ref: 1aa759487fc7ea4472fa36e8ce43733151350fc9
parent: e0ef0cabdd605f5f5809358e1999b0457ba4f3ac
parent: 0ea480323e46d25fc624d5b74ef864dfa920f024
author: Licai Guo <[email protected]>
date: Thu Mar 20 13:10:40 EDT 2014
Merge pull request #557 from sijchen/me_refactor4444 [Encoder Refactor] Expand MVD table
--- a/codec/encoder/core/inc/encoder_context.h
+++ b/codec/encoder/core/inc/encoder_context.h
@@ -116,6 +116,7 @@
int32_t* pSadCostMb;
/* MVD cost tables for Inter MB */
+ int32_t iMvRange;
uint16_t* pMvdCostTableInter; //[52]; // adaptive to spatial layers
SMVUnitXY*
pMvUnitBlock4x4; // (*pMvUnitBlock4x4[2])[MB_BLOCK4x4_NUM]; // for store each 4x4 blocks' mv unit, the two swap after different d layer
--- a/codec/encoder/core/inc/slice.h
+++ b/codec/encoder/core/inc/slice.h
@@ -163,8 +163,8 @@
SSliceHeaderExt sSliceHeaderExt;
- SMVUnitXY sMvMin;
- SMVUnitXY sMvMax;
+ SMVUnitXY sMvStartMin;
+ SMVUnitXY sMvStartMax;
SMVUnitXY sMvc[5];
uint8_t uiMvcNum;
uint8_t sScaleShift;
--- a/codec/encoder/core/inc/svc_motion_estimate.h
+++ b/codec/encoder/core/inc/svc_motion_estimate.h
@@ -45,9 +45,14 @@
#include "wels_func_ptr_def.h"
namespace WelsSVCEnc {
-#define MV_RANGE (64)
+#define CAMERA_STARTMV_RANGE (64)
#define ITERATIVE_TIMES (16)
-#define BASE_MV_MB_NMB ((2*(MV_RANGE+ITERATIVE_TIMES)/MB_WIDTH_LUMA)-1)
+#define CAMERA_MV_RANGE (CAMERA_STARTMV_RANGE+ITERATIVE_TIMES)
+#define CAMERA_MVD_RANGE ((CAMERA_MV_RANGE+1)<<1) //mvd=mv_range*2;
+#define BASE_MV_MB_NMB ((2*CAMERA_MV_RANGE/MB_WIDTH_LUMA)-1)
+#define CAMERA_HIGHLAYER_MVD_RANGE (243)//mvd range;
+#define EXPANDED_MV_RANGE (504) //=512-8 rather than 511 to sacrifice same edge point but save complexity in assemblys
+#define EXPANDED_MVD_RANGE ((504+1)<<1)
union SadPredISatdUnit {
uint32_t uiSadPred;
--- a/codec/encoder/core/src/encoder_ext.cpp
+++ b/codec/encoder/core/src/encoder_ext.cpp
@@ -1201,8 +1201,10 @@
int32_t iResult = 0;
float fCompressRatioThr = .5f;
const int32_t kiNumDependencyLayers = pParam->iSpatialLayerNum;
- const uint32_t kuiMvdInterTableSize = (kiNumDependencyLayers == 1 ? (1 + (648 << 1)) : (1 + (972 << 1)));
- const uint32_t kuiMvdCacheAlginedSize = kuiMvdInterTableSize * sizeof (uint16_t);
+ (*ppCtx)->iMvRange = pParam->iUsageType?EXPANDED_MV_RANGE:CAMERA_STARTMV_RANGE;
+ const int32_t kiMvdRange = (pParam->iUsageType?EXPANDED_MVD_RANGE:((kiNumDependencyLayers == 1)?CAMERA_MVD_RANGE:CAMERA_HIGHLAYER_MVD_RANGE));
+ const uint32_t kuiMvdInterTableSize = 1 + (kiMvdRange << 3);//intepel*4=qpel; qpel_mv_range*2=(+/-);
+ const uint32_t kuiMvdCacheAlignedSize = kuiMvdInterTableSize * sizeof (uint16_t);
int32_t iVclLayersBsSizeCount = 0;
int32_t iNonVclLayersBsSizeCount = 0;
#if defined(MT_ENABLED)
@@ -1401,7 +1403,7 @@
return 1;
}
- (*ppCtx)->pMvdCostTableInter = (uint16_t*)pMa->WelsMallocz (52 * kuiMvdCacheAlginedSize, "pMvdCostTableInter");
+ (*ppCtx)->pMvdCostTableInter = (uint16_t*)pMa->WelsMallocz (52 * kuiMvdCacheAlignedSize, "pMvdCostTableInter");
WELS_VERIFY_RETURN_PROC_IF (1, (NULL == (*ppCtx)->pMvdCostTableInter), FreeMemorySvc (ppCtx))
MvdCostInit ((*ppCtx)->pMvdCostTableInter, kuiMvdInterTableSize); //should put to a better place?
--- a/codec/encoder/core/src/svc_base_layer_md.cpp
+++ b/codec/encoder/core/src/svc_base_layer_md.cpp
@@ -359,7 +359,7 @@
ST32 (&pCurMb->sP16x16Mv, 0);
ST32 (&pCurLayer->pDecPic->sMvList[kiMbXY], 0);
- SetMvWithinMvRange( kiMbWidth, kiMbHeight, kiMbX, kiMbY, MV_RANGE, &(pSlice->sMvMin), &(pSlice->sMvMax));
+ SetMvWithinMvRange( kiMbWidth, kiMbHeight, kiMbX, kiMbY, CAMERA_STARTMV_RANGE, &(pSlice->sMvStartMin), &(pSlice->sMvStartMax));
}
int32_t WelsMdI16x16 (SWelsFuncPtrList* pFunc, SDqLayer* pCurDqLayer, SMbCache* pMbCache, int32_t iLambda) {
--- a/codec/encoder/core/src/svc_motion_estimate.cpp
+++ b/codec/encoder/core/src/svc_motion_estimate.cpp
@@ -106,15 +106,15 @@
uint32_t i;
const uint32_t kuiMvcNum = pSlice->uiMvcNum;
const SMVUnitXY* kpMvcList = &pSlice->sMvc[0];
- const SMVUnitXY ksMvMin = pSlice->sMvMin;
- const SMVUnitXY ksMvMax = pSlice->sMvMax;
+ const SMVUnitXY ksMvStartMin = pSlice->sMvStartMin;
+ const SMVUnitXY ksMvStartMax = pSlice->sMvStartMax;
const SMVUnitXY ksMvp = pMe->sMvp;
SMVUnitXY sMv;
// Step 1: Initial point prediction
// init with sMvp
- sMv.iMvX = WELS_CLIP3 ((2 + ksMvp.iMvX) >> 2, ksMvMin.iMvX, ksMvMax.iMvX);
- sMv.iMvY = WELS_CLIP3 ((2 + ksMvp.iMvY) >> 2, ksMvMin.iMvY, ksMvMax.iMvY);
+ sMv.iMvX = WELS_CLIP3 ((2 + ksMvp.iMvX) >> 2, ksMvStartMin.iMvX, ksMvStartMax.iMvX);
+ sMv.iMvY = WELS_CLIP3 ((2 + ksMvp.iMvY) >> 2, ksMvStartMin.iMvY, ksMvStartMax.iMvY);
pRefMb = &pMe->pRefMb[sMv.iMvY * iStrideRef + sMv.iMvX];
@@ -123,8 +123,8 @@
for (i = 0; i < kuiMvcNum; i++) {
//clipping here is essential since some pOut-of-range MVC may happen here (i.e., refer to baseMV)
- iMvc0 = WELS_CLIP3 ((2 + kpMvcList[i].iMvX) >> 2, ksMvMin.iMvX, ksMvMax.iMvX);
- iMvc1 = WELS_CLIP3 ((2 + kpMvcList[i].iMvY) >> 2, ksMvMin.iMvY, ksMvMax.iMvY);
+ iMvc0 = WELS_CLIP3 ((2 + kpMvcList[i].iMvX) >> 2, ksMvStartMin.iMvX, ksMvStartMax.iMvX);
+ iMvc1 = WELS_CLIP3 ((2 + kpMvcList[i].iMvY) >> 2, ksMvStartMin.iMvY, ksMvStartMax.iMvY);
if (((iMvc0 - sMv.iMvX) || (iMvc1 - sMv.iMvY))) {
pFref2 = &pMe->pRefMb[iMvc1 * iStrideRef + iMvc0];