ref: 2b176495d3f8f8c904d8b2bc603427b1f069a181
dir: /codec/decoder/core/src/cabac_decoder.cpp/
/*! * \copy * Copyright (c) 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. * * cabac_decoder.cpp: deals with cabac state transition and related functions */ #include "cabac_decoder.h" namespace WelsDec { static const int16_t g_kMvdBinPos2Ctx [8] = {0, 1, 2, 3, 3, 3, 3, 3}; void WelsCabacGlobalInit (PWelsDecoderContext pCtx) { for (int32_t iModel = 0; iModel < 4; iModel++) { for (int32_t iQp = 0; iQp <= WELS_QP_MAX; iQp++) for (int32_t iIdx = 0; iIdx < WELS_CONTEXT_COUNT; iIdx++) { int32_t m = g_kiCabacGlobalContextIdx[iIdx][iModel][0]; int32_t n = g_kiCabacGlobalContextIdx[iIdx][iModel][1]; int32_t iPreCtxState = WELS_CLIP3 ((((m * iQp) >> 4) + n), 1, 126); uint8_t uiValMps = 0; uint8_t uiStateIdx = 0; if (iPreCtxState <= 63) { uiStateIdx = 63 - iPreCtxState; uiValMps = 0; } else { uiStateIdx = iPreCtxState - 64; uiValMps = 1; } pCtx->sWelsCabacContexts[iModel][iQp][iIdx].uiState = uiStateIdx; pCtx->sWelsCabacContexts[iModel][iQp][iIdx].uiMPS = uiValMps; } } pCtx->bCabacInited = true; } // ------------------- 1. context initialization void WelsCabacContextInit (PWelsDecoderContext pCtx, uint8_t eSliceType, int32_t iCabacInitIdc, int32_t iQp) { int32_t iIdx = pCtx->eSliceType == WelsCommon::I_SLICE ? 0 : iCabacInitIdc + 1; if (!pCtx->bCabacInited) { WelsCabacGlobalInit (pCtx); } memcpy (pCtx->pCabacCtx, pCtx->sWelsCabacContexts[iIdx][iQp], WELS_CONTEXT_COUNT * sizeof (SWelsCabacCtx)); } // ------------------- 2. decoding Engine initialization int32_t InitCabacDecEngineFromBS (PWelsCabacDecEngine pDecEngine, PBitStringAux pBsAux) { int32_t iRemainingBits = - pBsAux->iLeftBits; //pBsAux->iLeftBits < 0 int32_t iRemainingBytes = (iRemainingBits >> 3) + 2; //+2: indicating the pre-read 2 bytes uint8_t* pCurr; pCurr = pBsAux->pCurBuf - iRemainingBytes; if (pCurr >= (pBsAux->pEndBuf - 1)) { return ERR_INFO_INVALID_ACCESS; } pDecEngine->uiOffset = ((pCurr[0] << 16) | (pCurr[1] << 8) | pCurr[2]); pDecEngine->uiOffset <<= 16; pDecEngine->uiOffset |= (pCurr[3] << 8) | pCurr[4]; pDecEngine->iBitsLeft = 31; pDecEngine->pBuffCurr = pCurr + 5; pDecEngine->uiRange = WELS_CABAC_HALF; pDecEngine->pBuffStart = pBsAux->pStartBuf; pDecEngine->pBuffEnd = pBsAux->pEndBuf; pBsAux->iLeftBits = 0; return ERR_NONE; } void RestoreCabacDecEngineToBS (PWelsCabacDecEngine pDecEngine, PBitStringAux pBsAux) { //CABAC decoding finished, changing to SBitStringAux pDecEngine->pBuffCurr -= (pDecEngine->iBitsLeft >> 3); pDecEngine->iBitsLeft = 0; //pcm_alignment_zero_bit in CABAC pBsAux->iLeftBits = 0; pBsAux->pStartBuf = pDecEngine->pBuffStart; pBsAux->pCurBuf = pDecEngine->pBuffCurr; pBsAux->uiCurBits = 0; pBsAux->iIndex = 0; } // ------------------- 3. actual decoding int32_t Read32BitsCabac (PWelsCabacDecEngine pDecEngine, uint32_t& uiValue, int32_t& iNumBitsRead) { intX_t iLeftBytes = pDecEngine->pBuffEnd - pDecEngine->pBuffCurr; iNumBitsRead = 0; uiValue = 0; if (iLeftBytes <= 0) { return GENERATE_ERROR_NO (ERR_LEVEL_MB_DATA, ERR_CABAC_NO_BS_TO_READ); } switch (iLeftBytes) { case 3: uiValue = ((pDecEngine->pBuffCurr[0]) << 16 | (pDecEngine->pBuffCurr[1]) << 8 | (pDecEngine->pBuffCurr[2])); pDecEngine->pBuffCurr += 3; iNumBitsRead = 24; break; case 2: uiValue = ((pDecEngine->pBuffCurr[0]) << 8 | (pDecEngine->pBuffCurr[1])); pDecEngine->pBuffCurr += 2; iNumBitsRead = 16; break; case 1: uiValue = pDecEngine->pBuffCurr[0]; pDecEngine->pBuffCurr += 1; iNumBitsRead = 8; break; default: uiValue = ((pDecEngine->pBuffCurr[0] << 24) | (pDecEngine->pBuffCurr[1]) << 16 | (pDecEngine->pBuffCurr[2]) << 8 | (pDecEngine->pBuffCurr[3])); pDecEngine->pBuffCurr += 4; iNumBitsRead = 32; break; } return ERR_NONE; } int32_t DecodeBinCabac (PWelsCabacDecEngine pDecEngine, PWelsCabacCtx pBinCtx, uint32_t& uiBinVal) { int32_t iErrorInfo = ERR_NONE; uint32_t uiState = pBinCtx->uiState; uiBinVal = pBinCtx->uiMPS; uint64_t uiOffset = pDecEngine->uiOffset; uint64_t uiRange = pDecEngine->uiRange; int32_t iRenorm = 1; uint32_t uiRangeLPS = g_kuiCabacRangeLps[uiState][ (uiRange >> 6) & 0x03]; uiRange -= uiRangeLPS; if (uiOffset >= (uiRange << pDecEngine->iBitsLeft)) { //LPS uiOffset -= (uiRange << pDecEngine->iBitsLeft); uiBinVal ^= 0x0001; if (!uiState) pBinCtx->uiMPS ^= 0x01; pBinCtx->uiState = g_kuiStateTransTable[uiState][0]; iRenorm = g_kRenormTable256[uiRangeLPS]; uiRange = (uiRangeLPS << iRenorm); } else { //MPS pBinCtx->uiState = g_kuiStateTransTable[uiState][1]; if (uiRange >= WELS_CABAC_QUARTER) { pDecEngine->uiRange = uiRange; return ERR_NONE; } else { uiRange <<= 1; } } //Renorm pDecEngine->uiRange = uiRange; pDecEngine->iBitsLeft -= iRenorm; if (pDecEngine->iBitsLeft > 0) { pDecEngine->uiOffset = uiOffset; return ERR_NONE; } uint32_t uiVal = 0; int32_t iNumBitsRead = 0; iErrorInfo = Read32BitsCabac (pDecEngine, uiVal, iNumBitsRead); pDecEngine->uiOffset = (uiOffset << iNumBitsRead) | uiVal; pDecEngine->iBitsLeft += iNumBitsRead; if (iErrorInfo && pDecEngine->iBitsLeft < 0) { return iErrorInfo; } return ERR_NONE; } int32_t DecodeBypassCabac (PWelsCabacDecEngine pDecEngine, uint32_t& uiBinVal) { int32_t iErrorInfo = ERR_NONE; int32_t iBitsLeft = pDecEngine->iBitsLeft; uint64_t uiOffset = pDecEngine->uiOffset; uint64_t uiRangeValue; if (iBitsLeft <= 0) { uint32_t uiVal = 0; int32_t iNumBitsRead = 0; iErrorInfo = Read32BitsCabac (pDecEngine, uiVal, iNumBitsRead); uiOffset = (uiOffset << iNumBitsRead) | uiVal; iBitsLeft = iNumBitsRead; if (iErrorInfo && iBitsLeft == 0) { return iErrorInfo; } } iBitsLeft--; uiRangeValue = (pDecEngine->uiRange << iBitsLeft); if (uiOffset >= uiRangeValue) { pDecEngine->iBitsLeft = iBitsLeft; pDecEngine->uiOffset = uiOffset - uiRangeValue; uiBinVal = 1; return ERR_NONE; } pDecEngine->iBitsLeft = iBitsLeft; pDecEngine->uiOffset = uiOffset; uiBinVal = 0; return ERR_NONE; } int32_t DecodeTerminateCabac (PWelsCabacDecEngine pDecEngine, uint32_t& uiBinVal) { int32_t iErrorInfo = ERR_NONE; uint64_t uiRange = pDecEngine->uiRange - 2; uint64_t uiOffset = pDecEngine->uiOffset; if (uiOffset >= (uiRange << pDecEngine->iBitsLeft)) { uiBinVal = 1; } else { uiBinVal = 0; // Renorm if (uiRange < WELS_CABAC_QUARTER) { int32_t iRenorm = g_kRenormTable256[uiRange]; pDecEngine->uiRange = (uiRange << iRenorm); pDecEngine->iBitsLeft -= iRenorm; if (pDecEngine->iBitsLeft < 0) { uint32_t uiVal = 0; int32_t iNumBitsRead = 0; iErrorInfo = Read32BitsCabac (pDecEngine, uiVal, iNumBitsRead); pDecEngine->uiOffset = (pDecEngine->uiOffset << iNumBitsRead) | uiVal; pDecEngine->iBitsLeft += iNumBitsRead; } if (iErrorInfo && pDecEngine->iBitsLeft < 0) { return iErrorInfo; } return ERR_NONE; } else { pDecEngine->uiRange = uiRange; return ERR_NONE; } } return ERR_NONE; } int32_t DecodeUnaryBinCabac (PWelsCabacDecEngine pDecEngine, PWelsCabacCtx pBinCtx, int32_t iCtxOffset, uint32_t& uiSymVal) { uiSymVal = 0; WELS_READ_VERIFY (DecodeBinCabac (pDecEngine, pBinCtx, uiSymVal)); if (uiSymVal == 0) { return ERR_NONE; } else { uint32_t uiCode; pBinCtx += iCtxOffset; uiSymVal = 0; do { WELS_READ_VERIFY (DecodeBinCabac (pDecEngine, pBinCtx, uiCode)); ++uiSymVal; } while (uiCode != 0); return ERR_NONE; } } int32_t DecodeExpBypassCabac (PWelsCabacDecEngine pDecEngine, int32_t iCount, uint32_t& uiSymVal) { uint32_t uiCode; int32_t iSymTmp = 0; int32_t iSymTmp2 = 0; uiSymVal = 0; do { WELS_READ_VERIFY (DecodeBypassCabac (pDecEngine, uiCode)); if (uiCode == 1) { iSymTmp += (1 << iCount); ++iCount; } } while (uiCode != 0 && iCount != 16); if (iCount == 16) { return GENERATE_ERROR_NO (ERR_LEVEL_MB_DATA, ERR_CABAC_UNEXPECTED_VALUE); } while (iCount--) { WELS_READ_VERIFY (DecodeBypassCabac (pDecEngine, uiCode)); if (uiCode == 1) { iSymTmp2 |= (1 << iCount); } } uiSymVal = (uint32_t) (iSymTmp + iSymTmp2); return ERR_NONE; } uint32_t DecodeUEGLevelCabac (PWelsCabacDecEngine pDecEngine, PWelsCabacCtx pBinCtx, uint32_t& uiCode) { uiCode = 0; WELS_READ_VERIFY (DecodeBinCabac (pDecEngine, pBinCtx, uiCode)); if (uiCode == 0) return ERR_NONE; else { uint32_t uiTmp, uiCount = 1; uiCode = 0; do { WELS_READ_VERIFY (DecodeBinCabac (pDecEngine, pBinCtx, uiTmp)); ++uiCode; ++uiCount; } while (uiTmp != 0 && uiCount != 13); if (uiTmp != 0) { WELS_READ_VERIFY (DecodeExpBypassCabac (pDecEngine, 0, uiTmp)); uiCode += uiTmp + 1; } return ERR_NONE; } return ERR_NONE; } int32_t DecodeUEGMvCabac (PWelsCabacDecEngine pDecEngine, PWelsCabacCtx pBinCtx, uint32_t iMaxBin, uint32_t& uiCode) { WELS_READ_VERIFY (DecodeBinCabac (pDecEngine, pBinCtx + g_kMvdBinPos2Ctx[0], uiCode)); if (uiCode == 0) return ERR_NONE; else { uint32_t uiTmp, uiCount = 1; uiCode = 0; do { WELS_READ_VERIFY (DecodeBinCabac (pDecEngine, pBinCtx + g_kMvdBinPos2Ctx[uiCount++], uiTmp)); uiCode++; } while (uiTmp != 0 && uiCount != 8); if (uiTmp != 0) { WELS_READ_VERIFY (DecodeExpBypassCabac (pDecEngine, 3, uiTmp)); uiCode += (uiTmp + 1); } return ERR_NONE; } } }