/** * @file llimagej2coj.cpp * @brief This is an implementation of JPEG2000 encode/decode using OpenJPEG. * * $LicenseInfo:firstyear=2006&license=viewergpl$ * * Copyright (c) 2006-2009, Linden Research, Inc. * * Second Life Viewer Source Code * The source code in this file ("Source Code") is provided by Linden Lab * to you under the terms of the GNU General Public License, version 2.0 * ("GPL"), unless you have obtained a separate licensing agreement * ("Other License"), formally executed by you and Linden Lab. Terms of * the GPL can be found in doc/GPL-license.txt in this distribution, or * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2 * * There are special exceptions to the terms and conditions of the GPL as * it is applied to this Source Code. View the full text of the exception * in the file doc/FLOSS-exception.txt in this software distribution, or * online at * http://secondlifegrid.net/programs/open_source/licensing/flossexception * * By copying, modifying or distributing this software, you acknowledge * that you have read and understood your obligations described above, * and agree to abide by those obligations. * * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY, * COMPLETENESS OR PERFORMANCE. * $/LicenseInfo$ */ #include "linden_common.h" #include "llimagej2coj.h" // this is defined so that we get static linking. #include "openjpeg.h" #include "lltimer.h" #include "llmemory.h" const char* fallbackEngineInfoLLImageJ2CImpl() { static std::string version_string = std::string("OpenJPEG: " OPENJPEG_VERSION ", Runtime: ") + opj_version(); return version_string.c_str(); } LLImageJ2CImpl* fallbackCreateLLImageJ2CImpl() { return new LLImageJ2COJ(); } void fallbackDestroyLLImageJ2CImpl(LLImageJ2CImpl* impl) { delete impl; impl = NULL; } // Return string from message, eliminating final \n if present static std::string chomp(const char* msg) { // stomp trailing \n std::string message = msg; if (!message.empty()) { size_t last = message.size() - 1; if (message[last] == '\n') { message.resize( last ); } } return message; } /** sample error callback expecting a LLFILE* client object */ void error_callback(const char* msg, void*) { lldebugs << "LLImageJ2COJ: " << chomp(msg) << llendl; } /** sample warning callback expecting a LLFILE* client object */ void warning_callback(const char* msg, void*) { lldebugs << "LLImageJ2COJ: " << chomp(msg) << llendl; } /** sample debug callback expecting no client object */ void info_callback(const char* msg, void*) { lldebugs << "LLImageJ2COJ: " << chomp(msg) << llendl; } LLImageJ2COJ::LLImageJ2COJ() : LLImageJ2CImpl() { } LLImageJ2COJ::~LLImageJ2COJ() { } BOOL LLImageJ2COJ::decodeImpl(LLImageJ2C &base, LLImageRaw &raw_image, F32 decode_time, S32 first_channel, S32 max_channel_count) { // // FIXME: Get the comment field out of the texture // LLTimer decode_timer; opj_dparameters_t parameters; /* decompression parameters */ opj_event_mgr_t event_mgr; /* event manager */ opj_image_t *image = NULL; opj_dinfo_t* dinfo = NULL; /* handle to a decompressor */ opj_cio_t *cio = NULL; /* configure the event callbacks (not required) */ memset(&event_mgr, 0, sizeof(opj_event_mgr_t)); event_mgr.error_handler = error_callback; event_mgr.warning_handler = warning_callback; event_mgr.info_handler = info_callback; /* set decoding parameters to default values */ opj_set_default_decoder_parameters(¶meters); parameters.cp_reduce = base.getRawDiscardLevel(); /* decode the code-stream */ /* ---------------------- */ /* JPEG-2000 codestream */ /* get a decoder handle */ dinfo = opj_create_decompress(CODEC_J2K); /* catch events using our callbacks and give a local context */ opj_set_event_mgr((opj_common_ptr)dinfo, &event_mgr, stderr); /* setup the decoder decoding parameters using user parameters */ opj_setup_decoder(dinfo, ¶meters); /* open a byte stream */ cio = opj_cio_open((opj_common_ptr)dinfo, base.getData(), base.getDataSize()); /* decode the stream and fill the image structure */ image = opj_decode(dinfo, cio); /* close the byte stream */ opj_cio_close(cio); /* free remaining structures */ if(dinfo) { opj_destroy_decompress(dinfo); } // The image decode failed if the return was NULL or the component // count was zero. The latter is just a sanity check before we // dereference the array. if(!image || !image->numcomps) { llwarns << "ERROR -> decodeImpl: failed to decode image!" << llendl; if (image) { opj_image_destroy(image); } return TRUE; // done } // sometimes we get bad data out of the cache - check to see if the decode succeeded for (S32 i = 0; i < image->numcomps; i++) { if (image->comps[i].factor != base.getRawDiscardLevel()) { // if we didn't get the discard level we're expecting, fail opj_image_destroy(image); base.mDecoding = FALSE; return TRUE; } } if(image->numcomps <= first_channel) { llwarns << "trying to decode more channels than are present in image: numcomps: " << image->numcomps << " first_channel: " << first_channel << llendl; if (image) { opj_image_destroy(image); } return TRUE; } // Copy image data into our raw image format (instead of the separate channel format S32 img_components = image->numcomps; S32 channels = img_components - first_channel; if( channels > max_channel_count ) channels = max_channel_count; // Component buffers are allocated in an image width by height buffer. // The image placed in that buffer is ceil(width/2^factor) by // ceil(height/2^factor) and if the factor isn't zero it will be at the // top left of the buffer with black filled in the rest of the pixels. // It is integer math so the formula is written in ceildivpo2. // (Assuming all the components have the same width, height and // factor.) S32 comp_width = image->comps[0].w; S32 f=image->comps[0].factor; S32 width = ceildivpow2(image->x1 - image->x0, f); S32 height = ceildivpow2(image->y1 - image->y0, f); raw_image.resize(width, height, channels); U8 *rawp = raw_image.getData(); // first_channel is what channel to start copying from // dest is what channel to copy to. first_channel comes from the // argument, dest always starts writing at channel zero. for (S32 comp = first_channel, dest=0; comp < first_channel + channels; comp++, dest++) { if (image->comps[comp].data) { S32 offset = dest; for (S32 y = (height - 1); y >= 0; y--) { for (S32 x = 0; x < width; x++) { rawp[offset] = image->comps[comp].data[y*comp_width + x]; offset += channels; } } } else // Some rare OpenJPEG versions have this bug. { llwarns << "ERROR -> decodeImpl: failed to decode image! (NULL comp data - OpenJPEG bug)" << llendl; opj_image_destroy(image); return TRUE; // done } } /* free image data structure */ opj_image_destroy(image); return TRUE; // done } BOOL LLImageJ2COJ::encodeImpl(LLImageJ2C &base, const LLImageRaw &raw_image, const char* comment_text, F32 encode_time, BOOL reversible) { const S32 MAX_COMPS = 5; opj_cparameters_t parameters; /* compression parameters */ opj_event_mgr_t event_mgr; /* event manager */ /* configure the event callbacks (not required) setting of each callback is optional */ memset(&event_mgr, 0, sizeof(opj_event_mgr_t)); event_mgr.error_handler = error_callback; event_mgr.warning_handler = warning_callback; event_mgr.info_handler = info_callback; /* set encoding parameters to default values */ opj_set_default_encoder_parameters(¶meters); parameters.cod_format = 0; parameters.cp_disto_alloc = 1; if (reversible) { parameters.tcp_numlayers = 1; parameters.tcp_rates[0] = 0.0f; } else { parameters.tcp_numlayers = 5; parameters.tcp_rates[0] = 1920.0f; parameters.tcp_rates[1] = 480.0f; parameters.tcp_rates[2] = 120.0f; parameters.tcp_rates[3] = 30.0f; parameters.tcp_rates[4] = 10.0f; parameters.irreversible = 1; if (raw_image.getComponents() >= 3) { parameters.tcp_mct = 1; } } if (!comment_text) { parameters.cp_comment = (char *) ""; } else { // Awful hacky cast, too lazy to copy right now. parameters.cp_comment = (char *) comment_text; } // // Fill in the source image from our raw image // OPJ_COLOR_SPACE color_space = CLRSPC_SRGB; opj_image_cmptparm_t cmptparm[MAX_COMPS]; opj_image_t * image = NULL; S32 numcomps = raw_image.getComponents(); S32 width = raw_image.getWidth(); S32 height = raw_image.getHeight(); memset(&cmptparm[0], 0, MAX_COMPS * sizeof(opj_image_cmptparm_t)); for(S32 c = 0; c < numcomps; c++) { cmptparm[c].prec = 8; cmptparm[c].bpp = 8; cmptparm[c].sgnd = 0; cmptparm[c].dx = parameters.subsampling_dx; cmptparm[c].dy = parameters.subsampling_dy; cmptparm[c].w = width; cmptparm[c].h = height; } /* create the image */ image = opj_image_create(numcomps, &cmptparm[0], color_space); image->x1 = width; image->y1 = height; S32 i = 0; const U8 *src_datap = raw_image.getData(); for (S32 y = height - 1; y >= 0; y--) { for (S32 x = 0; x < width; x++) { const U8 *pixel = src_datap + (y*width + x) * numcomps; for (S32 c = 0; c < numcomps; c++) { image->comps[c].data[i] = *pixel; pixel++; } i++; } } /* encode the destination image */ /* ---------------------------- */ int codestream_length; opj_cio_t *cio = NULL; /* get a J2K compressor handle */ opj_cinfo_t* cinfo = opj_create_compress(CODEC_J2K); /* catch events using our callbacks and give a local context */ opj_set_event_mgr((opj_common_ptr)cinfo, &event_mgr, stderr); /* setup the encoder parameters using the current image and using user parameters */ opj_setup_encoder(cinfo, ¶meters, image); /* open a byte stream for writing */ /* allocate memory for all tiles */ cio = opj_cio_open((opj_common_ptr)cinfo, NULL, 0); /* encode the image */ bool bSuccess = opj_encode(cinfo, cio, image, NULL); if (!bSuccess) { opj_cio_close(cio); llinfos << "Failed to encode image." << llendl; return FALSE; } codestream_length = cio_tell(cio); base.copyData(cio->buffer, codestream_length); base.updateData(); // set width, height /* close and free the byte stream */ opj_cio_close(cio); /* free remaining compression structures */ opj_destroy_compress(cinfo); /* free user parameters structure */ if(parameters.cp_matrice) free(parameters.cp_matrice); /* free image data */ opj_image_destroy(image); return TRUE; } BOOL LLImageJ2COJ::getMetadata(LLImageJ2C &base) { // // FIXME: We get metadata by decoding the ENTIRE image. // // Update the raw discard level base.updateRawDiscardLevel(); opj_dparameters_t parameters; /* decompression parameters */ opj_event_mgr_t event_mgr; /* event manager */ opj_image_t *image = NULL; opj_dinfo_t* dinfo = NULL; /* handle to a decompressor */ opj_cio_t *cio = NULL; /* configure the event callbacks (not required) */ memset(&event_mgr, 0, sizeof(opj_event_mgr_t)); event_mgr.error_handler = error_callback; event_mgr.warning_handler = warning_callback; event_mgr.info_handler = info_callback; /* set decoding parameters to default values */ opj_set_default_decoder_parameters(¶meters); // Only decode what's required to get the size data. parameters.cp_limit_decoding=LIMIT_TO_MAIN_HEADER; //parameters.cp_reduce = mRawDiscardLevel; /* decode the code-stream */ /* ---------------------- */ /* JPEG-2000 codestream */ /* get a decoder handle */ dinfo = opj_create_decompress(CODEC_J2K); /* catch events using our callbacks and give a local context */ opj_set_event_mgr((opj_common_ptr)dinfo, &event_mgr, stderr); /* setup the decoder decoding parameters using user parameters */ opj_setup_decoder(dinfo, ¶meters); /* open a byte stream */ cio = opj_cio_open((opj_common_ptr)dinfo, base.getData(), base.getDataSize()); /* decode the stream and fill the image structure */ image = opj_decode(dinfo, cio); /* close the byte stream */ opj_cio_close(cio); /* free remaining structures */ if(dinfo) { opj_destroy_decompress(dinfo); } if(!image) { llwarns << "ERROR -> getMetadata: failed to decode image!" << llendl; return FALSE; } // Copy image data into our raw image format (instead of the separate channel format S32 width = 0; S32 height = 0; S32 img_components = image->numcomps; width = image->x1 - image->x0; height = image->y1 - image->y0; base.setSize(width, height, img_components); /* free image data structure */ opj_image_destroy(image); return TRUE; }