ref: e1d96aeaf351749134719147f6096941f7adcc0a
dir: /codec/encoder/core/src/encoder.cpp/
/*! * \copy * Copyright (c) 2009-2013, 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 encoder.c * * \brief core encoder * * \date 5/14/2009 Created * ************************************************************************************* */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <assert.h> #include "encoder.h" #include "extern.h" #include "cpu.h" #include "cpu_core.h" #include "utils.h" #include "encode_mb_aux.h" #include "decode_mb_aux.h" #include "get_intra_predictor.h" #include "svc_encode_mb.h" #include "deblocking.h" #include "expand_pic.h" #include "mc.h" #include "sample.h" #include "svc_encode_slice.h" #include "svc_base_layer_md.h" #include "svc_mode_decision.h" #include "set_mb_syn_cavlc.h" #include "crt_util_safe_x.h" // Safe CRT routines like utils for cross_platforms #include "codec_def.h" #ifdef MT_ENABLED #include "slice_multi_threading.h" #endif//MT_ENABLED // global function pointers definition namespace WelsSVCEnc { /* Motion compensation */ /*! * \brief initialize source picture body * \param pSrc SSourcePicture* * \param csp internal csp format * \param iWidth widht of picture in pixels * \param iHeight iHeight of picture in pixels * \return successful - 0; otherwise none 0 for failed */ int32_t InitPic (const void* kpSrc, const int32_t kiColorspace, const int32_t kiWidth, const int32_t kiHeight) { SSourcePicture* pSrcPic = (SSourcePicture*)kpSrc; if (NULL == pSrcPic || kiWidth == 0 || kiHeight == 0) return 1; pSrcPic->iColorFormat = kiColorspace; pSrcPic->iPicWidth = kiWidth; pSrcPic->iPicHeight = kiHeight; switch (kiColorspace & (~videoFormatVFlip)) { case videoFormatI420: case videoFormatYV12: pSrcPic->pData[0] = NULL; pSrcPic->pData[1] = NULL; pSrcPic->pData[2] = NULL; pSrcPic->pData[3] = NULL; pSrcPic->iStride[0] = kiWidth; pSrcPic->iStride[2] = pSrcPic->iStride[1] = kiWidth >> 1; pSrcPic->iStride[3] = 0; break; case videoFormatYUY2: case videoFormatYVYU: case videoFormatUYVY: pSrcPic->pData[0] = NULL; pSrcPic->pData[1] = NULL; pSrcPic->pData[2] = NULL; pSrcPic->pData[3] = NULL; pSrcPic->iStride[0] = CALC_BI_STRIDE (kiWidth, 16); pSrcPic->iStride[3] = pSrcPic->iStride[2] = pSrcPic->iStride[1] = 0; break; case videoFormatRGB: case videoFormatBGR: pSrcPic->pData[0] = NULL; pSrcPic->pData[1] = NULL; pSrcPic->pData[2] = NULL; pSrcPic->pData[3] = NULL; pSrcPic->iStride[0] = CALC_BI_STRIDE (kiWidth, 24); pSrcPic->iStride[3] = pSrcPic->iStride[2] = pSrcPic->iStride[1] = 0; if (kiColorspace & videoFormatVFlip) pSrcPic->iColorFormat = kiColorspace & (~videoFormatVFlip); else pSrcPic->iColorFormat = kiColorspace | videoFormatVFlip; break; case videoFormatBGRA: case videoFormatRGBA: case videoFormatARGB: case videoFormatABGR: pSrcPic->pData[0] = NULL; pSrcPic->pData[1] = NULL; pSrcPic->pData[2] = NULL; pSrcPic->pData[3] = NULL; pSrcPic->iStride[0] = kiWidth << 2; pSrcPic->iStride[3] = pSrcPic->iStride[2] = pSrcPic->iStride[1] = 0; if (kiColorspace & videoFormatVFlip) pSrcPic->iColorFormat = kiColorspace & (~videoFormatVFlip); else pSrcPic->iColorFormat = kiColorspace | videoFormatVFlip; break; default: return 2; // any else? } return 0; } void WelsInitBGDFunc (SWelsFuncPtrList* pFuncList, const bool_t kbEnableBackgroundDetection) { if (kbEnableBackgroundDetection) { pFuncList->pfInterMdBackgroundDecision = WelsMdInterJudgeBGDPskip; pFuncList->pfInterMdBackgroundInfoUpdate = WelsMdInterUpdateBGDInfo; } else { pFuncList->pfInterMdBackgroundDecision = WelsMdInterJudgeBGDPskipFalse; pFuncList->pfInterMdBackgroundInfoUpdate = WelsMdInterUpdateBGDInfoNULL; } } /*! * \brief initialize function pointers that potentially used in Wels encoding * \param pEncCtx sWelsEncCtx* * \return successful - 0; otherwise none 0 for failed */ int32_t InitFunctionPointers (SWelsFuncPtrList* pFuncList, SWelsSvcCodingParam* pParam, uint32_t uiCpuFlag) { int32_t iReturn = 0; /* Functionality utilization of CPU instructions dependency */ pFuncList->pfSetMemZeroSize8 = WelsSetMemZero_c; // confirmed_safe_unsafe_usage pFuncList->pfSetMemZeroSize64Aligned16 = WelsSetMemZero_c; // confirmed_safe_unsafe_usage pFuncList->pfSetMemZeroSize64 = WelsSetMemZero_c; // confirmed_safe_unsafe_usage #if defined(X86_ASM) if (uiCpuFlag & WELS_CPU_MMXEXT) { pFuncList->pfSetMemZeroSize8 = WelsSetMemZeroSize8_mmx; // confirmed_safe_unsafe_usage pFuncList->pfSetMemZeroSize64Aligned16 = WelsSetMemZeroSize64_mmx; // confirmed_safe_unsafe_usage pFuncList->pfSetMemZeroSize64 = WelsSetMemZeroSize64_mmx; // confirmed_safe_unsafe_usage } if (uiCpuFlag & WELS_CPU_SSE2) { pFuncList->pfSetMemZeroSize64Aligned16 = WelsSetMemZeroAligned64_sse2; // confirmed_safe_unsafe_usage } #endif//X86_ASM InitExpandPictureFunc (pFuncList, uiCpuFlag); /* Intra_Prediction_fn*/ WelsInitFillingPredFuncs (uiCpuFlag); WelsInitIntraPredFuncs (pFuncList, uiCpuFlag); /* sad, satd, average */ WelsInitSampleSadFunc (pFuncList, uiCpuFlag); // WelsInitBGDFunc (pFuncList, pParam->bEnableBackgroundDetection); // for pfGetVarianceFromIntraVaa function ptr adaptive by CPU features, 6/7/2010 InitIntraAnalysisVaaInfo (pFuncList, uiCpuFlag); /* Motion compensation */ /*init pixel average function*/ /*get one column or row pixel when refinement*/ WelsInitMcFuncs (pFuncList, uiCpuFlag); InitCoeffFunc (uiCpuFlag); WelsInitEncodingFuncs (pFuncList, uiCpuFlag); WelsInitReconstructionFuncs (pFuncList, uiCpuFlag); DeblockingInit (&pFuncList->pfDeblocking, uiCpuFlag); WelsBlockFuncInit (&pFuncList->pfSetNZCZero, uiCpuFlag); InitFillNeighborCacheInterFunc (pFuncList, pParam->bEnableBackgroundDetection); return iReturn; } /*! * \brief initialize frame coding */ void InitFrameCoding (sWelsEncCtx* pEncCtx, const EFrameType keFrameType) { // for bitstream writing pEncCtx->iPosBsBuffer = 0; // reset bs pBuffer position pEncCtx->pOut->iNalIndex = 0; // reset NAL index InitBits (&pEncCtx->pOut->sBsWrite, pEncCtx->pOut->pBsBuffer, pEncCtx->pOut->uiSize); if (keFrameType == WELS_FRAME_TYPE_P) { if (pEncCtx->pSvcParam->uiIntraPeriod) { ++pEncCtx->iFrameIndex; } ++pEncCtx->uiFrameIdxRc; if (pEncCtx->iPOC < (1 << pEncCtx->pSps->iLog2MaxPocLsb) - 2) // if iPOC type is no 0, this need be modification pEncCtx->iPOC += 2; // for POC type 0 else pEncCtx->iPOC = 0; if (pEncCtx->eLastNalPriority != 0) { if (pEncCtx->iFrameNum < (1 << pEncCtx->pSps->uiLog2MaxFrameNum) - 1) ++ pEncCtx->iFrameNum; else pEncCtx->iFrameNum = 0; // if iFrameNum overflow } pEncCtx->eNalType = NAL_UNIT_CODED_SLICE; pEncCtx->eSliceType = P_SLICE; pEncCtx->eNalPriority = NRI_PRI_HIGH; } else if (keFrameType == WELS_FRAME_TYPE_IDR) { pEncCtx->iFrameNum = 0; pEncCtx->iPOC = 0; pEncCtx->bEncCurFrmAsIdrFlag = false; if (pEncCtx->pSvcParam->uiIntraPeriod) { pEncCtx->iFrameIndex = 0; } pEncCtx->uiFrameIdxRc = 0; pEncCtx->eNalType = NAL_UNIT_CODED_SLICE_IDR; pEncCtx->eSliceType = I_SLICE; pEncCtx->eNalPriority = NRI_PRI_HIGHEST; pEncCtx->iCodingIndex = 0; // reset_ref_list // rc_init_gop } else if (keFrameType == WELS_FRAME_TYPE_I) { if (pEncCtx->iPOC < (1 << pEncCtx->pSps->iLog2MaxPocLsb) - 2) // if iPOC type is no 0, this need be modification pEncCtx->iPOC += 2; // for POC type 0 else pEncCtx->iPOC = 0; if (pEncCtx->eLastNalPriority != 0) { if (pEncCtx->iFrameNum < (1 << pEncCtx->pSps->uiLog2MaxFrameNum) - 1) ++ pEncCtx->iFrameNum; else pEncCtx->iFrameNum = 0; // if iFrameNum overflow } pEncCtx->eNalType = NAL_UNIT_CODED_SLICE; pEncCtx->eSliceType = I_SLICE; pEncCtx->eNalPriority = NRI_PRI_HIGHEST; // rc_init_gop } else { // B pictures are not supported now, any else? assert (0); } #if defined(STAT_OUTPUT) memset (&pEncCtx->sPerInfo, 0, sizeof (SStatSliceInfo)); #endif//FRAME_INFO_OUTPUT #if defined(MT_ENABLED) && defined(PACKING_ONE_SLICE_PER_LAYER) if (pEncCtx->pSvcParam->iMultipleThreadIdc > 1) reset_env_mt (pEncCtx); #endif } EFrameType DecideFrameType (sWelsEncCtx* pEncCtx, const int8_t kiSpatialNum) { SWelsSvcCodingParam* pSvcParam = pEncCtx->pSvcParam; EFrameType iFrameType = WELS_FRAME_TYPE_AUTO; bool_t bSceneChangeFlag = false; // perform scene change detection if ((!pSvcParam->bEnableSceneChangeDetect) || pEncCtx->pVaa->bIdrPeriodFlag || (kiSpatialNum < pSvcParam->iNumDependencyLayer) || (pEncCtx->uiFrameIdxRc < (VGOP_SIZE << 1))) { // avoid too frequent I frame coding, rc control bSceneChangeFlag = false; } else { bSceneChangeFlag = pEncCtx->pVaa->bSceneChangeFlag; } //scene_changed_flag: RC enable && iSpatialNum == pSvcParam->iNumDependencyLayer //bIdrPeriodFlag: RC disable || iSpatialNum != pSvcParam->iNumDependencyLayer //pEncCtx->bEncCurFrmAsIdrFlag: 1. first frame should be IDR; 2. idr pause; 3. idr request iFrameType = (pEncCtx->pVaa->bIdrPeriodFlag || bSceneChangeFlag || pEncCtx->bEncCurFrmAsIdrFlag) ? WELS_FRAME_TYPE_IDR : WELS_FRAME_TYPE_P; if (WELS_FRAME_TYPE_P == iFrameType && pEncCtx->iSkipFrameFlag > 0) { // for frame skip, 1/5/2010 -- pEncCtx->iSkipFrameFlag; iFrameType = WELS_FRAME_TYPE_SKIP; } else if (WELS_FRAME_TYPE_IDR == iFrameType) { pEncCtx->iCodingIndex = 0; } return iFrameType; } /*! * \brief Dump reconstruction for dependency layer */ extern "C" void DumpDependencyRec (SPicture* pCurPicture, const str_t* kpFileName, const int8_t kiDid) { FILE* pDumpRecFile = NULL; static bool_t bDependencyRecFlag[MAX_DEPENDENCY_LAYER] = {0}; int32_t iWrittenSize = 0; if (NULL == pCurPicture || NULL == kpFileName || kiDid >= MAX_DEPENDENCY_LAYER) return; if (bDependencyRecFlag[kiDid]) { if (STRNLEN (kpFileName, MAX_FNAME_LEN) > 0) // confirmed_safe_unsafe_usage #if defined(__GNUC__) || (defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER<1500)) pDumpRecFile = FOPEN (kpFileName, "ab"); #elif defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER>=1500) // vs2008 FOPEN (&pDumpRecFile, kpFileName, "ab"); #endif//__GNUC__.. else { str_t sDependencyRecFileName[16] = {0}; #if defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER>=1500) // vs2008 SNPRINTF (sDependencyRecFileName, 16, 16, "rec%d.yuv", kiDid); // confirmed_safe_unsafe_usage FOPEN (&pDumpRecFile, sDependencyRecFileName, "ab"); #else SNPRINTF (sDependencyRecFileName, 16, "rec%d.yuv", kiDid); // confirmed_safe_unsafe_usage pDumpRecFile = FOPEN (sDependencyRecFileName, "ab"); #endif//WIN32.. } if (NULL != pDumpRecFile) fseek (pDumpRecFile, 0, SEEK_END); } else { if (STRNLEN (kpFileName, MAX_FNAME_LEN) > 0) { // confirmed_safe_unsafe_usage #if defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER>=1500) // vs2008 FOPEN (&pDumpRecFile, kpFileName, "wb"); #else pDumpRecFile = FOPEN (kpFileName, "wb"); #endif//WIN32.. } else { str_t sDependencyRecFileName[16] = {0}; #if defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER>=1500) // vs2008 SNPRINTF (sDependencyRecFileName, 16, 16, "rec%d.yuv", kiDid); // confirmed_safe_unsafe_usage FOPEN (&pDumpRecFile, sDependencyRecFileName, "wb"); #else SNPRINTF (sDependencyRecFileName, 16, "rec%d.yuv", kiDid); // confirmed_safe_unsafe_usage pDumpRecFile = FOPEN (sDependencyRecFileName, "wb"); #endif//WIN32.. } bDependencyRecFlag[kiDid] = true; } if (NULL != pDumpRecFile) { int32_t i = 0; int32_t j = 0; const int32_t kiStrideY = pCurPicture->iLineSize[0]; const int32_t kiLumaWidth = pCurPicture->iWidthInPixel; const int32_t kiLumaHeight = pCurPicture->iHeightInPixel; const int32_t kiChromaWidth = kiLumaWidth >> 1; const int32_t kiChromaHeight = kiLumaHeight >> 1; for (j = 0; j < kiLumaHeight; ++ j) { iWrittenSize = fwrite (&pCurPicture->pData[0][j * kiStrideY], 1, kiLumaWidth, pDumpRecFile); assert (iWrittenSize == kiLumaWidth); if (iWrittenSize < kiLumaWidth) { assert (0); // make no sense for us if writing failed fclose (pDumpRecFile); return; } } for (i = 1; i < I420_PLANES; ++ i) { const int32_t kiStrideUV = pCurPicture->iLineSize[i]; for (j = 0; j < kiChromaHeight; ++ j) { iWrittenSize = fwrite (&pCurPicture->pData[i][j * kiStrideUV], 1, kiChromaWidth, pDumpRecFile); assert (iWrittenSize == kiChromaWidth); if (iWrittenSize < kiChromaWidth) { assert (0); // make no sense for us if writing failed fclose (pDumpRecFile); return; } } } fclose (pDumpRecFile); pDumpRecFile = NULL; } } /*! * \brief Dump the reconstruction pictures */ void DumpRecFrame (SPicture* pCurPicture, const str_t* kpFileName) { FILE* pDumpRecFile = NULL; static bool_t bRecFlag = false; int32_t iWrittenSize = 0; if (NULL == pCurPicture || NULL == kpFileName) return; if (bRecFlag) { if (STRNLEN (kpFileName, MAX_FNAME_LEN) > 0) { // confirmed_safe_unsafe_usage #if defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER>=1500) // vs2008 FOPEN (&pDumpRecFile, kpFileName, "ab"); #else pDumpRecFile = FOPEN (kpFileName, "ab"); #endif//WIN32 } else { #if defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER>=1500) // vs2008 FOPEN (&pDumpRecFile, "rec.yuv", "ab"); #else pDumpRecFile = FOPEN ("rec.yuv", "ab"); #endif//WIN32 } if (NULL != pDumpRecFile) fseek (pDumpRecFile, 0, SEEK_END); } else { if (STRNLEN (kpFileName, MAX_FNAME_LEN) > 0) { // confirmed_safe_unsafe_usage #if defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER>=1500) // vs2008 FOPEN (&pDumpRecFile, kpFileName, "wb"); #else pDumpRecFile = FOPEN (kpFileName, "wb"); #endif//WIN32 } else { #if defined(_WIN32) && defined(_MSC_VER) && (_MSC_VER>=1500) // vs2008 FOPEN (&pDumpRecFile, "rec.yuv", "wb"); #else pDumpRecFile = FOPEN ("rec.yuv", "wb"); #endif//WIN32.. } bRecFlag = true; } if (NULL != pDumpRecFile) { int32_t i = 0; int32_t j = 0; const int32_t kiStrideY = pCurPicture->iLineSize[0]; const int32_t kiLumaWidth = pCurPicture->iWidthInPixel; const int32_t kiLumaHeight = pCurPicture->iHeightInPixel; const int32_t kiChromaWidth = kiLumaWidth >> 1; const int32_t kiChromaHeight = kiLumaHeight >> 1; for (j = 0; j < kiLumaHeight; ++ j) { iWrittenSize = fwrite (&pCurPicture->pData[0][j * kiStrideY], 1, kiLumaWidth, pDumpRecFile); assert (iWrittenSize == kiLumaWidth); if (iWrittenSize < kiLumaWidth) { assert (0); // make no sense for us if writing failed fclose (pDumpRecFile); return; } } for (i = 1; i < I420_PLANES; ++ i) { const int32_t kiStrideUV = pCurPicture->iLineSize[i]; for (j = 0; j < kiChromaHeight; ++ j) { iWrittenSize = fwrite (&pCurPicture->pData[i][j * kiStrideUV], 1, kiChromaWidth, pDumpRecFile); assert (iWrittenSize == kiChromaWidth); if (iWrittenSize < kiChromaWidth) { assert (0); // make no sense for us if writing failed fclose (pDumpRecFile); return; } } } fclose (pDumpRecFile); pDumpRecFile = NULL; } } /***********************************************************************************/ void WelsSetMemZero_c (void* pDst, int32_t iSize) { // confirmed_safe_unsafe_usage memset (pDst, 0, iSize); } }