shithub: openh264

ref: cd76469613acafdeb87d280a022cf327c80a8baa
dir: /test/encoder/EncUT_Sample.cpp/

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#include<gtest/gtest.h>
#include<math.h>
#include<stdlib.h>
#include<time.h>

#include "cpu_core.h"
#include "cpu.h"
#include "sample.h"
#include "sad_common.h"
#include "get_intra_predictor.h"

using namespace WelsSVCEnc;
#ifdef X86_ASM
TEST(IntraSadSatdFuncTest, WelsIntra16x16Combined3Sad_ssse3){
  const int32_t iLineSizeDec = 32;
  const int32_t iLineSizeEnc = 32;
  int32_t tmpa, tmpb;
  int32_t iBestMode_c, iBestMode_a, iLambda = 50;
  CMemoryAlign cMemoryAlign(0);
  int32_t iCpuCores = 0;
  uint32_t m_uiCpuFeatureFlag = WelsCPUFeatureDetect(&iCpuCores);
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSSE3))
    return;
  uint8_t* pDec = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeDec<<5,"pDec");
  uint8_t* pEnc = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeEnc<<5,"pEnc");
  uint8_t* pDst = (uint8_t *)cMemoryAlign.WelsMalloc(512,"pDst");
  srand((uint32_t)time(NULL));
  for(int i=0;i<(iLineSizeDec<<5);i++)
    pDec[i]=rand()%256;
  for(int i=0;i<(iLineSizeEnc<<5);i++)
    pEnc[i]=rand()%256;

  for(int i=0;i<512;i++)
    pDst[i]=rand()%256;
  tmpa = WelsSampleSadIntra16x16Combined3_c(pDec+128, iLineSizeDec, pEnc,iLineSizeEnc,&iBestMode_c, iLambda, pDst);
  tmpb = WelsIntra16x16Combined3Sad_ssse3(pDec+128, iLineSizeDec, pEnc,iLineSizeEnc,&iBestMode_a, iLambda, pDst);

  ASSERT_EQ(tmpa, tmpb);
  ASSERT_EQ(iBestMode_c, iBestMode_a);

  cMemoryAlign.WelsFree(pDec,"pDec");
  cMemoryAlign.WelsFree(pEnc,"pEnc");
  cMemoryAlign.WelsFree(pDst,"pDst");
}

TEST(IntraSadSatdFuncTest, WelsIntra16x16Combined3Satd_sse41){
  const int32_t iLineSizeDec = 32;
  const int32_t iLineSizeEnc = 32;
  int32_t tmpa, tmpb;
  int32_t iBestMode_c, iBestMode_a, iLambda = 50;
  CMemoryAlign cMemoryAlign(0);
  int32_t iCpuCores = 0;
  uint32_t m_uiCpuFeatureFlag = WelsCPUFeatureDetect(&iCpuCores);
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE41))
    return;
  uint8_t* pDec = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeDec<<5,"pDec");
  uint8_t* pEnc = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeEnc<<5,"pEnc");
  uint8_t* pDst = (uint8_t *)cMemoryAlign.WelsMalloc(512,"pDst");
  srand((uint32_t)time(NULL));
  for(int i=0;i<(iLineSizeDec<<5);i++)
    pDec[i]=rand()%256;
  for(int i=0;i<(iLineSizeEnc<<5);i++)
    pEnc[i]=rand()%256;
  for(int i=0;i<512;i++)
    pDst[i]=rand()%256;
  tmpa = WelsSampleSatdIntra16x16Combined3_c(pDec+128, iLineSizeDec, pEnc,iLineSizeEnc,&iBestMode_c, iLambda, pDst);
  tmpb = WelsIntra16x16Combined3Satd_sse41(pDec+128, iLineSizeDec, pEnc,iLineSizeEnc,&iBestMode_a, iLambda, pDst);
  ASSERT_EQ(tmpa, tmpb);
  ASSERT_EQ(iBestMode_c, iBestMode_a);
  cMemoryAlign.WelsFree(pDec,"pDec");
  cMemoryAlign.WelsFree(pEnc,"pEnc");
  cMemoryAlign.WelsFree(pDst,"pDst");
}

TEST(IntraSadSatdFuncTest, WelsSampleSatdThree4x4_sse2){
  const int32_t iLineSizeDec = 32;
  const int32_t iLineSizeEnc = 32;
  int32_t tmpa, tmpb;
  int32_t iBestMode_c, iBestMode_a, iLambda = 50;
  int32_t lambda[2]						= {iLambda << 2, iLambda};
  int32_t iPredMode = rand()%3;
  CMemoryAlign cMemoryAlign(0);
  int32_t iCpuCores = 0;
  uint32_t m_uiCpuFeatureFlag = WelsCPUFeatureDetect(&iCpuCores);
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;
  uint8_t* pDec = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeDec<<5,"pDec");
  uint8_t* pEnc = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeEnc<<5,"pEnc");
  uint8_t* pDst = (uint8_t *)cMemoryAlign.WelsMalloc(512,"pDst");
  WelsInitFillingPredFuncs(WELS_CPU_SSE2);
  srand((uint32_t)time(NULL));
  for(int i=0;i<(iLineSizeDec<<5);i++)
    pDec[i]=rand()%256;
  for(int i=0;i<(iLineSizeEnc<<5);i++)
    pEnc[i]=rand()%256;
  for(int i=0;i<512;i++)
    pDst[i]=rand()%256;
  tmpa = WelsSampleSatdIntra4x4Combined3_c(pDec+128, iLineSizeDec, pEnc,iLineSizeEnc, pDst, &iBestMode_c, lambda[iPredMode == 2], lambda[iPredMode == 1], lambda[iPredMode == 0]);
  tmpb = WelsSampleSatdThree4x4_sse2(pDec+128, iLineSizeDec, pEnc,iLineSizeEnc, pDst, &iBestMode_a, lambda[iPredMode == 2], lambda[iPredMode == 1], lambda[iPredMode == 0]);
  ASSERT_EQ(tmpa, tmpb);
  ASSERT_EQ(iBestMode_c, iBestMode_a);
  cMemoryAlign.WelsFree(pDec,"pDec");
  cMemoryAlign.WelsFree(pEnc,"pEnc");
  cMemoryAlign.WelsFree(pDst,"pDst");
}

TEST(IntraSadSatdFuncTest, WelsIntraChroma8x8Combined3Satd_sse41){
  const int32_t iLineSizeDec = 32;
  const int32_t iLineSizeEnc = 32;
  int32_t tmpa, tmpb;
  int32_t iBestMode_c, iBestMode_a, iLambda = 50;
  CMemoryAlign cMemoryAlign(0);
  int32_t iCpuCores = 0;
  uint32_t m_uiCpuFeatureFlag = WelsCPUFeatureDetect(&iCpuCores);
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE41))
    return;
  uint8_t* pDecCb = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeDec<<5,"pDecCb");
  uint8_t* pEncCb = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeEnc<<5,"pEncCb");
  uint8_t* pDecCr = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeDec<<5,"pDecCr");
  uint8_t* pEncCr = (uint8_t *)cMemoryAlign.WelsMalloc(iLineSizeEnc<<5,"pEncCr");
  uint8_t* pDstChma = (uint8_t *)cMemoryAlign.WelsMalloc(512,"pDstChma");
  srand((uint32_t)time(NULL));
  for(int i=0;i<(iLineSizeDec<<5);i++){
    pDecCb[i]=rand()%256;
    pDecCr[i]=rand()%256;
  }
  for(int i=0;i<(iLineSizeEnc<<5);i++){
    pEncCb[i]=rand()%256;
    pEncCr[i]=rand()%256;
  }
  for(int i=0;i<512;i++)
    pDstChma[i]=rand()%256;
  tmpa = WelsSampleSatdIntra8x8Combined3_c(pDecCb+128, iLineSizeDec, pEncCb,iLineSizeEnc,&iBestMode_c, iLambda, pDstChma, pDecCr+128, pEncCr);
  tmpb = WelsIntraChroma8x8Combined3Satd_sse41(pDecCb+128, iLineSizeDec, pEncCb,iLineSizeEnc,&iBestMode_a, iLambda, pDstChma, pDecCr+128, pEncCr);
  ASSERT_EQ(tmpa, tmpb);
  ASSERT_EQ(iBestMode_c, iBestMode_a);
  cMemoryAlign.WelsFree(pDecCb,"pDecCb");
  cMemoryAlign.WelsFree(pEncCb,"pEncCb");
  cMemoryAlign.WelsFree(pDecCr,"pDecCr");
  cMemoryAlign.WelsFree(pEncCr,"pEncCr");
  cMemoryAlign.WelsFree(pDstChma,"pDstChma");
}
#endif
#define ASSERT_MEMORY_FAIL2X(A, B)     \
  if (NULL == B) {                     \
    pMemAlign->WelsFree(A, "Sad_SrcA");\
    ASSERT_TRUE(0);                    \
  }

#define ASSERT_MEMORY_FAIL3X(A, B, C)   \
  if (NULL == C) {                      \
    pMemAlign->WelsFree(A, "Sad_SrcA"); \
    pMemAlign->WelsFree(B, "Sad_SrcB"); \
    ASSERT_TRUE(0);                     \
  }

#define PIXEL_STRIDE 32

class SadSatdCFuncTest : public testing::Test {
public:
  virtual void SetUp() {
    pMemAlign = new CMemoryAlign(0);
    
    srand((uint32_t)time(NULL));
    m_iStrideA = rand()%256 + PIXEL_STRIDE;
    m_iStrideB = rand()%256 + PIXEL_STRIDE;
    m_pPixSrcA = (uint8_t *)pMemAlign->WelsMalloc(m_iStrideA<<5,"Sad_m_pPixSrcA");
    ASSERT_TRUE(NULL != m_pPixSrcA);
    m_pPixSrcB = (uint8_t *)pMemAlign->WelsMalloc(m_iStrideB<<5,"Sad_m_pPixSrcB");
    ASSERT_MEMORY_FAIL2X(m_pPixSrcA, m_pPixSrcB)
    m_pSad = (int32_t*)pMemAlign->WelsMalloc(4*sizeof(int32_t), "m_pSad");
    ASSERT_MEMORY_FAIL3X(m_pPixSrcA, m_pPixSrcB, m_pSad)
  }
  virtual void TearDown() {
    pMemAlign->WelsFree(m_pPixSrcA,"Sad_m_pPixSrcA");
    pMemAlign->WelsFree(m_pPixSrcB,"Sad_m_pPixSrcB");
    pMemAlign->WelsFree(m_pSad,"m_pSad");
    delete pMemAlign;
  }
public:
  uint8_t* m_pPixSrcA;
  uint8_t* m_pPixSrcB;
  int32_t m_iStrideA;
  int32_t m_iStrideB;
  int32_t* m_pSad;

  CMemoryAlign* pMemAlign;
};

TEST_F(SadSatdCFuncTest, WelsSampleSad4x4_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<2); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<2); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB;

  int32_t iSumSad = 0;
  for (int i = 0; i < 4; i++ ) {
    for(int j=0; j<4; j++)
      iSumSad+=abs(pPixA[j]-pPixB[j]);
    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }
  EXPECT_EQ(WelsSampleSad4x4_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), iSumSad);
}

TEST_F(SadSatdCFuncTest, WelsSampleSad8x8_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB;

  int32_t iSumSad = 0;
  for (int i = 0; i < 8; i++ ) {
    for(int j=0; j<8; j++)
      iSumSad+=abs(pPixA[j]-pPixB[j]);

    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }
  EXPECT_EQ(WelsSampleSad8x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), iSumSad);
}

TEST_F(SadSatdCFuncTest, WelsSampleSad16x8_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB;

  int32_t iSumSad = 0;
  for (int i = 0; i <8; i++ ) {
    for(int j=0; j<16; j++)
      iSumSad+=abs(pPixA[j]-pPixB[j]);

    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }
  EXPECT_EQ(WelsSampleSad16x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), iSumSad);
}

TEST_F(SadSatdCFuncTest, WelsSampleSad8x16_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB;

  int32_t iSumSad = 0;
  for (int i = 0; i <16; i++ ) {
    for(int j=0; j<8; j++)
      iSumSad+=abs(pPixA[j]-pPixB[j]);

    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }
  EXPECT_EQ(WelsSampleSad8x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), iSumSad);
}

TEST_F(SadSatdCFuncTest, WelsSampleSad16x16_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB;

  int32_t iSumSad = 0;
  for (int i = 0; i <16; i++ ) {
    for(int j=0; j<16; j++)
      iSumSad+=abs(pPixA[j]-pPixB[j]);

    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }
  EXPECT_EQ(WelsSampleSad16x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), iSumSad);
}

TEST_F(SadSatdCFuncTest, WelsSampleSatd4x4_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<2); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<2); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB;

  int32_t W[16],T[16],Y[16],k=0;
  for(int i=0; i<4; i++) {
    for(int j=0; j<4; j++)
      W[k++]=pPixA[j]-pPixB[j];
    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }

  T[0]=W[0]+W[4]+W[8]+W[12];
  T[1]=W[1]+W[5]+W[9]+W[13];
  T[2]=W[2]+W[6]+W[10]+W[14];
  T[3]=W[3]+W[7]+W[11]+W[15];

  T[4]=W[0]+W[4]-W[8]-W[12];
  T[5]=W[1]+W[5]-W[9]-W[13];
  T[6]=W[2]+W[6]-W[10]-W[14];
  T[7]=W[3]+W[7]-W[11]-W[15];

  T[8]=W[0]-W[4]-W[8]+W[12];
  T[9]=W[1]-W[5]-W[9]+W[13];
  T[10]=W[2]-W[6]-W[10]+W[14];
  T[11]=W[3]-W[7]-W[11]+W[15];

  T[12]=W[0]-W[4]+W[8]-W[12];
  T[13]=W[1]-W[5]+W[9]-W[13];
  T[14]=W[2]-W[6]+W[10]-W[14];
  T[15]=W[3]-W[7]+W[11]-W[15];

  Y[0]=T[0]+T[1]+T[2]+T[3];
  Y[1]=T[0]+T[1]-T[2]-T[3];
  Y[2]=T[0]-T[1]-T[2]+T[3];
  Y[3]=T[0]-T[1]+T[2]-T[3];

  Y[4]=T[4]+T[5]+T[6]+T[7];
  Y[5]=T[4]+T[5]-T[6]-T[7];
  Y[6]=T[4]-T[5]-T[6]+T[7];
  Y[7]=T[4]-T[5]+T[6]-T[7];

  Y[8]=T[8]+T[9]+T[10]+T[11];
  Y[9]=T[8]+T[9]-T[10]-T[11];
  Y[10]=T[8]-T[9]-T[10]+T[11];
  Y[11]=T[8]-T[9]+T[10]-T[11];

  Y[12]=T[12]+T[13]+T[14]+T[15];
  Y[13]=T[12]+T[13]-T[14]-T[15];
  Y[14]=T[12]-T[13]-T[14]+T[15];
  Y[15]=T[12]-T[13]+T[14]-T[15];

  int32_t iSumSatd = 0;
  for(int i=0; i<16; i++)
    iSumSatd+=abs(Y[i]);

  EXPECT_EQ(WelsSampleSatd4x4_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), (iSumSatd+1)>>1);
}

TEST_F(SadSatdCFuncTest, WelsSampleSadFour16x16_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<5); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<5); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <16; i++ ) {
    for(int j=0; j<16; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }
    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }
  WelsSampleSadFour16x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}

TEST_F(SadSatdCFuncTest, WelsSampleSadFour16x8_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<5); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<5); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <8; i++ ) {
    for(int j=0; j<16; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }
    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }

  WelsSampleSadFour16x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}

TEST_F(SadSatdCFuncTest, WelsSampleSadFour8x16_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<5); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<5); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <16; i++ ) {
    for(int j=0; j<8; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }
    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }

  WelsSampleSadFour8x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}

TEST_F(SadSatdCFuncTest, WelsSampleSadFour8x8_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <8; i++ ) {
    for(int j=0; j<8; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }
    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }
  WelsSampleSadFour8x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}

TEST_F(SadSatdCFuncTest, WelsSampleSadFour4x4_c) {
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <4; i++ ) {
    for(int j=0; j<4; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }
    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }
  WelsSampleSadFour4x4_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}

#ifdef X86_ASM
class SadSatdAssemblyFuncTest : public testing::Test {
public:
  virtual void SetUp() {
    int32_t iCpuCores = 0;
    m_uiCpuFeatureFlag = WelsCPUFeatureDetect(&iCpuCores);
    pMemAlign = new CMemoryAlign(16);
    m_iStrideA = m_iStrideB = PIXEL_STRIDE;
    m_pPixSrcA = (uint8_t *)pMemAlign->WelsMalloc(m_iStrideA<<5,"Sad_m_pPixSrcA");
    ASSERT_TRUE(NULL != m_pPixSrcA);
    m_pPixSrcB = (uint8_t *)pMemAlign->WelsMalloc(m_iStrideB<<5,"Sad_m_pPixSrcB");
    ASSERT_MEMORY_FAIL2X(m_pPixSrcA, m_pPixSrcB)
    m_pSad = (int32_t*)pMemAlign->WelsMalloc(4*sizeof(int32_t), "m_pSad");
    ASSERT_MEMORY_FAIL3X(m_pPixSrcA, m_pPixSrcB, m_pSad)
  }
  virtual void TearDown() {
    pMemAlign->WelsFree(m_pPixSrcA,"Sad_m_pPixSrcA");
    pMemAlign->WelsFree(m_pPixSrcB,"Sad_m_pPixSrcB");
    pMemAlign->WelsFree(m_pSad,"m_pSad");
    delete pMemAlign;
  }
public:
  uint32_t m_uiCpuFeatureFlag;
  uint8_t* m_pPixSrcA;
  uint8_t* m_pPixSrcB;
  int32_t m_iStrideA;
  int32_t m_iStrideB;
  int32_t* m_pSad;

  CMemoryAlign* pMemAlign;
};

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSad4x4_mmx) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_MMXEXT))
    return;

  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<2); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<2); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSad4x4_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSad4x4_mmx(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}


TEST_F(SadSatdAssemblyFuncTest, WelsSampleSad8x8_sse21) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;

  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSad8x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSad8x8_sse21(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB ));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSad8x16_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSad8x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSad8x16_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSad16x8_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSad16x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSad16x8_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSad16x16_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSad16x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSad16x16_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd4x4_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<2); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<2); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd4x4_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd4x4_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd8x8_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd8x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd8x8_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB ));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd8x16_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd8x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd8x16_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd16x8_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd16x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd16x8_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd16x16_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd16x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd16x16_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd4x4_sse41) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE41))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<2); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<2); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd4x4_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd4x4_sse41(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd8x8_sse41) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE41))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd8x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd8x8_sse41(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB ));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd8x16_sse41) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE41))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd8x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd8x16_sse41(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd16x8_sse41) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE41))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd16x8_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd16x8_sse41(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSatd16x16_sse41) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE41))
    return;
  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;

  EXPECT_EQ(WelsSampleSatd16x16_c(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB), WelsSampleSatd16x16_sse41(m_pPixSrcA, m_iStrideA, m_pPixSrcB, m_iStrideB));
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSadFour16x16_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;

  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<5); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<5); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <16; i++ ) {
    for(int j=0; j<16; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }

    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }

  WelsSampleSadFour16x16_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSadFour16x8_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;

  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<5); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<5); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <8; i++ ) {
    for(int j=0; j<16; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }

    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }

  WelsSampleSadFour16x8_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSadFour8x16_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;

  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<5); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<5); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <16; i++ ) {
    for(int j=0; j<8; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }

    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }

  WelsSampleSadFour8x16_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}

TEST_F(SadSatdAssemblyFuncTest, WelsSampleSadFour8x8_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;

  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<4); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<4); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <8; i++ ) {
    for(int j=0; j<8; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }

    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }

  WelsSampleSadFour8x8_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}


TEST_F(SadSatdAssemblyFuncTest, WelsSampleSadFour4x4_sse2) {
  if (0 == (m_uiCpuFeatureFlag & WELS_CPU_SSE2))
    return;

  srand((uint32_t)time(NULL));
  for(int i=0; i<(m_iStrideA<<3); i++)
    m_pPixSrcA[i]=rand()%256;
  for(int i=0; i<(m_iStrideB<<3); i++)
    m_pPixSrcB[i]=rand()%256;
  uint8_t *pPixA=m_pPixSrcA;
  uint8_t *pPixB=m_pPixSrcB+m_iStrideB;

  int32_t iSumSad = 0;
  for (int i = 0; i <4; i++ ) {
    for(int j=0; j<4; j++) {
      iSumSad+=abs(pPixA[j]-pPixB[j-1]);
      iSumSad+=abs(pPixA[j]-pPixB[j+1]);
      iSumSad+=abs(pPixA[j]-pPixB[j-m_iStrideB]);
      iSumSad+=abs(pPixA[j]-pPixB[j+m_iStrideB]);
    }

    pPixA += m_iStrideA;
    pPixB += m_iStrideB;
  }

  WelsSampleSadFour4x4_sse2(m_pPixSrcA, m_iStrideA, m_pPixSrcB+m_iStrideB, m_iStrideB, m_pSad);
  EXPECT_EQ(m_pSad[0]+m_pSad[1]+m_pSad[2]+m_pSad[3],iSumSad);
}
#endif