//======================================================================== // // SplashBitmap.cc // //======================================================================== //======================================================================== // // 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) 2006, 2009, 2010, 2012, 2015, 2018, 2019 Albert Astals Cid // Copyright (C) 2007 Ilmari Heikkinen // Copyright (C) 2009 Shen Liang // Copyright (C) 2009 Stefan Thomas // Copyright (C) 2010, 2012, 2017 Adrian Johnson // Copyright (C) 2010 Harry Roberts // Copyright (C) 2010 Christian Feuersänger // Copyright (C) 2010, 2015, 2019 William Bader // Copyright (C) 2011-2013 Thomas Freitag // Copyright (C) 2012 Anthony Wesley // Copyright (C) 2015, 2018 Adam Reichold // Copyright (C) 2016 Kenji Uno // Copyright (C) 2018 Martin Packman // Copyright (C) 2019 Christian Persch // Copyright (C) 2019 Oliver Sander // // 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 #include #include #include #include #include "goo/gfile.h" #include "goo/gmem.h" #include "SplashErrorCodes.h" #include "SplashBitmap.h" #include "poppler/Error.h" #include "goo/JpegWriter.h" #include "goo/PNGWriter.h" #include "goo/TiffWriter.h" #include "goo/ImgWriter.h" //------------------------------------------------------------------------ // SplashBitmap //------------------------------------------------------------------------ SplashBitmap::SplashBitmap(int widthA, int heightA, int rowPadA, SplashColorMode modeA, bool alphaA, bool topDown, std::vector *separationListA) { width = widthA; height = heightA; mode = modeA; rowPad = rowPadA; switch (mode) { case splashModeMono1: if (width > 0) { rowSize = (width + 7) >> 3; } else { rowSize = -1; } break; case splashModeMono8: if (width > 0) { rowSize = width; } else { rowSize = -1; } break; case splashModeRGB8: case splashModeBGR8: if (width > 0 && width <= INT_MAX / 3) { rowSize = width * 3; } else { rowSize = -1; } break; case splashModeXBGR8: if (width > 0 && width <= INT_MAX / 4) { rowSize = width * 4; } else { rowSize = -1; } break; case splashModeCMYK8: if (width > 0 && width <= INT_MAX / 4) { rowSize = width * 4; } else { rowSize = -1; } break; case splashModeDeviceN8: if (width > 0 && width <= static_cast(INT_MAX / splashMaxColorComps)) { rowSize = width * splashMaxColorComps; } else { rowSize = -1; } break; } if (rowSize > 0) { rowSize += rowPad - 1; rowSize -= rowSize % rowPad; } data = (SplashColorPtr)gmallocn_checkoverflow(rowSize, height); if (data != nullptr) { if (!topDown) { data += (height - 1) * rowSize; rowSize = -rowSize; } if (alphaA) { alpha = (unsigned char *)gmallocn(width, height); } else { alpha = nullptr; } } else { alpha = nullptr; } separationList = new std::vector(); if (separationListA != nullptr) for (const GfxSeparationColorSpace *separation : *separationListA) separationList->push_back((GfxSeparationColorSpace *)separation->copy()); } SplashBitmap *SplashBitmap::copy(SplashBitmap *src) { SplashBitmap *result = new SplashBitmap(src->getWidth(), src->getHeight(), src->getRowPad(), src->getMode(), src->getAlphaPtr() != nullptr, src->getRowSize() >= 0, src->getSeparationList()); unsigned char *dataSource = src->getDataPtr(); unsigned char *dataDest = result->getDataPtr(); int amount = src->getRowSize(); if (amount < 0) { dataSource = dataSource + (src->getHeight() - 1) * amount; dataDest = dataDest + (src->getHeight() - 1) * amount; amount *= -src->getHeight(); } else { amount *= src->getHeight(); } memcpy(dataDest, dataSource, amount); if (src->getAlphaPtr() != nullptr) { memcpy(result->getAlphaPtr(), src->getAlphaPtr(), src->getWidth() * src->getHeight()); } return result; } SplashBitmap::~SplashBitmap() { if (data) { if (rowSize < 0) { gfree(data + (height - 1) * rowSize); } else { gfree(data); } } gfree(alpha); for (auto entry : *separationList) { delete entry; } delete separationList; } SplashError SplashBitmap::writePNMFile(char *fileName) { FILE *f; SplashError e; if (!(f = openFile(fileName, "wb"))) { return splashErrOpenFile; } e = this->writePNMFile(f); fclose(f); return e; } SplashError SplashBitmap::writePNMFile(FILE *f) { SplashColorPtr row, p; int x, y; switch (mode) { case splashModeMono1: fprintf(f, "P4\n%d %d\n", width, height); row = data; for (y = 0; y < height; ++y) { p = row; for (x = 0; x < width; x += 8) { fputc(*p ^ 0xff, f); ++p; } row += rowSize; } break; case splashModeMono8: fprintf(f, "P5\n%d %d\n255\n", width, height); row = data; for (y = 0; y < height; ++y) { fwrite(row, 1, width, f); row += rowSize; } break; case splashModeRGB8: fprintf(f, "P6\n%d %d\n255\n", width, height); row = data; for (y = 0; y < height; ++y) { fwrite(row, 1, 3 * width, f); row += rowSize; } break; case splashModeXBGR8: fprintf(f, "P6\n%d %d\n255\n", width, height); row = data; for (y = 0; y < height; ++y) { p = row; for (x = 0; x < width; ++x) { fputc(splashBGR8R(p), f); fputc(splashBGR8G(p), f); fputc(splashBGR8B(p), f); p += 4; } row += rowSize; } break; case splashModeBGR8: fprintf(f, "P6\n%d %d\n255\n", width, height); row = data; for (y = 0; y < height; ++y) { p = row; for (x = 0; x < width; ++x) { fputc(splashBGR8R(p), f); fputc(splashBGR8G(p), f); fputc(splashBGR8B(p), f); p += 3; } row += rowSize; } break; case splashModeCMYK8: case splashModeDeviceN8: // PNM doesn't support CMYK error(errInternal, -1, "unsupported SplashBitmap mode"); return splashErrGeneric; break; } return splashOk; } SplashError SplashBitmap::writeAlphaPGMFile(char *fileName) { FILE *f; if (!alpha) { return splashErrModeMismatch; } if (!(f = openFile(fileName, "wb"))) { return splashErrOpenFile; } fprintf(f, "P5\n%d %d\n255\n", width, height); fwrite(alpha, 1, width * height, f); fclose(f); return splashOk; } void SplashBitmap::getPixel(int x, int y, SplashColorPtr pixel) { SplashColorPtr p; if (y < 0 || y >= height || x < 0 || x >= width || !data) { return; } switch (mode) { case splashModeMono1: p = &data[y * rowSize + (x >> 3)]; pixel[0] = (p[0] & (0x80 >> (x & 7))) ? 0xff : 0x00; break; case splashModeMono8: p = &data[y * rowSize + x]; pixel[0] = p[0]; break; case splashModeRGB8: p = &data[y * rowSize + 3 * x]; pixel[0] = p[0]; pixel[1] = p[1]; pixel[2] = p[2]; break; case splashModeXBGR8: p = &data[y * rowSize + 4 * x]; pixel[0] = p[2]; pixel[1] = p[1]; pixel[2] = p[0]; pixel[3] = p[3]; break; case splashModeBGR8: p = &data[y * rowSize + 3 * x]; pixel[0] = p[2]; pixel[1] = p[1]; pixel[2] = p[0]; break; case splashModeCMYK8: p = &data[y * rowSize + 4 * x]; pixel[0] = p[0]; pixel[1] = p[1]; pixel[2] = p[2]; pixel[3] = p[3]; break; case splashModeDeviceN8: p = &data[y * rowSize + (SPOT_NCOMPS + 4) * x]; for (int cp = 0; cp < SPOT_NCOMPS + 4; cp++) pixel[cp] = p[cp]; break; } } unsigned char SplashBitmap::getAlpha(int x, int y) { return alpha[y * width + x]; } SplashColorPtr SplashBitmap::takeData() { SplashColorPtr data2; data2 = data; data = nullptr; return data2; } SplashError SplashBitmap::writeImgFile(SplashImageFileFormat format, const char *fileName, int hDPI, int vDPI, WriteImgParams *params) { FILE *f; SplashError e; if (!(f = openFile(fileName, "wb"))) { return splashErrOpenFile; } e = writeImgFile(format, f, hDPI, vDPI, params); fclose(f); return e; } void SplashBitmap::setJpegParams(ImgWriter *writer, WriteImgParams *params) { #ifdef ENABLE_LIBJPEG if (params) { static_cast(writer)->setProgressive(params->jpegProgressive); static_cast(writer)->setOptimize(params->jpegOptimize); if (params->jpegQuality >= 0) static_cast(writer)->setQuality(params->jpegQuality); } #endif } SplashError SplashBitmap::writeImgFile(SplashImageFileFormat format, FILE *f, int hDPI, int vDPI, WriteImgParams *params) { ImgWriter *writer; SplashError e; SplashColorMode imageWriterFormat = splashModeRGB8; switch (format) { #ifdef ENABLE_LIBPNG case splashFormatPng: writer = new PNGWriter(); break; #endif #ifdef ENABLE_LIBJPEG case splashFormatJpegCMYK: writer = new JpegWriter(JpegWriter::CMYK); setJpegParams(writer, params); break; case splashFormatJpeg: writer = new JpegWriter(); setJpegParams(writer, params); break; #endif #ifdef ENABLE_LIBTIFF case splashFormatTiff: switch (mode) { case splashModeMono1: writer = new TiffWriter(TiffWriter::MONOCHROME); imageWriterFormat = splashModeMono1; break; case splashModeMono8: writer = new TiffWriter(TiffWriter::GRAY); imageWriterFormat = splashModeMono8; break; case splashModeRGB8: case splashModeBGR8: writer = new TiffWriter(TiffWriter::RGB); break; case splashModeCMYK8: case splashModeDeviceN8: writer = new TiffWriter(TiffWriter::CMYK); break; default: fprintf(stderr, "TiffWriter: Mode %d not supported\n", mode); writer = new TiffWriter(); } if (writer && params) { ((TiffWriter *)writer)->setCompressionString(params->tiffCompression.c_str()); } break; #endif default: // Not the greatest error message, but users of this function should // have already checked whether their desired format is compiled in. error(errInternal, -1, "Support for this image type not compiled in"); return splashErrGeneric; } e = writeImgFile(writer, f, hDPI, vDPI, imageWriterFormat); delete writer; return e; } #include "poppler/GfxState_helpers.h" void SplashBitmap::getRGBLine(int yl, SplashColorPtr line) { SplashColor col; double c, m, y, k, c1, m1, y1, k1, r, g, b; for (int x = 0; x < width; x++) { getPixel(x, yl, col); c = byteToDbl(col[0]); m = byteToDbl(col[1]); y = byteToDbl(col[2]); k = byteToDbl(col[3]); if (separationList->size() > 0) { for (std::size_t i = 0; i < separationList->size(); i++) { if (col[i + 4] > 0) { GfxCMYK cmyk; GfxColor input; input.c[0] = byteToCol(col[i + 4]); GfxSeparationColorSpace *sepCS = (GfxSeparationColorSpace *)((*separationList)[i]); sepCS->getCMYK(&input, &cmyk); col[0] = colToByte(cmyk.c); col[1] = colToByte(cmyk.m); col[2] = colToByte(cmyk.y); col[3] = colToByte(cmyk.k); c += byteToDbl(col[0]); m += byteToDbl(col[1]); y += byteToDbl(col[2]); k += byteToDbl(col[3]); } } if (c > 1) c = 1; if (m > 1) m = 1; if (y > 1) y = 1; if (k > 1) k = 1; } c1 = 1 - c; m1 = 1 - m; y1 = 1 - y; k1 = 1 - k; cmykToRGBMatrixMultiplication(c, m, y, k, c1, m1, y1, k1, r, g, b); *line++ = dblToByte(clip01(r)); *line++ = dblToByte(clip01(g)); *line++ = dblToByte(clip01(b)); } } void SplashBitmap::getXBGRLine(int yl, SplashColorPtr line, ConversionMode conversionMode) { SplashColor col; double c, m, y, k, c1, m1, y1, k1, r, g, b; for (int x = 0; x < width; x++) { getPixel(x, yl, col); c = byteToDbl(col[0]); m = byteToDbl(col[1]); y = byteToDbl(col[2]); k = byteToDbl(col[3]); if (separationList->size() > 0) { for (std::size_t i = 0; i < separationList->size(); i++) { if (col[i + 4] > 0) { GfxCMYK cmyk; GfxColor input; input.c[0] = byteToCol(col[i + 4]); GfxSeparationColorSpace *sepCS = (GfxSeparationColorSpace *)((*separationList)[i]); sepCS->getCMYK(&input, &cmyk); col[0] = colToByte(cmyk.c); col[1] = colToByte(cmyk.m); col[2] = colToByte(cmyk.y); col[3] = colToByte(cmyk.k); c += byteToDbl(col[0]); m += byteToDbl(col[1]); y += byteToDbl(col[2]); k += byteToDbl(col[3]); } } if (c > 1) c = 1; if (m > 1) m = 1; if (y > 1) y = 1; if (k > 1) k = 1; } c1 = 1 - c; m1 = 1 - m; y1 = 1 - y; k1 = 1 - k; cmykToRGBMatrixMultiplication(c, m, y, k, c1, m1, y1, k1, r, g, b); if (conversionMode == conversionAlphaPremultiplied) { const double a = getAlpha(x, yl) / 255.0; *line++ = dblToByte(clip01(b * a)); *line++ = dblToByte(clip01(g * a)); *line++ = dblToByte(clip01(r * a)); } else { *line++ = dblToByte(clip01(b)); *line++ = dblToByte(clip01(g)); *line++ = dblToByte(clip01(r)); } if (conversionMode != conversionOpaque) { *line++ = getAlpha(x, yl); } else { *line++ = 255; } } } static inline unsigned char div255(int x) { return (unsigned char)((x + (x >> 8) + 0x80) >> 8); } bool SplashBitmap::convertToXBGR(ConversionMode conversionMode) { if (mode == splashModeXBGR8) { if (conversionMode != conversionOpaque) { // Copy the alpha channel into the fourth component so that XBGR becomes ABGR. const SplashColorPtr dbegin = data; const SplashColorPtr dend = data + rowSize * height; unsigned char *const abegin = alpha; unsigned char *const aend = alpha + width * height; SplashColorPtr d = dbegin; unsigned char *a = abegin; if (conversionMode == conversionAlphaPremultiplied) { for (; d < dend && a < aend; d += 4, a += 1) { d[0] = div255(d[0] * *a); d[1] = div255(d[1] * *a); d[2] = div255(d[2] * *a); d[3] = *a; } } else { for (d += 3; d < dend && a < aend; d += 4, a += 1) { *d = *a; } } } return true; } int newrowSize = width * 4; SplashColorPtr newdata = (SplashColorPtr)gmallocn_checkoverflow(newrowSize, height); if (newdata != nullptr) { for (int y = 0; y < height; y++) { unsigned char *row = newdata + y * newrowSize; getXBGRLine(y, row, conversionMode); } if (rowSize < 0) { gfree(data + (height - 1) * rowSize); } else { gfree(data); } data = newdata; rowSize = newrowSize; mode = splashModeXBGR8; } return newdata != nullptr; } void SplashBitmap::getCMYKLine(int yl, SplashColorPtr line) { SplashColor col; for (int x = 0; x < width; x++) { getPixel(x, yl, col); if (separationList->size() > 0) { double c, m, y, k; c = byteToDbl(col[0]); m = byteToDbl(col[1]); y = byteToDbl(col[2]); k = byteToDbl(col[3]); for (std::size_t i = 0; i < separationList->size(); i++) { if (col[i + 4] > 0) { GfxCMYK cmyk; GfxColor input; input.c[0] = byteToCol(col[i + 4]); GfxSeparationColorSpace *sepCS = (GfxSeparationColorSpace *)((*separationList)[i]); sepCS->getCMYK(&input, &cmyk); col[0] = colToByte(cmyk.c); col[1] = colToByte(cmyk.m); col[2] = colToByte(cmyk.y); col[3] = colToByte(cmyk.k); c += byteToDbl(col[0]); m += byteToDbl(col[1]); y += byteToDbl(col[2]); k += byteToDbl(col[3]); } } col[0] = dblToByte(clip01(c)); col[1] = dblToByte(clip01(m)); col[2] = dblToByte(clip01(y)); col[3] = dblToByte(clip01(k)); } *line++ = col[0]; *line++ = col[1]; *line++ = col[2]; *line++ = col[3]; } } SplashError SplashBitmap::writeImgFile(ImgWriter *writer, FILE *f, int hDPI, int vDPI, SplashColorMode imageWriterFormat) { if (mode != splashModeRGB8 && mode != splashModeMono8 && mode != splashModeMono1 && mode != splashModeXBGR8 && mode != splashModeBGR8 && mode != splashModeCMYK8 && mode != splashModeDeviceN8) { error(errInternal, -1, "unsupported SplashBitmap mode"); return splashErrGeneric; } if (!writer->init(f, width, height, hDPI, vDPI)) { return splashErrGeneric; } switch (mode) { case splashModeCMYK8: if (writer->supportCMYK()) { SplashColorPtr row; unsigned char **row_pointers = new unsigned char *[height]; row = data; for (int y = 0; y < height; ++y) { row_pointers[y] = row; row += rowSize; } if (!writer->writePointers(row_pointers, height)) { delete[] row_pointers; return splashErrGeneric; } delete[] row_pointers; } else { unsigned char *row = new unsigned char[3 * width]; for (int y = 0; y < height; y++) { getRGBLine(y, row); if (!writer->writeRow(&row)) { delete[] row; return splashErrGeneric; } } delete[] row; } break; case splashModeDeviceN8: if (writer->supportCMYK()) { unsigned char *row = new unsigned char[4 * width]; for (int y = 0; y < height; y++) { getCMYKLine(y, row); if (!writer->writeRow(&row)) { delete[] row; return splashErrGeneric; } } delete[] row; } else { unsigned char *row = new unsigned char[3 * width]; for (int y = 0; y < height; y++) { getRGBLine(y, row); if (!writer->writeRow(&row)) { delete[] row; return splashErrGeneric; } } delete[] row; } break; case splashModeRGB8: { SplashColorPtr row; unsigned char **row_pointers = new unsigned char *[height]; row = data; for (int y = 0; y < height; ++y) { row_pointers[y] = row; row += rowSize; } if (!writer->writePointers(row_pointers, height)) { delete[] row_pointers; return splashErrGeneric; } delete[] row_pointers; } break; case splashModeBGR8: { unsigned char *row = new unsigned char[3 * width]; for (int y = 0; y < height; y++) { // Convert into a PNG row for (int x = 0; x < width; x++) { row[3 * x] = data[y * rowSize + x * 3 + 2]; row[3 * x + 1] = data[y * rowSize + x * 3 + 1]; row[3 * x + 2] = data[y * rowSize + x * 3]; } if (!writer->writeRow(&row)) { delete[] row; return splashErrGeneric; } } delete[] row; } break; case splashModeXBGR8: { unsigned char *row = new unsigned char[3 * width]; for (int y = 0; y < height; y++) { // Convert into a PNG row for (int x = 0; x < width; x++) { row[3 * x] = data[y * rowSize + x * 4 + 2]; row[3 * x + 1] = data[y * rowSize + x * 4 + 1]; row[3 * x + 2] = data[y * rowSize + x * 4]; } if (!writer->writeRow(&row)) { delete[] row; return splashErrGeneric; } } delete[] row; } break; case splashModeMono8: { if (imageWriterFormat == splashModeMono8) { SplashColorPtr row; unsigned char **row_pointers = new unsigned char *[height]; row = data; for (int y = 0; y < height; ++y) { row_pointers[y] = row; row += rowSize; } if (!writer->writePointers(row_pointers, height)) { delete[] row_pointers; return splashErrGeneric; } delete[] row_pointers; } else if (imageWriterFormat == splashModeRGB8) { unsigned char *row = new unsigned char[3 * width]; for (int y = 0; y < height; y++) { // Convert into a PNG row for (int x = 0; x < width; x++) { row[3 * x] = data[y * rowSize + x]; row[3 * x + 1] = data[y * rowSize + x]; row[3 * x + 2] = data[y * rowSize + x]; } if (!writer->writeRow(&row)) { delete[] row; return splashErrGeneric; } } delete[] row; } else { // only splashModeMono8 or splashModeRGB8 return splashErrGeneric; } } break; case splashModeMono1: { if (imageWriterFormat == splashModeMono1) { SplashColorPtr row; unsigned char **row_pointers = new unsigned char *[height]; row = data; for (int y = 0; y < height; ++y) { row_pointers[y] = row; row += rowSize; } if (!writer->writePointers(row_pointers, height)) { delete[] row_pointers; return splashErrGeneric; } delete[] row_pointers; } else if (imageWriterFormat == splashModeRGB8) { unsigned char *row = new unsigned char[3 * width]; for (int y = 0; y < height; y++) { // Convert into a PNG row for (int x = 0; x < width; x++) { getPixel(x, y, &row[3 * x]); row[3 * x + 1] = row[3 * x]; row[3 * x + 2] = row[3 * x]; } if (!writer->writeRow(&row)) { delete[] row; return splashErrGeneric; } } delete[] row; } else { // only splashModeMono1 or splashModeRGB8 return splashErrGeneric; } } break; default: // can't happen break; } if (!writer->close()) { return splashErrGeneric; } return splashOk; }