ref: 955d27b3a21477d209c761f6c5e68add9db83d60
dir: /codec/encoder/core/src/mv_pred.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 mv_pred.c * * \brief Get MV predictor and update motion vector of mb cache * * \date 05/22/2009 Created * ************************************************************************************* */ #include "mv_pred.h" #include "ls_defines.h" namespace WelsEnc { //basic pMv prediction unit for pMv width (4, 2, 1) void PredMv (const SMVComponentUnit* kpMvComp, int8_t iPartIdx, int8_t iPartW, int32_t iRef, SMVUnitXY* sMvp) { const uint8_t kuiLeftIdx = g_kuiCache30ScanIdx[iPartIdx] - 1; const uint8_t kuiTopIdx = g_kuiCache30ScanIdx[iPartIdx] - 6; int32_t iMatchRef; int32_t iLeftRef = kpMvComp->iRefIndexCache[kuiLeftIdx]; int32_t iTopRef = kpMvComp->iRefIndexCache[ kuiTopIdx]; int32_t iRightTopRef = kpMvComp->iRefIndexCache[kuiTopIdx + iPartW]; int32_t iDiagonalRef; SMVUnitXY sMvA (kpMvComp->sMotionVectorCache[kuiLeftIdx]); SMVUnitXY sMvB (kpMvComp->sMotionVectorCache[kuiTopIdx]); SMVUnitXY sMvC; if (REF_NOT_AVAIL == iRightTopRef) { iDiagonalRef = kpMvComp->iRefIndexCache[ kuiTopIdx - 1];// left_top; sMvC = kpMvComp->sMotionVectorCache[kuiTopIdx - 1]; } else { iDiagonalRef = iRightTopRef;// right_top; sMvC = kpMvComp->sMotionVectorCache[kuiTopIdx + iPartW]; } if ((REF_NOT_AVAIL == iTopRef) && (REF_NOT_AVAIL == iDiagonalRef) && iLeftRef != REF_NOT_AVAIL) { *sMvp = sMvA; return; } // b2[diag] b1[top] b0[left] is available! iMatchRef = (iRef == iLeftRef) << MB_LEFT_BIT; iMatchRef |= (iRef == iTopRef) << MB_TOP_BIT; iMatchRef |= (iRef == iDiagonalRef) << MB_TOPRIGHT_BIT; switch (iMatchRef) { case LEFT_MB_POS:// A *sMvp = sMvA; break; case TOP_MB_POS:// B *sMvp = sMvB; break; case TOPRIGHT_MB_POS:// C or D *sMvp = sMvC; break; default: sMvp->iMvX = WelsMedian (sMvA.iMvX, sMvB.iMvX, sMvC.iMvX); sMvp->iMvY = WelsMedian (sMvA.iMvY, sMvB.iMvY, sMvC.iMvY); break; } } void PredInter8x16Mv (SMbCache* pMbCache, int32_t iPartIdx, int8_t iRef, SMVUnitXY* sMvp) { const SMVComponentUnit* kpMvComp = &pMbCache->sMvComponents; if (0 == iPartIdx) { const int8_t kiLeftRef = kpMvComp->iRefIndexCache[6]; if (iRef == kiLeftRef) { *sMvp = kpMvComp->sMotionVectorCache[6]; return; } } else { // 1 == iPartIdx int8_t iDiagonalRef = kpMvComp->iRefIndexCache[5]; //top-right int8_t iIndex = 5; if (REF_NOT_AVAIL == iDiagonalRef) { iDiagonalRef = kpMvComp->iRefIndexCache[2]; //top-left for 8*8 block(iIndex 1) iIndex = 2; } if (iRef == iDiagonalRef) { *sMvp = kpMvComp->sMotionVectorCache[iIndex]; return; } } PredMv (kpMvComp, iPartIdx, 2, iRef, sMvp); } void PredInter16x8Mv (SMbCache* pMbCache, int32_t iPartIdx, int8_t iRef, SMVUnitXY* sMvp) { const SMVComponentUnit* kpMvComp = &pMbCache->sMvComponents; if (0 == iPartIdx) { const int8_t kiTopRef = kpMvComp->iRefIndexCache[1]; if (iRef == kiTopRef) { *sMvp = kpMvComp->sMotionVectorCache[1]; return; } } else { // 8 == iPartIdx const int8_t kiLeftRef = kpMvComp->iRefIndexCache[18]; if (iRef == kiLeftRef) { *sMvp = kpMvComp->sMotionVectorCache[18]; return; } } PredMv (kpMvComp, iPartIdx, 4, iRef, sMvp); } void PredSkipMv (SMbCache* pMbCache, SMVUnitXY* sMvp) { const SMVComponentUnit* kpMvComp = &pMbCache->sMvComponents; const int8_t kiLeftRef = kpMvComp->iRefIndexCache[6]; //A const int8_t kiTopRef = kpMvComp->iRefIndexCache[1]; //B if (REF_NOT_AVAIL == kiLeftRef || REF_NOT_AVAIL == kiTopRef || (0 == kiLeftRef && 0 == * (int32_t*) (&kpMvComp->sMotionVectorCache[6])) || (0 == kiTopRef && 0 == * (int32_t*) (&kpMvComp->sMotionVectorCache[1]))) { ST32 (sMvp, 0); return; } PredMv (kpMvComp, 0, 4, 0, sMvp); } //update pMv and uiRefIndex cache for current MB, only for P_16*16 (SKIP inclusive) void UpdateP16x16MotionInfo (SMbCache* pMbCache, SMB* pCurMb, const int8_t kiRef, SMVUnitXY* pMv) { // optimized 11/25/2011 SMVComponentUnit* pMvComp = &pMbCache->sMvComponents; const uint32_t kuiMv32 = LD32 (pMv); const uint64_t kuiMv64 = BUTTERFLY4x8 (kuiMv32); uint64_t uiMvBuf[8] = { kuiMv64, kuiMv64, kuiMv64, kuiMv64, kuiMv64, kuiMv64, kuiMv64, kuiMv64 }; const uint16_t kuiRef16 = BUTTERFLY1x2 (kiRef); const uint32_t kuiRef32 = BUTTERFLY2x4 (kuiRef16); ST32 (pCurMb->pRefIndex, kuiRef32); // update pMv range from 0~15 memcpy (pCurMb->sMv, uiMvBuf, sizeof (uiMvBuf)); // confirmed_safe_unsafe_usage /* * blocks 0: 7~10, 1: 13~16, 2: 19~22, 3: 25~28 */ pMvComp->iRefIndexCache[7] = kiRef; ST16 (&pMvComp->iRefIndexCache[8], kuiRef16); pMvComp->iRefIndexCache[10] = kiRef; pMvComp->iRefIndexCache[13] = kiRef; ST16 (&pMvComp->iRefIndexCache[14], kuiRef16); pMvComp->iRefIndexCache[16] = kiRef; pMvComp->iRefIndexCache[19] = kiRef; ST16 (&pMvComp->iRefIndexCache[20], kuiRef16); pMvComp->iRefIndexCache[22] = kiRef; pMvComp->iRefIndexCache[25] = kiRef; ST16 (&pMvComp->iRefIndexCache[26], kuiRef16); pMvComp->iRefIndexCache[28] = kiRef; /* * blocks 0: 7~10, 1: 13~16, 2: 19~22, 3: 25~28 */ pMvComp->sMotionVectorCache[7] = *pMv; ST64 (&pMvComp->sMotionVectorCache[8], kuiMv64); pMvComp->sMotionVectorCache[10] = *pMv; pMvComp->sMotionVectorCache[13] = *pMv; ST64 (&pMvComp->sMotionVectorCache[14], kuiMv64); pMvComp->sMotionVectorCache[16] = *pMv; pMvComp->sMotionVectorCache[19] = *pMv; ST64 (&pMvComp->sMotionVectorCache[20], kuiMv64); pMvComp->sMotionVectorCache[22] = *pMv; pMvComp->sMotionVectorCache[25] = *pMv; ST64 (&pMvComp->sMotionVectorCache[26], kuiMv64); pMvComp->sMotionVectorCache[28] = *pMv; } //update uiRefIndex and pMv of both SMB and Mb_cache, only for P16x8 void UpdateP16x8MotionInfo (SMbCache* pMbCache, SMB* pCurMb, const int32_t kiPartIdx, const int8_t kiRef, SMVUnitXY* pMv) { // optimized 11/25/2011 SMVComponentUnit* pMvComp = &pMbCache->sMvComponents; const uint32_t kuiMv32 = LD32 (pMv); const uint64_t kuiMv64 = BUTTERFLY4x8 (kuiMv32); uint64_t uiMvBuf[4] = { kuiMv64, kuiMv64, kuiMv64, kuiMv64 }; const int16_t kiScan4Idx = g_kuiMbCountScan4Idx[kiPartIdx]; const int16_t kiCacheIdx = g_kuiCache30ScanIdx[kiPartIdx]; const int16_t kiCacheIdx1 = 1 + kiCacheIdx; const int16_t kiCacheIdx3 = 3 + kiCacheIdx; const int16_t kiCacheIdx6 = 6 + kiCacheIdx; const int16_t kiCacheIdx7 = 7 + kiCacheIdx; const int16_t kiCacheIdx9 = 9 + kiCacheIdx; const uint16_t kuiRef16 = BUTTERFLY1x2 (kiRef); ST16 (&pCurMb->pRefIndex[ (kiPartIdx >> 2)], kuiRef16); memcpy (&pCurMb->sMv[kiScan4Idx], uiMvBuf, sizeof (uiMvBuf)); // confirmed_safe_unsafe_usage /* * blocks 0: g_kuiCache30ScanIdx[iPartIdx]~g_kuiCache30ScanIdx[iPartIdx]+3, 1: g_kuiCache30ScanIdx[iPartIdx]+6~g_kuiCache30ScanIdx[iPartIdx]+9 */ pMvComp->iRefIndexCache[kiCacheIdx] = kiRef; ST16 (&pMvComp->iRefIndexCache[kiCacheIdx1], kuiRef16); pMvComp->iRefIndexCache[kiCacheIdx3] = kiRef; pMvComp->iRefIndexCache[kiCacheIdx6] = kiRef; ST16 (&pMvComp->iRefIndexCache[kiCacheIdx7], kuiRef16); pMvComp->iRefIndexCache[kiCacheIdx9] = kiRef; /* * blocks 0: g_kuiCache30ScanIdx[iPartIdx]~g_kuiCache30ScanIdx[iPartIdx]+3, 1: g_kuiCache30ScanIdx[iPartIdx]+6~g_kuiCache30ScanIdx[iPartIdx]+9 */ pMvComp->sMotionVectorCache[kiCacheIdx] = *pMv; ST64 (&pMvComp->sMotionVectorCache[kiCacheIdx1], kuiMv64); pMvComp->sMotionVectorCache[kiCacheIdx3] = *pMv; pMvComp->sMotionVectorCache[kiCacheIdx6] = *pMv; ST64 (&pMvComp->sMotionVectorCache[kiCacheIdx7], kuiMv64); pMvComp->sMotionVectorCache[kiCacheIdx9] = *pMv; } //update uiRefIndex and pMv of both SMB and Mb_cache, only for P8x16 void update_P8x16_motion_info (SMbCache* pMbCache, SMB* pCurMb, const int32_t kiPartIdx, const int8_t kiRef, SMVUnitXY* pMv) { // optimized 11/25/2011 SMVComponentUnit* pMvComp = &pMbCache->sMvComponents; const uint32_t kuiMv32 = LD32 (pMv); const uint64_t kuiMv64 = BUTTERFLY4x8 (kuiMv32); const int16_t kiScan4Idx = g_kuiMbCountScan4Idx[kiPartIdx]; const int16_t kiCacheIdx = g_kuiCache30ScanIdx[kiPartIdx]; const int16_t kiCacheIdx1 = 1 + kiCacheIdx; const int16_t kiCacheIdx3 = 3 + kiCacheIdx; const int16_t kiCacheIdx12 = 12 + kiCacheIdx; const int16_t kiCacheIdx13 = 13 + kiCacheIdx; const int16_t kiCacheIdx15 = 15 + kiCacheIdx; const int16_t kiBlkIdx = kiPartIdx >> 2; const uint16_t kuiRef16 = BUTTERFLY1x2 (kiRef); pCurMb->pRefIndex[kiBlkIdx] = kiRef; pCurMb->pRefIndex[2 + kiBlkIdx] = kiRef; ST64 (&pCurMb->sMv[kiScan4Idx], kuiMv64); ST64 (&pCurMb->sMv[4 + kiScan4Idx], kuiMv64); ST64 (&pCurMb->sMv[8 + kiScan4Idx], kuiMv64); ST64 (&pCurMb->sMv[12 + kiScan4Idx], kuiMv64); /* * blocks 0: g_kuiCache30ScanIdx[iPartIdx]~g_kuiCache30ScanIdx[iPartIdx]+3, 1: g_kuiCache30ScanIdx[iPartIdx]+6~g_kuiCache30ScanIdx[iPartIdx]+9 */ pMvComp->iRefIndexCache[kiCacheIdx] = kiRef; ST16 (&pMvComp->iRefIndexCache[kiCacheIdx1], kuiRef16); pMvComp->iRefIndexCache[kiCacheIdx3] = kiRef; pMvComp->iRefIndexCache[kiCacheIdx12] = kiRef; ST16 (&pMvComp->iRefIndexCache[kiCacheIdx13], kuiRef16); pMvComp->iRefIndexCache[kiCacheIdx15] = kiRef; /* * blocks 0: g_kuiCache30ScanIdx[iPartIdx]~g_kuiCache30ScanIdx[iPartIdx]+3, 1: g_kuiCache30ScanIdx[iPartIdx]+6~g_kuiCache30ScanIdx[iPartIdx]+9 */ pMvComp->sMotionVectorCache[kiCacheIdx] = *pMv; ST64 (&pMvComp->sMotionVectorCache[kiCacheIdx1], kuiMv64); pMvComp->sMotionVectorCache[kiCacheIdx3] = *pMv; pMvComp->sMotionVectorCache[kiCacheIdx12] = *pMv; ST64 (&pMvComp->sMotionVectorCache[kiCacheIdx13], kuiMv64); pMvComp->sMotionVectorCache[kiCacheIdx15] = *pMv; } //update uiRefIndex and pMv of both SMB and Mb_cache, only for P8x8 void UpdateP8x8MotionInfo (SMbCache* pMbCache, SMB* pCurMb, const int32_t kiPartIdx, const int8_t kiRef, SMVUnitXY* pMv) { SMVComponentUnit* pMvComp = &pMbCache->sMvComponents; const uint32_t kuiMv32 = LD32 (pMv); const uint64_t kuiMv64 = BUTTERFLY4x8 (kuiMv32); const int16_t kiScan4Idx = g_kuiMbCountScan4Idx[kiPartIdx]; const int16_t kiCacheIdx = g_kuiCache30ScanIdx[kiPartIdx]; const int16_t kiCacheIdx1 = 1 + kiCacheIdx; const int16_t kiCacheIdx6 = 6 + kiCacheIdx; const int16_t kiCacheIdx7 = 7 + kiCacheIdx; //mb ST64 (&pCurMb->sMv[ kiScan4Idx], kuiMv64); ST64 (&pCurMb->sMv[4 + kiScan4Idx], kuiMv64); //cache pMvComp->iRefIndexCache[kiCacheIdx ] = pMvComp->iRefIndexCache[kiCacheIdx1] = pMvComp->iRefIndexCache[kiCacheIdx6] = pMvComp->iRefIndexCache[kiCacheIdx7] = kiRef; pMvComp->sMotionVectorCache[kiCacheIdx ] = pMvComp->sMotionVectorCache[kiCacheIdx1] = pMvComp->sMotionVectorCache[kiCacheIdx6] = pMvComp->sMotionVectorCache[kiCacheIdx7] = *pMv; } //=========================update motion info(MV and ref_idx) into Mb_cache========================== //update pMv and uiRefIndex cache only for Mb_cache, only for P_16*16 (SKIP inclusive) //update uiRefIndex and pMv of only Mb_cache, only for P16x8 void UpdateP16x8Motion2Cache (SMbCache* pMbCache, int32_t iPartIdx, int8_t iRef, SMVUnitXY* pMv) { SMVComponentUnit* pMvComp = &pMbCache->sMvComponents; int32_t i; for (i = 0; i < 2; i++, iPartIdx += 4) { //cache const uint8_t kuiCacheIdx = g_kuiCache30ScanIdx[iPartIdx]; pMvComp->iRefIndexCache[ kuiCacheIdx] = pMvComp->iRefIndexCache[1 + kuiCacheIdx] = pMvComp->iRefIndexCache[6 + kuiCacheIdx] = pMvComp->iRefIndexCache[7 + kuiCacheIdx] = iRef; pMvComp->sMotionVectorCache[ kuiCacheIdx] = pMvComp->sMotionVectorCache[1 + kuiCacheIdx] = pMvComp->sMotionVectorCache[6 + kuiCacheIdx] = pMvComp->sMotionVectorCache[7 + kuiCacheIdx] = *pMv; } } //update uiRefIndex and pMv of only Mb_cache, only for P8x16 void UpdateP8x16Motion2Cache (SMbCache* pMbCache, int32_t iPartIdx, int8_t iRef, SMVUnitXY* pMv) { SMVComponentUnit* pMvComp = &pMbCache->sMvComponents; int32_t i; for (i = 0; i < 2; i++, iPartIdx += 8) { //cache const uint8_t kuiCacheIdx = g_kuiCache30ScanIdx[iPartIdx]; pMvComp->iRefIndexCache[ kuiCacheIdx] = pMvComp->iRefIndexCache[1 + kuiCacheIdx] = pMvComp->iRefIndexCache[6 + kuiCacheIdx] = pMvComp->iRefIndexCache[7 + kuiCacheIdx] = iRef; pMvComp->sMotionVectorCache[ kuiCacheIdx] = pMvComp->sMotionVectorCache[1 + kuiCacheIdx] = pMvComp->sMotionVectorCache[6 + kuiCacheIdx] = pMvComp->sMotionVectorCache[7 + kuiCacheIdx] = *pMv; } } //update uiRefIndex and pMv of only Mb_cache, only for P8x8 void UpdateP8x8Motion2Cache (SMbCache* pMbCache, int32_t iPartIdx, int8_t pRef, SMVUnitXY* pMv) { SMVComponentUnit* pMvComp = &pMbCache->sMvComponents; const uint8_t kuiCacheIdx = g_kuiCache30ScanIdx[iPartIdx]; pMvComp->iRefIndexCache[ kuiCacheIdx] = pMvComp->iRefIndexCache[1 + kuiCacheIdx] = pMvComp->iRefIndexCache[6 + kuiCacheIdx] = pMvComp->iRefIndexCache[7 + kuiCacheIdx] = pRef; pMvComp->sMotionVectorCache[ kuiCacheIdx] = pMvComp->sMotionVectorCache[1 + kuiCacheIdx] = pMvComp->sMotionVectorCache[6 + kuiCacheIdx] = pMvComp->sMotionVectorCache[7 + kuiCacheIdx] = *pMv; } } // namespace WelsEnc