ref: 73cccfda3e32f08365d0a00f575ab14bec5bc9ad
dir: /codec/encoder/core/src/wels_task_encoder.cpp/
/*! * \copy * Copyright (c) 2009-2015, Cisco Systems * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS * FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE * COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. * * * \file wels_task_encoder.h * * \brief interface for encoder tasks * * \date 07/06/2015 Created * ************************************************************************************* */ #include <string.h> #include <assert.h> #include "typedefs.h" #include "utils.h" #include "measure_time.h" #include "WelsTask.h" #include "wels_task_base.h" #include "wels_task_encoder.h" #include "svc_enc_golomb.h" #include "svc_encode_slice.h" #include "slice_multi_threading.h" namespace WelsEnc { CWelsSliceEncodingTask::CWelsSliceEncodingTask (WelsCommon::IWelsTaskSink* pSink, sWelsEncCtx* pCtx, const int32_t iSliceIdx) : CWelsBaseTask (pSink), m_eTaskResult (ENC_RETURN_SUCCESS) { m_pCtx = pCtx; m_iSliceIdx = iSliceIdx; } CWelsSliceEncodingTask::~CWelsSliceEncodingTask() { } WelsErrorType CWelsSliceEncodingTask::Execute() { //fprintf(stdout, "OpenH264Enc_CWelsSliceEncodingTask_Execute, %x, sink=%x\n", this, m_pSink); m_eTaskResult = InitTask(); WELS_VERIFY_RETURN_IFNEQ (m_eTaskResult, ENC_RETURN_SUCCESS) m_eTaskResult = ExecuteTask(); FinishTask(); //fprintf(stdout, "OpenH264Enc_CWelsSliceEncodingTask_Execute Ends\n"); return m_eTaskResult; } WelsErrorType CWelsSliceEncodingTask::SetBoundary (int32_t iStartIdx, int32_t iEndIdx) { m_iStartMbIdx = iStartIdx; m_iEndMbIdx = iEndIdx; return ENC_RETURN_SUCCESS; } int32_t CWelsSliceEncodingTask::QueryEmptyThread (bool* pThreadBsBufferUsage) { for (int32_t k = 0; k < MAX_THREADS_NUM; k++) { if (pThreadBsBufferUsage[k] == false) { pThreadBsBufferUsage[k] = true; return k; } } return -1; } WelsErrorType CWelsSliceEncodingTask::InitTask() { m_eNalType = m_pCtx->eNalType; m_eNalRefIdc = m_pCtx->eNalPriority; m_bNeedPrefix = m_pCtx->bNeedPrefixNalFlag; WelsMutexLock (&m_pCtx->pSliceThreading->mutexThreadBsBufferUsage); m_iThreadIdx = QueryEmptyThread (m_pCtx->pSliceThreading->bThreadBsBufferUsage); WelsMutexUnlock (&m_pCtx->pSliceThreading->mutexThreadBsBufferUsage); WelsLog (&m_pCtx->sLogCtx, WELS_LOG_DEBUG, "[MT] CWelsSliceEncodingTask()InitTask for m_iSliceIdx %d, lock thread %d", m_iSliceIdx, m_iThreadIdx); if (m_iThreadIdx < 0) { WelsLog (&m_pCtx->sLogCtx, WELS_LOG_WARNING, "[MT] CWelsSliceEncodingTask InitTask(), Cannot find available thread for m_iSliceIdx = %d", m_iSliceIdx); return ENC_RETURN_UNEXPECTED; } int32_t iReturn = InitOneSliceInThread (m_pCtx, m_pSlice, m_iThreadIdx, m_pCtx->uiDependencyId, m_iSliceIdx); WELS_VERIFY_RETURN_IFNEQ (iReturn, ENC_RETURN_SUCCESS) m_pSliceBs = &m_pSlice->sSliceBs; iReturn = SetSliceBoundaryInfo(m_pCtx->pCurDqLayer, m_pSlice, m_iSliceIdx); WELS_VERIFY_RETURN_IFNEQ (iReturn, ENC_RETURN_SUCCESS) SetOneSliceBsBufferUnderMultithread (m_pCtx, m_iThreadIdx, m_pSlice); assert ((void*) (&m_pSliceBs->sBsWrite) == (void*)m_pSlice->pSliceBsa); InitBits (&m_pSliceBs->sBsWrite, m_pSliceBs->pBsBuffer, m_pSliceBs->uiSize); //printf ("CWelsSliceEncodingTask_InitTask slice %d\n", m_iSliceIdx); return ENC_RETURN_SUCCESS; } void CWelsSliceEncodingTask::FinishTask() { WelsMutexLock (&m_pCtx->pSliceThreading->mutexThreadBsBufferUsage); m_pCtx->pSliceThreading->bThreadBsBufferUsage[m_iThreadIdx] = false; WelsMutexUnlock (&m_pCtx->pSliceThreading->mutexThreadBsBufferUsage); WelsLog (&m_pCtx->sLogCtx, WELS_LOG_DEBUG, "[MT] CWelsSliceEncodingTask()FinishTask for m_iSliceIdx %d, unlock thread %d", m_iSliceIdx, m_iThreadIdx); //sync multi-threading error WelsMutexLock (&m_pCtx->mutexEncoderError); if (ENC_RETURN_SUCCESS != m_eTaskResult) { m_pCtx->iEncoderError |= m_eTaskResult; } WelsMutexUnlock (&m_pCtx->mutexEncoderError); } WelsErrorType CWelsSliceEncodingTask::ExecuteTask() { #if MT_DEBUG_BS_WR m_pSliceBs->bSliceCodedFlag = false; #endif//MT_DEBUG_BS_WR SSpatialLayerInternal* pParamInternal = &m_pCtx->pSvcParam->sDependencyLayers[m_pCtx->uiDependencyId]; if (m_bNeedPrefix) { if (m_eNalRefIdc != NRI_PRI_LOWEST) { WelsLoadNalForSlice (m_pSliceBs, NAL_UNIT_PREFIX, m_eNalRefIdc); WelsWriteSVCPrefixNal (&m_pSliceBs->sBsWrite, m_eNalRefIdc, (NAL_UNIT_CODED_SLICE_IDR == m_eNalType)); WelsUnloadNalForSlice (m_pSliceBs); } else { // No Prefix NAL Unit RBSP syntax here, but need add NAL Unit Header extension WelsLoadNalForSlice (m_pSliceBs, NAL_UNIT_PREFIX, m_eNalRefIdc); // No need write any syntax of prefix NAL Unit RBSP here WelsUnloadNalForSlice (m_pSliceBs); } } WelsLoadNalForSlice (m_pSliceBs, m_eNalType, m_eNalRefIdc); assert (m_iSliceIdx == (int) m_pSlice->iSliceIdx); int32_t iReturn = WelsCodeOneSlice (m_pCtx, m_pSlice, m_eNalType); if (ENC_RETURN_SUCCESS != iReturn) { return iReturn; } WelsUnloadNalForSlice (m_pSliceBs); m_iSliceSize = 0; iReturn = WriteSliceBs (m_pCtx, m_pSliceBs, m_iSliceIdx, m_iSliceSize); if (ENC_RETURN_SUCCESS != iReturn) { WelsLog (&m_pCtx->sLogCtx, WELS_LOG_WARNING, "[MT] CWelsSliceEncodingTask ExecuteTask(), WriteSliceBs not successful: coding_idx %d, um_iSliceIdx %d", pParamInternal->iCodingIndex, m_iSliceIdx); return iReturn; } m_pCtx->pFuncList->pfDeblocking.pfDeblockingFilterSlice (m_pCtx->pCurDqLayer, m_pCtx->pFuncList, m_pSlice); WelsLog (&m_pCtx->sLogCtx, WELS_LOG_DETAIL, "@pSlice=%-6d sliceType:%c idc:%d size:%-6d", m_iSliceIdx, (m_pCtx->eSliceType == P_SLICE ? 'P' : 'I'), m_eNalRefIdc, m_iSliceSize); #if MT_DEBUG_BS_WR m_pSliceBs->bSliceCodedFlag = true; #endif//MT_DEBUG_BS_WR return ENC_RETURN_SUCCESS; } // CWelsLoadBalancingSlicingEncodingTask WelsErrorType CWelsLoadBalancingSlicingEncodingTask::InitTask() { WelsErrorType iReturn = CWelsSliceEncodingTask::InitTask(); if (ENC_RETURN_SUCCESS != iReturn) { return iReturn; } m_iSliceStart = WelsTime(); WelsLog (&m_pCtx->sLogCtx, WELS_LOG_DEBUG, "[MT] CWelsLoadBalancingSlicingEncodingTask()InitTask for m_iSliceIdx %d at time=%" PRId64, m_iSliceIdx, m_iSliceStart); return ENC_RETURN_SUCCESS; } void CWelsLoadBalancingSlicingEncodingTask::FinishTask() { CWelsSliceEncodingTask::FinishTask(); SSpatialLayerInternal* pParamInternal = &m_pCtx->pSvcParam->sDependencyLayers[m_pCtx->uiDependencyId]; m_pSlice->uiSliceConsumeTime = (uint32_t) (WelsTime() - m_iSliceStart); WelsLog (&m_pCtx->sLogCtx, WELS_LOG_DEBUG, "[MT] CWelsLoadBalancingSlicingEncodingTask()FinishTask, coding_idx %d, um_iSliceIdx %d, uiSliceConsumeTime %d, m_iSliceSize %d, iFirstMbInSlice %d, count_num_mb_in_slice %d at time=%" PRId64, pParamInternal->iCodingIndex, m_iSliceIdx, m_pSlice->uiSliceConsumeTime, m_iSliceSize, m_pSlice->sSliceHeaderExt.sSliceHeader.iFirstMbInSlice, m_pSlice->iCountMbNumInSlice, (m_pSlice->uiSliceConsumeTime + m_iSliceStart)); } //CWelsConstrainedSizeSlicingEncodingTask WelsErrorType CWelsConstrainedSizeSlicingEncodingTask::ExecuteTask() { SDqLayer* pCurDq = m_pCtx->pCurDqLayer; const int32_t kiSliceIdxStep = m_pCtx->iActiveThreadsNum; SSpatialLayerInternal* pParamInternal = &m_pCtx->pSvcParam->sDependencyLayers[m_pCtx->uiDependencyId]; const int32_t kiPartitionId = m_iSliceIdx % kiSliceIdxStep; const int32_t kiFirstMbInPartition = pCurDq->FirstMbIdxOfPartition[kiPartitionId]; const int32_t kiEndMbIdxInPartition = pCurDq->EndMbIdxOfPartition[kiPartitionId]; const int32_t kiCodedSliceNumByThread = pCurDq->sSliceBufferInfo[m_iThreadIdx].iCodedSliceNum; m_pSlice = &pCurDq->sSliceBufferInfo[m_iThreadIdx].pSliceBuffer[kiCodedSliceNumByThread]; m_pSlice->sSliceHeaderExt.sSliceHeader.iFirstMbInSlice = kiFirstMbInPartition; int32_t iReturn = 0; bool bNeedReallocate = false; int32_t iDiffMbIdx = kiEndMbIdxInPartition - kiFirstMbInPartition; if( 0 == iDiffMbIdx) { m_pSlice->iSliceIdx = -1; return ENC_RETURN_SUCCESS; } int32_t iAnyMbLeftInPartition = iDiffMbIdx + 1; int32_t iLocalSliceIdx = m_iSliceIdx; while (iAnyMbLeftInPartition > 0) { bNeedReallocate = (pCurDq->sSliceBufferInfo[m_iThreadIdx].iCodedSliceNum >= pCurDq->sSliceBufferInfo[m_iThreadIdx].iMaxSliceNum -1) ? true : false; if (bNeedReallocate) { WelsMutexLock (&m_pCtx->pSliceThreading->mutexThreadSlcBuffReallocate); //for memory statistic variable iReturn = ReallocateSliceInThread(m_pCtx, pCurDq, m_pCtx->uiDependencyId, m_iThreadIdx); WelsMutexUnlock (&m_pCtx->pSliceThreading->mutexThreadSlcBuffReallocate); if (ENC_RETURN_SUCCESS != iReturn) { return iReturn; } } iReturn = InitOneSliceInThread (m_pCtx, m_pSlice, m_iThreadIdx, m_pCtx->uiDependencyId, iLocalSliceIdx); WELS_VERIFY_RETURN_IFNEQ (iReturn, ENC_RETURN_SUCCESS) m_pSliceBs = &m_pSlice->sSliceBs; InitBits (&m_pSliceBs->sBsWrite, m_pSliceBs->pBsBuffer, m_pSliceBs->uiSize); if (m_bNeedPrefix) { if (m_eNalRefIdc != NRI_PRI_LOWEST) { WelsLoadNalForSlice (m_pSliceBs, NAL_UNIT_PREFIX, m_eNalRefIdc); WelsWriteSVCPrefixNal (&m_pSliceBs->sBsWrite, m_eNalRefIdc, (NAL_UNIT_CODED_SLICE_IDR == m_eNalType)); WelsUnloadNalForSlice (m_pSliceBs); } else { // No Prefix NAL Unit RBSP syntax here, but need add NAL Unit Header extension WelsLoadNalForSlice (m_pSliceBs, NAL_UNIT_PREFIX, m_eNalRefIdc); // No need write any syntax of prefix NAL Unit RBSP here WelsUnloadNalForSlice (m_pSliceBs); } } WelsLoadNalForSlice (m_pSliceBs, m_eNalType, m_eNalRefIdc); assert (iLocalSliceIdx == (int) m_pSlice->iSliceIdx); int32_t iReturn = WelsCodeOneSlice (m_pCtx, m_pSlice, m_eNalType); if (ENC_RETURN_SUCCESS != iReturn) { return iReturn; } WelsUnloadNalForSlice (m_pSliceBs); iReturn = WriteSliceBs (m_pCtx, m_pSliceBs, iLocalSliceIdx, m_iSliceSize); if (ENC_RETURN_SUCCESS != iReturn) { WelsLog (&m_pCtx->sLogCtx, WELS_LOG_WARNING, "[MT] CWelsConstrainedSizeSlicingEncodingTask ExecuteTask(), WriteSliceBs not successful: coding_idx %d, uiLocalSliceIdx %d, BufferSize %d, m_iSliceSize %d, iPayloadSize %d", pParamInternal->iCodingIndex, iLocalSliceIdx, m_pSliceBs->uiSize, m_iSliceSize, m_pSliceBs->sNalList[0].iPayloadSize); return iReturn; } m_pCtx->pFuncList->pfDeblocking.pfDeblockingFilterSlice (pCurDq, m_pCtx->pFuncList, m_pSlice); WelsLog (&m_pCtx->sLogCtx, WELS_LOG_DETAIL, "@pSlice=%-6d sliceType:%c idc:%d size:%-6d\n", iLocalSliceIdx, (m_pCtx->eSliceType == P_SLICE ? 'P' : 'I'), m_eNalRefIdc, m_iSliceSize ); WelsLog (&m_pCtx->sLogCtx, WELS_LOG_DEBUG, "[MT] CWelsConstrainedSizeSlicingEncodingTask(), coding_idx %d, iPartitionId %d, m_iThreadIdx %d, iLocalSliceIdx %d, m_iSliceSize %d, ParamValidationExt(), invalid uiMaxNalSizeiEndMbInPartition %d, pCurDq->LastCodedMbIdxOfPartition[%d] %d\n", pParamInternal->iCodingIndex, kiPartitionId, m_iThreadIdx, iLocalSliceIdx, m_iSliceSize, kiEndMbIdxInPartition, kiPartitionId, pCurDq->LastCodedMbIdxOfPartition[kiPartitionId]); iAnyMbLeftInPartition = kiEndMbIdxInPartition - pCurDq->LastCodedMbIdxOfPartition[kiPartitionId]; iLocalSliceIdx += kiSliceIdxStep; m_pCtx->pCurDqLayer->sSliceBufferInfo[m_iThreadIdx].iCodedSliceNum ++; } return ENC_RETURN_SUCCESS; } CWelsUpdateMbMapTask::CWelsUpdateMbMapTask (WelsCommon::IWelsTaskSink* pSink, sWelsEncCtx* pCtx, const int32_t iSliceIdx): CWelsBaseTask (pSink) { m_pCtx = pCtx; m_iSliceIdx = iSliceIdx; } CWelsUpdateMbMapTask::~CWelsUpdateMbMapTask() { } WelsErrorType CWelsUpdateMbMapTask::Execute() { UpdateMbListNeighborParallel (m_pCtx->pCurDqLayer, m_pCtx->pCurDqLayer->sMbDataP, m_iSliceIdx); return ENC_RETURN_SUCCESS; } }