/*---------------------------------------------------------------------------- pstopnm ------------------------------------------------------------------------------ Use Ghostscript to convert a Postscript file into a PBM, PGM, or PNM file. Implementation note: This program feeds the input file to Ghostcript directly (with possible statements preceding it), and uses Ghostscript's PNM output device drivers. As an alternative, Ghostscript also comes with the Postscript program pstoppm.ps which we could run and it would read the input file and produce PNM output. It isn't clear to me what pstoppm.ps adds to what you get from just feeding your input directly to Ghostscript as the main program. -----------------------------------------------------------------------------*/ #define _BSD_SOURCE 1 /* Make sure strdup() is in string.h */ #define _XOPEN_SOURCE 500 /* Make sure fdopen() is in stdio.h and strdup() is in string.h */ #include #include #include #include #include #include #include #include "pm_c_util.h" #include "pnm.h" #include "shhopt.h" #include "nstring.h" enum orientation {PORTRAIT, LANDSCAPE, UNSPECIFIED}; struct box { /* Description of a rectangle within an image; all coordinates measured in points (1/72") with lower left corner of page being the origin. */ int llx; /* lower left X coord */ /* -1 for llx means whole box is undefined. */ int lly; /* lower left Y coord */ int urx; /* upper right X coord */ int ury; /* upper right Y coord */ }; struct cmdlineInfo { /* All the information the user supplied in the command line, in a form easy for the program to use. */ const char *input_filespec; /* Filespecs of input files */ unsigned int forceplain; struct box extract_box; unsigned int nocrop; unsigned int format_type; unsigned int verbose; float xborder; unsigned int xmax; unsigned int xsize; /* zero means unspecified */ float yborder; unsigned int ymax; unsigned int ysize; /* zero means unspecified */ unsigned int dpi; /* zero means unspecified */ enum orientation orientation; unsigned int goto_stdout; }; static void parseCommandLine(int argc, char ** argv, struct cmdlineInfo * const cmdlineP) { /*---------------------------------------------------------------------------- Note that the file spec array we return is stored in the storage that was passed to us as the argv array. -----------------------------------------------------------------------------*/ optEntry *option_def = malloc( 100*sizeof( optEntry ) ); /* Instructions to pm_optParseOptions3 on how to parse our options. */ optStruct3 opt; unsigned int option_def_index; unsigned int pbm_opt, pgm_opt, ppm_opt; unsigned int portrait_opt, landscape_opt; float llx, lly, urx, ury; unsigned int llxSpec, llySpec, urxSpec, urySpec; unsigned int xmaxSpec, ymaxSpec, xsizeSpec, ysizeSpec, dpiSpec; option_def_index = 0; /* incremented by OPTENTRY */ OPTENT3(0, "forceplain", OPT_FLAG, NULL, &cmdlineP->forceplain, 0); OPTENT3(0, "llx", OPT_FLOAT, &llx, &llxSpec, 0); OPTENT3(0, "lly", OPT_FLOAT, &lly, &llySpec, 0); OPTENT3(0, "urx", OPT_FLOAT, &urx, &urxSpec, 0); OPTENT3(0, "ury", OPT_FLOAT, &ury, &urySpec, 0); OPTENT3(0, "nocrop", OPT_FLAG, NULL, &cmdlineP->nocrop, 0); OPTENT3(0, "pbm", OPT_FLAG, NULL, &pbm_opt, 0); OPTENT3(0, "pgm", OPT_FLAG, NULL, &pgm_opt, 0); OPTENT3(0, "ppm", OPT_FLAG, NULL, &ppm_opt, 0); OPTENT3(0, "verbose", OPT_FLAG, NULL, &cmdlineP->verbose, 0); OPTENT3(0, "xborder", OPT_FLOAT, &cmdlineP->xborder, NULL, 0); OPTENT3(0, "xmax", OPT_UINT, &cmdlineP->xmax, &xmaxSpec, 0); OPTENT3(0, "xsize", OPT_UINT, &cmdlineP->xsize, &xsizeSpec, 0); OPTENT3(0, "yborder", OPT_FLOAT, &cmdlineP->yborder, NULL, 0); OPTENT3(0, "ymax", OPT_UINT, &cmdlineP->ymax, &ymaxSpec, 0); OPTENT3(0, "ysize", OPT_UINT, &cmdlineP->ysize, &ysizeSpec, 0); OPTENT3(0, "dpi", OPT_UINT, &cmdlineP->dpi, &dpiSpec, 0); OPTENT3(0, "portrait", OPT_FLAG, NULL, &portrait_opt, 0); OPTENT3(0, "landscape", OPT_FLAG, NULL, &landscape_opt, 0); OPTENT3(0, "stdout", OPT_FLAG, NULL, &cmdlineP->goto_stdout, 0); /* Set the defaults */ cmdlineP->xborder = cmdlineP->yborder = 0.1; opt.opt_table = option_def; opt.short_allowed = FALSE; /* We have no short (old-fashioned) options */ opt.allowNegNum = FALSE; /* We have no parms that are negative numbers */ pm_optParseOptions3(&argc, argv, opt, sizeof(opt), 0); /* Uses and sets argc, argv, and some of *cmdlineP and others. */ if (xmaxSpec) { if (cmdlineP->xmax == 0) pm_error("zero is not a valid value for -xmax"); } else cmdlineP->xmax = 612; if (ymaxSpec) { if (cmdlineP->ymax == 0) pm_error("zero is not a valid value for -ymax"); } else cmdlineP->ymax = 792; if (xsizeSpec) { if (cmdlineP->xsize == 0) pm_error("zero is not a valid value for -xsize"); } else cmdlineP->xsize = 0; if (ysizeSpec) { if (cmdlineP->ysize == 0) pm_error("zero is not a valid value for -ysize"); } else cmdlineP->ysize = 0; if (portrait_opt & !landscape_opt) cmdlineP->orientation = PORTRAIT; else if (!portrait_opt & landscape_opt) cmdlineP->orientation = LANDSCAPE; else if (!portrait_opt & !landscape_opt) cmdlineP->orientation = UNSPECIFIED; else pm_error("Cannot specify both -portrait and -landscape options"); if (pbm_opt) cmdlineP->format_type = PBM_TYPE; else if (pgm_opt) cmdlineP->format_type = PGM_TYPE; else if (ppm_opt) cmdlineP->format_type = PPM_TYPE; else cmdlineP->format_type = PPM_TYPE; /* If any one of the 4 bounding box coordinates is given on the command line, we default any of the 4 that aren't. */ if (llxSpec || llySpec || urxSpec || urySpec) { if (!llxSpec) cmdlineP->extract_box.llx = 72; else cmdlineP->extract_box.llx = llx * 72; if (!llySpec) cmdlineP->extract_box.lly = 72; else cmdlineP->extract_box.lly = lly * 72; if (!urxSpec) cmdlineP->extract_box.urx = 540; else cmdlineP->extract_box.urx = urx * 72; if (!urySpec) cmdlineP->extract_box.ury = 720; else cmdlineP->extract_box.ury = ury * 72; } else { cmdlineP->extract_box.llx = -1; } if (dpiSpec) { if (cmdlineP->dpi == 0) pm_error("Zero is not a valid value for -dpi"); } else cmdlineP->dpi = 0; if (dpiSpec && xsizeSpec + ysizeSpec + xmaxSpec + ymaxSpec > 0) pm_error("You may not specify both size options and -dpi"); if (argc-1 == 0) cmdlineP->input_filespec = "-"; /* stdin */ else if (argc-1 == 1) cmdlineP->input_filespec = argv[1]; else pm_error("Too many arguments (%d). " "Only need one: the Postscript filespec", argc-1); } static void addPsToFilespec(char const orig_filespec[], const char ** const new_filespec_p, bool const verbose) { /*---------------------------------------------------------------------------- If orig_filespec[] does not name an existing file, but the same name with ".ps" added to the end does, return the name with the .ps attached. Otherwise, just return orig_filespec[]. Return the name in newly malloc'ed storage, pointed to by *new_filespec_p. -----------------------------------------------------------------------------*/ struct stat statbuf; int stat_rc; stat_rc = lstat(orig_filespec, &statbuf); if (stat_rc == 0) *new_filespec_p = strdup(orig_filespec); else { const char *filespec_plus_ps; pm_asprintf(&filespec_plus_ps, "%s.ps", orig_filespec); stat_rc = lstat(filespec_plus_ps, &statbuf); if (stat_rc == 0) *new_filespec_p = strdup(filespec_plus_ps); else *new_filespec_p = strdup(orig_filespec); pm_strfree(filespec_plus_ps); } if (verbose) pm_message("Input file is %s", *new_filespec_p); } static void computeSizeResFromSizeSpec(unsigned int const requestedXsize, unsigned int const requestedYsize, unsigned int const imageWidth, unsigned int const imageHeight, unsigned int * const xsizeP, unsigned int * const ysizeP, unsigned int * const xresP, unsigned int * const yresP) { if (requestedXsize) { *xsizeP = requestedXsize; *xresP = (unsigned int) (requestedXsize * 72 / imageWidth + 0.5); if (!requestedYsize) { *yresP = *xresP; *ysizeP = (unsigned int) (imageHeight * (float)*yresP/72 + 0.5); } } if (requestedYsize) { *ysizeP = requestedYsize; *yresP = (unsigned int) (requestedYsize * 72 / imageHeight + 0.5); if (!requestedXsize) { *xresP = *yresP; *xsizeP = (unsigned int) (imageWidth * (float)*xresP/72 + 0.5); } } } static void computeSizeResBlind(unsigned int const xmax, unsigned int const ymax, unsigned int const imageWidth, unsigned int const imageHeight, bool const nocrop, unsigned int * const xsizeP, unsigned int * const ysizeP, unsigned int * const xresP, unsigned int * const yresP) { *xresP = *yresP = MIN(xmax * 72 / imageWidth, ymax * 72 / imageHeight); if (nocrop) { *xsizeP = xmax; *ysizeP = ymax; } else { *xsizeP = (unsigned int) (imageWidth * (float)*xresP / 72 + 0.5); *ysizeP = (unsigned int) (imageHeight * (float)*yresP / 72 + 0.5); } } static void computeSizeRes(struct cmdlineInfo const cmdline, enum orientation const orientation, struct box const bordered_box, unsigned int * const xsizeP, unsigned int * const ysizeP, unsigned int * const xresP, unsigned int * const yresP) { /*---------------------------------------------------------------------------- Figure out how big the output image should be (return as *xsizeP and *ysizeP) and what output device resolution Ghostscript should assume (return as *xresP, *yresP). A resolution number is the number of pixels per inch that the a printer prints. Since we're emulating a printed page with a PNM image, and a PNM image has no spatial dimension (you can't say how many inches wide a PNM image is), it's kind of confusing. If the user doesn't select a resolution, we choose the resolution that causes the image to be a certain number of pixels, knowing how big (in inches) Ghostscript wants the printed picture to be. For example, the part of the Postscript image we are going to print is 2 inches wide. We want the PNM image to be 1000 pixels wide. So we tell Ghostscript that our horizontal output device resolution is 500 pixels per inch. *xresP and *yresP are in dots per inch. -----------------------------------------------------------------------------*/ unsigned int sx, sy; /* The horizontal and vertical sizes of the input image, in points (1/72 inch) */ if (orientation == LANDSCAPE) { sx = bordered_box.ury - bordered_box.lly; sy = bordered_box.urx - bordered_box.llx; } else { sx = bordered_box.urx - bordered_box.llx; sy = bordered_box.ury - bordered_box.lly; } if (cmdline.dpi) { /* User gave resolution; we figure out output image size */ *xresP = *yresP = cmdline.dpi; *xsizeP = (int) (cmdline.dpi * sx / 72 + 0.5); *ysizeP = (int) (cmdline.dpi * sy / 72 + 0.5); } else if (cmdline.xsize || cmdline.ysize) computeSizeResFromSizeSpec(cmdline.xsize, cmdline.ysize, sx, sy, xsizeP, ysizeP, xresP, yresP); else computeSizeResBlind(cmdline.xmax, cmdline.ymax, sx, sy, cmdline.nocrop, xsizeP, ysizeP, xresP, yresP); if (cmdline.verbose) { pm_message("output is %u pixels wide X %u pixels high", *xsizeP, *ysizeP); pm_message("output device resolution is %u dpi horiz, %u dpi vert", *xresP, *yresP); } } enum postscript_language {COMMON_POSTSCRIPT, ENCAPSULATED_POSTSCRIPT}; static enum postscript_language languageDeclaration(char const input_filespec[], bool const verbose) { /*---------------------------------------------------------------------------- Return the Postscript language in which the file declares it is written. (Except that if the file is on Standard Input or doesn't validly declare a languages, just say it is Common Postscript). -----------------------------------------------------------------------------*/ enum postscript_language language; if (streq(input_filespec, "-")) /* Can't read stdin, because we need it to remain positioned for the Ghostscript interpreter to read it. */ language = COMMON_POSTSCRIPT; else { FILE *infile; char line[80]; infile = pm_openr(input_filespec); if (fgets(line, sizeof(line), infile) == NULL) language = COMMON_POSTSCRIPT; else { const char eps_header[] = " EPSF-"; if (strstr(line, eps_header)) language = ENCAPSULATED_POSTSCRIPT; else language = COMMON_POSTSCRIPT; } fclose(infile); } if (verbose) pm_message("language is %s", language == ENCAPSULATED_POSTSCRIPT ? "encapsulated postscript" : "not encapsulated postscript"); return language; } static struct box computeBoxToExtract(struct box const cmdline_extract_box, char const input_filespec[], bool const verbose) { struct box retval; if (cmdline_extract_box.llx != -1) /* User told us what box to extract, so that's what we'll do */ retval = cmdline_extract_box; else { /* Try to get the bounding box from the DSC %%BoundingBox statement (A Postscript comment) in the input. */ struct box ps_bb; /* Box described by %%BoundingBox stmt in input */ if (streq(input_filespec, "-")) /* Can't read stdin, because we need it to remain positioned for the Ghostscript interpreter to read it. */ ps_bb.llx = -1; else { FILE *infile; int found_BB, eof; /* logical */ infile = pm_openr(input_filespec); found_BB = FALSE; eof = FALSE; while (!eof && !found_BB) { char line[200]; if (fgets(line, sizeof(line), infile) == NULL) eof = TRUE; else { int rc; rc = sscanf(line, "%%%%BoundingBox: %d %d %d %d", &ps_bb.llx, &ps_bb.lly, &ps_bb.urx, &ps_bb.ury); if (rc == 4) found_BB = TRUE; } } fclose(infile); if (!found_BB) { ps_bb.llx = -1; pm_message("Warning: no %%%%BoundingBox statement " "in the input or command line.\n" "Will use defaults"); } } if (ps_bb.llx != -1) { if (verbose) pm_message("Using %%%%BoundingBox statement from input."); retval = ps_bb; } else { /* Use the center of an 8.5" x 11" page with 1" border all around*/ retval.llx = 72; retval.lly = 72; retval.urx = 540; retval.ury = 720; } } if (verbose) pm_message("Extracting the box ((%d,%d),(%d,%d))", retval.llx, retval.lly, retval.urx, retval.ury); return retval; } static enum orientation computeOrientation(struct cmdlineInfo const cmdline, struct box const extract_box) { enum orientation retval; unsigned int const input_width = extract_box.urx - extract_box.llx; unsigned int const input_height = extract_box.ury - extract_box.lly; if (cmdline.orientation != UNSPECIFIED) retval = cmdline.orientation; else { if ((!cmdline.xsize || !cmdline.ysize) & (cmdline.xsize || cmdline.ysize)) { /* User specified one output dimension, but not the other, so we can't use output dimensions to make the decision. So just use the input dimensions. */ if (input_height > input_width) retval = PORTRAIT; else retval = LANDSCAPE; } else { int output_width, output_height; if (cmdline.xsize) { /* He gave xsize and ysize, so that's the output size */ output_width = cmdline.xsize; output_height = cmdline.ysize; } else { /* Well then we'll just use his (or default) xmax, ymax */ output_width = cmdline.xmax; output_height = cmdline.ymax; } if (input_height > input_width && output_height > output_width) retval = PORTRAIT; else if (input_height < input_width && output_height < output_width) retval = PORTRAIT; else retval = LANDSCAPE; } } return retval; } static struct box addBorders(struct box const input_box, float const xborder_scale, float const yborder_scale, bool const verbose) { /*---------------------------------------------------------------------------- Return a box which is 'input_box' plus some borders. Add left and right borders that are the fraction 'xborder_scale' of the width of the input box; likewise for top and bottom borders with 'yborder_scale'. -----------------------------------------------------------------------------*/ struct box retval; const int left_right_border_size = (int) ((input_box.urx - input_box.llx) * xborder_scale + 0.5); const int top_bottom_border_size = (int) ((input_box.ury - input_box.lly) * yborder_scale + 0.5); retval.llx = input_box.llx - left_right_border_size; retval.lly = input_box.lly - top_bottom_border_size; retval.urx = input_box.urx + left_right_border_size; retval.ury = input_box.ury + top_bottom_border_size; if (verbose) pm_message("With borders, extracted box is ((%d,%d),(%d,%d))", retval.llx, retval.lly, retval.urx, retval.ury); return retval; } static const char * computePstrans(struct box const box, enum orientation const orientation, int const xsize, int const ysize, int const xres, int const yres) { const char * retval; if (orientation == PORTRAIT) { int llx, lly; llx = box.llx - (xsize * 72 / xres - (box.urx - box.llx)) / 2; lly = box.lly - (ysize * 72 / yres - (box.ury - box.lly)) / 2; pm_asprintf(&retval, "%d neg %d neg translate", llx, lly); } else { int llx, ury; llx = box.llx - (ysize * 72 / yres - (box.urx - box.llx)) / 2; ury = box.ury + (xsize * 72 / xres - (box.ury - box.lly)) / 2; pm_asprintf(&retval, "90 rotate %d neg %d neg translate", llx, ury); } if (retval == NULL) pm_error("Unable to allocate memory for pstrans"); return retval; } static const char * computeOutfileArg(struct cmdlineInfo const cmdline) { const char *retval; /* malloc'ed */ if (cmdline.goto_stdout) retval = strdup("-"); else if (streq(cmdline.input_filespec, "-")) retval = strdup("-"); else { char * basename; const char * suffix; basename = strdup(cmdline.input_filespec); if (strlen(basename) > 3 && streq(basename+strlen(basename)-3, ".ps")) /* The input filespec ends in ".ps". Chop it off. */ basename[strlen(basename)-3] = '\0'; switch (cmdline.format_type) { case PBM_TYPE: suffix = "pbm"; break; case PGM_TYPE: suffix = "pgm"; break; case PPM_TYPE: suffix = "ppm"; break; default: pm_error("Internal error: invalid value for format_type: %d", cmdline.format_type); } pm_asprintf(&retval, "%s%%03d.%s", basename, suffix); pm_strfree(basename); } return(retval); } static const char * computeGsDevice(int const format_type, bool const forceplain) { const char * basetype; const char * retval; switch (format_type) { case PBM_TYPE: basetype = "pbm"; break; case PGM_TYPE: basetype = "pgm"; break; case PPM_TYPE: basetype = "ppm"; break; default: pm_error("Internal error: invalid value format_type"); } if (forceplain) retval = strdup(basetype); else pm_asprintf(&retval, "%sraw", basetype); if (retval == NULL) pm_error("Unable to allocate memory for gs device"); return(retval); } static void findGhostscriptProg(const char ** const retvalP) { *retvalP = NULL; /* initial assumption */ if (getenv("GHOSTSCRIPT")) *retvalP = strdup(getenv("GHOSTSCRIPT")); if (*retvalP == NULL) { if (getenv("PATH") != NULL) { char *pathwork; /* malloc'ed */ const char * candidate; pathwork = strdup(getenv("PATH")); candidate = strtok(pathwork, ":"); *retvalP = NULL; while (!*retvalP && candidate) { struct stat statbuf; const char * filename; int rc; pm_asprintf(&filename, "%s/gs", candidate); rc = stat(filename, &statbuf); if (rc == 0) { if (S_ISREG(statbuf.st_mode)) *retvalP = strdup(filename); } else if (errno != ENOENT) pm_error("Error looking for Ghostscript program. " "stat(\"%s\") returns errno %d (%s)", filename, errno, strerror(errno)); pm_strfree(filename); candidate = strtok(NULL, ":"); } free(pathwork); } } if (*retvalP == NULL) *retvalP = strdup("/usr/bin/gs"); } static void execGhostscript(int const inputPipeFd, char const ghostscript_device[], char const outfile_arg[], int const xsize, int const ysize, int const xres, int const yres, char const input_filespec[], bool const verbose) { const char * arg0; const char * ghostscriptProg; const char * deviceopt; const char * outfileopt; const char * gopt; const char * ropt; int rc; findGhostscriptProg(&ghostscriptProg); /* Put the input pipe on Standard Input */ rc = dup2(inputPipeFd, STDIN_FILENO); close(inputPipeFd); pm_asprintf(&arg0, "gs"); pm_asprintf(&deviceopt, "-sDEVICE=%s", ghostscript_device); pm_asprintf(&outfileopt, "-sOutputFile=%s", outfile_arg); pm_asprintf(&gopt, "-g%dx%d", xsize, ysize); pm_asprintf(&ropt, "-r%dx%d", xres, yres); /* -dSAFER causes Postscript to disable %pipe and file operations, which are almost certainly not needed here. This prevents our Postscript program from doing crazy unexpected things, possibly as a result of a malicious booby trapping of our Postscript file. */ if (verbose) { pm_message("execing '%s' with args '%s' (arg 0), " "'%s', '%s', '%s', '%s', '%s', '%s', '%s', '%s'", ghostscriptProg, arg0, deviceopt, outfileopt, gopt, ropt, "-q", "-dNOPAUSE", "-dSAFER", "-"); } execl(ghostscriptProg, arg0, deviceopt, outfileopt, gopt, ropt, "-q", "-dNOPAUSE", "-dSAFER", "-", NULL); pm_error("execl() of Ghostscript ('%s') failed, errno=%d (%s)", ghostscriptProg, errno, strerror(errno)); } static void executeGhostscript(char const pstrans[], char const ghostscript_device[], char const outfile_arg[], int const xsize, int const ysize, int const xres, int const yres, char const input_filespec[], enum postscript_language const language, bool const verbose) { int gs_exit; /* wait4 exit code from Ghostscript */ FILE *gs; /* Pipe to Ghostscript's standard input */ FILE *infile; int rc; int eof; /* End of file on input */ int pipefd[2]; if (strlen(outfile_arg) > 80) pm_error("output file spec too long."); rc = pipe(pipefd); if (rc < 0) pm_error("Unable to create pipe to talk to Ghostscript process. " "errno = %d (%s)", errno, strerror(errno)); rc = fork(); if (rc < 0) pm_error("Unable to fork a Ghostscript process. errno=%d (%s)", errno, strerror(errno)); else if (rc == 0) { /* Child process */ close(pipefd[1]); execGhostscript(pipefd[0], ghostscript_device, outfile_arg, xsize, ysize, xres, yres, input_filespec, verbose); } else { pid_t const ghostscriptPid = rc; int const pipeToGhostscriptFd = pipefd[1]; /* parent process */ close(pipefd[0]); gs = fdopen(pipeToGhostscriptFd, "w"); if (gs == NULL) pm_error("Unable to open stream on pipe to Ghostscript process."); infile = pm_openr(input_filespec); /* In encapsulated Postscript, we the encapsulator are supposed to handle showing the page (which we do by passing a showpage statement to Ghostscript). Any showpage statement in the input must be defined to have no effect. See "Enscapsulated PostScript Format File Specification", v. 3.0, 1 May 1992, in particular Example 2, p. 21. I found it at http://partners.adobe.com/asn/developer/pdfs/tn/5002.EPSF_Spec.pdf The example given is a much fancier solution than we need here, I think, so I boiled it down a bit. JM */ if (language == ENCAPSULATED_POSTSCRIPT) fprintf(gs, "\n/b4_Inc_state save def /showpage { } def\n"); if (verbose) pm_message("Postscript prefix command: '%s'", pstrans); fprintf(gs, "%s\n", pstrans); /* If our child dies, it closes the pipe and when we next write to it, we get a SIGPIPE. We must survive that signal in order to report on the fate of the child. So we ignore SIGPIPE: */ signal(SIGPIPE, SIG_IGN); eof = FALSE; while (!eof) { char buffer[4096]; int bytes_read; bytes_read = fread(buffer, 1, sizeof(buffer), infile); if (bytes_read == 0) eof = TRUE; else fwrite(buffer, 1, bytes_read, gs); } pm_close(infile); if (language == ENCAPSULATED_POSTSCRIPT) fprintf(gs, "\nb4_Inc_state restore showpage\n"); fclose(gs); waitpid(ghostscriptPid, &gs_exit, 0); if (rc < 0) pm_error("Wait for Ghostscript process to terminated failed. " "errno = %d (%s)", errno, strerror(errno)); if (gs_exit != 0) { if (WIFEXITED(gs_exit)) pm_error("Ghostscript failed. Exit code=%d\n", WEXITSTATUS(gs_exit)); else if (WIFSIGNALED(gs_exit)) pm_error("Ghostscript process died due to a signal %d.", WTERMSIG(gs_exit)); else pm_error("Ghostscript process died with exit code %d", gs_exit); } } } int main(int argc, char ** argv) { struct cmdlineInfo cmdline; const char * input_filespec; /* malloc'ed */ /* The file specification of our Postscript input file */ unsigned int xres, yres; /* Resolution in pixels per inch */ unsigned int xsize, ysize; /* output image size in pixels */ struct box extract_box; /* coordinates of the box within the input we are to extract; i.e. that will become the output. */ struct box bordered_box; /* Same as above, but expanded to include borders */ enum postscript_language language; enum orientation orientation; const char * ghostscript_device; const char * outfile_arg; const char * pstrans; pnm_init(&argc, argv); parseCommandLine(argc, argv, &cmdline); addPsToFilespec(cmdline.input_filespec, &input_filespec, cmdline.verbose); extract_box = computeBoxToExtract(cmdline.extract_box, input_filespec, cmdline.verbose); language = languageDeclaration(input_filespec, cmdline.verbose); orientation = computeOrientation(cmdline, extract_box); bordered_box = addBorders(extract_box, cmdline.xborder, cmdline.yborder, cmdline.verbose); computeSizeRes(cmdline, orientation, bordered_box, &xsize, &ysize, &xres, &yres); pstrans = computePstrans(bordered_box, orientation, xsize, ysize, xres, yres); outfile_arg = computeOutfileArg(cmdline); ghostscript_device = computeGsDevice(cmdline.format_type, cmdline.forceplain); pm_message("Writing %s file", ghostscript_device); executeGhostscript(pstrans, ghostscript_device, outfile_arg, xsize, ysize, xres, yres, input_filespec, language, cmdline.verbose); pm_strfree(ghostscript_device); pm_strfree(outfile_arg); pm_strfree(pstrans); return 0; }