ref: f49f4c1476e84c0a655bd169f2e47461f32ffbab
dir: /test/api/BaseThreadDecoderTest.cpp/
#include <fstream> #include <gtest/gtest.h> #include "codec_def.h" #include "codec_app_def.h" #include "utils/BufferedData.h" #include "BaseThreadDecoderTest.h" static int32_t readBit (uint8_t* pBufPtr, int32_t& curBit) { int nIndex = curBit / 8; int nOffset = curBit % 8 + 1; curBit++; return (pBufPtr[nIndex] >> (8 - nOffset)) & 0x01; } static int32_t readBits (uint8_t* pBufPtr, int32_t& n, int32_t& curBit) { int r = 0; int i; for (i = 0; i < n; i++) { r |= (readBit (pBufPtr, curBit) << (n - i - 1)); } return r; } static int32_t bsGetUe (uint8_t* pBufPtr, int32_t& curBit) { int r = 0; int i = 0; while ((readBit (pBufPtr, curBit) == 0) && (i < 32)) { i++; } r = readBits (pBufPtr, i, curBit); r += (1 << i) - 1; return r; } static int32_t readFirstMbInSlice (uint8_t* pSliceNalPtr) { int32_t curBit = 0; int32_t firstMBInSlice = bsGetUe (pSliceNalPtr + 1, curBit); return firstMBInSlice; } static int32_t ReadFrame (uint8_t* pBuf, const int32_t& iFileSize, const int32_t& bufPos) { int32_t bytes_available = iFileSize - bufPos; if (bytes_available < 4) { return bytes_available; } uint8_t* ptr = pBuf + bufPos; int32_t read_bytes = 0; int32_t sps_count = 0; int32_t pps_count = 0; int32_t non_idr_pict_count = 0; int32_t idr_pict_count = 0; int32_t nal_deliminator = 0; while (read_bytes < bytes_available - 4) { bool has4ByteStartCode = ptr[0] == 0 && ptr[1] == 0 && ptr[2] == 0 && ptr[3] == 1; bool has3ByteStartCode = false; if (!has4ByteStartCode) { has3ByteStartCode = ptr[0] == 0 && ptr[1] == 0 && ptr[2] == 1; } if (has4ByteStartCode || has3ByteStartCode) { int32_t byteOffset = has4ByteStartCode ? 4 : 3; uint8_t nal_unit_type = has4ByteStartCode ? (ptr[4] & 0x1F) : (ptr[3] & 0x1F); if (nal_unit_type == 1) { int32_t firstMBInSlice = readFirstMbInSlice (ptr + byteOffset); if (++non_idr_pict_count >= 1 && idr_pict_count >= 1 && firstMBInSlice == 0) { return read_bytes; } if (non_idr_pict_count >= 2 && firstMBInSlice == 0) { return read_bytes; } } else if (nal_unit_type == 5) { int32_t firstMBInSlice = readFirstMbInSlice (ptr + byteOffset); if (++idr_pict_count >= 1 && non_idr_pict_count >= 1 && firstMBInSlice == 0) { return read_bytes; } if (idr_pict_count >= 2 && firstMBInSlice == 0) { return read_bytes; } } else if (nal_unit_type == 7) { if ((++sps_count >= 1) && (non_idr_pict_count >= 1 || idr_pict_count >= 1)) { return read_bytes; } if (sps_count == 2) return read_bytes; } else if (nal_unit_type == 8) { if (++pps_count >= 1 && (non_idr_pict_count >= 1 || idr_pict_count >= 1)) return read_bytes; } else if (nal_unit_type == 9) { if (++nal_deliminator == 2) { return read_bytes; } } if (read_bytes >= bytes_available - 4) { return bytes_available; } read_bytes += 4; ptr += 4; } else { ++ptr; ++read_bytes; } } return bytes_available; } static void Write2File (FILE* pFp, unsigned char* pData[3], int iStride[2], int iWidth, int iHeight) { int i; unsigned char* pPtr = NULL; pPtr = pData[0]; for (i = 0; i < iHeight; i++) { fwrite (pPtr, 1, iWidth, pFp); pPtr += iStride[0]; } iHeight = iHeight / 2; iWidth = iWidth / 2; pPtr = pData[1]; for (i = 0; i < iHeight; i++) { fwrite (pPtr, 1, iWidth, pFp); pPtr += iStride[1]; } pPtr = pData[2]; for (i = 0; i < iHeight; i++) { fwrite (pPtr, 1, iWidth, pFp); pPtr += iStride[1]; } } static void Process (SBufferInfo* pInfo, FILE* pFp) { if (pFp && pInfo->pDst[0] && pInfo->pDst[1] && pInfo->pDst[2] && pInfo) { int iStride[2]; int iWidth = pInfo->UsrData.sSystemBuffer.iWidth; int iHeight = pInfo->UsrData.sSystemBuffer.iHeight; iStride[0] = pInfo->UsrData.sSystemBuffer.iStride[0]; iStride[1] = pInfo->UsrData.sSystemBuffer.iStride[1]; Write2File (pFp, (unsigned char**)pInfo->pDst, iStride, iWidth, iHeight); } } BaseThreadDecoderTest::BaseThreadDecoderTest() : decoder_ (NULL), uiTimeStamp (0), pYuvFile (NULL), bEnableYuvDumpTest (false), decodeStatus_ (OpenFile) { } int32_t BaseThreadDecoderTest::SetUp() { long rv = WelsCreateDecoder (&decoder_); EXPECT_EQ (0, rv); EXPECT_TRUE (decoder_ != NULL); if (decoder_ == NULL) { return rv; } SDecodingParam decParam; memset (&decParam, 0, sizeof (SDecodingParam)); decParam.uiTargetDqLayer = UCHAR_MAX; decParam.eEcActiveIdc = ERROR_CON_SLICE_COPY; decParam.sVideoProperty.eVideoBsType = VIDEO_BITSTREAM_DEFAULT; int iThreadCount = (rand() % 2) + 2; decoder_->SetOption (DECODER_OPTION_NUM_OF_THREADS, &iThreadCount); rv = decoder_->Initialize (&decParam); EXPECT_EQ (0, rv); return (int32_t)rv; } void BaseThreadDecoderTest::TearDown() { if (decoder_ != NULL) { decoder_->Uninitialize(); WelsDestroyDecoder (decoder_); } } void BaseThreadDecoderTest::DecodeFrame (const uint8_t* src, size_t sliceSize, Callback* cbk) { SBufferInfo bufInfo; memset (pData, 0, sizeof (pData)); memset (&bufInfo, 0, sizeof (SBufferInfo)); bufInfo.uiInBsTimeStamp = ++uiTimeStamp; DECODING_STATE rv = decoder_->DecodeFrameNoDelay (src, (int) sliceSize, pData, &bufInfo); ASSERT_TRUE (rv == dsErrorFree); sBufInfo = bufInfo; if (sBufInfo.iBufferStatus == 1 && cbk != NULL) { if (bEnableYuvDumpTest) { Process (&sBufInfo, pYuvFile); } const Frame frame = { { // y plane sBufInfo.pDst[0], bufInfo.UsrData.sSystemBuffer.iWidth, bufInfo.UsrData.sSystemBuffer.iHeight, bufInfo.UsrData.sSystemBuffer.iStride[0] }, { // u plane sBufInfo.pDst[1], sBufInfo.UsrData.sSystemBuffer.iWidth / 2, sBufInfo.UsrData.sSystemBuffer.iHeight / 2, sBufInfo.UsrData.sSystemBuffer.iStride[1] }, { // v plane sBufInfo.pDst[2], sBufInfo.UsrData.sSystemBuffer.iWidth / 2, sBufInfo.UsrData.sSystemBuffer.iHeight / 2, sBufInfo.UsrData.sSystemBuffer.iStride[1] }, }; cbk->onDecodeFrame (frame); } } void BaseThreadDecoderTest::FlushFrame (Callback* cbk) { SBufferInfo bufInfo; memset (pData, 0, sizeof (pData)); memset (&bufInfo, 0, sizeof (SBufferInfo)); DECODING_STATE rv = decoder_->FlushFrame (pData, &bufInfo); ASSERT_TRUE (rv == dsErrorFree); sBufInfo = bufInfo; if (sBufInfo.iBufferStatus == 1 && cbk != NULL) { if (bEnableYuvDumpTest) { Process (&sBufInfo, pYuvFile); } const Frame frame = { { // y plane sBufInfo.pDst[0], sBufInfo.UsrData.sSystemBuffer.iWidth, sBufInfo.UsrData.sSystemBuffer.iHeight, sBufInfo.UsrData.sSystemBuffer.iStride[0] }, { // u plane sBufInfo.pDst[1], sBufInfo.UsrData.sSystemBuffer.iWidth / 2, sBufInfo.UsrData.sSystemBuffer.iHeight / 2, sBufInfo.UsrData.sSystemBuffer.iStride[1] }, { // v plane sBufInfo.pDst[2], sBufInfo.UsrData.sSystemBuffer.iWidth / 2, sBufInfo.UsrData.sSystemBuffer.iHeight / 2, sBufInfo.UsrData.sSystemBuffer.iStride[1] }, }; cbk->onDecodeFrame (frame); } } bool BaseThreadDecoderTest::ThreadDecodeFile (const char* fileName, Callback* cbk) { std::ifstream file (fileName, std::ios::in | std::ios::binary); if (!file.is_open()) return false; BufferedData buf; char b; for (;;) { file.read (&b, 1); if (file.gcount() != 1) { // end of file break; } if (!buf.PushBack (b)) { std::cout << "unable to allocate memory" << std::endl; return false; } } std::string outFileName = std::string (fileName); size_t pos = outFileName.find_last_of ("."); if (bEnableYuvDumpTest) { outFileName = outFileName.substr (0, pos) + std::string (".yuv"); pYuvFile = fopen (outFileName.c_str(), "wb"); } uiTimeStamp = 0; memset (&sBufInfo, 0, sizeof (SBufferInfo)); int32_t bufPos = 0; int32_t bytesConsumed = 0; int32_t fileSize = (int32_t)buf.Length(); while (bytesConsumed < fileSize) { int32_t frameSize = ReadFrame (buf.data(), fileSize, bufPos); if (::testing::Test::HasFatalFailure()) { return false; } uint8_t* frame_ptr = buf.data() + bufPos; DecodeFrame (frame_ptr, frameSize, cbk); if (::testing::Test::HasFatalFailure()) { return false; } bufPos += frameSize; bytesConsumed += frameSize; } int32_t iEndOfStreamFlag = 1; decoder_->SetOption (DECODER_OPTION_END_OF_STREAM, &iEndOfStreamFlag); // Flush out last frames in decoder buffer int32_t num_of_frames_in_buffer = 0; decoder_->GetOption (DECODER_OPTION_NUM_OF_FRAMES_REMAINING_IN_BUFFER, &num_of_frames_in_buffer); for (int32_t i = 0; i < num_of_frames_in_buffer; ++i) { FlushFrame (cbk); } if (bEnableYuvDumpTest) { fclose (pYuvFile); } return true; } bool BaseThreadDecoderTest::Open (const char* fileName) { if (decodeStatus_ == OpenFile) { file_.open (fileName, std::ios_base::out | std::ios_base::binary); if (file_.is_open()) { decodeStatus_ = Decoding; return true; } } return false; }