/* ============================================================================== This file is part of the JUCE framework. Copyright (c) Raw Material Software Limited JUCE is an open source framework subject to commercial or open source licensing. By downloading, installing, or using the JUCE framework, or combining the JUCE framework with any other source code, object code, content or any other copyrightable work, you agree to the terms of the JUCE End User Licence Agreement, and all incorporated terms including the JUCE Privacy Policy and the JUCE Website Terms of Service, as applicable, which will bind you. If you do not agree to the terms of these agreements, we will not license the JUCE framework to you, and you must discontinue the installation or download process and cease use of the JUCE framework. JUCE End User Licence Agreement: https://juce.com/legal/juce-8-licence/ JUCE Privacy Policy: https://juce.com/juce-privacy-policy JUCE Website Terms of Service: https://juce.com/juce-website-terms-of-service/ Or: You may also use this code under the terms of the AGPLv3: https://www.gnu.org/licenses/agpl-3.0.en.html THE JUCE FRAMEWORK IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED. ============================================================================== */ namespace juce { JUCE_BEGIN_IGNORE_WARNINGS_MSVC (4365 6240 6326 6386 6385 28182 28183 6387 6011 6001) namespace jpeglibNamespace { #if JUCE_INCLUDE_JPEGLIB_CODE || ! defined (JUCE_INCLUDE_JPEGLIB_CODE) JUCE_BEGIN_IGNORE_WARNINGS_GCC_LIKE ("-Wconversion", "-Wdeprecated-register", "-Wdeprecated-declarations", "-Wsign-conversion", "-Wcast-align", "-Wswitch-enum", "-Wswitch-default", "-Wimplicit-fallthrough", "-Wzero-as-null-pointer-constant", "-Wshift-negative-value", "-Wcomma") #define JPEG_INTERNALS #undef FAR #include "jpglib/jpeglib.h" #include "jpglib/jcapimin.c" #include "jpglib/jcapistd.c" #include "jpglib/jccoefct.c" #include "jpglib/jccolor.c" #undef FIX #include "jpglib/jcdctmgr.c" #undef CONST_BITS #include "jpglib/jchuff.c" #undef emit_byte #include "jpglib/jcinit.c" #include "jpglib/jcmainct.c" #include "jpglib/jcmarker.c" #include "jpglib/jcmaster.c" #include "jpglib/jcomapi.c" #include "jpglib/jcparam.c" #include "jpglib/jcphuff.c" #include "jpglib/jcprepct.c" #include "jpglib/jcsample.c" #include "jpglib/jctrans.c" #include "jpglib/jdapistd.c" #include "jpglib/jdapimin.c" #include "jpglib/jdatasrc.c" #include "jpglib/jdcoefct.c" #undef FIX #include "jpglib/jdcolor.c" #undef FIX #include "jpglib/jddctmgr.c" #undef CONST_BITS #undef ASSIGN_STATE #include "jpglib/jdhuff.c" #include "jpglib/jdinput.c" #include "jpglib/jdmainct.c" #include "jpglib/jdmarker.c" #include "jpglib/jdmaster.c" #undef FIX #include "jpglib/jdmerge.c" #undef ASSIGN_STATE #include "jpglib/jdphuff.c" #include "jpglib/jdpostct.c" #undef FIX #include "jpglib/jdsample.c" #include "jpglib/jdtrans.c" #include "jpglib/jfdctflt.c" #include "jpglib/jfdctint.c" #undef CONST_BITS #undef MULTIPLY #undef FIX_0_541196100 #include "jpglib/jfdctfst.c" #undef FIX_0_541196100 #include "jpglib/jidctflt.c" #undef CONST_BITS #undef FIX_1_847759065 #undef MULTIPLY #undef DEQUANTIZE #undef DESCALE #include "jpglib/jidctfst.c" #undef CONST_BITS #undef FIX_1_847759065 #undef MULTIPLY #undef DEQUANTIZE #include "jpglib/jidctint.c" #include "jpglib/jidctred.c" #include "jpglib/jmemmgr.c" #include "jpglib/jmemnobs.c" #include "jpglib/jquant1.c" #include "jpglib/jquant2.c" #include "jpglib/jutils.c" #include "jpglib/transupp.c" JUCE_END_IGNORE_WARNINGS_GCC_LIKE #else #define JPEG_INTERNALS #undef FAR #include #endif } #undef max #undef min JUCE_END_IGNORE_WARNINGS_MSVC //============================================================================== namespace JPEGHelpers { using namespace jpeglibNamespace; #if ! (JUCE_WINDOWS && (JUCE_MSVC || JUCE_CLANG)) using jpeglibNamespace::boolean; #endif static void fatalErrorHandler (j_common_ptr p) { *((bool*) (p->client_data)) = true; } static void silentErrorCallback1 (j_common_ptr) {} static void silentErrorCallback2 (j_common_ptr, int) {} static void silentErrorCallback3 (j_common_ptr, char*) {} static void setupSilentErrorHandler (struct jpeg_error_mgr& err) { zerostruct (err); err.error_exit = fatalErrorHandler; err.emit_message = silentErrorCallback2; err.output_message = silentErrorCallback1; err.format_message = silentErrorCallback3; err.reset_error_mgr = silentErrorCallback1; } //============================================================================== #if ! JUCE_USING_COREIMAGE_LOADER static void dummyCallback1 (j_decompress_ptr) {} static void jpegSkip (j_decompress_ptr decompStruct, long num) { decompStruct->src->next_input_byte += num; num = jmin (num, (long) decompStruct->src->bytes_in_buffer); decompStruct->src->bytes_in_buffer -= (size_t) num; } static boolean jpegFill (j_decompress_ptr) { return 0; } #endif //============================================================================== const int jpegBufferSize = 512; struct JuceJpegDest final : public jpeg_destination_mgr { OutputStream* output; char* buffer; }; static void jpegWriteInit (j_compress_ptr) {} static void jpegWriteTerminate (j_compress_ptr cinfo) { JuceJpegDest* const dest = static_cast (cinfo->dest); const size_t numToWrite = jpegBufferSize - dest->free_in_buffer; dest->output->write (dest->buffer, numToWrite); } static boolean jpegWriteFlush (j_compress_ptr cinfo) { JuceJpegDest* const dest = static_cast (cinfo->dest); const int numToWrite = jpegBufferSize; dest->next_output_byte = reinterpret_cast (dest->buffer); dest->free_in_buffer = jpegBufferSize; return (boolean) dest->output->write (dest->buffer, (size_t) numToWrite); } } //============================================================================== JPEGImageFormat::JPEGImageFormat() : quality (-1.0f) { } JPEGImageFormat::~JPEGImageFormat() {} void JPEGImageFormat::setQuality (const float newQuality) { quality = newQuality; } String JPEGImageFormat::getFormatName() { return "JPEG"; } bool JPEGImageFormat::usesFileExtension (const File& f) { return f.hasFileExtension ("jpeg;jpg"); } bool JPEGImageFormat::canUnderstand (InputStream& in) { const int bytesNeeded = 24; uint8 header [bytesNeeded]; if (in.read (header, bytesNeeded) == bytesNeeded && header[0] == 0xff && header[1] == 0xd8 && header[2] == 0xff) return true; #if JUCE_USING_COREIMAGE_LOADER return header[20] == 'j' && header[21] == 'p' && header[22] == '2' && header[23] == ' '; #endif return false; } #if JUCE_USING_COREIMAGE_LOADER Image juce_loadWithCoreImage (InputStream& input); #endif Image JPEGImageFormat::decodeImage (InputStream& in) { #if JUCE_USING_COREIMAGE_LOADER return juce_loadWithCoreImage (in); #else using namespace jpeglibNamespace; using namespace JPEGHelpers; MemoryOutputStream mb; mb << in; Image image; if (mb.getDataSize() > 16) { struct jpeg_decompress_struct jpegDecompStruct; struct jpeg_error_mgr jerr; setupSilentErrorHandler (jerr); jpegDecompStruct.err = &jerr; jpeg_create_decompress (&jpegDecompStruct); jpegDecompStruct.src = (jpeg_source_mgr*)(jpegDecompStruct.mem->alloc_small) ((j_common_ptr)(&jpegDecompStruct), JPOOL_PERMANENT, sizeof (jpeg_source_mgr)); bool hasFailed = false; jpegDecompStruct.client_data = &hasFailed; jpegDecompStruct.src->init_source = dummyCallback1; jpegDecompStruct.src->fill_input_buffer = jpegFill; jpegDecompStruct.src->skip_input_data = jpegSkip; jpegDecompStruct.src->resync_to_restart = jpeg_resync_to_restart; jpegDecompStruct.src->term_source = dummyCallback1; jpegDecompStruct.src->next_input_byte = static_cast (mb.getData()); jpegDecompStruct.src->bytes_in_buffer = mb.getDataSize(); jpeg_read_header (&jpegDecompStruct, TRUE); if (! hasFailed) { jpeg_calc_output_dimensions (&jpegDecompStruct); if (! hasFailed) { const int width = (int) jpegDecompStruct.output_width; const int height = (int) jpegDecompStruct.output_height; jpegDecompStruct.out_color_space = JCS_RGB; JSAMPARRAY buffer = (*jpegDecompStruct.mem->alloc_sarray) ((j_common_ptr) &jpegDecompStruct, JPOOL_IMAGE, (JDIMENSION) width * 3, 1); if (jpeg_start_decompress (&jpegDecompStruct) && ! hasFailed) { image = Image (Image::RGB, width, height, false); image.getProperties()->set ("originalImageHadAlpha", false); const bool hasAlphaChan = image.hasAlphaChannel(); // (the native image creator may not give back what we expect) const Image::BitmapData destData (image, Image::BitmapData::writeOnly); for (int y = 0; y < height; ++y) { jpeg_read_scanlines (&jpegDecompStruct, buffer, 1); if (hasFailed) break; const uint8* src = *buffer; uint8* dest = destData.getLinePointer (y); if (hasAlphaChan) { for (int i = width; --i >= 0;) { ((PixelARGB*) dest)->setARGB (0xff, src[0], src[1], src[2]); ((PixelARGB*) dest)->premultiply(); dest += destData.pixelStride; src += 3; } } else { for (int i = width; --i >= 0;) { ((PixelRGB*) dest)->setARGB (0xff, src[0], src[1], src[2]); dest += destData.pixelStride; src += 3; } } } if (! hasFailed) jpeg_finish_decompress (&jpegDecompStruct); in.setPosition (((char*) jpegDecompStruct.src->next_input_byte) - (char*) mb.getData()); } } } jpeg_destroy_decompress (&jpegDecompStruct); } return image; #endif } bool JPEGImageFormat::writeImageToStream (const Image& image, OutputStream& out) { using namespace jpeglibNamespace; using namespace JPEGHelpers; jpeg_compress_struct jpegCompStruct; zerostruct (jpegCompStruct); jpeg_create_compress (&jpegCompStruct); struct jpeg_error_mgr jerr; setupSilentErrorHandler (jerr); jpegCompStruct.err = &jerr; JuceJpegDest dest; jpegCompStruct.dest = &dest; dest.output = &out; HeapBlock tempBuffer (jpegBufferSize); dest.buffer = tempBuffer; dest.next_output_byte = (JOCTET*) dest.buffer; dest.free_in_buffer = jpegBufferSize; dest.init_destination = jpegWriteInit; dest.empty_output_buffer = jpegWriteFlush; dest.term_destination = jpegWriteTerminate; jpegCompStruct.image_width = (JDIMENSION) image.getWidth(); jpegCompStruct.image_height = (JDIMENSION) image.getHeight(); jpegCompStruct.input_components = 3; jpegCompStruct.in_color_space = JCS_RGB; jpegCompStruct.write_JFIF_header = 1; jpegCompStruct.X_density = 72; jpegCompStruct.Y_density = 72; jpeg_set_defaults (&jpegCompStruct); jpegCompStruct.dct_method = JDCT_FLOAT; jpegCompStruct.optimize_coding = 1; if (quality < 0.0f) quality = 0.85f; jpeg_set_quality (&jpegCompStruct, jlimit (0, 100, roundToInt (quality * 100.0f)), TRUE); jpeg_start_compress (&jpegCompStruct, TRUE); const int strideBytes = (int) (jpegCompStruct.image_width * (unsigned int) jpegCompStruct.input_components); JSAMPARRAY buffer = (*jpegCompStruct.mem->alloc_sarray) ((j_common_ptr) &jpegCompStruct, JPOOL_IMAGE, (JDIMENSION) strideBytes, 1); const Image::BitmapData srcData (image, Image::BitmapData::readOnly); while (jpegCompStruct.next_scanline < jpegCompStruct.image_height) { uint8* dst = *buffer; if (srcData.pixelFormat == Image::RGB) { const uint8* src = srcData.getLinePointer ((int) jpegCompStruct.next_scanline); for (int i = srcData.width; --i >= 0;) { *dst++ = ((const PixelRGB*) src)->getRed(); *dst++ = ((const PixelRGB*) src)->getGreen(); *dst++ = ((const PixelRGB*) src)->getBlue(); src += srcData.pixelStride; } } else { for (int x = 0; x < srcData.width; ++x) { const Colour pixel (srcData.getPixelColour (x, (int) jpegCompStruct.next_scanline)); *dst++ = pixel.getRed(); *dst++ = pixel.getGreen(); *dst++ = pixel.getBlue(); } } jpeg_write_scanlines (&jpegCompStruct, buffer, 1); } jpeg_finish_compress (&jpegCompStruct); jpeg_destroy_compress (&jpegCompStruct); return true; } } // namespace juce