diff options
Diffstat (limited to 'indra/llimage/llimagej2c.cpp')
| -rw-r--r-- | indra/llimage/llimagej2c.cpp | 824 |
1 files changed, 412 insertions, 412 deletions
diff --git a/indra/llimage/llimagej2c.cpp b/indra/llimage/llimagej2c.cpp index 382da40dcf..0058b91b0f 100644 --- a/indra/llimage/llimagej2c.cpp +++ b/indra/llimage/llimagej2c.cpp @@ -1,24 +1,24 @@ -/** +/** * @file llimagej2c.cpp * * $LicenseInfo:firstyear=2001&license=viewerlgpl$ * Second Life Viewer Source Code * Copyright (C) 2010, Linden Research, Inc. - * + * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; * version 2.1 of the License only. - * + * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. - * + * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA - * + * * Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA * $/LicenseInfo$ */ @@ -46,37 +46,37 @@ const std::string sTesterName("ImageCompressionTester"); //static std::string LLImageJ2C::getEngineInfo() { - // All known LLImageJ2CImpl implementation subclasses are cheap to - // construct. - std::unique_ptr<LLImageJ2CImpl> impl(fallbackCreateLLImageJ2CImpl()); - return impl->getEngineInfo(); + // All known LLImageJ2CImpl implementation subclasses are cheap to + // construct. + std::unique_ptr<LLImageJ2CImpl> impl(fallbackCreateLLImageJ2CImpl()); + return impl->getEngineInfo(); } -LLImageJ2C::LLImageJ2C() : LLImageFormatted(IMG_CODEC_J2C), - mMaxBytes(0), - mRawDiscardLevel(-1), - mRate(DEFAULT_COMPRESSION_RATE), - mReversible(false), - mAreaUsedForDataSizeCalcs(0) +LLImageJ2C::LLImageJ2C() : LLImageFormatted(IMG_CODEC_J2C), + mMaxBytes(0), + mRawDiscardLevel(-1), + mRate(DEFAULT_COMPRESSION_RATE), + mReversible(false), + mAreaUsedForDataSizeCalcs(0) { - mImpl.reset(fallbackCreateLLImageJ2CImpl()); - - // Clear data size table - for( S32 i = 0; i <= MAX_DISCARD_LEVEL; i++) - { // Array size is MAX_DISCARD_LEVEL+1 - mDataSizes[i] = 0; - } - - // If that test log has ben requested but not yet created, create it - if (LLMetricPerformanceTesterBasic::isMetricLogRequested(sTesterName) && !LLMetricPerformanceTesterBasic::getTester(sTesterName)) - { - sTesterp = new LLImageCompressionTester() ; - if (!sTesterp->isValid()) - { - delete sTesterp; - sTesterp = NULL; - } - } + mImpl.reset(fallbackCreateLLImageJ2CImpl()); + + // Clear data size table + for( S32 i = 0; i <= MAX_DISCARD_LEVEL; i++) + { // Array size is MAX_DISCARD_LEVEL+1 + mDataSizes[i] = 0; + } + + // If that test log has ben requested but not yet created, create it + if (LLMetricPerformanceTesterBasic::isMetricLogRequested(sTesterName) && !LLMetricPerformanceTesterBasic::getTester(sTesterName)) + { + sTesterp = new LLImageCompressionTester() ; + if (!sTesterp->isValid()) + { + delete sTesterp; + sTesterp = NULL; + } + } } // virtual @@ -85,71 +85,71 @@ LLImageJ2C::~LLImageJ2C() {} // virtual void LLImageJ2C::resetLastError() { - mLastError.clear(); + mLastError.clear(); } //virtual void LLImageJ2C::setLastError(const std::string& message, const std::string& filename) { - mLastError = message; - if (!filename.empty()) - mLastError += std::string(" FILE: ") + filename; + mLastError = message; + if (!filename.empty()) + mLastError += std::string(" FILE: ") + filename; } // virtual S8 LLImageJ2C::getRawDiscardLevel() { - return mRawDiscardLevel; + return mRawDiscardLevel; } bool LLImageJ2C::updateData() { - bool res = true; - resetLastError(); - - LLImageDataLock lock(this); - - // Check to make sure that this instance has been initialized with data - if (!getData() || (getDataSize() < 16)) - { - setLastError("LLImageJ2C uninitialized"); - res = false; - } - else - { - res = mImpl->getMetadata(*this); - } - - if (res) - { - // SJB: override discard based on mMaxBytes elsewhere - S32 max_bytes = getDataSize(); // mMaxBytes ? mMaxBytes : getDataSize(); - S32 discard = calcDiscardLevelBytes(max_bytes); - setDiscardLevel(discard); - } - - if (!mLastError.empty()) - { - LLImage::setLastError(mLastError); - } - return res; + bool res = true; + resetLastError(); + + LLImageDataLock lock(this); + + // Check to make sure that this instance has been initialized with data + if (!getData() || (getDataSize() < 16)) + { + setLastError("LLImageJ2C uninitialized"); + res = false; + } + else + { + res = mImpl->getMetadata(*this); + } + + if (res) + { + // SJB: override discard based on mMaxBytes elsewhere + S32 max_bytes = getDataSize(); // mMaxBytes ? mMaxBytes : getDataSize(); + S32 discard = calcDiscardLevelBytes(max_bytes); + setDiscardLevel(discard); + } + + if (!mLastError.empty()) + { + LLImage::setLastError(mLastError); + } + return res; } bool LLImageJ2C::initDecode(LLImageRaw &raw_image, int discard_level, int* region) { - setDiscardLevel(discard_level != -1 ? discard_level : 0); - return mImpl->initDecode(*this,raw_image,discard_level,region); + setDiscardLevel(discard_level != -1 ? discard_level : 0); + return mImpl->initDecode(*this,raw_image,discard_level,region); } bool LLImageJ2C::initEncode(LLImageRaw &raw_image, int blocks_size, int precincts_size, int levels) { - return mImpl->initEncode(*this,raw_image,blocks_size,precincts_size,levels); + return mImpl->initEncode(*this,raw_image,blocks_size,precincts_size,levels); } bool LLImageJ2C::decode(LLImageRaw *raw_imagep, F32 decode_time) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; - return decodeChannels(raw_imagep, decode_time, 0, 4); + return decodeChannels(raw_imagep, decode_time, 0, 4); } @@ -157,305 +157,305 @@ bool LLImageJ2C::decode(LLImageRaw *raw_imagep, F32 decode_time) bool LLImageJ2C::decodeChannels(LLImageRaw *raw_imagep, F32 decode_time, S32 first_channel, S32 max_channel_count ) { LL_PROFILE_ZONE_SCOPED_CATEGORY_TEXTURE; - LLTimer elapsed; - - resetLastError(); - - bool res; - { - LLImageDataLock lock(this); - - mDecoding = true; - // Check to make sure that this instance has been initialized with data - if (!getData() || (getDataSize() < 16)) - { - setLastError("LLImageJ2C uninitialized"); - res = true; // done - } - else - { - // Update the raw discard level - updateRawDiscardLevel(); - res = mImpl->decodeImpl(*this, *raw_imagep, decode_time, first_channel, max_channel_count); - } - } - - if (res) - { - if (!mDecoding) - { - // Failed - raw_imagep->deleteData(); - res = false; - } - else - { - mDecoding = false; - } - } - else - { - if (mDecoding) - { - LL_WARNS() << "decodeImpl failed but mDecoding is true" << LL_ENDL; - mDecoding = false; - } - } - - if (!mLastError.empty()) - { - LLImage::setLastError(mLastError); - } - - LLImageCompressionTester* tester = (LLImageCompressionTester*)LLMetricPerformanceTesterBasic::getTester(sTesterName); - if (tester) - { - // Decompression stat gathering - // Note that we *do not* take into account the decompression failures data so we might overestimate the time spent processing - - // Always add the decompression time to the stat - tester->updateDecompressionStats(elapsed.getElapsedTimeF32()) ; - if (res) - { - // The whole data stream is finally decompressed when res is returned as true - tester->updateDecompressionStats(this->getDataSize(), raw_imagep->getDataSize()) ; - } - } - - return res; + LLTimer elapsed; + + resetLastError(); + + bool res; + { + LLImageDataLock lock(this); + + mDecoding = true; + // Check to make sure that this instance has been initialized with data + if (!getData() || (getDataSize() < 16)) + { + setLastError("LLImageJ2C uninitialized"); + res = true; // done + } + else + { + // Update the raw discard level + updateRawDiscardLevel(); + res = mImpl->decodeImpl(*this, *raw_imagep, decode_time, first_channel, max_channel_count); + } + } + + if (res) + { + if (!mDecoding) + { + // Failed + raw_imagep->deleteData(); + res = false; + } + else + { + mDecoding = false; + } + } + else + { + if (mDecoding) + { + LL_WARNS() << "decodeImpl failed but mDecoding is true" << LL_ENDL; + mDecoding = false; + } + } + + if (!mLastError.empty()) + { + LLImage::setLastError(mLastError); + } + + LLImageCompressionTester* tester = (LLImageCompressionTester*)LLMetricPerformanceTesterBasic::getTester(sTesterName); + if (tester) + { + // Decompression stat gathering + // Note that we *do not* take into account the decompression failures data so we might overestimate the time spent processing + + // Always add the decompression time to the stat + tester->updateDecompressionStats(elapsed.getElapsedTimeF32()) ; + if (res) + { + // The whole data stream is finally decompressed when res is returned as true + tester->updateDecompressionStats(this->getDataSize(), raw_imagep->getDataSize()) ; + } + } + + return res; } bool LLImageJ2C::encode(const LLImageRaw *raw_imagep, F32 encode_time) { - return encode(raw_imagep, NULL, encode_time); + return encode(raw_imagep, NULL, encode_time); } bool LLImageJ2C::encode(const LLImageRaw *raw_imagep, const char* comment_text, F32 encode_time) { - LLTimer elapsed; - resetLastError(); - bool res = mImpl->encodeImpl(*this, *raw_imagep, comment_text, encode_time, mReversible); - if (!mLastError.empty()) - { - LLImage::setLastError(mLastError); - } - - LLImageCompressionTester* tester = (LLImageCompressionTester*)LLMetricPerformanceTesterBasic::getTester(sTesterName); - if (tester) - { - // Compression stat gathering - // Note that we *do not* take into account the compression failures cases so we night overestimate the time spent processing - - // Always add the compression time to the stat - tester->updateCompressionStats(elapsed.getElapsedTimeF32()) ; - if (res) - { - // The whole data stream is finally compressed when res is returned as true - tester->updateCompressionStats(this->getDataSize(), raw_imagep->getDataSize()) ; - } - } - - return res; + LLTimer elapsed; + resetLastError(); + bool res = mImpl->encodeImpl(*this, *raw_imagep, comment_text, encode_time, mReversible); + if (!mLastError.empty()) + { + LLImage::setLastError(mLastError); + } + + LLImageCompressionTester* tester = (LLImageCompressionTester*)LLMetricPerformanceTesterBasic::getTester(sTesterName); + if (tester) + { + // Compression stat gathering + // Note that we *do not* take into account the compression failures cases so we night overestimate the time spent processing + + // Always add the compression time to the stat + tester->updateCompressionStats(elapsed.getElapsedTimeF32()) ; + if (res) + { + // The whole data stream is finally compressed when res is returned as true + tester->updateCompressionStats(this->getDataSize(), raw_imagep->getDataSize()) ; + } + } + + return res; } //static S32 LLImageJ2C::calcHeaderSizeJ2C() { - return FIRST_PACKET_SIZE; // Hack. just needs to be >= actual header size... + return FIRST_PACKET_SIZE; // Hack. just needs to be >= actual header size... } //static S32 LLImageJ2C::calcDataSizeJ2C(S32 w, S32 h, S32 comp, S32 discard_level, F32 rate) { - // Note: This provides an estimation for the first to last quality layer of a given discard level - // This is however an efficient approximation, as the true discard level boundary would be - // in general too big for fast fetching. - // For details about the equation used here, see https://wiki.lindenlab.com/wiki/THX1138_KDU_Improvements#Byte_Range_Study - - // Estimate the number of layers. This is consistent with what's done for j2c encoding in LLImageJ2CKDU::encodeImpl(). - S32 nb_layers = 1; - S32 surface = w*h; - S32 s = 64*64; - while (surface > s) - { - nb_layers++; - s *= 4; - } - F32 layer_factor = 3.0f * (7 - llclamp(nb_layers,1,6)); - - // Compute w/pow(2,discard_level) and h/pow(2,discard_level) - w >>= discard_level; - h >>= discard_level; - w = llmax(w, 1); - h = llmax(h, 1); - - // Temporary: compute both new and old range and pick one according to the settings TextureNewByteRange - // *TODO: Take the old code out once we have enough tests done - S32 bytes; - S32 new_bytes = (S32) (sqrt((F32)(w*h))*(F32)(comp)*rate*1000.f/layer_factor); - S32 old_bytes = (S32)((F32)(w*h*comp)*rate); - bytes = (LLImage::useNewByteRange() && (new_bytes < old_bytes) ? new_bytes : old_bytes); - bytes = llmax(bytes, calcHeaderSizeJ2C()); - return bytes; + // Note: This provides an estimation for the first to last quality layer of a given discard level + // This is however an efficient approximation, as the true discard level boundary would be + // in general too big for fast fetching. + // For details about the equation used here, see https://wiki.lindenlab.com/wiki/THX1138_KDU_Improvements#Byte_Range_Study + + // Estimate the number of layers. This is consistent with what's done for j2c encoding in LLImageJ2CKDU::encodeImpl(). + S32 nb_layers = 1; + S32 surface = w*h; + S32 s = 64*64; + while (surface > s) + { + nb_layers++; + s *= 4; + } + F32 layer_factor = 3.0f * (7 - llclamp(nb_layers,1,6)); + + // Compute w/pow(2,discard_level) and h/pow(2,discard_level) + w >>= discard_level; + h >>= discard_level; + w = llmax(w, 1); + h = llmax(h, 1); + + // Temporary: compute both new and old range and pick one according to the settings TextureNewByteRange + // *TODO: Take the old code out once we have enough tests done + S32 bytes; + S32 new_bytes = (S32) (sqrt((F32)(w*h))*(F32)(comp)*rate*1000.f/layer_factor); + S32 old_bytes = (S32)((F32)(w*h*comp)*rate); + bytes = (LLImage::useNewByteRange() && (new_bytes < old_bytes) ? new_bytes : old_bytes); + bytes = llmax(bytes, calcHeaderSizeJ2C()); + return bytes; } S32 LLImageJ2C::calcHeaderSize() { - return calcHeaderSizeJ2C(); + return calcHeaderSizeJ2C(); } // calcDataSize() returns how many bytes to read to load discard_level (including header) S32 LLImageJ2C::calcDataSize(S32 discard_level) { - discard_level = llclamp(discard_level, 0, MAX_DISCARD_LEVEL); - if ( mAreaUsedForDataSizeCalcs != (getHeight() * getWidth()) - || (mDataSizes[0] == 0)) - { - mAreaUsedForDataSizeCalcs = getHeight() * getWidth(); - - S32 level = MAX_DISCARD_LEVEL; // Start at the highest discard - while ( level >= 0 ) - { - mDataSizes[level] = calcDataSizeJ2C(getWidth(), getHeight(), getComponents(), level, mRate); - level--; - } - } - return mDataSizes[discard_level]; + discard_level = llclamp(discard_level, 0, MAX_DISCARD_LEVEL); + if ( mAreaUsedForDataSizeCalcs != (getHeight() * getWidth()) + || (mDataSizes[0] == 0)) + { + mAreaUsedForDataSizeCalcs = getHeight() * getWidth(); + + S32 level = MAX_DISCARD_LEVEL; // Start at the highest discard + while ( level >= 0 ) + { + mDataSizes[level] = calcDataSizeJ2C(getWidth(), getHeight(), getComponents(), level, mRate); + level--; + } + } + return mDataSizes[discard_level]; } S32 LLImageJ2C::calcDiscardLevelBytes(S32 bytes) { - llassert(bytes >= 0); - S32 discard_level = 0; - if (bytes == 0) - { - return MAX_DISCARD_LEVEL; - } - while (1) - { - S32 bytes_needed = calcDataSize(discard_level); - // Use TextureReverseByteRange percent (see settings.xml) of the optimal size to qualify as correct rendering for the given discard level - if (bytes >= (bytes_needed*LLImage::getReverseByteRangePercent()/100)) - { - break; - } - discard_level++; - if (discard_level >= MAX_DISCARD_LEVEL) - { - break; - } - } - return discard_level; + llassert(bytes >= 0); + S32 discard_level = 0; + if (bytes == 0) + { + return MAX_DISCARD_LEVEL; + } + while (1) + { + S32 bytes_needed = calcDataSize(discard_level); + // Use TextureReverseByteRange percent (see settings.xml) of the optimal size to qualify as correct rendering for the given discard level + if (bytes >= (bytes_needed*LLImage::getReverseByteRangePercent()/100)) + { + break; + } + discard_level++; + if (discard_level >= MAX_DISCARD_LEVEL) + { + break; + } + } + return discard_level; } void LLImageJ2C::setMaxBytes(S32 max_bytes) { - mMaxBytes = max_bytes; + mMaxBytes = max_bytes; } void LLImageJ2C::setReversible(const bool reversible) { - mReversible = reversible; + mReversible = reversible; } bool LLImageJ2C::loadAndValidate(const std::string &filename) { - bool res = true; - - resetLastError(); - - S32 file_size = 0; - LLAPRFile infile ; - infile.open(filename, LL_APR_RB, NULL, &file_size); - apr_file_t* apr_file = infile.getFileHandle() ; - if (!apr_file) - { - setLastError("Unable to open file for reading", filename); - res = false; - } - else if (file_size == 0) - { - setLastError("File is empty",filename); - res = false; - } - else - { - U8 *data = (U8*)ll_aligned_malloc_16(file_size); - if (!data) - { - infile.close(); - setLastError("Out of memory", filename); - res = false; - } - else - { - apr_size_t bytes_read = file_size; - apr_status_t s = apr_file_read(apr_file, data, &bytes_read); // modifies bytes_read - infile.close(); - - if (s != APR_SUCCESS || (S32)bytes_read != file_size) - { - ll_aligned_free_16(data); - setLastError("Unable to read entire file"); - res = false; - } - else - { - res = validate(data, file_size); - } - } - } - - if (!mLastError.empty()) - { - LLImage::setLastError(mLastError); - } - - return res; + bool res = true; + + resetLastError(); + + S32 file_size = 0; + LLAPRFile infile ; + infile.open(filename, LL_APR_RB, NULL, &file_size); + apr_file_t* apr_file = infile.getFileHandle() ; + if (!apr_file) + { + setLastError("Unable to open file for reading", filename); + res = false; + } + else if (file_size == 0) + { + setLastError("File is empty",filename); + res = false; + } + else + { + U8 *data = (U8*)ll_aligned_malloc_16(file_size); + if (!data) + { + infile.close(); + setLastError("Out of memory", filename); + res = false; + } + else + { + apr_size_t bytes_read = file_size; + apr_status_t s = apr_file_read(apr_file, data, &bytes_read); // modifies bytes_read + infile.close(); + + if (s != APR_SUCCESS || (S32)bytes_read != file_size) + { + ll_aligned_free_16(data); + setLastError("Unable to read entire file"); + res = false; + } + else + { + res = validate(data, file_size); + } + } + } + + if (!mLastError.empty()) + { + LLImage::setLastError(mLastError); + } + + return res; } bool LLImageJ2C::validate(U8 *data, U32 file_size) { - resetLastError(); - - LLImageDataLock lock(this); - - setData(data, file_size); - - bool res = updateData(); - if ( res ) - { - // Check to make sure that this instance has been initialized with data - if (!getData() || (0 == getDataSize())) - { - setLastError("LLImageJ2C uninitialized"); - res = false; - } - else - { - res = mImpl->getMetadata(*this); - } - } - - if (!mLastError.empty()) - { - LLImage::setLastError(mLastError); - } - return res; + resetLastError(); + + LLImageDataLock lock(this); + + setData(data, file_size); + + bool res = updateData(); + if ( res ) + { + // Check to make sure that this instance has been initialized with data + if (!getData() || (0 == getDataSize())) + { + setLastError("LLImageJ2C uninitialized"); + res = false; + } + else + { + res = mImpl->getMetadata(*this); + } + } + + if (!mLastError.empty()) + { + LLImage::setLastError(mLastError); + } + return res; } void LLImageJ2C::decodeFailed() { - mDecoding = false; + mDecoding = false; } void LLImageJ2C::updateRawDiscardLevel() { - mRawDiscardLevel = mMaxBytes ? calcDiscardLevelBytes(mMaxBytes) : mDiscardLevel; + mRawDiscardLevel = mMaxBytes ? calcDiscardLevelBytes(mMaxBytes) : mDiscardLevel; } LLImageJ2CImpl::~LLImageJ2CImpl() @@ -465,126 +465,126 @@ LLImageJ2CImpl::~LLImageJ2CImpl() //---------------------------------------------------------------------------------------------- // Start of LLImageCompressionTester //---------------------------------------------------------------------------------------------- -LLImageCompressionTester::LLImageCompressionTester() : LLMetricPerformanceTesterBasic(sTesterName) +LLImageCompressionTester::LLImageCompressionTester() : LLMetricPerformanceTesterBasic(sTesterName) { - addMetric("Time Decompression (s)"); - addMetric("Volume In Decompression (kB)"); - addMetric("Volume Out Decompression (kB)"); - addMetric("Decompression Ratio (x:1)"); - addMetric("Perf Decompression (kB/s)"); - - addMetric("Time Compression (s)"); - addMetric("Volume In Compression (kB)"); - addMetric("Volume Out Compression (kB)"); - addMetric("Compression Ratio (x:1)"); - addMetric("Perf Compression (kB/s)"); - - mRunBytesInDecompression = 0; - mRunBytesOutDecompression = 0; - mRunBytesInCompression = 0; - - mTotalBytesInDecompression = 0; - mTotalBytesOutDecompression = 0; - mTotalBytesInCompression = 0; - mTotalBytesOutCompression = 0; - - mTotalTimeDecompression = 0.0f; - mTotalTimeCompression = 0.0f; - mRunTimeDecompression = 0.0f; + addMetric("Time Decompression (s)"); + addMetric("Volume In Decompression (kB)"); + addMetric("Volume Out Decompression (kB)"); + addMetric("Decompression Ratio (x:1)"); + addMetric("Perf Decompression (kB/s)"); + + addMetric("Time Compression (s)"); + addMetric("Volume In Compression (kB)"); + addMetric("Volume Out Compression (kB)"); + addMetric("Compression Ratio (x:1)"); + addMetric("Perf Compression (kB/s)"); + + mRunBytesInDecompression = 0; + mRunBytesOutDecompression = 0; + mRunBytesInCompression = 0; + + mTotalBytesInDecompression = 0; + mTotalBytesOutDecompression = 0; + mTotalBytesInCompression = 0; + mTotalBytesOutCompression = 0; + + mTotalTimeDecompression = 0.0f; + mTotalTimeCompression = 0.0f; + mRunTimeDecompression = 0.0f; } LLImageCompressionTester::~LLImageCompressionTester() { - outputTestResults(); - LLImageJ2C::sTesterp = NULL; + outputTestResults(); + LLImageJ2C::sTesterp = NULL; } -//virtual -void LLImageCompressionTester::outputTestRecord(LLSD *sd) -{ - std::string currentLabel = getCurrentLabelName(); - - F32 decompressionPerf = 0.0f; - F32 compressionPerf = 0.0f; - F32 decompressionRate = 0.0f; - F32 compressionRate = 0.0f; - - F32 totalkBInDecompression = (F32)(mTotalBytesInDecompression) / 1000.f; - F32 totalkBOutDecompression = (F32)(mTotalBytesOutDecompression) / 1000.f; - F32 totalkBInCompression = (F32)(mTotalBytesInCompression) / 1000.f; - F32 totalkBOutCompression = (F32)(mTotalBytesOutCompression) / 1000.f; - - if (!is_approx_zero(mTotalTimeDecompression)) - { - decompressionPerf = totalkBInDecompression / mTotalTimeDecompression; - } - if (!is_approx_zero(totalkBInDecompression)) - { - decompressionRate = totalkBOutDecompression / totalkBInDecompression; - } - if (!is_approx_zero(mTotalTimeCompression)) - { - compressionPerf = totalkBInCompression / mTotalTimeCompression; - } - if (!is_approx_zero(totalkBOutCompression)) - { - compressionRate = totalkBInCompression / totalkBOutCompression; - } - - (*sd)[currentLabel]["Time Decompression (s)"] = (LLSD::Real)mTotalTimeDecompression; - (*sd)[currentLabel]["Volume In Decompression (kB)"] = (LLSD::Real)totalkBInDecompression; - (*sd)[currentLabel]["Volume Out Decompression (kB)"]= (LLSD::Real)totalkBOutDecompression; - (*sd)[currentLabel]["Decompression Ratio (x:1)"] = (LLSD::Real)decompressionRate; - (*sd)[currentLabel]["Perf Decompression (kB/s)"] = (LLSD::Real)decompressionPerf; - - (*sd)[currentLabel]["Time Compression (s)"] = (LLSD::Real)mTotalTimeCompression; - (*sd)[currentLabel]["Volume In Compression (kB)"] = (LLSD::Real)totalkBInCompression; - (*sd)[currentLabel]["Volume Out Compression (kB)"] = (LLSD::Real)totalkBOutCompression; - (*sd)[currentLabel]["Compression Ratio (x:1)"] = (LLSD::Real)compressionRate; - (*sd)[currentLabel]["Perf Compression (kB/s)"] = (LLSD::Real)compressionPerf; +//virtual +void LLImageCompressionTester::outputTestRecord(LLSD *sd) +{ + std::string currentLabel = getCurrentLabelName(); + + F32 decompressionPerf = 0.0f; + F32 compressionPerf = 0.0f; + F32 decompressionRate = 0.0f; + F32 compressionRate = 0.0f; + + F32 totalkBInDecompression = (F32)(mTotalBytesInDecompression) / 1000.f; + F32 totalkBOutDecompression = (F32)(mTotalBytesOutDecompression) / 1000.f; + F32 totalkBInCompression = (F32)(mTotalBytesInCompression) / 1000.f; + F32 totalkBOutCompression = (F32)(mTotalBytesOutCompression) / 1000.f; + + if (!is_approx_zero(mTotalTimeDecompression)) + { + decompressionPerf = totalkBInDecompression / mTotalTimeDecompression; + } + if (!is_approx_zero(totalkBInDecompression)) + { + decompressionRate = totalkBOutDecompression / totalkBInDecompression; + } + if (!is_approx_zero(mTotalTimeCompression)) + { + compressionPerf = totalkBInCompression / mTotalTimeCompression; + } + if (!is_approx_zero(totalkBOutCompression)) + { + compressionRate = totalkBInCompression / totalkBOutCompression; + } + + (*sd)[currentLabel]["Time Decompression (s)"] = (LLSD::Real)mTotalTimeDecompression; + (*sd)[currentLabel]["Volume In Decompression (kB)"] = (LLSD::Real)totalkBInDecompression; + (*sd)[currentLabel]["Volume Out Decompression (kB)"]= (LLSD::Real)totalkBOutDecompression; + (*sd)[currentLabel]["Decompression Ratio (x:1)"] = (LLSD::Real)decompressionRate; + (*sd)[currentLabel]["Perf Decompression (kB/s)"] = (LLSD::Real)decompressionPerf; + + (*sd)[currentLabel]["Time Compression (s)"] = (LLSD::Real)mTotalTimeCompression; + (*sd)[currentLabel]["Volume In Compression (kB)"] = (LLSD::Real)totalkBInCompression; + (*sd)[currentLabel]["Volume Out Compression (kB)"] = (LLSD::Real)totalkBOutCompression; + (*sd)[currentLabel]["Compression Ratio (x:1)"] = (LLSD::Real)compressionRate; + (*sd)[currentLabel]["Perf Compression (kB/s)"] = (LLSD::Real)compressionPerf; } -void LLImageCompressionTester::updateCompressionStats(const F32 deltaTime) +void LLImageCompressionTester::updateCompressionStats(const F32 deltaTime) { - mTotalTimeCompression += deltaTime; + mTotalTimeCompression += deltaTime; } -void LLImageCompressionTester::updateCompressionStats(const S32 bytesCompress, const S32 bytesRaw) +void LLImageCompressionTester::updateCompressionStats(const S32 bytesCompress, const S32 bytesRaw) { - mTotalBytesInCompression += bytesRaw; - mRunBytesInCompression += bytesRaw; - mTotalBytesOutCompression += bytesCompress; - if (mRunBytesInCompression > (1000000)) - { - // Output everything - outputTestResults(); - // Reset the compression data of the run - mRunBytesInCompression = 0; - } + mTotalBytesInCompression += bytesRaw; + mRunBytesInCompression += bytesRaw; + mTotalBytesOutCompression += bytesCompress; + if (mRunBytesInCompression > (1000000)) + { + // Output everything + outputTestResults(); + // Reset the compression data of the run + mRunBytesInCompression = 0; + } } -void LLImageCompressionTester::updateDecompressionStats(const F32 deltaTime) +void LLImageCompressionTester::updateDecompressionStats(const F32 deltaTime) { - mTotalTimeDecompression += deltaTime; + mTotalTimeDecompression += deltaTime; } -void LLImageCompressionTester::updateDecompressionStats(const S32 bytesIn, const S32 bytesOut) +void LLImageCompressionTester::updateDecompressionStats(const S32 bytesIn, const S32 bytesOut) { - mTotalBytesInDecompression += bytesIn; - mRunBytesInDecompression += bytesIn; - mTotalBytesOutDecompression += bytesOut; - mRunBytesOutDecompression += bytesOut; - //if (mRunBytesInDecompression > (1000000)) - if (mRunBytesOutDecompression > (10000000)) - //if ((mTotalTimeDecompression - mRunTimeDecompression) >= (5.0f)) - { - // Output everything - outputTestResults(); - // Reset the decompression data of the run - mRunBytesInDecompression = 0; - mRunBytesOutDecompression = 0; - mRunTimeDecompression = mTotalTimeDecompression; - } + mTotalBytesInDecompression += bytesIn; + mRunBytesInDecompression += bytesIn; + mTotalBytesOutDecompression += bytesOut; + mRunBytesOutDecompression += bytesOut; + //if (mRunBytesInDecompression > (1000000)) + if (mRunBytesOutDecompression > (10000000)) + //if ((mTotalTimeDecompression - mRunTimeDecompression) >= (5.0f)) + { + // Output everything + outputTestResults(); + // Reset the decompression data of the run + mRunBytesInDecompression = 0; + mRunBytesOutDecompression = 0; + mRunTimeDecompression = mTotalTimeDecompression; + } } //---------------------------------------------------------------------------------------------- |