//======================================================================== // // pdftocairo.cc // // Copyright 2003 Glyph & Cog, LLC // //======================================================================== //======================================================================== // // Modified under the Poppler project - http://poppler.freedesktop.org // // All changes made under the Poppler project to this file are licensed // under GPL version 2 or later // // Copyright (C) 2007 Ilmari Heikkinen // Copyright (C) 2008 Richard Airlie // Copyright (C) 2009 Michael K. Johnson // Copyright (C) 2009 Shen Liang // Copyright (C) 2009 Stefan Thomas // Copyright (C) 2009, 2010, 2017-2020, 2022 Albert Astals Cid // Copyright (C) 2010, 2011-2017, 2023, 2024 Adrian Johnson // Copyright (C) 2010, 2014 Hib Eris // Copyright (C) 2010 Jonathan Liu // Copyright (C) 2010 William Bader // Copyright (C) 2011 Thomas Freitag // Copyright (C) 2011, 2015 Carlos Garcia Campos // Copyright (C) 2012 Koji Otani // Copyright (C) 2013 Lu Wang // Copyright (C) 2013, 2017 Suzuki Toshiya // Copyright (C) 2014 Rodrigo Rivas Costa // Copyright (C) 2016 Jason Crain // Copyright (C) 2018 Martin Packman // Copyright (C) 2018 Adam Reichold // Copyright (C) 2019, 2020 Oliver Sander // Copyright (C) 2019 Kris Jurka // Copyright (C) 2020, 2021 Oliver Sander // Copyright (C) 2020 Philipp Knechtges // Copyright (C) 2020 Salvo Miosi // Copyright (C) 2021 Peter Williams // Copyright (C) 2021 Christian Persch // Copyright (C) 2022 James Cloos // Copyright (C) 2023 Anton Thomasson // // To see a description of the changes please see the Changelog file that // came with your tarball or type make ChangeLog if you are building from git // //======================================================================== #include "config.h" #include #include #include #include #include #include #if defined(_WIN32) || defined(__CYGWIN__) # include // for _setmode #endif #include "parseargs.h" #include "goo/gmem.h" #include "goo/GooString.h" #include "goo/ImgWriter.h" #include "goo/JpegWriter.h" #include "goo/PNGWriter.h" #include "goo/TiffWriter.h" #include "GlobalParams.h" #include "Object.h" #include "PDFDoc.h" #include "PDFDocFactory.h" #include "CairoOutputDev.h" #include "Win32Console.h" #include "numberofcharacters.h" #ifdef USE_CMS # include #endif #include #ifdef CAIRO_HAS_PS_SURFACE # include #endif #ifdef CAIRO_HAS_PDF_SURFACE # include #endif #ifdef CAIRO_HAS_SVG_SURFACE # include #endif #include "pdftocairo-win32.h" static bool png = false; static bool jpeg = false; static bool ps = false; static bool eps = false; static bool pdf = false; static bool printToWin32 = false; static bool printdlg = false; static bool svg = false; static bool tiff = false; static int firstPage = 1; static int lastPage = 0; static bool printOnlyOdd = false; static bool printOnlyEven = false; static bool singleFile = false; static double resolution = 0.0; static double x_resolution = 150.0; static double y_resolution = 150.0; static int scaleTo = 0; static int x_scaleTo = 0; static int y_scaleTo = 0; static int crop_x = 0; static int crop_y = 0; static int crop_w = 0; static int crop_h = 0; static int sz = 0; static bool useCropBox = false; static bool mono = false; static bool gray = false; static bool transp = false; static GooString antialias; static GooString icc; static bool level2 = false; static bool level3 = false; static bool origPageSizes = false; static char paperSize[15] = ""; static int paperWidth = -1; static int paperHeight = -1; static bool noCrop = false; static bool expand = false; static bool noShrink = false; static bool noCenter = false; static bool duplex = false; static char tiffCompressionStr[16] = ""; static bool docStruct = false; static char ownerPassword[33] = ""; static char userPassword[33] = ""; static bool quiet = false; static bool printVersion = false; static bool printHelp = false; static GooString jpegOpt; static int jpegQuality = -1; static bool jpegProgressive = false; static bool jpegOptimize = false; static GooString printer; static GooString printOpt; #ifdef CAIRO_HAS_WIN32_SURFACE static bool setupdlg = false; #endif static const ArgDesc argDesc[] = { #ifdef ENABLE_LIBPNG { "-png", argFlag, &png, 0, "generate a PNG file" }, #endif #ifdef ENABLE_LIBJPEG { "-jpeg", argFlag, &jpeg, 0, "generate a JPEG file" }, { "-jpegopt", argGooString, &jpegOpt, 0, "jpeg options, with format =[,=]*" }, #endif #ifdef ENABLE_LIBTIFF { "-tiff", argFlag, &tiff, 0, "generate a TIFF file" }, { "-tiffcompression", argString, tiffCompressionStr, sizeof(tiffCompressionStr), "set TIFF compression: none, packbits, jpeg, lzw, deflate" }, #endif #ifdef CAIRO_HAS_PS_SURFACE { "-ps", argFlag, &ps, 0, "generate PostScript file" }, { "-eps", argFlag, &eps, 0, "generate Encapsulated PostScript (EPS)" }, #endif #ifdef CAIRO_HAS_PDF_SURFACE { "-pdf", argFlag, &pdf, 0, "generate a PDF file" }, #endif #ifdef CAIRO_HAS_SVG_SURFACE { "-svg", argFlag, &svg, 0, "generate a Scalable Vector Graphics (SVG) file" }, #endif #ifdef CAIRO_HAS_WIN32_SURFACE { "-print", argFlag, &printToWin32, 0, "print to a Windows printer" }, { "-printdlg", argFlag, &printdlg, 0, "show Windows print dialog and print" }, { "-printer", argGooString, &printer, 0, "printer name or use default if this option is not specified" }, { "-printopt", argGooString, &printOpt, 0, "printer options, with format =[,=]*" }, { "-setupdlg", argFlag, &setupdlg, 0, "show printer setup dialog before printing" }, #endif { "-f", argInt, &firstPage, 0, "first page to print" }, { "-l", argInt, &lastPage, 0, "last page to print" }, { "-o", argFlag, &printOnlyOdd, 0, "print only odd pages" }, { "-e", argFlag, &printOnlyEven, 0, "print only even pages" }, { "-singlefile", argFlag, &singleFile, 0, "write only the first page and do not add digits" }, { "-r", argFP, &resolution, 0, "resolution, in PPI (default is 150)" }, { "-rx", argFP, &x_resolution, 0, "X resolution, in PPI (default is 150)" }, { "-ry", argFP, &y_resolution, 0, "Y resolution, in PPI (default is 150)" }, { "-scale-to", argInt, &scaleTo, 0, "scales each page to fit within scale-to*scale-to pixel box" }, { "-scale-to-x", argInt, &x_scaleTo, 0, "scales each page horizontally to fit in scale-to-x pixels" }, { "-scale-to-y", argInt, &y_scaleTo, 0, "scales each page vertically to fit in scale-to-y pixels" }, { "-x", argInt, &crop_x, 0, "x-coordinate of the crop area top left corner" }, { "-y", argInt, &crop_y, 0, "y-coordinate of the crop area top left corner" }, { "-W", argInt, &crop_w, 0, "width of crop area in pixels (default is 0)" }, { "-H", argInt, &crop_h, 0, "height of crop area in pixels (default is 0)" }, { "-sz", argInt, &sz, 0, "size of crop square in pixels (sets W and H)" }, { "-cropbox", argFlag, &useCropBox, 0, "use the crop box rather than media box" }, { "-mono", argFlag, &mono, 0, "generate a monochrome image file (PNG, JPEG)" }, { "-gray", argFlag, &gray, 0, "generate a grayscale image file (PNG, JPEG)" }, { "-transp", argFlag, &transp, 0, "use a transparent background instead of white (PNG)" }, { "-antialias", argGooString, &antialias, 0, "set cairo antialias option" }, #ifdef USE_CMS { "-icc", argGooString, &icc, 0, "ICC color profile to use" }, #endif { "-level2", argFlag, &level2, 0, "generate Level 2 PostScript (PS, EPS)" }, { "-level3", argFlag, &level3, 0, "generate Level 3 PostScript (PS, EPS)" }, { "-origpagesizes", argFlag, &origPageSizes, 0, "conserve original page sizes (PS, PDF, SVG)" }, { "-paper", argString, paperSize, sizeof(paperSize), "paper size (letter, legal, A4, A3, match)" }, { "-paperw", argInt, &paperWidth, 0, "paper width, in points" }, { "-paperh", argInt, &paperHeight, 0, "paper height, in points" }, { "-nocrop", argFlag, &noCrop, 0, "don't crop pages to CropBox" }, { "-expand", argFlag, &expand, 0, "expand pages smaller than the paper size" }, { "-noshrink", argFlag, &noShrink, 0, "don't shrink pages larger than the paper size" }, { "-nocenter", argFlag, &noCenter, 0, "don't center pages smaller than the paper size" }, { "-duplex", argFlag, &duplex, 0, "enable duplex printing" }, #if CAIRO_VERSION >= CAIRO_VERSION_ENCODE(1, 18, 0) { "-struct", argFlag, &docStruct, 0, "enable logical document structure" }, #endif { "-opw", argString, ownerPassword, sizeof(ownerPassword), "owner password (for encrypted files)" }, { "-upw", argString, userPassword, sizeof(userPassword), "user password (for encrypted files)" }, { "-q", argFlag, &quiet, 0, "don't print any messages or errors" }, { "-v", argFlag, &printVersion, 0, "print copyright and version info" }, { "-h", argFlag, &printHelp, 0, "print usage information" }, { "-help", argFlag, &printHelp, 0, "print usage information" }, { "--help", argFlag, &printHelp, 0, "print usage information" }, { "-?", argFlag, &printHelp, 0, "print usage information" }, {} }; static cairo_surface_t *surface; static bool printing; static FILE *output_file; static bool usePDFPageSize; static cairo_antialias_t antialiasEnum = CAIRO_ANTIALIAS_DEFAULT; #ifdef USE_CMS static unsigned char *icc_data; static int icc_data_size; static GfxLCMSProfilePtr profile; #endif struct AntialiasOption { const char *name; cairo_antialias_t value; }; static const AntialiasOption antialiasOptions[] = { { "default", CAIRO_ANTIALIAS_DEFAULT }, { "none", CAIRO_ANTIALIAS_NONE }, { "gray", CAIRO_ANTIALIAS_GRAY }, { "subpixel", CAIRO_ANTIALIAS_SUBPIXEL }, { "fast", CAIRO_ANTIALIAS_FAST }, { "good", CAIRO_ANTIALIAS_GOOD }, { "best", CAIRO_ANTIALIAS_BEST }, { nullptr, CAIRO_ANTIALIAS_DEFAULT }, }; static bool parseAntialiasOption() { const AntialiasOption *option = antialiasOptions; while (option->name) { if (antialias.cmp(option->name) == 0) { antialiasEnum = option->value; return true; } option++; } fprintf(stderr, "Error: Invalid antialias option \"%s\"\n", antialias.c_str()); fprintf(stderr, "Valid options are:\n"); option = antialiasOptions; while (option->name) { fprintf(stderr, " %s\n", option->name); option++; } return false; } static bool parseJpegOptions() { // jpegOpt format is: =,=,... const char *nextOpt = jpegOpt.c_str(); while (nextOpt && *nextOpt) { const char *comma = strchr(nextOpt, ','); GooString opt; if (comma) { opt.Set(nextOpt, static_cast(comma - nextOpt)); nextOpt = comma + 1; } else { opt.Set(nextOpt); nextOpt = nullptr; } // here opt is "= " const char *equal = strchr(opt.c_str(), '='); if (!equal) { fprintf(stderr, "Unknown jpeg option \"%s\"\n", opt.c_str()); return false; } const int iequal = static_cast(equal - opt.c_str()); GooString value(&opt, iequal + 1, opt.getLength() - iequal - 1); opt.del(iequal, opt.getLength() - iequal); // here opt is "" and value is "" if (opt.cmp("quality") == 0) { if (!isInt(value.c_str())) { fprintf(stderr, "Invalid jpeg quality\n"); return false; } jpegQuality = atoi(value.c_str()); if (jpegQuality < 0 || jpegQuality > 100) { fprintf(stderr, "jpeg quality must be between 0 and 100\n"); return false; } } else if (opt.cmp("progressive") == 0) { jpegProgressive = false; if (value.cmp("y") == 0) { jpegProgressive = true; } else if (value.cmp("n") != 0) { fprintf(stderr, "jpeg progressive option must be \"y\" or \"n\"\n"); return false; } } else if (opt.cmp("optimize") == 0 || opt.cmp("optimise") == 0) { jpegOptimize = false; if (value.cmp("y") == 0) { jpegOptimize = true; } else if (value.cmp("n") != 0) { fprintf(stderr, "jpeg optimize option must be \"y\" or \"n\"\n"); return false; } } else { fprintf(stderr, "Unknown jpeg option \"%s\"\n", opt.c_str()); return false; } } return true; } static void writePageImage(GooString *filename) { ImgWriter *writer = nullptr; FILE *file; int height, width, stride; unsigned char *data; if (png) { #ifdef ENABLE_LIBPNG if (transp) { writer = new PNGWriter(PNGWriter::RGBA); } else if (gray) { writer = new PNGWriter(PNGWriter::GRAY); } else if (mono) { writer = new PNGWriter(PNGWriter::MONOCHROME); } else { writer = new PNGWriter(PNGWriter::RGB); } # ifdef USE_CMS if (icc_data) { cmsUInt8Number profileID[17]; profileID[16] = '\0'; cmsGetHeaderProfileID(profile.get(), profileID); static_cast(writer)->setICCProfile(reinterpret_cast(profileID), icc_data, icc_data_size); } else { static_cast(writer)->setSRGBProfile(); } # endif #endif } else if (jpeg) { #ifdef ENABLE_LIBJPEG if (gray) { writer = new JpegWriter(JpegWriter::GRAY); } else { writer = new JpegWriter(JpegWriter::RGB); } static_cast(writer)->setOptimize(jpegOptimize); static_cast(writer)->setProgressive(jpegProgressive); if (jpegQuality >= 0) { static_cast(writer)->setQuality(jpegQuality); } #endif } else if (tiff) { #ifdef ENABLE_LIBTIFF if (transp) { writer = new TiffWriter(TiffWriter::RGBA_PREMULTIPLIED); } else if (gray) { writer = new TiffWriter(TiffWriter::GRAY); } else if (mono) { writer = new TiffWriter(TiffWriter::MONOCHROME); } else { writer = new TiffWriter(TiffWriter::RGB); } static_cast(writer)->setCompressionString(tiffCompressionStr); #endif } if (!writer) { return; } if (filename->cmp("fd://0") == 0) { #if defined(_WIN32) || defined(__CYGWIN__) _setmode(fileno(stdout), O_BINARY); #endif file = stdout; } else { file = fopen(filename->c_str(), "wb"); } if (!file) { fprintf(stderr, "Error opening output file %s\n", filename->c_str()); exit(2); } height = cairo_image_surface_get_height(surface); width = cairo_image_surface_get_width(surface); stride = cairo_image_surface_get_stride(surface); cairo_surface_flush(surface); data = cairo_image_surface_get_data(surface); if (!writer->init(file, width, height, x_resolution, y_resolution)) { fprintf(stderr, "Error writing %s\n", filename->c_str()); exit(2); } unsigned char *row = (unsigned char *)gmallocn(width, 4); for (int y = 0; y < height; y++) { uint32_t *pixel = reinterpret_cast((data + y * stride)); unsigned char *rowp = row; int bit = 7; for (int x = 0; x < width; x++, pixel++) { if (transp) { if (tiff) { // RGBA premultipled format *rowp++ = (*pixel & 0xff0000) >> 16; *rowp++ = (*pixel & 0x00ff00) >> 8; *rowp++ = (*pixel & 0x0000ff) >> 0; *rowp++ = (*pixel & 0xff000000) >> 24; } else { // unpremultiply into RGBA format uint8_t a; a = (*pixel & 0xff000000) >> 24; if (a == 0) { *rowp++ = 0; *rowp++ = 0; *rowp++ = 0; } else { *rowp++ = (((*pixel & 0xff0000) >> 16) * 255 + a / 2) / a; *rowp++ = (((*pixel & 0x00ff00) >> 8) * 255 + a / 2) / a; *rowp++ = (((*pixel & 0x0000ff) >> 0) * 255 + a / 2) / a; } *rowp++ = a; } } else if (gray || mono) { // convert to gray // The PDF Reference specifies the DeviceRGB to DeviceGray conversion as // gray = 0.3*red + 0.59*green + 0.11*blue const int r = (*pixel & 0x00ff0000) >> 16; const int g = (*pixel & 0x0000ff00) >> 8; const int b = (*pixel & 0x000000ff) >> 0; // an arbitrary integer approximation of .3*r + .59*g + .11*b const int grayValue = (r * 19661 + g * 38666 + b * 7209 + 32829) >> 16; if (mono) { if (bit == 7) { *rowp = 0; } if (grayValue > 127) { *rowp |= (1 << bit); } bit--; if (bit < 0) { bit = 7; rowp++; } } else { *rowp++ = grayValue; } } else { // copy into RGB format *rowp++ = (*pixel & 0x00ff0000) >> 16; *rowp++ = (*pixel & 0x0000ff00) >> 8; *rowp++ = (*pixel & 0x000000ff) >> 0; } } writer->writeRow(&row); } gfree(row); writer->close(); delete writer; if (file == stdout) { fflush(file); } else { fclose(file); } } static void getCropSize(double page_w, double page_h, double *width, double *height) { int w = crop_w; int h = crop_h; if (w == 0) { w = (int)ceil(page_w); } if (h == 0) { h = (int)ceil(page_h); } *width = (crop_x + w > page_w ? (int)ceil(page_w - crop_x) : w); *height = (crop_y + h > page_h ? (int)ceil(page_h - crop_y) : h); } static void getOutputSize(double page_w, double page_h, double *width, double *height) { if (printing) { if (usePDFPageSize) { *width = page_w; *height = page_h; } else { if (page_w > page_h) { *width = paperHeight; *height = paperWidth; } else { *width = paperWidth; *height = paperHeight; } } } else { getCropSize(page_w * x_resolution / 72.0, page_h * y_resolution / 72.0, width, height); } } static void getFitToPageTransform(double page_w, double page_h, double paper_w, double paper_h, cairo_matrix_t *m) { double x_scale, y_scale, scale; x_scale = paper_w / page_w; y_scale = paper_h / page_h; if (x_scale < y_scale) { scale = x_scale; } else { scale = y_scale; } if (scale > 1.0 && !expand) { scale = 1.0; } if (scale < 1.0 && noShrink) { scale = 1.0; } cairo_matrix_init_identity(m); if (!noCenter) { // centre page cairo_matrix_translate(m, (paper_w - page_w * scale) / 2, (paper_h - page_h * scale) / 2); } else if (!svg) { // move to PostScript origin cairo_matrix_translate(m, 0, (paper_h - page_h * scale)); } cairo_matrix_scale(m, scale, scale); } static cairo_status_t writeStream(void *closure, const unsigned char *data, unsigned int length) { FILE *file = (FILE *)closure; if (fwrite(data, length, 1, file) == 1) { return CAIRO_STATUS_SUCCESS; } else { return CAIRO_STATUS_WRITE_ERROR; } } static void beginDocument(GooString *inputFileName, GooString *outputFileName, double w, double h) { if (printing) { if (printToWin32) { output_file = nullptr; } else { if (outputFileName->cmp("fd://0") == 0) { #if defined(_WIN32) || defined(__CYGWIN__) _setmode(fileno(stdout), O_BINARY); #endif output_file = stdout; } else { output_file = fopen(outputFileName->c_str(), "wb"); if (!output_file) { fprintf(stderr, "Error opening output file %s\n", outputFileName->c_str()); exit(2); } } } if (ps || eps) { #ifdef CAIRO_HAS_PS_SURFACE surface = cairo_ps_surface_create_for_stream(writeStream, output_file, w, h); if (level2) { cairo_ps_surface_restrict_to_level(surface, CAIRO_PS_LEVEL_2); } if (eps) { cairo_ps_surface_set_eps(surface, 1); } if (duplex) { cairo_ps_surface_dsc_comment(surface, "%%Requirements: duplex"); cairo_ps_surface_dsc_begin_setup(surface); cairo_ps_surface_dsc_comment(surface, "%%IncludeFeature: *Duplex DuplexNoTumble"); } cairo_ps_surface_dsc_begin_page_setup(surface); #endif } else if (pdf) { #ifdef CAIRO_HAS_PDF_SURFACE surface = cairo_pdf_surface_create_for_stream(writeStream, output_file, w, h); #endif } else if (svg) { #ifdef CAIRO_HAS_SVG_SURFACE surface = cairo_svg_surface_create_for_stream(writeStream, output_file, w, h); cairo_svg_surface_restrict_to_version(surface, CAIRO_SVG_VERSION_1_2); #endif } #ifdef CAIRO_HAS_WIN32_SURFACE if (printToWin32) surface = win32BeginDocument(inputFileName, outputFileName); #endif } } static void beginPage(double *w, double *h) { if (printing) { if (ps) { #ifdef CAIRO_HAS_PS_SURFACE if (*w > *h) { cairo_ps_surface_dsc_comment(surface, "%%PageOrientation: Landscape"); cairo_ps_surface_set_size(surface, *h, *w); } else { cairo_ps_surface_dsc_comment(surface, "%%PageOrientation: Portrait"); cairo_ps_surface_set_size(surface, *w, *h); } #endif } #ifdef CAIRO_HAS_PDF_SURFACE if (pdf) { cairo_pdf_surface_set_size(surface, *w, *h); } #endif #ifdef CAIRO_HAS_WIN32_SURFACE if (printToWin32) { bool changePageSize = true; if (setupdlg && !origPageSizes) changePageSize = false; win32BeginPage(w, h, changePageSize, noShrink); // w,h will be changed to actual size used } #endif cairo_surface_set_fallback_resolution(surface, x_resolution, y_resolution); } else { surface = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, static_cast(ceil(*w)), static_cast(ceil(*h))); } } static void renderPage(PDFDoc *doc, CairoOutputDev *cairoOut, int pg, double page_w, double page_h, double output_w, double output_h) { cairo_t *cr; cairo_status_t status; cairo_matrix_t m; cairo_font_options_t *font_options; cr = cairo_create(surface); cairo_set_antialias(cr, antialiasEnum); font_options = cairo_font_options_create(); cairo_get_font_options(cr, font_options); cairo_font_options_set_antialias(font_options, antialiasEnum); cairo_set_font_options(cr, font_options); cairo_font_options_destroy(font_options); cairoOut->setCairo(cr); cairoOut->setPrinting(printing); cairo_save(cr); if (ps && output_w > output_h) { // rotate 90 deg for landscape cairo_translate(cr, 0, output_w); cairo_matrix_init(&m, 0, -1, 1, 0, 0, 0); cairo_transform(cr, &m); } cairo_translate(cr, -crop_x, -crop_y); if (printing) { double cropped_w, cropped_h; getCropSize(page_w, page_h, &cropped_w, &cropped_h); getFitToPageTransform(cropped_w, cropped_h, output_w, output_h, &m); cairo_transform(cr, &m); cairo_rectangle(cr, crop_x, crop_y, cropped_w, cropped_h); cairo_clip(cr); } else { cairo_scale(cr, x_resolution / 72.0, y_resolution / 72.0); } doc->displayPageSlice(cairoOut, pg, 72.0, 72.0, 0, /* rotate */ !useCropBox, /* useMediaBox */ false, /* Crop */ printing, -1, -1, -1, -1); cairo_restore(cr); cairoOut->setCairo(nullptr); // Blend onto white page if (!printing && !transp) { cairo_save(cr); cairo_set_operator(cr, CAIRO_OPERATOR_DEST_OVER); cairo_set_source_rgb(cr, 1, 1, 1); cairo_paint(cr); cairo_restore(cr); } status = cairo_status(cr); if (status) { fprintf(stderr, "cairo error: %s\n", cairo_status_to_string(status)); } cairo_destroy(cr); } static void endPage(GooString *imageFileName, CairoOutputDev *cairoOut, bool isLastPage) { cairo_status_t status; cairo_t *cr; if (printing) { if (isLastPage) { cr = cairo_create(surface); cairoOut->setCairo(cr); cairoOut->setPrinting(printing); cairoOut->emitStructTree(); cairoOut->setCairo(nullptr); status = cairo_status(cr); if (status) { fprintf(stderr, "cairo error: %s\n", cairo_status_to_string(status)); } cairo_destroy(cr); } cairo_surface_show_page(surface); #ifdef CAIRO_HAS_WIN32_SURFACE if (printToWin32) win32EndPage(imageFileName); #endif } else { writePageImage(imageFileName); cairo_surface_finish(surface); status = cairo_surface_status(surface); if (status) { fprintf(stderr, "cairo error: %s\n", cairo_status_to_string(status)); } cairo_surface_destroy(surface); } } static void endDocument() { cairo_status_t status; if (printing) { cairo_surface_finish(surface); status = cairo_surface_status(surface); if (status) { fprintf(stderr, "cairo error: %s\n", cairo_status_to_string(status)); } cairo_surface_destroy(surface); #ifdef CAIRO_HAS_WIN32_SURFACE if (printToWin32) win32EndDocument(); #endif if (output_file) { fclose(output_file); } } } static bool setPSPaperSize(char *size, int &psPaperWidth, int &psPaperHeight) { if (!strcmp(size, "match")) { psPaperWidth = psPaperHeight = -1; } else if (!strcmp(size, "letter")) { psPaperWidth = 612; psPaperHeight = 792; } else if (!strcmp(size, "legal")) { psPaperWidth = 612; psPaperHeight = 1008; } else if (!strcmp(size, "A4")) { psPaperWidth = 595; psPaperHeight = 842; } else if (!strcmp(size, "A3")) { psPaperWidth = 842; psPaperHeight = 1190; } else { return false; } return true; } static GooString *getImageFileName(GooString *outputFileName, int numDigits, int page) { char buf[10]; GooString *imageName = new GooString(outputFileName); if (!singleFile) { snprintf(buf, sizeof(buf), "-%0*d", numDigits, page); imageName->append(buf); } if (outputFileName->cmp("fd://0") != 0) { if (png) { imageName->append(".png"); } else if (jpeg) { imageName->append(".jpg"); } else if (tiff) { imageName->append(".tif"); } } return imageName; } // If (printing || singleFile) the output file name includes the // extension. Otherwise it is the file name base. static GooString *getOutputFileName(GooString *fileName, GooString *outputName) { GooString *name; if (outputName) { if (outputName->cmp("-") == 0) { if (printToWin32 || (!printing && !singleFile)) { fprintf(stderr, "Error: stdout may only be used with the ps, eps, pdf, svg output options or if -singlefile is used.\n"); exit(99); } return new GooString("fd://0"); } return new GooString(outputName); } if (printToWin32) { return nullptr; // No output file means print to printer } if (fileName->cmp("fd://0") == 0) { fprintf(stderr, "Error: an output filename or '-' must be supplied when the PDF file is stdin.\n"); exit(99); } // be careful not to overwrite the input file when the output format is PDF if (pdf && fileName->cmpN("http://", 7) != 0 && fileName->cmpN("https://", 8) != 0) { fprintf(stderr, "Error: an output filename or '-' must be supplied when the output format is PDF and input PDF file is a local file.\n"); exit(99); } // strip everything up to last '/' const char *s = fileName->c_str(); const char *p = strrchr(s, '/'); if (p) { p++; if (*p == 0) { fprintf(stderr, "Error: invalid output filename.\n"); exit(99); } name = new GooString(p); } else { name = new GooString(s); } // remove .pdf extension p = strrchr(name->c_str(), '.'); if (p && strcasecmp(p, ".pdf") == 0) { GooString *name2 = new GooString(name->c_str(), name->getLength() - 4); delete name; name = name2; } // append new extension if (ps) { name->append(".ps"); } else if (eps) { name->append(".eps"); } else if (pdf) { name->append(".pdf"); } else if (svg) { name->append(".svg"); } return name; } static void checkInvalidPrintOption(bool option, const char *option_name) { if (option) { fprintf(stderr, "Error: %s may only be used with the -png, -jpeg, or -tiff output options.\n", option_name); exit(99); } } static void checkInvalidImageOption(bool option, const char *option_name) { if (option) { fprintf(stderr, "Error: %s may only be used with the -ps, -eps, -pdf, or -svg output options.\n", option_name); exit(99); } } int main(int argc, char *argv[]) { GooString *fileName = nullptr; GooString *outputName = nullptr; GooString *outputFileName = nullptr; GooString *imageFileName = nullptr; std::optional ownerPW, userPW; CairoOutputDev *cairoOut; int pg, pg_num_len; double pg_w, pg_h, tmp, output_w, output_h; int num_outputs; // parse args Win32Console win32Console(&argc, &argv); if (!parseArgs(argDesc, &argc, argv)) { printUsage("pdftocairo", nullptr, argDesc); exit(99); } if (resolution != 0.0 && (x_resolution == 150.0 || y_resolution == 150.0)) { x_resolution = resolution; y_resolution = resolution; } if (argc < 2 || argc > 3 || printVersion || printHelp) { fprintf(stderr, "pdftocairo version %s\n", PACKAGE_VERSION); fprintf(stderr, "%s\n", popplerCopyright); fprintf(stderr, "%s\n", xpdfCopyright); if (!printVersion) { printUsage("pdftocairo", " []", argDesc); } if (printVersion || printHelp) { exit(0); } else { exit(99); } } num_outputs = (png ? 1 : 0) + (jpeg ? 1 : 0) + (tiff ? 1 : 0) + (ps ? 1 : 0) + (eps ? 1 : 0) + (pdf ? 1 : 0) + (printToWin32 ? 1 : 0) + (printdlg ? 1 : 0) + (svg ? 1 : 0); if (num_outputs == 0) { fprintf(stderr, "Error: one of the output format options (-png, -jpeg, -ps, -eps, -pdf, -print, -printdlg, -svg) must be used.\n"); exit(99); } if (num_outputs > 1) { fprintf(stderr, "Error: use only one of the output format options (-png, -jpeg, -ps, -eps, -pdf, -printdlg, -print, -svg).\n"); exit(99); } if (png || jpeg || tiff) { printing = false; } else { printing = true; } if (printing) { checkInvalidPrintOption(mono, "-mono"); checkInvalidPrintOption(gray, "-gray"); checkInvalidPrintOption(transp, "-transp"); checkInvalidPrintOption(icc.c_str()[0], "-icc"); checkInvalidPrintOption(singleFile, "-singlefile"); checkInvalidPrintOption(useCropBox, "-cropbox"); checkInvalidPrintOption(scaleTo != 0, "-scale-to"); checkInvalidPrintOption(x_scaleTo != 0, "-scale-to-x"); checkInvalidPrintOption(y_scaleTo != 0, "-scale-to-y"); } else { checkInvalidImageOption(level2, "-level2"); checkInvalidImageOption(level3, "-level3"); checkInvalidImageOption(origPageSizes, "-origpagesizes"); checkInvalidImageOption(paperSize[0], "-paper"); checkInvalidImageOption(paperWidth > 0, "-paperw"); checkInvalidImageOption(paperHeight > 0, "-paperh"); checkInvalidImageOption(noCrop, "-nocrop"); checkInvalidImageOption(expand, "-expand"); checkInvalidImageOption(noShrink, "-noshrink"); checkInvalidImageOption(noCenter, "-nocenter"); checkInvalidImageOption(duplex, "-duplex"); } if (printing) { useCropBox = !noCrop; } if (icc.c_str()[0] && !png) { fprintf(stderr, "Error: -icc may only be used with png output.\n"); exit(99); } if (antialias.getLength() > 0) { if (!parseAntialiasOption()) { exit(99); } } if (transp && !(png || tiff)) { fprintf(stderr, "Error: -transp may only be used with png or tiff output.\n"); exit(99); } if (mono && gray) { fprintf(stderr, "Error: -mono and -gray may not be used together.\n"); exit(99); } if (mono && !(png || tiff)) { fprintf(stderr, "Error: -mono may only be used with png or tiff output.\n"); exit(99); } if (jpegOpt.getLength() > 0) { if (!jpeg) { fprintf(stderr, "Error: -jpegopt may only be used with jpeg output.\n"); exit(99); } if (!parseJpegOptions()) { exit(99); } } if (strlen(tiffCompressionStr) > 0 && !tiff) { fprintf(stderr, "Error: -tiffcompression may only be used with tiff output.\n"); exit(99); } if (level2 && level3) { fprintf(stderr, "Error: use only one of the 'level' options.\n"); exit(99); } if (!level2 && !level3) { level3 = true; } if (docStruct && !pdf) { fprintf(stderr, "Error: -struct may only be used with pdf or output.\n"); exit(99); } if (eps && (origPageSizes || paperSize[0] || paperWidth > 0 || paperHeight > 0)) { fprintf(stderr, "Error: page size options may not be used with eps output.\n"); exit(99); } if ((paperWidth > 0 && paperHeight <= 0) || (paperWidth <= 0 && paperHeight > 0)) { fprintf(stderr, "Error: both -paperw and -paperh must be specified.\n"); exit(99); } if (paperSize[0]) { if (origPageSizes) { fprintf(stderr, "Error: -origpagesizes and -paper may not be used together.\n"); exit(99); } if (!setPSPaperSize(paperSize, paperWidth, paperHeight)) { fprintf(stderr, "Invalid paper size\n"); exit(99); } } if (origPageSizes || paperWidth < 0 || paperHeight < 0) { usePDFPageSize = true; } else { usePDFPageSize = false; } if (printdlg) { printToWin32 = true; } globalParams = std::make_unique(); if (quiet) { globalParams->setErrQuiet(quiet); } // open PDF file if (ownerPassword[0]) { ownerPW = GooString(ownerPassword); } if (userPassword[0]) { userPW = GooString(userPassword); } fileName = new GooString(argv[1]); if (fileName->cmp("-") == 0) { delete fileName; fileName = new GooString("fd://0"); } if (argc == 3) { outputName = new GooString(argv[2]); } else { outputName = nullptr; } outputFileName = getOutputFileName(fileName, outputName); #ifdef USE_CMS icc_data = nullptr; if (icc.c_str()[0]) { FILE *file = fopen(icc.c_str(), "rb"); if (!file) { fprintf(stderr, "Error: unable to open icc profile %s\n", icc.c_str()); exit(4); } fseek(file, 0, SEEK_END); icc_data_size = ftell(file); fseek(file, 0, SEEK_SET); icc_data = (unsigned char *)gmalloc(icc_data_size); if (fread(icc_data, icc_data_size, 1, file) != 1) { fprintf(stderr, "Error: unable to read icc profile %s\n", icc.c_str()); exit(4); } fclose(file); profile = make_GfxLCMSProfilePtr(cmsOpenProfileFromMem(icc_data, icc_data_size)); if (!profile) { fprintf(stderr, "Error: lcms error opening profile\n"); exit(4); } } else { profile = make_GfxLCMSProfilePtr(cmsCreate_sRGBProfile()); } #endif std::unique_ptr doc = PDFDocFactory().createPDFDoc(*fileName, ownerPW, userPW); if (!doc->isOk()) { fprintf(stderr, "Error opening PDF file.\n"); exit(1); } #ifdef ENFORCE_PERMISSIONS // check for print permission if (printing && !doc->okToPrint()) { fprintf(stderr, "Printing this document is not allowed.\n"); exit(3); } #endif // get page range if (firstPage < 1) { firstPage = 1; } if (singleFile && lastPage < 1) { lastPage = firstPage; } if (lastPage < 1 || lastPage > doc->getNumPages()) { lastPage = doc->getNumPages(); } if (lastPage < firstPage) { fprintf(stderr, "Wrong page range given: the first page (%d) can not be after the last page (%d).\n", firstPage, lastPage); exit(99); } if (eps && firstPage != lastPage) { fprintf(stderr, "EPS files can only contain one page.\n"); exit(99); } // If our page range selection and document size indicate we're only // outputting a single page, ensure that even/odd page selection doesn't // filter out that single page. Also adjust first and last page so there are no pages // skipped at the start or end of the for loop. if ((printOnlyEven && firstPage % 2 == 1) || (printOnlyOdd && firstPage % 2 == 0)) { firstPage++; } if ((printOnlyEven && lastPage % 2 == 1) || (printOnlyOdd && lastPage % 2 == 0)) { lastPage--; } if (lastPage < firstPage) { fprintf(stderr, "Invalid even/odd page selection, no pages match criteria.\n"); exit(99); } if (singleFile && firstPage < lastPage) { if (!quiet) { fprintf(stderr, "Warning: Single file will write only the first of the %d pages.\n", lastPage + 1 - firstPage); } lastPage = firstPage; } #ifdef CAIRO_HAS_WIN32_SURFACE if (printdlg) { bool allPages = false; if (firstPage == 1 && lastPage == doc->getNumPages()) allPages = true; win32ShowPrintDialog(&expand, &noShrink, &noCenter, &usePDFPageSize, &allPages, &firstPage, &lastPage, doc->getNumPages()); if (allPages) { firstPage = 1; lastPage = doc->getNumPages(); } } else if (printToWin32) { win32SetupPrinter(&printer, &printOpt, duplex, setupdlg); } #endif cairoOut = new CairoOutputDev(); cairoOut->setLogicalStructure(docStruct); #ifdef USE_CMS cairoOut->setDisplayProfile(profile); #endif cairoOut->startDoc(doc.get()); if (sz != 0) { crop_w = crop_h = sz; } pg_num_len = numberOfCharacters(doc->getNumPages()); for (pg = firstPage; pg <= lastPage; ++pg) { if (printOnlyEven && pg % 2 == 1) { continue; } if (printOnlyOdd && pg % 2 == 0) { continue; } if (useCropBox) { pg_w = doc->getPageCropWidth(pg); pg_h = doc->getPageCropHeight(pg); } else { pg_w = doc->getPageMediaWidth(pg); pg_h = doc->getPageMediaHeight(pg); } if (printing && pg == firstPage) { if (paperWidth < 0 || paperHeight < 0) { paperWidth = (int)ceil(pg_w); paperHeight = (int)ceil(pg_h); } } if ((doc->getPageRotate(pg) == 90) || (doc->getPageRotate(pg) == 270)) { tmp = pg_w; pg_w = pg_h; pg_h = tmp; } if (scaleTo != 0) { resolution = (72.0 * scaleTo) / (pg_w > pg_h ? pg_w : pg_h); x_resolution = y_resolution = resolution; } else { if (x_scaleTo > 0) { x_resolution = (72.0 * x_scaleTo) / pg_w; if (y_scaleTo == -1) { y_resolution = x_resolution; } } if (y_scaleTo > 0) { y_resolution = (72.0 * y_scaleTo) / pg_h; if (x_scaleTo == -1) { x_resolution = y_resolution; } } } if (imageFileName) { delete imageFileName; imageFileName = nullptr; } if (!printing) { imageFileName = getImageFileName(outputFileName, pg_num_len, pg); } getOutputSize(pg_w, pg_h, &output_w, &output_h); if (pg == firstPage) { beginDocument(fileName, outputFileName, output_w, output_h); } beginPage(&output_w, &output_h); renderPage(doc.get(), cairoOut, pg, pg_w, pg_h, output_w, output_h); endPage(imageFileName, cairoOut, pg == lastPage); } endDocument(); // clean up delete cairoOut; if (fileName) { delete fileName; } if (outputName) { delete outputName; } if (outputFileName) { delete outputFileName; } if (imageFileName) { delete imageFileName; } #ifdef USE_CMS if (icc_data) { gfree(icc_data); } #endif #ifndef NDEBUG // Clear the cairo font cache. If all references to font faces or // scaled fonts have not been released this function will // assert. If this occurs we have found a memory leak. cairo_debug_reset_static_data(); #endif return 0; }