ref: bac5511694f2e24b25315371a88087150ccc8e82
dir: /test/encoder/EncUT_EncoderExt.cpp/
#include <gtest/gtest.h> #include <stdlib.h> #include "codec_api.h" #include "codec_app_def.h" #include "test_stdint.h" //TODO: consider using BaseEncoderTest class from #include "../BaseEncoderTest.h" class EncoderInterfaceTest : public ::testing::Test { #define MB_SIZE (16) #define MAX_WIDTH (3840) #define MAX_HEIGHT (2160) #define VALID_SIZE(iSize) (((iSize)>1)?(iSize):1) #define MEM_VARY_SIZE (512) #define IMAGE_VARY_SIZE (512) #define TEST_FRAMES (30) #define NAL_HEADER_BYTES (4) #define NAL_TYPE (0x0F) #define SPS_NAL_TYPE (7) #define PPS_NAL_TYPE (8) #define SUBSETSPS_NAL_TYPE (15) #define GET_NAL_TYPE(pNalStart) (*(pNalStart+NAL_HEADER_BYTES) & NAL_TYPE) #define IS_PARASET(iNalType) ((iNalType==SPS_NAL_TYPE) || (iNalType==PPS_NAL_TYPE) || (iNalType==SUBSETSPS_NAL_TYPE)) public: virtual void SetUp() { int rv = WelsCreateSVCEncoder (&pPtrEnc); ASSERT_EQ (0, rv); ASSERT_TRUE (pPtrEnc != NULL); pParamExt = new SEncParamExt(); ASSERT_TRUE (pParamExt != NULL); pSrcPic = new SSourcePicture; ASSERT_TRUE (pSrcPic != NULL); pOption = new SEncParamExt(); ASSERT_TRUE (pOption != NULL); pYUV = NULL; m_iWidth = MAX_WIDTH; m_iHeight = MAX_HEIGHT; m_iPicResSize = m_iWidth * m_iHeight * 3 >> 1; pYUV = new unsigned char [m_iPicResSize]; ASSERT_TRUE (pYUV != NULL); } virtual void TearDown() { delete pParamExt; delete pOption; delete pSrcPic; delete []pYUV; if (pPtrEnc) { WelsDestroySVCEncoder (pPtrEnc); pPtrEnc = NULL; } } void InitializeParamExt(); void TemporalLayerSettingTest(); void MemoryCheckTest(); void EncodeOneFrame (SEncParamBase* pEncParamBase); void PrepareOneSrcFrame(); void EncodeOneIDRandP (ISVCEncoder* pPtrEnc); public: ISVCEncoder* pPtrEnc; SEncParamExt* pParamExt; SSourcePicture* pSrcPic; SEncParamExt* pOption; unsigned char* pYUV; SFrameBSInfo sFbi; int m_iWidth; int m_iHeight; int m_iPicResSize; }; void EncoderInterfaceTest::PrepareOneSrcFrame() { pSrcPic->iColorFormat = videoFormatI420; pSrcPic->uiTimeStamp = 0; pSrcPic->iPicWidth = pParamExt->iPicWidth; pSrcPic->iPicHeight = pParamExt->iPicHeight; for (int i = 0; i < m_iPicResSize; i++) pYUV[i] = rand() % 256; pSrcPic->iStride[0] = m_iWidth; pSrcPic->iStride[1] = pSrcPic->iStride[2] = pSrcPic->iStride[0] >> 1; pSrcPic->pData[0] = pYUV; pSrcPic->pData[1] = pSrcPic->pData[0] + (m_iWidth * m_iHeight); pSrcPic->pData[2] = pSrcPic->pData[1] + (m_iWidth * m_iHeight >> 2); //clean the output memset (&sFbi, 0, sizeof (SFrameBSInfo)); } void EncoderInterfaceTest::EncodeOneFrame (SEncParamBase* pEncParamBase) { int iResult; iResult = pPtrEnc->Initialize (pEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); PrepareOneSrcFrame(); iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_EQ (sFbi.eFrameType, static_cast<int> (videoFrameTypeIDR)); iResult = pPtrEnc->GetOption (ENCODER_OPTION_SVC_ENCODE_PARAM_BASE, pEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); pPtrEnc->Uninitialize(); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); } void EncoderInterfaceTest::EncodeOneIDRandP (ISVCEncoder* pPtrEnc) { int iResult; iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_EQ (sFbi.eFrameType, static_cast<int> (videoFrameTypeIDR)); iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_NE (sFbi.eFrameType, static_cast<int> (videoFrameTypeIDR)); } void EncoderInterfaceTest::InitializeParamExt() { pParamExt->iPicWidth = 1280; pParamExt->iPicHeight = 720; pParamExt->iTargetBitrate = 50000; pParamExt->iTemporalLayerNum = 3; pParamExt->iSpatialLayerNum = 1; pParamExt->sSpatialLayers[0].iVideoHeight = pParamExt->iPicHeight; pParamExt->sSpatialLayers[0].iVideoWidth = pParamExt->iPicWidth; pParamExt->sSpatialLayers[0].iSpatialBitrate = 50000; } TEST_F (EncoderInterfaceTest, TemporalLayerSettingTest) { pParamExt->iPicWidth = 1280; pParamExt->iPicHeight = 720; m_iWidth = pParamExt->iPicWidth; m_iHeight = pParamExt->iPicHeight; pParamExt->iTargetBitrate = 60000; pParamExt->sSpatialLayers[0].iVideoHeight = pParamExt->iPicHeight; pParamExt->sSpatialLayers[0].iVideoWidth = pParamExt->iPicWidth; pParamExt->sSpatialLayers[0].iSpatialBitrate = 50000; pParamExt->iTemporalLayerNum = 1; pParamExt->iSpatialLayerNum = 1; for(int i = 0; i < 2; i++){ pParamExt->iUsageType = (( i == 0 ) ? SCREEN_CONTENT_REAL_TIME : CAMERA_VIDEO_REAL_TIME); int iResult = pPtrEnc->InitializeExt (pParamExt); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); PrepareOneSrcFrame(); iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_EQ (sFbi.eFrameType, static_cast<int> (videoFrameTypeIDR)); pSrcPic->uiTimeStamp = 30; iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_EQ (sFbi.eFrameType, static_cast<int> (videoFrameTypeP)); ENCODER_OPTION eOptionId = ENCODER_OPTION_SVC_ENCODE_PARAM_EXT; iResult = pPtrEnc->GetOption (eOptionId, pOption); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); pOption ->iTemporalLayerNum = 4; iResult = pPtrEnc->SetOption (eOptionId, pOption); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); pSrcPic->uiTimeStamp = 60; iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_EQ (sFbi.eFrameType, static_cast<int> (videoFrameTypeIDR)); pOption ->iTemporalLayerNum = 2; iResult = pPtrEnc->SetOption (eOptionId, pOption); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); pSrcPic->uiTimeStamp = 90; iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_EQ (sFbi.eFrameType, static_cast<int> (videoFrameTypeP)); pOption ->iTemporalLayerNum = 4; iResult = pPtrEnc->SetOption (eOptionId, pOption); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); pSrcPic->uiTimeStamp = 120; iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_EQ (sFbi.eFrameType, static_cast<int> (videoFrameTypeP)); iResult = pPtrEnc->Uninitialize(); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); } InitializeParamExt(); pParamExt->iUsageType = (rand() % 2) ? SCREEN_CONTENT_REAL_TIME : CAMERA_VIDEO_REAL_TIME; pParamExt->iRCMode = (rand() % 2) ? RC_BITRATE_MODE : RC_QUALITY_MODE; int iResult = pPtrEnc->InitializeExt (pParamExt); const int kiFrameNumber = TEST_FRAMES; m_iWidth = pParamExt->iPicWidth; m_iHeight = pParamExt->iPicHeight; m_iPicResSize = m_iWidth * m_iHeight * 3 >> 1; delete []pYUV; pYUV = new unsigned char [m_iPicResSize]; ASSERT_TRUE (pYUV != NULL); PrepareOneSrcFrame(); ENCODER_OPTION eOptionId = ENCODER_OPTION_SVC_ENCODE_PARAM_EXT; memcpy (pOption, pParamExt, sizeof (SEncParamExt)); for(int i = 0; i < kiFrameNumber; i ++){ if ((i%7) == 0){ if (pOption->iTemporalLayerNum<4){ pOption->iTemporalLayerNum++; } else { pOption->iTemporalLayerNum--; } iResult = pPtrEnc->SetOption (eOptionId, pOption); EXPECT_EQ (iResult, static_cast<int32_t> (cmResultSuccess)); pSrcPic->uiTimeStamp += 30; } int iStartX = rand() % (m_iPicResSize >> 1); int iEndX = (iStartX + (rand() % MEM_VARY_SIZE)) % m_iPicResSize; for (int j = iStartX; j < iEndX; j++) pYUV[j] = rand() % 256; iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int32_t> (cmResultSuccess)); pSrcPic->uiTimeStamp += 30; } iResult = pPtrEnc->Uninitialize(); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); } TEST_F (EncoderInterfaceTest, MemoryCheckTest) { InitializeParamExt(); pParamExt->iPicWidth = 1280; pParamExt->iPicHeight = 720; int iResult = pPtrEnc->InitializeExt (pParamExt); const int kiFrameNumber = TEST_FRAMES; m_iWidth = pParamExt->iPicWidth; m_iHeight = pParamExt->iPicHeight; m_iPicResSize = m_iWidth * m_iHeight * 3 >> 1; delete []pYUV; pYUV = new unsigned char [m_iPicResSize]; PrepareOneSrcFrame(); for(int i = 0; i < kiFrameNumber; i ++){ int iStartX = rand() % (m_iPicResSize >> 1); int iEndX = (iStartX + (rand() % MEM_VARY_SIZE)) % m_iPicResSize; for (int j = iStartX; j < iEndX; j++) pYUV[j] = rand() % 256; iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); pSrcPic->uiTimeStamp += 30; } pParamExt->iPicWidth += (rand() << 1) % IMAGE_VARY_SIZE; pParamExt->iPicHeight += (rand() << 1) % IMAGE_VARY_SIZE; m_iWidth = pParamExt->iPicWidth; m_iHeight = pParamExt->iPicHeight; m_iPicResSize = m_iWidth * m_iHeight * 3 >> 1; delete []pYUV; pYUV = new unsigned char [m_iPicResSize]; iResult = pPtrEnc->InitializeExt (pParamExt); PrepareOneSrcFrame(); ENCODER_OPTION eOptionId = ENCODER_OPTION_SVC_ENCODE_PARAM_EXT; memcpy (pOption, pParamExt, sizeof (SEncParamExt)); pOption ->iPicWidth = m_iWidth; pOption ->iPicHeight = m_iHeight; iResult = pPtrEnc->SetOption (eOptionId, pOption); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); for(int i = 0; i < kiFrameNumber; i ++){ int iStartX = rand() % (m_iPicResSize >> 1); int iEndX = (iStartX + (rand() % MEM_VARY_SIZE)) % m_iPicResSize; for (int j = iStartX; j < iEndX; j++) pYUV[j] = rand() % 256; iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); pSrcPic->uiTimeStamp += 30; } pOption ->iLTRRefNum += rand() % 8 + 1; iResult = pPtrEnc->SetOption (eOptionId, pOption); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); for(int i = 0; i < kiFrameNumber; i ++){ int iStartX = rand() % (m_iPicResSize >> 1); int iEndX = (iStartX + (rand() % MEM_VARY_SIZE)) % m_iPicResSize; for (int j = iStartX; j < iEndX; j++) pYUV[j] = rand() % 256; iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); pSrcPic->uiTimeStamp += 30; } iResult = pPtrEnc->Uninitialize(); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); } void GetValidEncParamBase (SEncParamBase* pEncParamBase) { pEncParamBase->iUsageType = CAMERA_VIDEO_REAL_TIME; pEncParamBase->iPicWidth = 2 + ((rand() % ((MAX_WIDTH >> 1) - 1)) << 1); pEncParamBase->iPicHeight = 2 + ((rand() % ((MAX_HEIGHT >> 1) - 1)) << 1); pEncParamBase->iPicWidth = VALID_SIZE(pEncParamBase->iPicWidth); pEncParamBase->iPicHeight = VALID_SIZE(pEncParamBase->iPicHeight); pEncParamBase->iTargetBitrate = rand() + 1; //!=0 pEncParamBase->iRCMode = RC_BITRATE_MODE; //-1, 0, 1, 2 pEncParamBase->fMaxFrameRate = rand() + 0.5f; //!=0 } TEST_F (EncoderInterfaceTest, BasicInitializeTest) { SEncParamBase sEncParamBase; GetValidEncParamBase (&sEncParamBase); int iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); if (iResult != cmResultSuccess) { fprintf (stderr, "Unexpected ParamBase? \ iUsageType=%d, Pic=%dx%d, TargetBitrate=%d, iRCMode=%d, fMaxFrameRate=%.1f\n", sEncParamBase.iUsageType, sEncParamBase.iPicWidth, sEncParamBase.iPicHeight, sEncParamBase.iTargetBitrate, sEncParamBase.iRCMode, sEncParamBase.fMaxFrameRate); } PrepareOneSrcFrame(); iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_EQ (sFbi.eFrameType, static_cast<int> (videoFrameTypeIDR)); iResult = pPtrEnc->Uninitialize(); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); } TEST_F (EncoderInterfaceTest, BasicInitializeTestFalse) { int iResult; SEncParamBase sEncParamBase; int uiTraceLevel = WELS_LOG_QUIET; pPtrEnc->SetOption (ENCODER_OPTION_TRACE_LEVEL, &uiTraceLevel); //iUsageType GetValidEncParamBase (&sEncParamBase); sEncParamBase.iUsageType = static_cast<EUsageType> (2); iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmInitParaError)); //iPicWidth GetValidEncParamBase (&sEncParamBase); sEncParamBase.iPicWidth = 0; iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmInitParaError)); GetValidEncParamBase (&sEncParamBase); sEncParamBase.iPicWidth = -1; iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmInitParaError)); //TODO: add checking max in interface and then enable this checking //GetValidEncParamBase(&sEncParamBase); //sEncParamBase.iPicWidth = rand()+(MAX_WIDTH+1); //iResult = pPtrEnc->Initialize (&sEncParamBase); //EXPECT_EQ (iResult, static_cast<int> (cmInitParaError)); //iPicHeight GetValidEncParamBase (&sEncParamBase); sEncParamBase.iPicHeight = 0; iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmInitParaError)); GetValidEncParamBase (&sEncParamBase); sEncParamBase.iPicHeight = -1; iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmInitParaError)); //TODO: add checking max in interface and then enable this checking //GetValidEncParamBase(&sEncParamBase); //sEncParamBase.iPicWidth = rand()+(MAX_HEIGHT+1); //iResult = pPtrEnc->Initialize (&sEncParamBase); //EXPECT_EQ (iResult, static_cast<int> (cmInitParaError)); //iTargetBitrate GetValidEncParamBase (&sEncParamBase); sEncParamBase.iTargetBitrate = 0; iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmInitParaError)); GetValidEncParamBase (&sEncParamBase); sEncParamBase.iTargetBitrate = -1; iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmInitParaError)); uiTraceLevel = WELS_LOG_ERROR; pPtrEnc->SetOption (ENCODER_OPTION_TRACE_LEVEL, &uiTraceLevel); } TEST_F (EncoderInterfaceTest, BasicInitializeTestAutoAdjustment) { SEncParamBase sEncParamBase; // large fMaxFrameRate GetValidEncParamBase (&sEncParamBase); sEncParamBase.fMaxFrameRate = 50000; EncodeOneFrame (&sEncParamBase); EXPECT_LE (sEncParamBase.fMaxFrameRate, 30.0); EXPECT_GE (sEncParamBase.fMaxFrameRate, 1.0); // fMaxFrameRate = 0 GetValidEncParamBase (&sEncParamBase); sEncParamBase.fMaxFrameRate = 0; EncodeOneFrame (&sEncParamBase); EXPECT_LE (sEncParamBase.fMaxFrameRate, 30.0); EXPECT_GE (sEncParamBase.fMaxFrameRate, 1.0); // fMaxFrameRate = -1 GetValidEncParamBase (&sEncParamBase); sEncParamBase.fMaxFrameRate = -1; EncodeOneFrame (&sEncParamBase); EXPECT_LE (sEncParamBase.fMaxFrameRate, 30.0); EXPECT_GE (sEncParamBase.fMaxFrameRate, 1.0); } TEST_F (EncoderInterfaceTest, ForceIntraFrame) { SEncParamBase sEncParamBase; GetValidEncParamBase (&sEncParamBase); int iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); if (iResult != cmResultSuccess) { fprintf (stderr, "Unexpected ParamBase? \ iUsageType=%d, Pic=%dx%d, TargetBitrate=%d, iRCMode=%d, fMaxFrameRate=%.1f\n", sEncParamBase.iUsageType, sEncParamBase.iPicWidth, sEncParamBase.iPicHeight, sEncParamBase.iTargetBitrate, sEncParamBase.iRCMode, sEncParamBase.fMaxFrameRate); } PrepareOneSrcFrame(); bool bIDR = true; pPtrEnc->ForceIntraFrame (bIDR); EncodeOneIDRandP (pPtrEnc); //call next frame to be IDR pPtrEnc->ForceIntraFrame (bIDR); EncodeOneIDRandP (pPtrEnc); pPtrEnc->Uninitialize(); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); } TEST_F (EncoderInterfaceTest, ForceIntraFrameWithTemporal) { SEncParamExt sEncParamExt; pPtrEnc->GetDefaultParams (&sEncParamExt); sEncParamExt.iUsageType = CAMERA_VIDEO_REAL_TIME; sEncParamExt.iPicWidth = MB_SIZE + abs ((rand() * 2) % (MAX_WIDTH - MB_SIZE)); sEncParamExt.iPicHeight = MB_SIZE + abs ((rand() * 2) % (MAX_HEIGHT - MB_SIZE)); sEncParamExt.iTargetBitrate = rand() + 1; //!=0 sEncParamExt.iRCMode = RC_BITRATE_MODE; //-1, 0, 1, 2 sEncParamExt.fMaxFrameRate = rand() + 0.5f; //!=0 sEncParamExt.sSpatialLayers[0].iVideoWidth = sEncParamExt.iPicWidth; sEncParamExt.sSpatialLayers[0].iVideoHeight = sEncParamExt.iPicHeight; sEncParamExt.sSpatialLayers[0].iSpatialBitrate = sEncParamExt.iTargetBitrate; int iTargetTemporalLayerNum = rand() % MAX_TEMPORAL_LAYER_NUM; sEncParamExt.iTemporalLayerNum = (iTargetTemporalLayerNum > 2) ? iTargetTemporalLayerNum : 2; int iResult = pPtrEnc->InitializeExt (&sEncParamExt); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); if (iResult != cmResultSuccess) { fprintf (stderr, "Unexpected ParamBase? \ iUsageType=%d, Pic=%dx%d, TargetBitrate=%d, iRCMode=%d, fMaxFrameRate=%.1f\n", sEncParamExt.iUsageType, sEncParamExt.iPicWidth, sEncParamExt.iPicHeight, sEncParamExt.iTargetBitrate, sEncParamExt.iRCMode, sEncParamExt.fMaxFrameRate); } PrepareOneSrcFrame(); bool bIDR = true; EncodeOneIDRandP (pPtrEnc); //call next frame to be IDR pPtrEnc->ForceIntraFrame (bIDR); EncodeOneIDRandP (pPtrEnc); pPtrEnc->Uninitialize(); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); } TEST_F (EncoderInterfaceTest, EncodeParameterSets) { SEncParamBase sEncParamBase; GetValidEncParamBase (&sEncParamBase); int iResult = pPtrEnc->Initialize (&sEncParamBase); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); if (iResult != cmResultSuccess) { fprintf (stderr, "Unexpected ParamBase? \ iUsageType=%d, Pic=%dx%d, TargetBitrate=%d, iRCMode=%d, fMaxFrameRate=%.1f\n", sEncParamBase.iUsageType, sEncParamBase.iPicWidth, sEncParamBase.iPicHeight, sEncParamBase.iTargetBitrate, sEncParamBase.iRCMode, sEncParamBase.fMaxFrameRate); } PrepareOneSrcFrame(); EncodeOneIDRandP (pPtrEnc); //try EncodeParameterSets pPtrEnc->EncodeParameterSets (&sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_EQ (sFbi.eFrameType, static_cast<int> (videoFrameTypeInvalid)); //check the result int iNalType = 0; SLayerBSInfo* pLayerBsInfo; for (int i = 0; i < sFbi.iLayerNum; i++) { pLayerBsInfo = & (sFbi.sLayerInfo[i]); EXPECT_EQ (pLayerBsInfo->uiLayerType , static_cast<int> (NON_VIDEO_CODING_LAYER)); iNalType = GET_NAL_TYPE (pLayerBsInfo->pBsBuf); EXPECT_EQ (true, IS_PARASET (iNalType)); for (int j = 0; j < (pLayerBsInfo->iNalCount - 1); j++) { iNalType = GET_NAL_TYPE (pLayerBsInfo->pBsBuf + pLayerBsInfo->pNalLengthInByte[j]); EXPECT_EQ (true, IS_PARASET (iNalType)); } } //try another P to make sure no impact on succeeding frames iResult = pPtrEnc->EncodeFrame (pSrcPic, &sFbi); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); EXPECT_NE (sFbi.eFrameType, static_cast<int> (videoFrameTypeIDR)); iResult = pPtrEnc->Uninitialize(); EXPECT_EQ (iResult, static_cast<int> (cmResultSuccess)); } TEST_F (EncoderInterfaceTest, BasicReturnTypeTest) { //TODO }