ref: fee9d502bb006c189841dfff7ff240e3a6be20c9
parent: 316f740630f6a9cff3ce0c32e66cc419ae4a5507
author: Karina <[email protected]>
date: Fri Mar 4 08:55:14 EST 2016
format update and fix build issue when turn on STAT_OUTPUT macro
--- a/codec/encoder/core/src/encoder_ext.cpp
+++ b/codec/encoder/core/src/encoder_ext.cpp
@@ -2048,7 +2048,8 @@
//End of pVaa memory allocation
- (*ppCtx)->ppRefPicListExt = (SRefList**)pMa->WelsMallocz (kiNumDependencyLayers * sizeof (SRefList*), "ppRefPicListExt");
+ (*ppCtx)->ppRefPicListExt = (SRefList**)pMa->WelsMallocz (kiNumDependencyLayers * sizeof (SRefList*),
+ "ppRefPicListExt");
WELS_VERIFY_RETURN_PROC_IF (1, (NULL == (*ppCtx)->ppRefPicListExt), FreeMemorySvc (ppCtx))
(*ppCtx)->ppDqLayerList = (SDqLayer**)pMa->WelsMallocz (kiNumDependencyLayers * sizeof (SDqLayer*), "ppDqLayerList");
@@ -2290,7 +2291,7 @@
if ((*ppCtx)->pMemAlign != NULL) {
WelsLog (& (*ppCtx)->sLogCtx, WELS_LOG_INFO, "FreeMemorySvc(), verify memory usage (%d bytes) after free..",
(*ppCtx)->pMemAlign->WelsGetMemoryUsage());
- WELS_DELETE_OP((*ppCtx)->pMemAlign);
+ WELS_DELETE_OP ((*ppCtx)->pMemAlign);
}
free (*ppCtx);
@@ -2397,7 +2398,88 @@
uiCpuCores,
iCacheLineSize);
}
+/*
+ *
+ * status information output
+ */
+#if defined(STAT_OUTPUT)
+void StatOverallEncodingExt (sWelsEncCtx* pCtx) {
+ int8_t i = 0;
+ int8_t j = 0;
+ for (i = 0; i < pCtx->pSvcParam->iSpatialLayerNum; i++) {
+ fprintf (stdout, "\nDependency layer : %d\n", i);
+ fprintf (stdout, "Quality layer : %d\n", j);
+ {
+ const int32_t iCount = pCtx->sStatData[i][j].sSliceData.iSliceCount[I_SLICE] +
+ pCtx->sStatData[i][j].sSliceData.iSliceCount[P_SLICE] +
+ pCtx->sStatData[i][j].sSliceData.iSliceCount[B_SLICE];
+#if defined(MB_TYPES_CHECK)
+ if (iCount > 0) {
+ int32_t iCountNumIMb = pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][Intra4x4] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][Intra16x16] + pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][7];
+ int32_t iCountNumPMb = pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Intra4x4] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Intra16x16] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][7] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x16] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x8] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x16] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x8] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][10] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][PSkip];
+ int32_t count_p_mbL0 = pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x16] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x8] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x16] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x8] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][10];
+ int32_t iMbCount = iCountNumIMb + iCountNumPMb;
+ if (iMbCount > 0) {
+ fprintf (stderr,
+ "SVC: overall Slices MBs: %d Avg\nI4x4: %.3f%% I16x16: %.3f%% IBL: %.3f%%\nP16x16: %.3f%% P16x8: %.3f%% P8x16: %.3f%% P8x8: %.3f%% SUBP8x8: %.3f%% PSKIP: %.3f%%\nILP(All): %.3f%% ILP(PL0): %.3f%% BLSKIP(PL0): %.3f%% RP(PL0): %.3f%%\n",
+ iMbCount,
+ (100.0f * (pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][Intra4x4] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Intra4x4]) / iMbCount),
+ (100.0f * (pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][Intra16x16] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Intra16x16]) / iMbCount),
+ (100.0f * (pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][7] +
+ pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][7]) / iMbCount),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x16] / iMbCount),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x8] / iMbCount),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x16] / iMbCount),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x8] / iMbCount),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][10] / iMbCount),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][PSkip] / iMbCount),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][11] / iMbCount),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][11] / count_p_mbL0),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][8] / count_p_mbL0),
+ (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][9] / count_p_mbL0)
+ );
+ }
+ }
+#endif //#if defined(MB_TYPES_CHECK)
+
+ if (iCount > 0) {
+ fprintf (stdout, "SVC: overall PSNR Y: %2.3f U: %2.3f V: %2.3f kb/s: %.1f fps: %.3f\n\n",
+ (pCtx->sStatData[i][j].sQualityStat.rYPsnr[I_SLICE] + pCtx->sStatData[i][j].sQualityStat.rYPsnr[P_SLICE] +
+ pCtx->sStatData[i][j].sQualityStat.rYPsnr[B_SLICE]) / (float) (iCount),
+ (pCtx->sStatData[i][j].sQualityStat.rUPsnr[I_SLICE] + pCtx->sStatData[i][j].sQualityStat.rUPsnr[P_SLICE] +
+ pCtx->sStatData[i][j].sQualityStat.rUPsnr[B_SLICE]) / (float) (iCount),
+ (pCtx->sStatData[i][j].sQualityStat.rVPsnr[I_SLICE] + pCtx->sStatData[i][j].sQualityStat.rVPsnr[P_SLICE] +
+ pCtx->sStatData[i][j].sQualityStat.rVPsnr[B_SLICE]) / (float) (iCount),
+ 1.0f * pCtx->pSvcParam->sDependencyLayers[i].fOutputFrameRate * (pCtx->sStatData[i][j].sSliceData.iSliceSize[I_SLICE] +
+ pCtx->sStatData[i][j].sSliceData.iSliceSize[P_SLICE] + pCtx->sStatData[i][j].sSliceData.iSliceSize[B_SLICE]) / (float) (
+ iCount + pCtx->pWelsSvcRc[i].iSkipFrameNum) / 1000,
+ 1.0f * pCtx->pSvcParam->sDependencyLayers[i].fOutputFrameRate);
+
+ }
+
+ }
+
+ }
+}
+#endif
+
+
int32_t GetMultipleThreadIdc (SLogContext* pLogCtx, SWelsSvcCodingParam* pCodingParam, int16_t& iSliceNum,
int32_t& iCacheLineSize, uint32_t& uiCpuFeatureFlags) {
// for cpu features detection, Only detect once??
@@ -2478,7 +2560,7 @@
if ((*ppCtx)->pVpp) {
(*ppCtx)->pVpp->FreeSpatialPictures (*ppCtx);
- WELS_DELETE_OP((*ppCtx)->pVpp);
+ WELS_DELETE_OP ((*ppCtx)->pVpp);
}
FreeMemorySvc (ppCtx);
*ppCtx = NULL;
@@ -2589,87 +2671,6 @@
return 0;
}
-/*
- *
- * status information output
- */
-#if defined(STAT_OUTPUT)
-void StatOverallEncodingExt (sWelsEncCtx* pCtx) {
- int8_t i = 0;
- int8_t j = 0;
- for (i = 0; i < pCtx->pSvcParam->iSpatialLayerNum; i++) {
- fprintf (stdout, "\nDependency layer : %d\n", i);
- fprintf (stdout, "Quality layer : %d\n", j);
- {
- const int32_t iCount = pCtx->sStatData[i][j].sSliceData.iSliceCount[I_SLICE] +
- pCtx->sStatData[i][j].sSliceData.iSliceCount[P_SLICE] +
- pCtx->sStatData[i][j].sSliceData.iSliceCount[B_SLICE];
-#if defined(MB_TYPES_CHECK)
- if (iCount > 0) {
- int32_t iCountNumIMb = pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][Intra4x4] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][Intra16x16] + pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][7];
- int32_t iCountNumPMb = pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Intra4x4] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Intra16x16] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][7] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x16] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x8] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x16] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x8] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][10] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][PSkip];
- int32_t count_p_mbL0 = pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x16] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x8] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x16] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x8] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][10];
-
- int32_t iMbCount = iCountNumIMb + iCountNumPMb;
- if (iMbCount > 0) {
- fprintf (stderr,
- "SVC: overall Slices MBs: %d Avg\nI4x4: %.3f%% I16x16: %.3f%% IBL: %.3f%%\nP16x16: %.3f%% P16x8: %.3f%% P8x16: %.3f%% P8x8: %.3f%% SUBP8x8: %.3f%% PSKIP: %.3f%%\nILP(All): %.3f%% ILP(PL0): %.3f%% BLSKIP(PL0): %.3f%% RP(PL0): %.3f%%\n",
- iMbCount,
- (100.0f * (pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][Intra4x4] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Intra4x4]) / iMbCount),
- (100.0f * (pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][Intra16x16] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Intra16x16]) / iMbCount),
- (100.0f * (pCtx->sStatData[i][j].sSliceData.iMbCount[I_SLICE][7] +
- pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][7]) / iMbCount),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x16] / iMbCount),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter16x8] / iMbCount),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x16] / iMbCount),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][Inter8x8] / iMbCount),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][10] / iMbCount),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][PSkip] / iMbCount),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][11] / iMbCount),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][11] / count_p_mbL0),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][8] / count_p_mbL0),
- (100.0f * pCtx->sStatData[i][j].sSliceData.iMbCount[P_SLICE][9] / count_p_mbL0)
- );
- }
- }
-#endif //#if defined(MB_TYPES_CHECK)
-
- if (iCount > 0) {
- fprintf (stdout, "SVC: overall PSNR Y: %2.3f U: %2.3f V: %2.3f kb/s: %.1f fps: %.3f\n\n",
- (pCtx->sStatData[i][j].sQualityStat.rYPsnr[I_SLICE] + pCtx->sStatData[i][j].sQualityStat.rYPsnr[P_SLICE] +
- pCtx->sStatData[i][j].sQualityStat.rYPsnr[B_SLICE]) / (float) (iCount),
- (pCtx->sStatData[i][j].sQualityStat.rUPsnr[I_SLICE] + pCtx->sStatData[i][j].sQualityStat.rUPsnr[P_SLICE] +
- pCtx->sStatData[i][j].sQualityStat.rUPsnr[B_SLICE]) / (float) (iCount),
- (pCtx->sStatData[i][j].sQualityStat.rVPsnr[I_SLICE] + pCtx->sStatData[i][j].sQualityStat.rVPsnr[P_SLICE] +
- pCtx->sStatData[i][j].sQualityStat.rVPsnr[B_SLICE]) / (float) (iCount),
- 1.0f * pCtx->pSvcParam->sDependencyLayers[i].fOutputFrameRate * (pCtx->sStatData[i][j].sSliceData.iSliceSize[I_SLICE] +
- pCtx->sStatData[i][j].sSliceData.iSliceSize[P_SLICE] + pCtx->sStatData[i][j].sSliceData.iSliceSize[B_SLICE]) / (float) (
- iCount + pCtx->pWelsSvcRc[i].iSkipFrameNum) / 1000,
- 1.0f * pCtx->pSvcParam->sDependencyLayers[i].fOutputFrameRate);
-
- }
-
- }
-
- }
-}
-#endif
-
/*!
* \brief get temporal level due to configuration and coding context
*/
@@ -3716,7 +3717,7 @@
* \pParam pSrcPic Source Picture
* \return EFrameType (videoFrameTypeIDR/videoFrameTypeI/videoFrameTypeP)
*/
-int32_t WelsEncoderEncodeExt (sWelsEncCtx* pCtx, SFrameBSInfo* pFbi, const SSourcePicture* pSrcPic ) {
+int32_t WelsEncoderEncodeExt (sWelsEncCtx* pCtx, SFrameBSInfo* pFbi, const SSourcePicture* pSrcPic) {
if (pCtx == NULL) {
return ENC_RETURN_MEMALLOCERR;
}
@@ -3756,7 +3757,8 @@
pCtx->iEncoderError = ENC_RETURN_SUCCESS;
pCtx->bCurFrameMarkedAsSceneLtr = false;
pFbi->iLayerNum = 0; // for initialization
- pFbi->uiTimeStamp = GetTimestampForRc(pSrcPic->uiTimeStamp, pCtx->uiLastTimestamp, pCtx->pSvcParam->sSpatialLayers[pCtx->pSvcParam->iSpatialLayerNum-1].fFrameRate);
+ pFbi->uiTimeStamp = GetTimestampForRc (pSrcPic->uiTimeStamp, pCtx->uiLastTimestamp,
+ pCtx->pSvcParam->sSpatialLayers[pCtx->pSvcParam->iSpatialLayerNum - 1].fFrameRate);
for (int32_t iNalIdx = 0; iNalIdx < MAX_LAYER_NUM_OF_FRAME; iNalIdx++) {
pFbi->sLayerInfo[iNalIdx].eFrameType = videoFrameTypeSkip;
}
@@ -4784,8 +4786,8 @@
return iRet;
}
int32_t FrameBsRealloc (sWelsEncCtx* pCtx,
- SFrameBSInfo* pFrameBsInfo,
- SLayerBSInfo* pLayerBsInfo) {
+ SFrameBSInfo* pFrameBsInfo,
+ SLayerBSInfo* pLayerBsInfo) {
CMemoryAlign* pMA = pCtx->pMemAlign;
SDqLayer* pCurLayer = pCtx->pCurDqLayer;
@@ -4847,7 +4849,7 @@
SSlice* pSliceIdx = &pSlice[uiSliceIdx];
const int32_t kiCurDid = pCtx->uiDependencyId;
const int32_t kiBitsPerMb = WELS_DIV_ROUND (pCtx->pWelsSvcRc[kiCurDid].iTargetBits * INT_MULTIPLY,
- pCtx->pWelsSvcRc[kiCurDid].iNumberMbFrame);
+ pCtx->pWelsSvcRc[kiCurDid].iNumberMbFrame);
while (uiSliceIdx < iMaxSliceNum) {
SSliceHeaderExt* pSHExt = &pSliceIdx->sSliceHeaderExt;
pSliceIdx->uiSliceIdx = uiSliceIdx;
@@ -4877,8 +4879,8 @@
pSliceIdx->sSlicingOverRc.iTotalQpSlice = 0;
pSliceIdx->sSlicingOverRc.iTotalMbSlice = 0;
pSliceIdx->sSlicingOverRc.iTargetBitsSlice = WELS_DIV_ROUND (kiBitsPerMb *
- pSlice[uiSliceIdx].iCountMbNumInSlice,
- INT_MULTIPLY);
+ pSlice[uiSliceIdx].iCountMbNumInSlice,
+ INT_MULTIPLY);
pSliceIdx->sSlicingOverRc.iFrameBitsSlice = 0;
pSliceIdx->sSlicingOverRc.iGomBitsSlice = 0;
@@ -4901,7 +4903,7 @@
int32_t iRet = 0;
iRet = FrameBsRealloc (pCtx, pFrameBsInfo, pLayerBsInfo);
- if(ENC_RETURN_SUCCESS != iRet)
+ if (ENC_RETURN_SUCCESS != iRet)
return iRet;
iRet = SliceBufferRealloc (pCtx);