ref: 021fff491b161c59be8bb8ab793d7a14a3a406c3
dir: /test/encoder/EncUT_MotionEstimate.cpp/
#include <stdlib.h>
#include "gtest/gtest.h"
#include "utils/DataGenerator.h"
#include "md.h"
#include "sample.h"
#include "svc_motion_estimate.h"
#include "wels_func_ptr_def.h"
#include "cpu.h"
using namespace WelsSVCEnc;
void CopyTargetBlock( uint8_t* pSrcBlock, const int32_t kiBlockSize, SMVUnitXY sTargetMv, const int32_t kiRefPicStride,
uint8_t* pRefPic) {
uint8_t* pTargetPos = pRefPic+sTargetMv.iMvY*kiRefPicStride+sTargetMv.iMvX;
uint8_t* pSourcePos = pSrcBlock;
for (int i = 0; i<kiBlockSize; i++) {
memcpy( pSourcePos, pTargetPos, kiBlockSize*sizeof(uint8_t) );
pTargetPos += kiRefPicStride;
pSourcePos += kiBlockSize;
}
}
void InitMe( const uint8_t kuiQp, const uint32_t kuiMvdTableMiddle, const uint32_t kuiMvdTableStride,
uint16_t* pMvdCostTable, SWelsME* pMe) {
MvdCostInit( pMvdCostTable, kuiMvdTableStride );
pMe->pMvdCost = &pMvdCostTable[kuiQp*kuiMvdTableStride + kuiMvdTableMiddle];
pMe->sMvp.iMvX = pMe->sMvp.iMvY = 0;
pMe->sMvBase.iMvX = pMe->sMvBase.iMvY = 0;
pMe->sMv.iMvX = pMe->sMv.iMvY = 0;
}
class MotionEstimateTest : public ::testing::Test {
public:
virtual void SetUp() {
m_pRefPic = NULL;
m_pSrcBlock = NULL;
m_pMvdCostTable = NULL;
m_iWidth = 64;//size of search window
m_iHeight = 64;//size of search window
m_iMaxSearchBlock = 16;
m_uiMvdTableSize = (1 + (648 << 1));
pMa = new CMemoryAlign(0);
m_pRefPic = static_cast<uint8_t *>
(pMa->WelsMalloc(m_iWidth*m_iHeight, "RefPic"));
ASSERT_TRUE( NULL != m_pRefPic );
m_pSrcBlock = static_cast<uint8_t *>
(pMa->WelsMalloc(m_iMaxSearchBlock*m_iMaxSearchBlock, "SrcBlock"));
ASSERT_TRUE( NULL != m_pSrcBlock );
m_pMvdCostTable=new uint16_t[52*m_uiMvdTableSize];
ASSERT_TRUE( NULL != m_pMvdCostTable );
}
virtual void TearDown() {
delete [] m_pMvdCostTable;
pMa->WelsFree( m_pRefPic, "RefPic");
pMa->WelsFree( m_pSrcBlock, "SrcBlock");
delete pMa;
}
public:
uint8_t *m_pRefPic;
uint8_t *m_pSrcBlock;
uint32_t m_uiMvdTableSize;
uint16_t *m_pMvdCostTable;
int32_t m_iWidth;
int32_t m_iHeight;
int32_t m_iMaxSearchBlock;
CMemoryAlign *pMa;
};
TEST_F(MotionEstimateTest, TestDiamondSearch) {
#define TEST_POS (5)
const int32_t kiPositionToCheck[TEST_POS][2] = {{0,0}, {0,1}, {1,0}, {0,-1}, {-1,0}};
const int32_t kiMaxBlock16Sad = 72000;//a rough number
SWelsFuncPtrList sFuncList;
SWelsME sMe;
SSlice sSlice;
srand((uint32_t)time(NULL));
const uint8_t kuiQp = rand()%52;
InitMe(kuiQp, 648, m_uiMvdTableSize, m_pMvdCostTable, &sMe);
SMVUnitXY sTargetMv;
WelsInitSampleSadFunc( &sFuncList, 0 );//test c functions
uint8_t *pRefPicCenter = m_pRefPic+(m_iHeight/2)*m_iWidth+(m_iWidth/2);
bool bDataGeneratorSucceed = false;
bool bFoundMatch = false;
int32_t i, iTryTimes;
for (i=0;i<TEST_POS;i++) {
sTargetMv.iMvX = kiPositionToCheck[i][0];
sTargetMv.iMvY = kiPositionToCheck[i][1];
iTryTimes = 100;
bDataGeneratorSucceed = false;
bFoundMatch = false;
while (!bFoundMatch && (iTryTimes--)>0) {
if (!YUVPixelDataGenerator( m_pRefPic, m_iWidth, m_iHeight, m_iWidth ))
continue;
bDataGeneratorSucceed = true;
CopyTargetBlock( m_pSrcBlock, 16, sTargetMv, m_iWidth, pRefPicCenter);
//clean the sMe status
sMe.uiBlockSize = rand()%5;
sMe.pEncMb = m_pSrcBlock;
sMe.pRefMb = pRefPicCenter;
sMe.sMv.iMvX = sMe.sMv.iMvY = 0;
sMe.uiSadCost = sMe.uiSatdCost = kiMaxBlock16Sad;
WelsDiamondSearch (&sFuncList, &sMe, &sSlice, m_iMaxSearchBlock, m_iWidth);
//the last selection may be affected by MVDcost, that is when (0,0) will be better
//when comparing (1,1) and (1,0), due to the difference between MVD cost, it is possible that (1,0) is selected while the best match is (1,1)
bFoundMatch = ((sMe.sMv.iMvX==(sTargetMv.iMvX))||(sMe.sMv.iMvX==0)) && ((sMe.sMv.iMvY==(sTargetMv.iMvY))||(sMe.sMv.iMvY==0));
}
if (bDataGeneratorSucceed) {
//if DataGenerator never succeed, there is no meaning to check iTryTimes
ASSERT_TRUE(iTryTimes > 0);
//it is possible that ref at differnt position is identical, but that should be under a low probability
}
}
}
TEST_F(MotionEstimateTest, TestVerticalSearch) {
const int32_t kiMaxBlock16Sad = 72000;//a rough number
SWelsFuncPtrList sFuncList;
SWelsME sMe;
srand((uint32_t)time(NULL));
const uint8_t kuiQp = rand()%52;
InitMe(kuiQp, 648, m_uiMvdTableSize, m_pMvdCostTable, &sMe);
SMVUnitXY sTargetMv;
WelsInitSampleSadFunc( &sFuncList, 0 );//test c functions
uint8_t *pRefPicCenter = m_pRefPic+(m_iHeight/2)*m_iWidth+(m_iWidth/2);
sMe.iCurMeBlockPixX = (m_iWidth/2);
sMe.iCurMeBlockPixY = (m_iHeight/2);
bool bDataGeneratorSucceed = false;
bool bFoundMatch = false;
int32_t iTryTimes=100;
sTargetMv.iMvX = 0;
sTargetMv.iMvY = WELS_MAX(INTPEL_NEEDED_MARGIN, rand()%m_iHeight-INTPEL_NEEDED_MARGIN);
bDataGeneratorSucceed = false;
bFoundMatch = false;
while (!bFoundMatch && (iTryTimes--)>0) {
if (!YUVPixelDataGenerator( m_pRefPic, m_iWidth, m_iHeight, m_iWidth ))
continue;
bDataGeneratorSucceed = true;
CopyTargetBlock( m_pSrcBlock, 16, sTargetMv, m_iWidth, pRefPicCenter);
//clean the sMe status
sMe.uiBlockSize = rand()%5;
sMe.pEncMb = m_pSrcBlock;
sMe.pRefMb = pRefPicCenter;
sMe.pColoRefMb = pRefPicCenter;
sMe.sMv.iMvX = sMe.sMv.iMvY = 0;
sMe.uiSadCost = sMe.uiSatdCost = kiMaxBlock16Sad;
const int32_t iCurMeBlockPixX = sMe.iCurMeBlockPixX;
const int32_t iCurMeBlockQpelPixX = ((iCurMeBlockPixX)<<2);
const int32_t iCurMeBlockPixY = sMe.iCurMeBlockPixY;
const int32_t iCurMeBlockQpelPixY = ((iCurMeBlockPixY)<<2);
uint16_t* pMvdCostX = sMe.pMvdCost - iCurMeBlockQpelPixX - sMe.sMvp.iMvX; //do the offset here
uint16_t* pMvdCostY = sMe.pMvdCost - iCurMeBlockQpelPixY - sMe.sMvp.iMvY;
LineFullSearch_c ( &sFuncList, &sMe,
pMvdCostY, pMvdCostX[ iCurMeBlockQpelPixX ],
m_iMaxSearchBlock, m_iWidth,
INTPEL_NEEDED_MARGIN,
m_iHeight-INTPEL_NEEDED_MARGIN, true );
//the last selection may be affected by MVDcost, that is when smaller MvY will be better
bFoundMatch = (sMe.sMv.iMvX==0
&&(sMe.sMv.iMvY==sTargetMv.iMvY||abs(sMe.sMv.iMvY)<abs(sTargetMv.iMvY)));
//printf("TestVerticalSearch Target: %d,%d\n", sTargetMv.iMvX, sTargetMv.iMvY);
}
if (bDataGeneratorSucceed) {
//if DataGenerator never succeed, there is no meaning to check iTryTimes
ASSERT_TRUE(iTryTimes > 0);
//it is possible that ref at differnt position is identical, but that should be under a low probability
}
}
TEST_F(MotionEstimateTest, TestHorizontalSearch) {
const int32_t kiMaxBlock16Sad = 72000;//a rough number
SWelsFuncPtrList sFuncList;
SWelsME sMe;
srand((uint32_t)time(NULL));
const uint8_t kuiQp = rand()%52;
InitMe(kuiQp, 648, m_uiMvdTableSize, m_pMvdCostTable, &sMe);
SMVUnitXY sTargetMv;
WelsInitSampleSadFunc( &sFuncList, 0 );//test c functions
uint8_t *pRefPicCenter = m_pRefPic+(m_iHeight/2)*m_iWidth+(m_iWidth/2);
sMe.iCurMeBlockPixX = (m_iWidth/2);
sMe.iCurMeBlockPixY = (m_iHeight/2);
bool bDataGeneratorSucceed = false;
bool bFoundMatch = false;
int32_t iTryTimes=100;
sTargetMv.iMvX = WELS_MAX(INTPEL_NEEDED_MARGIN, rand()%m_iWidth-INTPEL_NEEDED_MARGIN);
sTargetMv.iMvY = 0;
bDataGeneratorSucceed = false;
bFoundMatch = false;
while (!bFoundMatch && (iTryTimes--)>0) {
if (!YUVPixelDataGenerator( m_pRefPic, m_iWidth, m_iHeight, m_iWidth ))
continue;
bDataGeneratorSucceed = true;
CopyTargetBlock( m_pSrcBlock, 16, sTargetMv, m_iWidth, pRefPicCenter);
//clean the sMe status
sMe.uiBlockSize = rand()%5;
sMe.pEncMb = m_pSrcBlock;
sMe.pRefMb = pRefPicCenter;
sMe.pColoRefMb = pRefPicCenter;
sMe.sMv.iMvX = sMe.sMv.iMvY = 0;
sMe.uiSadCost = sMe.uiSatdCost = kiMaxBlock16Sad;
const int32_t iCurMeBlockPixX = sMe.iCurMeBlockPixX;
const int32_t iCurMeBlockQpelPixX = ((iCurMeBlockPixX)<<2);
const int32_t iCurMeBlockPixY = sMe.iCurMeBlockPixY;
const int32_t iCurMeBlockQpelPixY = ((iCurMeBlockPixY)<<2);
uint16_t* pMvdCostX = sMe.pMvdCost - iCurMeBlockQpelPixX - sMe.sMvp.iMvX; //do the offset here
uint16_t* pMvdCostY = sMe.pMvdCost - iCurMeBlockQpelPixY - sMe.sMvp.iMvY;
LineFullSearch_c ( &sFuncList, &sMe,
pMvdCostX, pMvdCostY[ iCurMeBlockQpelPixY ],
m_iMaxSearchBlock, m_iWidth,
INTPEL_NEEDED_MARGIN,
m_iWidth-INTPEL_NEEDED_MARGIN, false );
//the last selection may be affected by MVDcost, that is when smaller MvY will be better
bFoundMatch = (sMe.sMv.iMvY==0
&&(sMe.sMv.iMvX==sTargetMv.iMvX||abs(sMe.sMv.iMvX)<abs(sTargetMv.iMvX)));
//printf("TestHorizontalSearch Target: %d,%d\n", sTargetMv.iMvX, sTargetMv.iMvY);
}
if (bDataGeneratorSucceed) {
//if DataGenerator never succeed, there is no meaning to check iTryTimes
ASSERT_TRUE(iTryTimes > 0);
//it is possible that ref at differnt position is identical, but that should be under a low probability
}
}
#ifdef X86_ASM
TEST_F(MotionEstimateTest, TestVerticalSearch_SSE41)
{
const int32_t kiMaxBlock16Sad = 72000;//a rough number
SWelsFuncPtrList sFuncList;
SWelsME sMe;
srand((uint32_t)time(NULL));
const uint8_t kuiQp = rand()%52;
InitMe(kuiQp, 648, m_uiMvdTableSize, m_pMvdCostTable, &sMe);
int32_t iTmp = 1;
uint32_t uiCPUFlags = WelsCPUFeatureDetect( &iTmp);
if ((uiCPUFlags & WELS_CPU_SSE41) == 0) return ;
SMVUnitXY sTargetMv;
WelsInitSampleSadFunc( &sFuncList, 0 );//test c functions
WelsInitMeFunc(&sFuncList, WELS_CPU_SSE41, 1);
uint8_t *pRefPicCenter = m_pRefPic+(m_iHeight/2)*m_iWidth+(m_iWidth/2);
sMe.iCurMeBlockPixX = (m_iWidth/2);
sMe.iCurMeBlockPixY = (m_iHeight/2);
bool bDataGeneratorSucceed = false;
bool bFoundMatch = false;
int32_t iTryTimes=100;
sTargetMv.iMvX = 0;
sTargetMv.iMvY = WELS_MAX(INTPEL_NEEDED_MARGIN, rand()%m_iHeight-INTPEL_NEEDED_MARGIN);
bDataGeneratorSucceed = false;
bFoundMatch = false;
while (!bFoundMatch && (iTryTimes--)>0) {
if (!YUVPixelDataGenerator( m_pRefPic, m_iWidth, m_iHeight, m_iWidth ))
continue;
bDataGeneratorSucceed = true;
CopyTargetBlock( m_pSrcBlock, 16, sTargetMv, m_iWidth, pRefPicCenter);
//clean the sMe status
sMe.uiBlockSize = rand()%5;
sMe.pEncMb = m_pSrcBlock;
sMe.pRefMb = pRefPicCenter;
sMe.pColoRefMb = pRefPicCenter;
sMe.sMv.iMvX = sMe.sMv.iMvY = 0;
sMe.uiSadCost = sMe.uiSatdCost = kiMaxBlock16Sad;
const int32_t iCurMeBlockPixX = sMe.iCurMeBlockPixX;
const int32_t iCurMeBlockQpelPixX = ((iCurMeBlockPixX)<<2);
const int32_t iCurMeBlockPixY = sMe.iCurMeBlockPixY;
const int32_t iCurMeBlockQpelPixY = ((iCurMeBlockPixY)<<2);
uint16_t* pMvdCostX = sMe.pMvdCost - iCurMeBlockQpelPixX - sMe.sMvp.iMvX; //do the offset here
uint16_t* pMvdCostY = sMe.pMvdCost - iCurMeBlockQpelPixY - sMe.sMvp.iMvY;
VerticalFullSearchUsingSSE41 ( &sFuncList, &sMe,
pMvdCostY, pMvdCostX[ iCurMeBlockQpelPixX ],
m_iMaxSearchBlock, m_iWidth,
INTPEL_NEEDED_MARGIN,
m_iHeight-INTPEL_NEEDED_MARGIN, true );
//the last selection may be affected by MVDcost, that is when smaller MvY will be better
bFoundMatch = (sMe.sMv.iMvX==0
&&(sMe.sMv.iMvY==sTargetMv.iMvY||abs(sMe.sMv.iMvY)<abs(sTargetMv.iMvY)));
//printf("TestVerticalSearch Target: %d,%d\n", sTargetMv.iMvX, sTargetMv.iMvY);
}
if (bDataGeneratorSucceed) {
//if DataGenerator never succeed, there is no meaning to check iTryTimes
ASSERT_TRUE(iTryTimes > 0);
//it is possible that ref at differnt position is identical, but that should be under a low probability
}
}
/*
TEST_F(MotionEstimateTest, TestHorizontalSearch_SSE41)
{
const int32_t kiMaxBlock16Sad = 72000;//a rough number
SWelsFuncPtrList sFuncList;
SWelsME sMe;
srand((uint32_t)time(NULL));
const uint8_t kuiQp = rand()%52;
InitMe(kuiQp, 648, m_uiMvdTableSize, m_pMvdCostTable, &sMe);
int32_t iTmp = 1;
uint32_t uiCPUFlags = WelsCPUFeatureDetect( &iTmp);
if ((uiCPUFlags & WELS_CPU_SSE41) == 0) return ;
SMVUnitXY sTargetMv;
WelsInitSampleSadFunc( &sFuncList, 0 );//test c functions
WelsInitMeFunc(&sFuncList, WELS_CPU_SSE41, 1);
uint8_t *pRefPicCenter = m_pRefPic+(m_iHeight/2)*m_iWidth+(m_iWidth/2);
sMe.iCurMeBlockPixX = (m_iWidth/2);
sMe.iCurMeBlockPixY = (m_iHeight/2);
bool bDataGeneratorSucceed = false;
bool bFoundMatch = false;
int32_t iTryTimes=100;
sTargetMv.iMvX = WELS_MAX(INTPEL_NEEDED_MARGIN, rand()%m_iWidth-INTPEL_NEEDED_MARGIN);
sTargetMv.iMvY = 0;
bDataGeneratorSucceed = false;
bFoundMatch = false;
while (!bFoundMatch && (iTryTimes--)>0) {
if (!YUVPixelDataGenerator( m_pRefPic, m_iWidth, m_iHeight, m_iWidth ))
continue;
bDataGeneratorSucceed = true;
CopyTargetBlock( m_pSrcBlock, 16, sTargetMv, m_iWidth, pRefPicCenter);
//clean the sMe status
sMe.uiBlockSize = rand()%5;
sMe.pEncMb = m_pSrcBlock;
sMe.pRefMb = pRefPicCenter;
sMe.pColoRefMb = pRefPicCenter;
sMe.sMv.iMvX = sMe.sMv.iMvY = 0;
sMe.uiSadCost = sMe.uiSatdCost = kiMaxBlock16Sad;
const int32_t iCurMeBlockPixX = sMe.iCurMeBlockPixX;
const int32_t iCurMeBlockQpelPixX = ((iCurMeBlockPixX)<<2);
const int32_t iCurMeBlockPixY = sMe.iCurMeBlockPixY;
const int32_t iCurMeBlockQpelPixY = ((iCurMeBlockPixY)<<2);
uint16_t* pMvdCostX = sMe.pMvdCost - iCurMeBlockQpelPixX - sMe.sMvp.iMvX; //do the offset here
uint16_t* pMvdCostY = sMe.pMvdCost - iCurMeBlockQpelPixY - sMe.sMvp.iMvY;
HorizontalFullSearchUsingSSE41 ( &sFuncList, &sMe,
pMvdCostX, pMvdCostY[ iCurMeBlockQpelPixY ],
m_iMaxSearchBlock, m_iWidth,
INTPEL_NEEDED_MARGIN,
m_iWidth-INTPEL_NEEDED_MARGIN, false );
//the last selection may be affected by MVDcost, that is when smaller MvY will be better
bFoundMatch = (sMe.sMv.iMvY==0
&&(sMe.sMv.iMvX==sTargetMv.iMvX||abs(sMe.sMv.iMvX)<abs(sTargetMv.iMvX)));
//printf("TestHorizontalSearch Target: %d,%d\n", sTargetMv.iMvX, sTargetMv.iMvY);
}
if (bDataGeneratorSucceed) {
//if DataGenerator never succeed, there is no meaning to check iTryTimes
ASSERT_TRUE(iTryTimes > 0);
//it is possible that ref at differnt position is identical, but that should be under a low probability
}
}
*/
#endif