixels (default 10)\n"); fprintf(f, " -d, --debug - produce debugging output of type n (n=1,2,3)\n"); fprintf(f, "Scaling and placement options:\n"); fprintf(f, " -P, --pagesize - page size (default is " DEFAULT_PAPERFORMAT ")\n"); fprintf(f, " -W, --width - width of output image\n"); fprintf(f, " -H, --height - height of output image\n"); fprintf(f, " -r, --resolution [x] - resolution (in dpi) (dimension-based backends)\n"); fprintf(f, " -x, --scale [x] - scaling factor (pixel-based backends)\n"); fprintf(f, " -S, --stretch - yresolution/xresolution\n"); fprintf(f, " -A, --rotate - rotate counterclockwise by angle\n"); fprintf(f, " -M, --margin - margin\n"); fprintf(f, " -L, --leftmargin - left margin\n"); fprintf(f, " -R, --rightmargin - right margin\n"); fprintf(f, " -T, --topmargin - top margin\n"); fprintf(f, " -B, --bottommargin - bottom margin\n"); fprintf(f, " --tight - remove whitespace around the input image\n"); fprintf(f, "Color options, supported by some backends:\n"); fprintf(f, " -C, --color #rrggbb - set foreground color (default black)\n"); fprintf(f, " --fillcolor #rrggbb - set fill color (default transparent)\n"); fprintf(f, " --opaque - make white shapes opaque\n"); fprintf(f, "SVG options:\n"); fprintf(f, " --group - group related paths together\n"); fprintf(f, " --flat - whole image as a single path\n"); fprintf(f, "Postscript/EPS/PDF options:\n"); fprintf(f, " -c, --cleartext - do not compress the output\n"); fprintf(f, " -2, --level2 - use postscript level 2 compression (default)\n"); #ifdef HAVE_ZLIB fprintf(f, " -3, --level3 - use postscript level 3 compression\n"); #endif fprintf(f, " -q, --longcoding - do not optimize for file size\n"); fprintf(f, "PGM options:\n"); fprintf(f, " -G, --gamma - gamma value for anti-aliasing (default 2.2)\n"); fprintf(f, "Frontend options:\n"); fprintf(f, " -k, --blacklevel - black/white cutoff in input file (default 0.5)\n"); fprintf(f, " -i, --invert - invert bitmap\n"); fprintf(f, "Progress bar options:\n"); fprintf(f, " --progress - show progress bar\n"); fprintf(f, " --tty - progress bar rendering: vt100 or dumb\n"); fprintf(f, "\n"); fprintf(f, "Dimensions can have optional units, e.g. 6.5in, 15cm, 100pt.\n"); fprintf(f, "Default is " DEFAULT_DIM_NAME " (or pixels for pgm, dxf, and gimppath backends).\n"); fprintf(f, "Possible input file formats are: pnm (pbm, pgm, ppm), bmp.\n"); j = fprintf(f, "Backends are: "); backend_list(f, j, 78); fprintf(f, ".\n"); } /* ---------------------------------------------------------------------- */ /* auxiliary functions for parameter parsing */ /* parse a dimension of the kind "1.5in", "7cm", etc. Return result in postscript points (=1/72 in). If endptr!=NULL, store pointer to next character in *endptr in the manner of strtod(3). */ static dim_t parse_dimension(char *s, char **endptr) { char *p; dim_t res; res.x = strtod(s, &p); res.d = 0; if (p!=s) { if (!strncasecmp(p, "in", 2)) { res.d = DIM_IN; p += 2; } else if (!strncasecmp(p, "cm", 2)) { res.d = DIM_CM; p += 2; } else if (!strncasecmp(p, "mm", 2)) { res.d = DIM_MM; p += 2; } else if (!strncasecmp(p, "pt", 2)) { res.d = DIM_PT; p += 2; } } if (endptr!=NULL) { *endptr = p; } return res; } /* parse a pair of dimensions, such as "8.5x11in", "30mmx4cm" */ static void parse_dimensions(char *s, char **endptr, dim_t *dxp, dim_t *dyp) { char *p, *q; dim_t dx, dy; dx = parse_dimension(s, &p); if (p==s) { goto fail; } if (*p != 'x') { goto fail; } p++; dy = parse_dimension(p, &q); if (q==p) { goto fail; } if (dx.d && !dy.d) { dy.d = dx.d; } else if (!dx.d && dy.d) { dx.d = dy.d; } *dxp = dx; *dyp = dy; if (endptr != NULL) { *endptr = q; } return; fail: dx.x = dx.d = dy.x = dy.d = 0; *dxp = dx; *dyp = dy; if (endptr != NULL) { *endptr = s; } return; } static inline double double_of_dim(dim_t d, double def) { if (d.d) { return d.x * d.d; } else { return d.x * def; } } static int parse_color(char *s) { int i, d; int col = 0; if (s[0] != '#' || strlen(s) != 7) { return -1; } for (i=0; i<6; i++) { d = s[6-i]; if (d >= '0' && d <= '9') { col |= (d-'0') << (4*i); } else if (d >= 'a' && d <= 'f') { col |= (d-'a'+10) << (4*i); } else if (d >= 'A' && d <= 'F') { col |= (d-'A'+10) << (4*i); } else { return -1; } } return col; } /* ---------------------------------------------------------------------- */ /* option processing */ /* codes for options that don't have short form */ enum { OPT_TIGHT = 300, OPT_FILLCOLOR, OPT_OPAQUE, OPT_GROUP, OPT_FLAT, OPT_PROGRESS, OPT_TTY }; static struct option longopts[] = { {"help", 0, 0, 'h'}, {"version", 0, 0, 'v'}, {"show-defaults", 0, 0, 'V'}, /* undocumented option for compatibility */ {"license", 0, 0, 'l'}, {"width", 1, 0, 'W'}, {"height", 1, 0, 'H'}, {"resolution", 1, 0, 'r'}, {"scale", 1, 0, 'x'}, {"stretch", 1, 0, 'S'}, {"margin", 1, 0, 'M'}, {"leftmargin", 1, 0, 'L'}, {"rightmargin", 1, 0, 'R'}, {"topmargin", 1, 0, 'T'}, {"bottommargin", 1, 0, 'B'}, {"tight", 0, 0, OPT_TIGHT}, {"rotate", 1, 0, 'A'}, {"pagesize", 1, 0, 'P'}, {"turdsize", 1, 0, 't'}, {"unit", 1, 0, 'u'}, {"cleartext", 0, 0, 'c'}, {"level2", 0, 0, '2'}, {"level3", 0, 0, '3'}, {"eps", 0, 0, 'e'}, {"postscript", 0, 0, 'p'}, {"svg", 0, 0, 's'}, {"pgm", 0, 0, 'g'}, {"backend", 1, 0, 'b'}, {"debug", 1, 0, 'd'}, {"color", 1, 0, 'C'}, {"fillcolor", 1, 0, OPT_FILLCOLOR}, {"turnpolicy", 1, 0, 'z'}, {"gamma", 1, 0, 'G'}, {"longcurve", 0, 0, 'n'}, {"longcoding", 0, 0, 'q'}, {"alphamax", 1, 0, 'a'}, {"opttolerance", 1, 0, 'O'}, {"output", 1, 0, 'o'}, {"blacklevel", 1, 0, 'k'}, {"invert", 0, 0, 'i'}, {"opaque", 0, 0, OPT_OPAQUE}, {"group", 0, 0, OPT_GROUP}, {"flat", 0, 0, OPT_FLAT}, {"progress", 0, 0, OPT_PROGRESS}, {"tty", 1, 0, OPT_TTY}, {0, 0, 0, 0} }; static const char *shortopts = "hvVlW:H:r:x:S:M:L:R:T:B:A:P:t:u:c23epsgb:d:C:z:G:nqa:O:o:k:i"; static void dopts(int ac, char *av[]) { int c; char *p; int i, j, r; dim_t dim, dimx, dimy; int matches, bestmatch; /* defaults */ backend_lookup("eps", &info.backend); info.debug = 0; info.width_d.x = UNDEF; info.height_d.x = UNDEF; info.rx = UNDEF; info.ry = UNDEF; info.sx = UNDEF; info.sy = UNDEF; info.stretch = 1; info.lmar_d.x = UNDEF; info.rmar_d.x = UNDEF; info.tmar_d.x = UNDEF; info.bmar_d.x = UNDEF; info.angle = 0; info.paperwidth = DEFAULT_PAPERWIDTH; info.paperheight = DEFAULT_PAPERHEIGHT; info.tight = 0; info.unit = 10; info.compress = 1; info.pslevel = 2; info.color = 0x000000; info.gamma = 2.2; info.param = potrace_param_default(); if (!info.param) { fprintf(stderr, "" POTRACE ": %s\n", strerror(errno)); exit(2); } info.longcoding = 0; info.outfile = NULL; info.blacklevel = 0.5; info.invert = 0; info.opaque = 0; info.grouping = 1; info.fillcolor = 0xffffff; info.progress = 0; info.progress_bar = DEFAULT_PROGRESS_BAR; while ((c = getopt_long(ac, av, shortopts, longopts, NULL)) != -1) { switch (c) { case 'h': fprintf(stdout, "" POTRACE " " VERSION ". Transforms bitmaps into vector graphics.\n\n"); usage(stdout); exit(0); break; case 'v': case 'V': fprintf(stdout, "" POTRACE " " VERSION ". Copyright (C) 2001-2019 Peter Selinger.\n"); fprintf(stdout, "Library version: %s\n", potrace_version()); show_defaults(stdout); exit(0); break; case 'l': fprintf(stdout, "" POTRACE " " VERSION ". Copyright (C) 2001-2019 Peter Selinger.\n\n"); license(stdout); exit(0); break; case 'W': info.width_d = parse_dimension(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid dimension -- %s\n", optarg); exit(1); } break; case 'H': info.height_d = parse_dimension(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid dimension -- %s\n", optarg); exit(1); } break; case 'r': parse_dimensions(optarg, &p, &dimx, &dimy); if (*p == 0 && dimx.d == 0 && dimy.d == 0 && dimx.x != 0.0 && dimy.x != 0.0) { info.rx = dimx.x; info.ry = dimy.x; break; } dim = parse_dimension(optarg, &p); if (*p == 0 && dim.d == 0 && dim.x != 0.0) { info.rx = info.ry = dim.x; break; } fprintf(stderr, "" POTRACE ": invalid resolution -- %s\n", optarg); exit(1); break; case 'x': parse_dimensions(optarg, &p, &dimx, &dimy); if (*p == 0 && dimx.d == 0 && dimy.d == 0) { info.sx = dimx.x; info.sy = dimy.x; break; } dim = parse_dimension(optarg, &p); if (*p == 0 && dim.d == 0) { info.sx = info.sy = dim.x; break; } fprintf(stderr, "" POTRACE ": invalid scaling factor -- %s\n", optarg); exit(1); break; case 'S': info.stretch = atof(optarg); break; case 'M': info.lmar_d = parse_dimension(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid dimension -- %s\n", optarg); exit(1); } info.rmar_d = info.tmar_d = info.bmar_d = info.lmar_d; break; case 'L': info.lmar_d = parse_dimension(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid dimension -- %s\n", optarg); exit(1); } break; case 'R': info.rmar_d = parse_dimension(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid dimension -- %s\n", optarg); exit(1); } break; case 'T': info.tmar_d = parse_dimension(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid dimension -- %s\n", optarg); exit(1); } break; case 'B': info.bmar_d = parse_dimension(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid dimension -- %s\n", optarg); exit(1); } break; case OPT_TIGHT: info.tight = 1; break; case 'A': info.angle = strtod(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid angle -- %s\n", optarg); exit(1); } if (info.angle <= -180 || info.angle > 180) { info.angle -= 360 * ceil(info.angle / 360 - 0.5); } break; case 'P': matches = 0; bestmatch = 0; for (i=0; pageformat[i].name!=NULL; i++) { if (strcasecmp(pageformat[i].name, optarg)==0) { matches = 1; bestmatch = i; break; } else if (strncasecmp(pageformat[i].name, optarg, strlen(optarg))==0) { /* don't allow partial match on "10x14" */ if (optarg[0] != '1') { matches++; bestmatch = i; } } } if (matches == 1) { info.paperwidth = pageformat[bestmatch].w; info.paperheight = pageformat[bestmatch].h; break; } parse_dimensions(optarg, &p, &dimx, &dimy); if (*p == 0) { info.paperwidth = (int)round(double_of_dim(dimx, DEFAULT_DIM)); info.paperheight = (int)round(double_of_dim(dimy, DEFAULT_DIM)); break; } if (matches == 0) { fprintf(stderr, "" POTRACE ": unrecognized page format -- %s\n", optarg); } else { fprintf(stderr, "" POTRACE ": ambiguous page format -- %s\n", optarg); } j = fprintf(stderr, "Use one of: "); for (i=0; pageformat[i].name!=NULL; i++) { if (j + strlen(pageformat[i].name) > 75) { fprintf(stderr, "\n"); j = 0; } j += fprintf(stderr, "%s, ", pageformat[i].name); } fprintf(stderr, "or specify x.\n"); exit(1); break; case 't': info.param->turdsize = atoi(optarg); break; case 'u': info.unit = strtod(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid unit -- %s\n", optarg); exit(1); } break; case 'c': info.pslevel = 2; info.compress = 0; break; case '2': info.pslevel = 2; info.compress = 1; break; case '3': #ifdef HAVE_ZLIB info.pslevel = 3; info.compress = 1; #else fprintf(stderr, "" POTRACE ": option -3 not supported, using -2 instead.\n"); fflush(stderr); info.pslevel = 2; info.compress = 1; #endif break; case 'e': backend_lookup("eps", &info.backend); break; case 'p': backend_lookup("postscript", &info.backend); break; case 's': backend_lookup("svg", &info.backend); break; case 'g': backend_lookup("pgm", &info.backend); break; case 'b': r = backend_lookup(optarg, &info.backend); if (r==1 || r==2) { if (r==1) { fprintf(stderr, "" POTRACE ": unrecognized backend -- %s\n", optarg); } else { fprintf(stderr, "" POTRACE ": ambiguous backend -- %s\n", optarg); } j = fprintf(stderr, "Use one of: "); backend_list(stderr, j, 70); fprintf(stderr, ".\n"); exit(1); } break; case 'd': info.debug = atoi(optarg); break; case 'C': info.color = parse_color(optarg); if (info.color == -1) { fprintf(stderr, "" POTRACE ": invalid color -- %s\n", optarg); exit(1); } break; case OPT_FILLCOLOR: info.fillcolor = parse_color(optarg); if (info.fillcolor == -1) { fprintf(stderr, "" POTRACE ": invalid color -- %s\n", optarg); exit(1); } info.opaque = 1; break; case 'z': matches = 0; bestmatch = 0; for (i=0; turnpolicy[i].name!=NULL; i++) { if (strcasecmp(turnpolicy[i].name, optarg)==0) { matches = 1; bestmatch = i; break; } else if (strncasecmp(turnpolicy[i].name, optarg, strlen(optarg))==0) { matches++; bestmatch = i; } } if (matches == 1) { info.param->turnpolicy = turnpolicy[bestmatch].n; break; } if (matches == 0) { fprintf(stderr, "" POTRACE ": unrecognized turnpolicy -- %s\n", optarg); } else { fprintf(stderr, "" POTRACE ": ambiguous turnpolicy -- %s\n", optarg); } j = fprintf(stderr, "Use one of: "); for (i=0; turnpolicy[i].name!=NULL; i++) { if (j + strlen(turnpolicy[i].name) > 75) { fprintf(stderr, "\n"); j = 0; } j += fprintf(stderr, "%s%s", turnpolicy[i].name, turnpolicy[i+1].name ? ", " : ""); } fprintf(stderr, ".\n"); exit(1); break; case 'G': info.gamma = atof(optarg); break; case 'n': info.param->opticurve = 0; break; case 'q': info.longcoding = 1; break; case 'a': info.param->alphamax = strtod(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid alphamax -- %s\n", optarg); exit(1); } break; case 'O': info.param->opttolerance = strtod(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid opttolerance -- %s\n", optarg); exit(1); } break; case 'o': free(info.outfile); info.outfile = strdup(optarg); if (!info.outfile) { fprintf(stderr, "" POTRACE ": %s\n", strerror(errno)); exit(2); } break; case 'k': info.blacklevel = strtod(optarg, &p); if (*p) { fprintf(stderr, "" POTRACE ": invalid blacklevel -- %s\n", optarg); exit(1); } break; case 'i': info.invert = 1; break; case OPT_OPAQUE: info.opaque = 1; break; case OPT_GROUP: info.grouping = 2; break; case OPT_FLAT: info.grouping = 0; break; case OPT_PROGRESS: info.progress = 1; break; case OPT_TTY: if (strcmp(optarg, "dumb") == 0) { info.progress_bar = progress_bar_simplified; } else if (strcmp(optarg, "vt100") == 0) { info.progress_bar = progress_bar_vt100; } else { fprintf(stderr, "" POTRACE ": invalid tty mode -- %s. Try --help for more info\n", optarg); exit(1); } break; case '?': fprintf(stderr, "Try --help for more info\n"); exit(1); break; default: fprintf(stderr, "" POTRACE ": Unimplemented option -- %c\n", c); exit(1); } } info.infiles = &av[optind]; info.infilecount = ac-optind; info.some_infiles = info.infilecount ? 1 : 0; /* if "--" was used, even an empty list of filenames is considered "some" filenames. */ if (strcmp(av[optind-1], "--") == 0) { info.some_infiles = 1; } } /* ---------------------------------------------------------------------- */ /* calculations with bitmap dimensions, positioning etc */ /* determine the dimensions of the output based on command line and image dimensions, and optionally, based on the actual image outline. */ static void calc_dimensions(imginfo_t *imginfo, potrace_path_t *plist) { double dim_def; double maxwidth, maxheight, sc; int default_scaling = 0; /* we take care of a special case: if one of the image dimensions is 0, we change it to 1. Such an image is empty anyway, so there will be 0 paths in it. Changing the dimensions avoids division by 0 error in calculating scaling factors, bounding boxes and such. This doesn't quite do the right thing in all cases, but it is better than causing overflow errors or "nan" output in backends. Human users don't tend to process images of size 0 anyway; they might occur in some pipelines. */ if (imginfo->pixwidth == 0) { imginfo->pixwidth = 1; } if (imginfo->pixheight == 0) { imginfo->pixheight = 1; } /* set the default dimension for width, height, margins */ if (info.backend->pixel) { dim_def = DIM_PT; } else { dim_def = DEFAULT_DIM; } /* apply default dimension to width, height, margins */ imginfo->width = info.width_d.x == UNDEF ? UNDEF : double_of_dim(info.width_d, dim_def); imginfo->height = info.height_d.x == UNDEF ? UNDEF : double_of_dim(info.height_d, dim_def); imginfo->lmar = info.lmar_d.x == UNDEF ? UNDEF : double_of_dim(info.lmar_d, dim_def); imginfo->rmar = info.rmar_d.x == UNDEF ? UNDEF : double_of_dim(info.rmar_d, dim_def); imginfo->tmar = info.tmar_d.x == UNDEF ? UNDEF : double_of_dim(info.tmar_d, dim_def); imginfo->bmar = info.bmar_d.x == UNDEF ? UNDEF : double_of_dim(info.bmar_d, dim_def); /* start with a standard rectangle */ trans_from_rect(&imginfo->trans, imginfo->pixwidth, imginfo->pixheight); /* if info.tight is set, tighten the bounding box */ if (info.tight) { trans_tighten(&imginfo->trans, plist); } /* sx/rx is just an alternate way to specify width; sy/ry is just an alternate way to specify height. */ if (info.backend->pixel) { if (imginfo->width == UNDEF && info.sx != UNDEF) { imginfo->width = imginfo->trans.bb[0] * info.sx; } if (imginfo->height == UNDEF && info.sy != UNDEF) { imginfo->height = imginfo->trans.bb[1] * info.sy; } } else { if (imginfo->width == UNDEF && info.rx != UNDEF) { imginfo->width = imginfo->trans.bb[0] / info.rx * 72; } if (imginfo->height == UNDEF && info.ry != UNDEF) { imginfo->height = imginfo->trans.bb[1] / info.ry * 72; } } /* if one of width/height is specified, use stretch to determine the other */ if (imginfo->width == UNDEF && imginfo->height != UNDEF) { imginfo->width = imginfo->height / imginfo->trans.bb[1] * imginfo->trans.bb[0] / info.stretch; } else if (imginfo->width != UNDEF && imginfo->height == UNDEF) { imginfo->height = imginfo->width / imginfo->trans.bb[0] * imginfo->trans.bb[1] * info.stretch; } /* if width and height are still variable, tenatively use the default scaling factor of 72dpi (for dimension-based backends) or 1 (for pixel-based backends). For fixed-size backends, this will be adjusted later to fit the page. */ if (imginfo->width == UNDEF && imginfo->height == UNDEF) { imginfo->width = imginfo->trans.bb[0]; imginfo->height = imginfo->trans.bb[1] * info.stretch; default_scaling = 1; } /* apply scaling */ trans_scale_to_size(&imginfo->trans, imginfo->width, imginfo->height); /* apply rotation, and tighten the bounding box again, if necessary */ if (info.angle != 0.0) { trans_rotate(&imginfo->trans, info.angle); if (info.tight) { trans_tighten(&imginfo->trans, plist); } } /* for fixed-size backends, if default scaling was in effect, further adjust the scaling to be the "best fit" for the given page size and margins. */ if (default_scaling && info.backend->fixed) { /* try to squeeze it between margins */ maxwidth = UNDEF; maxheight = UNDEF; if (imginfo->lmar != UNDEF && imginfo->rmar != UNDEF) { maxwidth = info.paperwidth - imginfo->lmar - imginfo->rmar; } if (imginfo->bmar != UNDEF && imginfo->tmar != UNDEF) { maxheight = info.paperheight - imginfo->bmar - imginfo->tmar; } if (maxwidth == UNDEF && maxheight == UNDEF) { maxwidth = max(info.paperwidth - 144, info.paperwidth * 0.75); maxheight = max(info.paperheight - 144, info.paperheight * 0.75); } if (maxwidth == UNDEF) { sc = maxheight / imginfo->trans.bb[1]; } else if (maxheight == UNDEF) { sc = maxwidth / imginfo->trans.bb[0]; } else { sc = min(maxwidth / imginfo->trans.bb[0], maxheight / imginfo->trans.bb[1]); } /* re-scale coordinate system */ imginfo->width *= sc; imginfo->height *= sc; trans_rescale(&imginfo->trans, sc); } /* adjust margins */ if (info.backend->fixed) { if (imginfo->lmar == UNDEF && imginfo->rmar == UNDEF) { imginfo->lmar = (info.paperwidth-imginfo->trans.bb[0])/2; } else if (imginfo->lmar == UNDEF) { imginfo->lmar = (info.paperwidth-imginfo->trans.bb[0]-imginfo->rmar); } else if (imginfo->lmar != UNDEF && imginfo->rmar != UNDEF) { imginfo->lmar += (info.paperwidth-imginfo->trans.bb[0]-imginfo->lmar-imginfo->rmar)/2; } if (imginfo->bmar == UNDEF && imginfo->tmar == UNDEF) { imginfo->bmar = (info.paperheight-imginfo->trans.bb[1])/2; } else if (imginfo->bmar == UNDEF) { imginfo->bmar = (info.paperheight-imginfo->trans.bb[1]-imginfo->tmar); } else if (imginfo->bmar != UNDEF && imginfo->tmar != UNDEF) { imginfo->bmar += (info.paperheight-imginfo->trans.bb[1]-imginfo->bmar-imginfo->tmar)/2; } } else { if (imginfo->lmar == UNDEF) { imginfo->lmar = 0; } if (imginfo->rmar == UNDEF) { imginfo->rmar = 0; } if (imginfo->bmar == UNDEF) { imginfo->bmar = 0; } if (imginfo->tmar == UNDEF) { imginfo->tmar = 0; } } } /* ---------------------------------------------------------------------- */ /* auxiliary functions for file handling */ /* open a file for reading. Return stdin if filename is NULL or "-" */ static FILE *my_fopen_read(const char *filename) { if (filename == NULL || strcmp(filename, "-") == 0) { return stdin; } return fopen(filename, "rb"); } /* open a file for writing. Return stdout if filename is NULL or "-" */ static FILE *my_fopen_write(const char *filename) { if (filename == NULL || strcmp(filename, "-") == 0) { return stdout; } return fopen(filename, "wb"); } /* close a file, but do nothing is filename is NULL or "-" */ static void my_fclose(FILE *f, const char *filename) { if (filename == NULL || strcmp(filename, "-") == 0) { return; } fclose(f); } /* make output filename from input filename. Return an allocated value. */ static char *make_outfilename(const char *infile, const char *ext) { char *outfile; char *p; if (strcmp(infile, "-") == 0) { return strdup("-"); } outfile = (char *) malloc(strlen(infile)+strlen(ext)+5); if (!outfile) { return NULL; } strcpy(outfile, infile); p = strrchr(outfile, '.'); if (p) { *p = 0; } strcat(outfile, ext); /* check that input and output filenames are different */ if (strcmp(infile, outfile) == 0) { strcpy(outfile, infile); strcat(outfile, "-out"); } return outfile; } /* ---------------------------------------------------------------------- */ /* Process one infile */ /* Process one or more bitmaps from fin, and write the results to fout using the page_f function of the appropriate backend. */ static void process_file(backend_t *b, const char *infile, const char *outfile, FILE *fin, FILE *fout) { int r; potrace_bitmap_t *bm = NULL; imginfo_t imginfo; int eof_flag = 0; /* to indicate premature eof */ int count; /* number of bitmaps successfully processed, this file */ potrace_state_t *st; for (count=0; ; count++) { /* read a bitmap */ r = bm_read(fin, info.blacklevel, &bm); switch (r) { case -1: /* system error */ fprintf(stderr, "" POTRACE ": %s: %s\n", infile, strerror(errno)); exit(2); case -2: /* corrupt file format */ fprintf(stderr, "" POTRACE ": %s: file format error: %s\n", infile, bm_read_error); exit(2); case -3: /* empty file */ if (count>0) { /* end of file */ return; } fprintf(stderr, "" POTRACE ": %s: empty file\n", infile); exit(2); case -4: /* wrong magic */ if (count>0) { fprintf(stderr, "" POTRACE ": %s: warning: junk at end of file\n", infile); return; } fprintf(stderr, "" POTRACE ": %s: file format not recognized\n", infile); fprintf(stderr, "Possible input file formats are: pnm (pbm, pgm, ppm), bmp.\n"); exit(2); case 1: /* unexpected end of file */ fprintf(stderr, "" POTRACE ": warning: %s: premature end of file\n", infile); eof_flag = 1; break; } /* prepare progress bar, if requested */ if (info.progress) { r = info.progress_bar->init(&info.param->progress, infile, count); if (r) { fprintf(stderr, "" POTRACE ": %s\n", strerror(errno)); exit(2); } } else { info.param->progress.callback = NULL; } if (info.invert) { bm_invert(bm); } /* process the image */ st = potrace_trace(info.param, bm); if (!st || st->status != POTRACE_STATUS_OK) { fprintf(stderr, "" POTRACE ": %s: %s\n", infile, strerror(errno)); exit(2); } /* calculate image dimensions */ imginfo.pixwidth = bm->w; imginfo.pixheight = bm->h; bm_free(bm); calc_dimensions(&imginfo, st->plist); r = b->page_f(fout, st->plist, &imginfo); if (r) { fprintf(stderr, "" POTRACE ": %s: %s\n", outfile, strerror(errno)); exit(2); } potrace_state_free(st); if (info.progress) { info.progress_bar->term(&info.param->progress); } if (eof_flag || !b->multi) { return; } } /* not reached */ } /* ---------------------------------------------------------------------- */ /* main: handle file i/o */ #define TRY(x) if (x) goto try_error int main(int ac, char *av[]) { backend_t *b; /* backend info */ FILE *fin, *fout; int i; char *outfile; /* platform-specific initializations, e.g., set file i/o to binary */ platform_init(); /* process options */ dopts(ac, av); b = info.backend; if (b==NULL) { fprintf(stderr, "" POTRACE ": internal error: selected backend not found\n"); exit(1); } /* fix some parameters */ /* if backend cannot handle opticurve, disable it */ if (b->opticurve == 0) { info.param->opticurve = 0; } /* there are several ways to call us: potrace -- stdin to stdout potrace -o outfile -- stdin to outfile potrace file... -- encode each file and generate outfile names potrace -o outfile file... -- concatenate files and write to outfile The latter form is only allowed one file for single-page backends. For multi-page backends, each file must contain 0 or more complete bitmaps. */ if (!info.some_infiles) { /* read from stdin */ fout = my_fopen_write(info.outfile); if (!fout) { fprintf(stderr, "" POTRACE ": %s: %s\n", info.outfile ? info.outfile : "stdout", strerror(errno)); exit(2); } if (b->init_f) { TRY(b->init_f(fout)); } process_file(b, "stdin", info.outfile ? info.outfile : "stdout", stdin, fout); if (b->term_f) { TRY(b->term_f(fout)); } my_fclose(fout, info.outfile); free(info.outfile); potrace_param_free(info.param); return 0; } else if (!info.outfile) { /* infiles -> multiple outfiles */ for (i=0; iext); if (!outfile) { fprintf(stderr, "" POTRACE ": %s\n", strerror(errno)); exit(2); } fin = my_fopen_read(info.infiles[i]); if (!fin) { fprintf(stderr, "" POTRACE ": %s: %s\n", info.infiles[i], strerror(errno)); exit(2); } fout = my_fopen_write(outfile); if (!fout) { fprintf(stderr, "" POTRACE ": %s: %s\n", outfile, strerror(errno)); exit(2); } if (b->init_f) { TRY(b->init_f(fout)); } process_file(b, info.infiles[i], outfile, fin, fout); if (b->term_f) { TRY(b->term_f(fout)); } my_fclose(fin, info.infiles[i]); my_fclose(fout, outfile); free(outfile); } potrace_param_free(info.param); return 0; } else { /* infiles to single outfile */ if (!b->multi && info.infilecount >= 2) { fprintf(stderr, "" POTRACE ": cannot use multiple input files with -o in %s mode\n", b->name); exit(1); } if (info.infilecount == 0) { fprintf(stderr, "" POTRACE ": cannot use empty list of input files with -o\n"); exit(1); } fout = my_fopen_write(info.outfile); if (!fout) { fprintf(stderr, "" POTRACE ": %s: %s\n", info.outfile, strerror(errno)); exit(2); } if (b->init_f) { TRY(b->init_f(fout)); } for (i=0; iterm_f) { TRY(b->term_f(fout)); } my_fclose(fout, info.outfile); free(info.outfile); potrace_param_free(info.param); return 0; } /* not reached */ try_error: fprintf(stderr, "" POTRACE ": %s\n", strerror(errno)); exit(2); }