uint8_t 175 source/common/arm/pixel.h void x265_pixel_planecopy_cp_neon(const uint8_t* src, intptr_t srcStride, pixel* dst, intptr_t dstStride, int width, int height, int shift); uint8_t 15 source/common/bitstream.cpp m_fifo = X265_MALLOC(uint8_t, MIN_FIFO_SIZE); uint8_t 20 source/common/bitstream.cpp void Bitstream::push_back(uint8_t val) uint8_t 28 source/common/bitstream.cpp uint8_t *temp = X265_MALLOC(uint8_t, m_byteAlloc * 2); uint8_t 52 source/common/bitstream.cpp uint8_t nextHeldByte = val << (8 - nextPartialBits); uint8_t 73 source/common/bitstream.h const uint8_t* getFIFO() const { return m_fifo; } uint8_t 85 source/common/bitstream.h uint8_t *m_fifo; uint8_t 89 source/common/bitstream.h uint8_t m_partialByte; uint8_t 91 source/common/bitstream.h void push_back(uint8_t val); uint8_t 94 source/common/bitstream.h static const uint8_t bitSize[256] = uint8_t 133 source/common/common.h typedef uint8_t pixel; uint8_t 210 source/common/constants.cpp const uint8_t g_zscanToPelX[MAX_NUM_PARTITIONS] = uint8_t 230 source/common/constants.cpp const uint8_t g_zscanToPelY[MAX_NUM_PARTITIONS] = uint8_t 346 source/common/constants.cpp const uint8_t g_chromaScale[ChromaQPMappingTableSize] = uint8_t 352 source/common/constants.cpp const uint8_t g_chroma422IntraAngleMappingTable[AngleMapping422TableSize] = uint8_t 355 source/common/constants.cpp const uint8_t g_log2Size[MAX_CU_SIZE + 1] = uint8_t 473 source/common/constants.cpp const uint8_t g_lastCoeffTable[32] = uint8_t 482 source/common/constants.cpp const uint8_t g_goRiceRange[5] = { 7, 14, 26, 46, 78 }; uint8_t 484 source/common/constants.cpp const uint8_t g_lpsTable[64][4] = uint8_t 552 source/common/constants.cpp const uint8_t x265_exp2_lut[64] = uint8_t 561 source/common/constants.cpp const uint8_t g_intraFilterFlags[NUM_INTRA_MODE] = uint8_t 40 source/common/constants.h extern const uint8_t g_chromaScale[ChromaQPMappingTableSize]; uint8_t 41 source/common/constants.h extern const uint8_t g_chroma422IntraAngleMappingTable[AngleMapping422TableSize]; uint8_t 48 source/common/constants.h extern const uint8_t g_zscanToPelX[MAX_NUM_PARTITIONS]; uint8_t 49 source/common/constants.h extern const uint8_t g_zscanToPelY[MAX_NUM_PARTITIONS]; uint8_t 50 source/common/constants.h extern const uint8_t g_log2Size[MAX_CU_SIZE + 1]; // from size to log2(size) uint8_t 84 source/common/constants.h extern const uint8_t g_lastCoeffTable[32]; uint8_t 85 source/common/constants.h extern const uint8_t g_goRiceRange[5]; // maximum value coded with Rice codes uint8_t 88 source/common/constants.h extern const uint8_t g_lpsTable[64][4]; uint8_t 89 source/common/constants.h extern const uint8_t x265_exp2_lut[64]; uint8_t 92 source/common/constants.h extern const uint8_t g_intraFilterFlags[NUM_INTRA_MODE]; uint8_t 112 source/common/contexts.h extern const uint8_t g_nextState[128][2]; uint8_t 37 source/common/cudata.cpp static void bcast1(uint8_t* dst, uint8_t val) { dst[0] = val; } uint8_t 39 source/common/cudata.cpp static void copy4(uint8_t* dst, uint8_t* src) { ((uint32_t*)dst)[0] = ((uint32_t*)src)[0]; } uint8_t 40 source/common/cudata.cpp static void bcast4(uint8_t* dst, uint8_t val) { ((uint32_t*)dst)[0] = 0x01010101u * val; } uint8_t 42 source/common/cudata.cpp static void copy16(uint8_t* dst, uint8_t* src) { ((uint64_t*)dst)[0] = ((uint64_t*)src)[0]; ((uint64_t*)dst)[1] = ((uint64_t*)src)[1]; } uint8_t 43 source/common/cudata.cpp static void bcast16(uint8_t* dst, uint8_t val) { uint64_t bval = 0x0101010101010101ULL * val; ((uint64_t*)dst)[0] = bval; ((uint64_t*)dst)[1] = bval; } uint8_t 45 source/common/cudata.cpp static void copy64(uint8_t* dst, uint8_t* src) { ((uint64_t*)dst)[0] = ((uint64_t*)src)[0]; ((uint64_t*)dst)[1] = ((uint64_t*)src)[1]; uint8_t 49 source/common/cudata.cpp static void bcast64(uint8_t* dst, uint8_t val) { uint64_t bval = 0x0101010101010101ULL * val; uint8_t 55 source/common/cudata.cpp static void copy256(uint8_t* dst, uint8_t* src) { memcpy(dst, src, 256); } uint8_t 56 source/common/cudata.cpp static void bcast256(uint8_t* dst, uint8_t val) { memset(dst, val, 256); } uint8_t 193 source/common/cudata.cpp uint8_t *charBuf = dataPool.charMemBlock + (m_numPartitions * (BytesPerPartition - 4)) * instance; uint8_t 231 source/common/cudata.cpp uint8_t *charBuf = dataPool.charMemBlock + (m_numPartitions * BytesPerPartition) * instance; uint8_t 284 source/common/cudata.cpp m_bFirstRowInSlice = (uint8_t)firstRowInSlice; uint8_t 285 source/common/cudata.cpp m_bLastRowInSlice = (uint8_t)lastRowInSlice; uint8_t 286 source/common/cudata.cpp m_bLastCuInSlice = (uint8_t)lastCuInSlice; uint8_t 289 source/common/cudata.cpp m_partSet((uint8_t*)m_qp, (uint8_t)qp); uint8_t 290 source/common/cudata.cpp m_partSet(m_log2CUSize, (uint8_t)m_slice->m_param->maxLog2CUSize); uint8_t 291 source/common/cudata.cpp m_partSet(m_lumaIntraDir, (uint8_t)ALL_IDX); uint8_t 292 source/common/cudata.cpp m_partSet(m_chromaIntraDir, (uint8_t)ALL_IDX); uint8_t 293 source/common/cudata.cpp m_partSet(m_tqBypass, (uint8_t)frame.m_encData->m_param->bLossless); uint8_t 296 source/common/cudata.cpp m_partSet((uint8_t*)m_refIdx[0], (uint8_t)REF_NOT_VALID); uint8_t 297 source/common/cudata.cpp m_partSet((uint8_t*)m_refIdx[1], (uint8_t)REF_NOT_VALID); uint8_t 342 source/common/cudata.cpp m_partSet((uint8_t*)m_qp, (uint8_t)qp); uint8_t 344 source/common/cudata.cpp m_partSet(m_log2CUSize, (uint8_t)cuGeom.log2CUSize); uint8_t 345 source/common/cudata.cpp m_partSet(m_lumaIntraDir, (uint8_t)ALL_IDX); uint8_t 346 source/common/cudata.cpp m_partSet(m_chromaIntraDir, (uint8_t)ALL_IDX); uint8_t 347 source/common/cudata.cpp m_partSet(m_tqBypass, (uint8_t)m_encData->m_param->bLossless); uint8_t 348 source/common/cudata.cpp m_partSet((uint8_t*)m_refIdx[0], (uint8_t)REF_NOT_VALID); uint8_t 349 source/common/cudata.cpp m_partSet((uint8_t*)m_refIdx[1], (uint8_t)REF_NOT_VALID); uint8_t 350 source/common/cudata.cpp m_partSet(m_cuDepth, (uint8_t)cuGeom.depth); uint8_t 367 source/common/cudata.cpp m_subPartCopy((uint8_t*)m_qp + offset, (uint8_t*)subCU.m_qp); uint8_t 371 source/common/cudata.cpp m_subPartCopy((uint8_t*)m_refIdx[0] + offset, (uint8_t*)subCU.m_refIdx[0]); uint8_t 372 source/common/cudata.cpp m_subPartCopy((uint8_t*)m_refIdx[1] + offset, (uint8_t*)subCU.m_refIdx[1]); uint8_t 416 source/common/cudata.cpp m_subPartSet(m_cuDepth + offset, (uint8_t)childGeom.depth); uint8_t 417 source/common/cudata.cpp m_subPartSet(m_log2CUSize + offset, (uint8_t)childGeom.log2CUSize); uint8_t 454 source/common/cudata.cpp m_partSet(m_chromaIntraDir, (uint8_t)ALL_IDX); uint8_t 467 source/common/cudata.cpp m_partCopy((uint8_t*)ctu.m_qp + m_absIdxInCTU, (uint8_t*)m_qp); uint8_t 471 source/common/cudata.cpp m_partCopy((uint8_t*)ctu.m_refIdx[0] + m_absIdxInCTU, (uint8_t*)m_refIdx[0]); uint8_t 472 source/common/cudata.cpp m_partCopy((uint8_t*)ctu.m_refIdx[1] + m_absIdxInCTU, (uint8_t*)m_refIdx[1]); uint8_t 522 source/common/cudata.cpp if (copyQp) m_partCopy((uint8_t*)m_qp, (uint8_t*)ctu.m_qp + m_absIdxInCTU); uint8_t 527 source/common/cudata.cpp m_partCopy((uint8_t*)m_refIdx[0], (uint8_t*)ctu.m_refIdx[0] + m_absIdxInCTU); uint8_t 528 source/common/cudata.cpp m_partCopy((uint8_t*)m_refIdx[1], (uint8_t*)ctu.m_refIdx[1] + m_absIdxInCTU); uint8_t 564 source/common/cudata.cpp m_partCopy((uint8_t*)ctu.m_qp + m_absIdxInCTU, (uint8_t*)m_qp); uint8_t 1019 source/common/cudata.cpp void CUData::setPUInterDir(uint8_t dir, uint32_t absPartIdx, uint32_t puIdx) uint8_t 1443 source/common/cudata.cpp uint32_t CUData::getInterMergeCandidates(uint32_t absPartIdx, uint32_t puIdx, MVField(*candMvField)[2], uint8_t* candDir) const uint8_t 1635 source/common/cudata.cpp candDir[count] = (uint8_t)dir; uint8_t 121 source/common/cudata.h typedef void(*cucopy_t)(uint8_t* dst, uint8_t* src); // dst and src are aligned to MIN(size, 32) uint8_t 122 source/common/cudata.h typedef void(*cubcast_t)(uint8_t* dst, uint8_t val); // dst is aligned to MIN(size, 32) uint8_t 188 source/common/cudata.h uint8_t m_bFirstRowInSlice; uint8_t 189 source/common/cudata.h uint8_t m_bLastRowInSlice; uint8_t 190 source/common/cudata.h uint8_t m_bLastCuInSlice; uint8_t 194 source/common/cudata.h uint8_t* m_log2CUSize; // array of cu log2Size TODO: seems redundant to depth uint8_t 195 source/common/cudata.h uint8_t* m_lumaIntraDir; // array of intra directions (luma) uint8_t 196 source/common/cudata.h uint8_t* m_tqBypass; // array of CU lossless flags uint8_t 198 source/common/cudata.h uint8_t* m_cuDepth; // array of depths uint8_t 199 source/common/cudata.h uint8_t* m_predMode; // array of prediction modes uint8_t 200 source/common/cudata.h uint8_t* m_partSize; // array of partition sizes uint8_t 201 source/common/cudata.h uint8_t* m_mergeFlag; // array of merge flags uint8_t 202 source/common/cudata.h uint8_t* m_interDir; // array of inter directions uint8_t 203 source/common/cudata.h uint8_t* m_mvpIdx[2]; // array of motion vector predictor candidates or merge candidate indices [0] uint8_t 204 source/common/cudata.h uint8_t* m_tuDepth; // array of transform indices uint8_t 205 source/common/cudata.h uint8_t* m_transformSkip[3]; // array of transform skipping flags per plane uint8_t 206 source/common/cudata.h uint8_t* m_cbf[3]; // array of coded block flags (CBF) per plane uint8_t 207 source/common/cudata.h uint8_t* m_chromaIntraDir; // array of intra directions (chroma) uint8_t 243 source/common/cudata.h void setPartSizeSubParts(PartSize size) { m_partSet(m_partSize, (uint8_t)size); } uint8_t 244 source/common/cudata.h void setPredModeSubParts(PredMode mode) { m_partSet(m_predMode, (uint8_t)mode); } uint8_t 248 source/common/cudata.h void setQPSubParts(int8_t qp, uint32_t absPartIdx, uint32_t depth) { s_partSet[depth]((uint8_t*)m_qp + absPartIdx, (uint8_t)qp); } uint8_t 249 source/common/cudata.h void setTUDepthSubParts(uint8_t tuDepth, uint32_t absPartIdx, uint32_t depth) { s_partSet[depth](m_tuDepth + absPartIdx, tuDepth); } uint8_t 250 source/common/cudata.h void setLumaIntraDirSubParts(uint8_t dir, uint32_t absPartIdx, uint32_t depth) { s_partSet[depth](m_lumaIntraDir + absPartIdx, dir); } uint8_t 251 source/common/cudata.h void setChromIntraDirSubParts(uint8_t dir, uint32_t absPartIdx, uint32_t depth) { s_partSet[depth](m_chromaIntraDir + absPartIdx, dir); } uint8_t 252 source/common/cudata.h void setCbfSubParts(uint8_t cbf, TextType ttype, uint32_t absPartIdx, uint32_t depth) { s_partSet[depth](m_cbf[ttype] + absPartIdx, cbf); } uint8_t 253 source/common/cudata.h void setCbfPartRange(uint8_t cbf, TextType ttype, uint32_t absPartIdx, uint32_t coveredPartIdxes) { memset(m_cbf[ttype] + absPartIdx, cbf, coveredPartIdxes); } uint8_t 254 source/common/cudata.h void setTransformSkipSubParts(uint8_t tskip, TextType ttype, uint32_t absPartIdx, uint32_t depth) { s_partSet[depth](m_transformSkip[ttype] + absPartIdx, tskip); } uint8_t 255 source/common/cudata.h void setTransformSkipPartRange(uint8_t tskip, TextType ttype, uint32_t absPartIdx, uint32_t coveredPartIdxes) { memset(m_transformSkip[ttype] + absPartIdx, tskip, coveredPartIdxes); } uint8_t 259 source/common/cudata.h void setPUInterDir(uint8_t dir, uint32_t absPartIdx, uint32_t puIdx); uint8_t 263 source/common/cudata.h uint8_t getCbf(uint32_t absPartIdx, TextType ttype, uint32_t tuDepth) const { return (m_cbf[ttype][absPartIdx] >> tuDepth) & 0x1; } uint8_t 266 source/common/cudata.h uint32_t getInterMergeCandidates(uint32_t absPartIdx, uint32_t puIdx, MVField (*candMvField)[2], uint8_t* candDir) const; uint8_t 346 source/common/cudata.h uint8_t* charMemBlock; uint8_t 367 source/common/cudata.h CHECKED_MALLOC(charMemBlock, uint8_t, numPartition * numInstances * CUData::BytesPerPartition); uint8_t 757 source/common/dct.cpp static int scanPosLast_c(const uint16_t *scan, const coeff_t *coeff, uint16_t *coeffSign, uint16_t *coeffFlag, uint8_t *coeffNum, int numSig, const uint16_t* /*scanCG4x4*/, const int /*trSize*/) uint8_t 784 source/common/dct.cpp coeffNum[cgIdx] += (uint8_t)isNZCoeff; uint8_t 833 source/common/dct.cpp static uint32_t costCoeffNxN_c(const uint16_t *scan, const coeff_t *coeff, intptr_t trSize, uint16_t *absCoeff, const uint8_t *tabSigCtx, uint32_t scanFlagMask, uint8_t *baseCtx, int offset, int scanPosSigOff, int subPosBase) uint8_t 873 source/common/dct.cpp baseCtx[ctxSig] = (uint8_t)nextState; uint8_t 934 source/common/dct.cpp static uint32_t costC1C2Flag_c(uint16_t *absCoeff, intptr_t numC1Flag, uint8_t *baseCtxMod, intptr_t ctxOffset) uint8_t 39 source/common/deblock.cpp uint8_t blockStrength[MAX_NUM_PARTITIONS]; uint8_t 41 source/common/deblock.cpp memset(blockStrength, 0, sizeof(uint8_t) * cuGeom.numPartitions); uint8_t 46 source/common/deblock.cpp static inline uint8_t bsCuEdge(const CUData* cu, uint32_t absPartIdx, int32_t dir) uint8_t 72 source/common/deblock.cpp void Deblock::deblockCU(const CUData* cu, const CUGeom& cuGeom, const int32_t dir, uint8_t blockStrength[]) uint8_t 125 source/common/deblock.cpp void Deblock::setEdgefilterMultiple(uint32_t scanIdx, int32_t dir, int32_t edgeIdx, uint8_t value, uint8_t blockStrength[], uint32_t numUnits) uint8_t 135 source/common/deblock.cpp void Deblock::setEdgefilterTU(const CUData* cu, uint32_t absPartIdx, uint32_t tuDepth, int32_t dir, uint8_t blockStrength[]) uint8_t 150 source/common/deblock.cpp void Deblock::setEdgefilterPU(const CUData* cu, uint32_t absPartIdx, int32_t dir, uint8_t blockStrength[], uint32_t numUnits) uint8_t 191 source/common/deblock.cpp uint8_t Deblock::getBoundaryStrength(const CUData* cuQ, int32_t dir, uint32_t partQ, const uint8_t blockStrength[]) uint8_t 320 source/common/deblock.cpp void Deblock::edgeFilterLuma(const CUData* cuQ, uint32_t absPartIdx, uint32_t depth, int32_t dir, int32_t edge, const uint8_t blockStrength[]) uint8_t 420 source/common/deblock.cpp void Deblock::edgeFilterChroma(const CUData* cuQ, uint32_t absPartIdx, uint32_t depth, int32_t dir, int32_t edge, const uint8_t blockStrength[]) uint8_t 502 source/common/deblock.cpp const uint8_t Deblock::s_tcTable[54] = uint8_t 508 source/common/deblock.cpp const uint8_t Deblock::s_betaTable[52] = uint8_t 46 source/common/deblock.h static void deblockCU(const CUData* cu, const CUGeom& cuGeom, const int32_t dir, uint8_t blockStrength[]); uint8_t 49 source/common/deblock.h static void setEdgefilterTU(const CUData* cu, uint32_t absPartIdx, uint32_t tuDepth, int32_t dir, uint8_t blockStrength[]); uint8_t 50 source/common/deblock.h static void setEdgefilterPU(const CUData* cu, uint32_t absPartIdx, int32_t dir, uint8_t blockStrength[], uint32_t numUnits); uint8_t 51 source/common/deblock.h static void setEdgefilterMultiple(uint32_t absPartIdx, int32_t dir, int32_t edgeIdx, uint8_t value, uint8_t blockStrength[], uint32_t numUnits); uint8_t 54 source/common/deblock.h static uint8_t getBoundaryStrength(const CUData* cuQ, int32_t dir, uint32_t partQ, const uint8_t blockStrength[]); uint8_t 57 source/common/deblock.h static void edgeFilterLuma(const CUData* cuQ, uint32_t absPartIdx, uint32_t depth, int32_t dir, int32_t edge, const uint8_t blockStrength[]); uint8_t 58 source/common/deblock.h static void edgeFilterChroma(const CUData* cuQ, uint32_t absPartIdx, uint32_t depth, int32_t dir, int32_t edge, const uint8_t blockStrength[]); uint8_t 60 source/common/deblock.h static const uint8_t s_tcTable[54]; uint8_t 61 source/common/deblock.h static const uint8_t s_betaTable[52]; uint8_t 69 source/common/frame.cpp CHECKED_MALLOC_ZERO(m_addOnDepth, uint8_t *, numCTUsInFrame); uint8_t 70 source/common/frame.cpp CHECKED_MALLOC_ZERO(m_addOnCtuInfo, uint8_t *, numCTUsInFrame); uint8_t 74 source/common/frame.cpp CHECKED_MALLOC_ZERO(m_addOnDepth[i], uint8_t, uint32_t(param->num4x4Partitions)); uint8_t 75 source/common/frame.cpp CHECKED_MALLOC_ZERO(m_addOnCtuInfo[i], uint8_t, uint32_t(param->num4x4Partitions)); uint8_t 120 source/common/frame.h uint8_t** m_addOnDepth; uint8_t 121 source/common/frame.h uint8_t** m_addOnCtuInfo; uint8_t 180 source/common/framedata.h uint8_t* depth; uint8_t 181 source/common/framedata.h uint8_t* modes; uint8_t 183 source/common/framedata.h uint8_t* chromaModes; uint8_t 190 source/common/framedata.h uint8_t* depth; uint8_t 191 source/common/framedata.h uint8_t* modes; uint8_t 192 source/common/framedata.h uint8_t* partSize; uint8_t 193 source/common/framedata.h uint8_t* mergeFlag; uint8_t 194 source/common/framedata.h uint8_t* interDir; uint8_t 195 source/common/framedata.h uint8_t* mvpIdx[2]; uint8_t 202 source/common/framedata.h uint8_t* depth; uint8_t 206 source/common/framedata.h uint8_t* modes; uint8_t 81 source/common/lowres.cpp CHECKED_MALLOC(intraMode, uint8_t, cuCount); uint8_t 129 source/common/lowres.h uint8_t* intraMode; uint8_t 71 source/common/md5.cpp void MD5Update(MD5Context *ctx, uint8_t *buf, uint32_t len) uint8_t 88 source/common/md5.cpp uint8_t *p = (uint8_t*)ctx->in + t; uint8_t 122 source/common/md5.cpp void MD5Final(MD5Context *ctx, uint8_t *digest) uint8_t 125 source/common/md5.cpp uint8_t *p; uint8_t 163 source/common/md5.cpp byteReverse((uint8_t*)ctx->buf, 4); uint8_t 42 source/common/md5.h void MD5Final(MD5Context *ctx, uint8_t *digest); uint8_t 220 source/common/picyuv.cpp uint8_t rem = width & 15; uint8_t 245 source/common/picyuv.cpp uint8_t *yChar = (uint8_t*)pic.planes[0]; uint8_t 255 source/common/picyuv.cpp uint8_t *uChar = (uint8_t*)pic.planes[1]; uint8_t 256 source/common/picyuv.cpp uint8_t *vChar = (uint8_t*)pic.planes[2]; uint8_t 266 source/common/picyuv.cpp uint8_t *yChar = (uint8_t*)pic.planes[0]; uint8_t 281 source/common/picyuv.cpp uint8_t *uChar = (uint8_t*)pic.planes[1]; uint8_t 282 source/common/picyuv.cpp uint8_t *vChar = (uint8_t*)pic.planes[2]; uint8_t 442 source/common/picyuv.cpp uint8_t buf[64 / OUTPUT_BITDEPTH_DIV8][OUTPUT_BITDEPTH_DIV8]; uint8_t 449 source/common/picyuv.cpp buf[i][d] = (uint8_t)(pel >> (d * 8)); uint8_t 452 source/common/picyuv.cpp MD5Update(&md5, (uint8_t*)buf, n * OUTPUT_BITDEPTH_DIV8); uint8_t 513 source/common/picyuv.cpp void crcFinish(uint32_t& crcVal, uint8_t digest[16]) uint8_t 529 source/common/picyuv.cpp uint8_t xor_mask; uint8_t 535 source/common/picyuv.cpp xor_mask = (uint8_t)((x & 0xff) ^ (y & 0xff) ^ (x >> 8) ^ (y >> 8)); uint8_t 544 source/common/picyuv.cpp void checksumFinish(uint32_t checksum, uint8_t digest[16]) uint8_t 112 source/common/picyuv.h void crcFinish(uint32_t & crc, uint8_t digest[16]); uint8_t 113 source/common/picyuv.h void checksumFinish(uint32_t checksum, uint8_t digest[16]); uint8_t 855 source/common/pixel.cpp static void planecopy_cp_c(const uint8_t* src, intptr_t srcStride, pixel* dst, intptr_t dstStride, int width, int height, int shift) uint8_t 75 source/common/ppc/pixel_altivec.cpp typedef uint8_t pixel; uint8_t 30 source/common/primitives.cpp extern const uint8_t lumaPartitionMapTable[] = uint8_t 198 source/common/primitives.h typedef void (*planecopy_cp_t) (const uint8_t* src, intptr_t srcStride, pixel* dst, intptr_t dstStride, int width, int height, int shift); uint8_t 207 source/common/primitives.h typedef int (*scanPosLast_t)(const uint16_t *scan, const coeff_t *coeff, uint16_t *coeffSign, uint16_t *coeffFlag, uint8_t *coeffNum, int numSig, const uint16_t* scanCG4x4, const int trSize); uint8_t 210 source/common/primitives.h typedef uint32_t (*costCoeffNxN_t)(const uint16_t *scan, const coeff_t *coeff, intptr_t trSize, uint16_t *absCoeff, const uint8_t *tabSigCtx, uint32_t scanFlagMask, uint8_t *baseCtx, int offset, int scanPosSigOff, int subPosBase); uint8_t 212 source/common/primitives.h typedef uint32_t (*costC1C2Flag_t)(uint16_t *absCoeff, intptr_t numC1Flag, uint8_t *baseCtxMod, intptr_t ctxOffset); uint8_t 416 source/common/primitives.h extern const uint8_t lumaPartitionMapTable[]; uint8_t 428 source/common/primitives.h extern const uint8_t lumaPartitionMapTable[]; uint8_t 252 source/common/quant.cpp uint8_t coeffNum[MLS_GRP_NUM]; // value range[0, 16] uint8_t 693 source/common/quant.cpp uint8_t coeffNum[MLS_GRP_NUM]; // value range[0, 16] uint8_t 777 source/common/quant.cpp static const uint8_t table_cnt[5][SCAN_SET_SIZE] = uint8_t 1346 source/common/quant.cpp const int firstNZPosInCG = (uint8_t)posFirstLast; uint8_t 1473 source/common/quant.cpp static const uint8_t ctxIndMap[16] = uint8_t 1496 source/common/quant.cpp static const uint8_t table_cnt[4][4][4] = uint8_t 41 source/common/x86/pixel-util.h uint32_t PFX(costC1C2Flag_sse2(uint16_t *absCoeff, intptr_t numNonZero, uint8_t *baseCtxMod, intptr_t ctxOffset)); \ uint8_t 55 source/common/x86/pixel-util.h int PFX(scanPosLast_x64(const uint16_t *scan, const coeff_t *coeff, uint16_t *coeffSign, uint16_t *coeffFlag, uint8_t *coeffNum, int numSig, const uint16_t* scanCG4x4, const int trSize)); uint8_t 56 source/common/x86/pixel-util.h int PFX(scanPosLast_avx2_bmi2(const uint16_t *scan, const coeff_t *coeff, uint16_t *coeffSign, uint16_t *coeffFlag, uint8_t *coeffNum, int numSig, const uint16_t* scanCG4x4, const int trSize)); uint8_t 58 source/common/x86/pixel-util.h uint32_t PFX(costCoeffNxN_sse4(const uint16_t *scan, const coeff_t *coeff, intptr_t trSize, uint16_t *absCoeff, const uint8_t *tabSigCtx, uint32_t scanFlagMask, uint8_t *baseCtx, int offset, int scanPosSigOff, int subPosBase)); uint8_t 59 source/common/x86/pixel-util.h uint32_t PFX(costCoeffNxN_avx2_bmi2(const uint16_t *scan, const coeff_t *coeff, intptr_t trSize, uint16_t *absCoeff, const uint8_t *tabSigCtx, uint32_t scanFlagMask, uint8_t *baseCtx, int offset, int scanPosSigOff, int subPosBase)); uint8_t 37 source/common/x86/pixel.h void PFX(upShift_8_sse4)(const uint8_t* src, intptr_t srcStride, pixel* dst, intptr_t dstStride, int width, int height, int shift); uint8_t 38 source/common/x86/pixel.h void PFX(upShift_8_avx2)(const uint8_t* src, intptr_t srcStride, pixel* dst, intptr_t dstStride, int width, int height, int shift); uint8_t 28 source/dynamicHDR10/api.cpp bool hdr10plus_json_to_frame_cim(const char* path, uint32_t frameNumber, uint8_t *&cim) uint8_t 36 source/dynamicHDR10/api.cpp int hdr10plus_json_to_movie_cim(const char* path, uint8_t **&cim) uint8_t 42 source/dynamicHDR10/api.cpp bool hdr10plus_json_to_frame_eif(const char* path, uint32_t frameNumber, uint8_t *&eif) uint8_t 50 source/dynamicHDR10/api.cpp int hdr10plus_json_to_movie_eif(const char* path, uint8_t **&eif) uint8_t 57 source/dynamicHDR10/api.cpp void hdr10plus_clear_movie(uint8_t **&metadata, const int numberOfFrames) uint8_t 39 source/dynamicHDR10/hdr10plus.h bool hdr10plus_json_to_frame_cim(const char* path, uint32_t frameNumber, uint8_t *&cim); uint8_t 49 source/dynamicHDR10/hdr10plus.h int hdr10plus_json_to_movie_cim(const char* path, uint8_t **&cim); uint8_t 59 source/dynamicHDR10/hdr10plus.h bool hdr10plus_json_to_frame_eif(const char* path, uint32_t frameNumber, uint8_t *&eif); uint8_t 69 source/dynamicHDR10/hdr10plus.h int hdr10plus_json_to_movie_eif(const char* path, uint8_t **&eif); uint8_t 80 source/dynamicHDR10/hdr10plus.h void hdr10plus_clear_movie(uint8_t**& metadata, const int numberOfFrames); uint8_t 86 source/dynamicHDR10/hdr10plus.h bool (*hdr10plus_json_to_frame_cim)(const char *, uint32_t, uint8_t *&); uint8_t 87 source/dynamicHDR10/hdr10plus.h int (*hdr10plus_json_to_movie_cim)(const char *, uint8_t **&); uint8_t 88 source/dynamicHDR10/hdr10plus.h bool (*hdr10plus_json_to_frame_eif)(const char *, uint32_t, uint8_t *&); uint8_t 89 source/dynamicHDR10/hdr10plus.h int (*hdr10plus_json_to_movie_eif)(const char *, uint8_t **&); uint8_t 90 source/dynamicHDR10/hdr10plus.h void (*hdr10plus_clear_movie)(uint8_t **&, const int); uint8_t 92 source/dynamicHDR10/json11/json11.cpp } else if (static_cast<uint8_t>(ch) <= 0x1f) { uint8_t 96 source/dynamicHDR10/json11/json11.cpp } else if (static_cast<uint8_t>(ch) == 0xe2 && static_cast<uint8_t>(value[i+1]) == 0x80 uint8_t 97 source/dynamicHDR10/json11/json11.cpp && static_cast<uint8_t>(value[i+2]) == 0xa8) { uint8_t 100 source/dynamicHDR10/json11/json11.cpp } else if (static_cast<uint8_t>(ch) == 0xe2 && static_cast<uint8_t>(value[i+1]) == 0x80 uint8_t 101 source/dynamicHDR10/json11/json11.cpp && static_cast<uint8_t>(value[i+2]) == 0xa9) { uint8_t 323 source/dynamicHDR10/json11/json11.cpp if (static_cast<uint8_t>(c) >= 0x20 && static_cast<uint8_t>(c) <= 0x7f) { uint8_t 141 source/dynamicHDR10/metadataFromJson.cpp void appendBits(uint8_t *dataStream, T data, int bitsToWrite) uint8_t 150 source/dynamicHDR10/metadataFromJson.cpp dataStream[mCurrentStreamByte] += static_cast<uint8_t>(data << bitshift); uint8_t 158 source/dynamicHDR10/metadataFromJson.cpp dataStream[mCurrentStreamByte] += static_cast<uint8_t>(data >> bitshift); uint8_t 166 source/dynamicHDR10/metadataFromJson.cpp void setPayloadSize(uint8_t *dataStream, int positionOnStream, int payload) uint8_t 181 source/dynamicHDR10/metadataFromJson.cpp dataStream[positionOnStream++] = static_cast<uint8_t>(payload); uint8_t 191 source/dynamicHDR10/metadataFromJson.cpp dataStream[positionOnStream] = static_cast<uint8_t>(payload); uint8_t 195 source/dynamicHDR10/metadataFromJson.cpp void shiftData(uint8_t *dataStream, int shiftSize, int streamSize, int startPoint = 0) uint8_t 221 source/dynamicHDR10/metadataFromJson.cpp uint8_t *&metadata) uint8_t 245 source/dynamicHDR10/metadataFromJson.cpp metadata = new uint8_t[mSEIBytesToRead]; uint8_t 259 source/dynamicHDR10/metadataFromJson.cpp int metadataFromJson::movieMetadataFromJson(const char* filePath, uint8_t **&metadata) uint8_t 269 source/dynamicHDR10/metadataFromJson.cpp metadata = new uint8_t*[numFrames]; uint8_t 272 source/dynamicHDR10/metadataFromJson.cpp metadata[frame] = new uint8_t[509]; uint8_t 291 source/dynamicHDR10/metadataFromJson.cpp uint8_t *&metadata) uint8_t 313 source/dynamicHDR10/metadataFromJson.cpp metadata = new uint8_t[mSEIBytesToRead]; uint8_t 336 source/dynamicHDR10/metadataFromJson.cpp int metadataFromJson::movieExtendedInfoFrameMetadataFromJson(const char* filePath, uint8_t **&metadata) uint8_t 346 source/dynamicHDR10/metadataFromJson.cpp metadata = new uint8_t*[numFrames]; uint8_t 349 source/dynamicHDR10/metadataFromJson.cpp metadata[frame] = new uint8_t[509]; uint8_t 373 source/dynamicHDR10/metadataFromJson.cpp void metadataFromJson::fillMetadataArray(const JsonArray &fileData, int frame, uint8_t *&metadata) uint8_t 375 source/dynamicHDR10/metadataFromJson.cpp const uint8_t countryCode = 0xB5; uint8_t 378 source/dynamicHDR10/metadataFromJson.cpp const uint8_t applicationIdentifier = 4; uint8_t 379 source/dynamicHDR10/metadataFromJson.cpp const uint8_t applicationVersion = 0; uint8_t 417 source/dynamicHDR10/metadataFromJson.cpp uint8_t rotationAngle = static_cast<uint8_t>((angle > 180.0) ? angle - 180.0 : angle); uint8_t 433 source/dynamicHDR10/metadataFromJson.cpp /*bool*/ uint8_t overlapProcessOption = static_cast<uint8_t>(ellipseJsonObject[EllipseNames::OverlapProcessOption].int_value()); //1; uint8_t 442 source/dynamicHDR10/metadataFromJson.cpp /*bool*/uint8_t targetedSystemDisplayActualPeakLuminanceFlag = 0; /*false*/ uint8_t 464 source/dynamicHDR10/metadataFromJson.cpp mPimpl->appendBits(metadata, static_cast<uint8_t>(((int)luminanceData.maxRLuminance & 0x10000) >> 16), 1); uint8_t 466 source/dynamicHDR10/metadataFromJson.cpp mPimpl->appendBits(metadata, static_cast<uint8_t>(((int)luminanceData.maxGLuminance & 0x10000) >> 16), 1); uint8_t 468 source/dynamicHDR10/metadataFromJson.cpp mPimpl->appendBits(metadata, static_cast<uint8_t>(((int)luminanceData.maxBLuminance & 0x10000) >> 16), 1); uint8_t 471 source/dynamicHDR10/metadataFromJson.cpp mPimpl->appendBits(metadata, static_cast<uint8_t>(((int)luminanceData.averageLuminance & 0x10000) >> 16), 1); uint8_t 475 source/dynamicHDR10/metadataFromJson.cpp uint8_t numDistributionMaxrgbPercentiles = static_cast<uint8_t>(luminanceData.order); uint8_t 482 source/dynamicHDR10/metadataFromJson.cpp uint8_t distributionMaxrgbPercentage = static_cast<uint8_t>(percentilPercentages.at(i)); uint8_t 487 source/dynamicHDR10/metadataFromJson.cpp uint8_t highValue = static_cast<uint8_t>((ithPercentile & 0x10000) >> 16); uint8_t 500 source/dynamicHDR10/metadataFromJson.cpp uint8_t masteringDisplayActualPeakLuminanceFlag = 0; uint8_t 510 source/dynamicHDR10/metadataFromJson.cpp uint8_t toneMappingFlag = 1; uint8_t 538 source/dynamicHDR10/metadataFromJson.cpp uint8_t numBezierCurveAnchors = static_cast<uint8_t>(curveData.order);// - 1; uint8_t 563 source/dynamicHDR10/metadataFromJson.cpp void metadataFromJson::clear(uint8_t **&metadata, const int numberOfFrames) uint8_t 51 source/dynamicHDR10/metadataFromJson.h uint8_t *&metadata); uint8_t 62 source/dynamicHDR10/metadataFromJson.h uint8_t **&metadata); uint8_t 74 source/dynamicHDR10/metadataFromJson.h uint8_t *&metadata); uint8_t 85 source/dynamicHDR10/metadataFromJson.h uint8_t **&metadata); uint8_t 94 source/dynamicHDR10/metadataFromJson.h void clear(uint8_t **&metadata, uint8_t 101 source/dynamicHDR10/metadataFromJson.h void fillMetadataArray(const JsonArray &fileData, int frame, uint8_t *&metadata); uint8_t 161 source/encoder/analysis.cpp uint8_t* depthInfoPtr = m_frame->m_addOnDepth[ctu.m_cuAddr]; uint8_t 162 source/encoder/analysis.cpp uint8_t* contentInfoPtr = m_frame->m_addOnCtuInfo[ctu.m_cuAddr]; uint8_t 166 source/encoder/analysis.cpp uint8_t depth = (uint8_t)ctuTemp->ctuPartitions[depthIdx]; uint8_t 167 source/encoder/analysis.cpp uint8_t content = (uint8_t)(*((int32_t *)ctuTemp->ctuInfo + depthIdx)); uint8_t 169 source/encoder/analysis.cpp memset(depthInfoPtr, depth, sizeof(uint8_t) * numPartition >> 2 * depth); uint8_t 170 source/encoder/analysis.cpp memset(contentInfoPtr, content, sizeof(uint8_t) * numPartition >> 2 * depth); uint8_t 182 source/encoder/analysis.cpp memcpy(ctu.m_cuDepth, m_frame->m_addOnDepth[ctu.m_cuAddr], sizeof(uint8_t) * numPartition); uint8_t 185 source/encoder/analysis.cpp ctu.m_log2CUSize[i] = (uint8_t)m_param->maxLog2CUSize - ctu.m_cuDepth[i]; uint8_t 229 source/encoder/analysis.cpp memcpy(ctu.m_cuDepth, &intraDataCTU->depth[ctu.m_cuAddr * numPartition], sizeof(uint8_t) * numPartition); uint8_t 230 source/encoder/analysis.cpp memcpy(ctu.m_lumaIntraDir, &intraDataCTU->modes[ctu.m_cuAddr * numPartition], sizeof(uint8_t) * numPartition); uint8_t 232 source/encoder/analysis.cpp memcpy(ctu.m_chromaIntraDir, &intraDataCTU->chromaModes[ctu.m_cuAddr * numPartition], sizeof(uint8_t) * numPartition); uint8_t 257 source/encoder/analysis.cpp memcpy(ctu.m_cuDepth, &interDataCTU->depth[posCTU], sizeof(uint8_t) * numPartition); uint8_t 258 source/encoder/analysis.cpp memcpy(ctu.m_predMode, &interDataCTU->modes[posCTU], sizeof(uint8_t) * numPartition); uint8_t 259 source/encoder/analysis.cpp memcpy(ctu.m_partSize, &interDataCTU->partSize[posCTU], sizeof(uint8_t) * numPartition); uint8_t 263 source/encoder/analysis.cpp memcpy(ctu.m_lumaIntraDir, &intraDataCTU->modes[posCTU], sizeof(uint8_t) * numPartition); uint8_t 264 source/encoder/analysis.cpp memcpy(ctu.m_chromaIntraDir, &intraDataCTU->chromaModes[posCTU], sizeof(uint8_t) * numPartition); uint8_t 268 source/encoder/analysis.cpp ctu.m_log2CUSize[i] = (uint8_t)m_param->maxLog2CUSize - ctu.m_cuDepth[i]; uint8_t 292 source/encoder/analysis.cpp uint8_t depth = 0; uint8_t 293 source/encoder/analysis.cpp uint8_t partSize = 0; uint8_t 351 source/encoder/analysis.cpp uint8_t count = 0; uint8_t 497 source/encoder/analysis.cpp bool bAlreadyDecided = parentCTU.m_lumaIntraDir[cuGeom.absPartIdx] != (uint8_t)ALL_IDX; uint8_t 2308 source/encoder/analysis.cpp uint8_t candDir[MRG_MAX_NUM_CANDS]; uint8_t 2310 source/encoder/analysis.cpp uint8_t mvpIdx = mode.cu.m_mvpIdx[0][pu.puAbsPartIdx]; uint8_t 2439 source/encoder/analysis.cpp uint8_t candDir[MRG_MAX_NUM_CANDS]; uint8_t 2480 source/encoder/analysis.cpp tempPred->cu.m_mvpIdx[0][0] = (uint8_t)i; // merge candidate ID is stored in L0 MVP idx uint8_t 2521 source/encoder/analysis.cpp tempPred->cu.m_mvpIdx[0][0] = (uint8_t)bestSadCand; uint8_t 2568 source/encoder/analysis.cpp uint8_t candDir[MRG_MAX_NUM_CANDS]; uint8_t 2624 source/encoder/analysis.cpp tempPred->cu.m_mvpIdx[0][0] = (uint8_t)i; /* merge candidate ID is stored in L0 MVP idx */ uint8_t 2634 source/encoder/analysis.cpp uint8_t hasCbf = true; uint8_t 2656 source/encoder/analysis.cpp tempPred->cu.m_mvpIdx[0][0] = (uint8_t)i; uint8_t 2839 source/encoder/analysis.cpp cu.m_mvpIdx[0][0] = (uint8_t)mvpIdx0; uint8_t 2840 source/encoder/analysis.cpp cu.m_mvpIdx[1][0] = (uint8_t)mvpIdx1; uint8_t 2924 source/encoder/analysis.cpp cu.m_mvpIdx[0][0] = (uint8_t)mvpIdx0; uint8_t 2928 source/encoder/analysis.cpp cu.m_mvpIdx[1][0] = (uint8_t)mvpIdx1; uint8_t 125 source/encoder/analysis.h uint8_t* m_reuseDepth; uint8_t 126 source/encoder/analysis.h uint8_t* m_reuseModes; uint8_t 127 source/encoder/analysis.h uint8_t* m_reusePartSize; uint8_t 128 source/encoder/analysis.h uint8_t* m_reuseMergeFlag; uint8_t 135 source/encoder/analysis.h uint8_t* m_multipassDepth; uint8_t 139 source/encoder/analysis.h uint8_t* m_multipassModes; uint8_t 141 source/encoder/analysis.h uint8_t m_evaluateInter; uint8_t 142 source/encoder/analysis.h uint8_t* m_additionalCtuInfo; uint8_t 626 source/encoder/encoder.cpp toneMap.payload = (uint8_t*)x265_malloc(sizeof(uint8_t) * toneMap.payloadSize); uint8_t 738 source/encoder/encoder.cpp inFrame->m_userSEI.payloads[i].payload = new uint8_t[size]; uint8_t 1954 source/encoder/encoder.cpp idsei.m_userData = (uint8_t*)buffer; uint8_t 2683 source/encoder/encoder.cpp CHECKED_MALLOC(intraData->depth, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2684 source/encoder/encoder.cpp CHECKED_MALLOC(intraData->modes, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2686 source/encoder/encoder.cpp CHECKED_MALLOC(intraData->chromaModes, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2699 source/encoder/encoder.cpp CHECKED_MALLOC(interData->depth, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2700 source/encoder/encoder.cpp CHECKED_MALLOC(interData->modes, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2703 source/encoder/encoder.cpp CHECKED_MALLOC(interData->partSize, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2704 source/encoder/encoder.cpp CHECKED_MALLOC(interData->mergeFlag, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2709 source/encoder/encoder.cpp CHECKED_MALLOC(interData->interDir, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2712 source/encoder/encoder.cpp CHECKED_MALLOC(interData->mvpIdx[dir], uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2722 source/encoder/encoder.cpp CHECKED_MALLOC(intraData->modes, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2723 source/encoder/encoder.cpp CHECKED_MALLOC(intraData->chromaModes, uint8_t, analysis->numPartitions * analysis->numCUsInFrame); uint8_t 2806 source/encoder/encoder.cpp CHECKED_MALLOC_ZERO(analysisFrameData->depth, uint8_t, m_param->num4x4Partitions * numCUsInFrame); uint8_t 2823 source/encoder/encoder.cpp CHECKED_MALLOC(analysisFrameData->modes, uint8_t, m_param->num4x4Partitions * numCUsInFrame); uint8_t 2935 source/encoder/encoder.cpp uint8_t *tempBuf = NULL, *depthBuf = NULL, *modeBuf = NULL, *partSizes = NULL; uint8_t 2937 source/encoder/encoder.cpp tempBuf = X265_MALLOC(uint8_t, depthBytes * 3); uint8_t 2942 source/encoder/encoder.cpp X265_FREAD(depthBuf, sizeof(uint8_t), depthBytes, m_analysisFile, intraPic->depth); uint8_t 2943 source/encoder/encoder.cpp X265_FREAD(modeBuf, sizeof(uint8_t), depthBytes, m_analysisFile, intraPic->chromaModes); uint8_t 2944 source/encoder/encoder.cpp X265_FREAD(partSizes, sizeof(uint8_t), depthBytes, m_analysisFile, intraPic->partSizes); uint8_t 2965 source/encoder/encoder.cpp X265_FREAD(((analysis_intra_data *)analysis->intraData)->modes, sizeof(uint8_t), analysis->numCUsInFrame * analysis->numPartitions, m_analysisFile, intraPic->modes); uint8_t 2969 source/encoder/encoder.cpp uint8_t *tempLumaBuf = X265_MALLOC(uint8_t, analysis->numCUsInFrame * scaledNumPartition); uint8_t 2970 source/encoder/encoder.cpp X265_FREAD(tempLumaBuf, sizeof(uint8_t), analysis->numCUsInFrame * scaledNumPartition, m_analysisFile, intraPic->modes); uint8_t 2987 source/encoder/encoder.cpp uint8_t *tempBuf = NULL, *depthBuf = NULL, *modeBuf = NULL, *partSize = NULL, *mergeFlag = NULL; uint8_t 2988 source/encoder/encoder.cpp uint8_t *interDir = NULL, *chromaDir = NULL, *mvpIdx[2]; uint8_t 3001 source/encoder/encoder.cpp tempBuf = X265_MALLOC(uint8_t, depthBytes * numBuf); uint8_t 3005 source/encoder/encoder.cpp X265_FREAD(depthBuf, sizeof(uint8_t), depthBytes, m_analysisFile, interPic->depth); uint8_t 3006 source/encoder/encoder.cpp X265_FREAD(modeBuf, sizeof(uint8_t), depthBytes, m_analysisFile, interPic->modes); uint8_t 3012 source/encoder/encoder.cpp X265_FREAD(partSize, sizeof(uint8_t), depthBytes, m_analysisFile, interPic->partSize); uint8_t 3013 source/encoder/encoder.cpp X265_FREAD(mergeFlag, sizeof(uint8_t), depthBytes, m_analysisFile, interPic->mergeFlag); uint8_t 3018 source/encoder/encoder.cpp X265_FREAD(interDir, sizeof(uint8_t), depthBytes, m_analysisFile, interPic->interDir); uint8_t 3022 source/encoder/encoder.cpp X265_FREAD(chromaDir, sizeof(uint8_t), depthBytes, m_analysisFile, intraPic->chromaModes); uint8_t 3026 source/encoder/encoder.cpp mvpIdx[i] = X265_MALLOC(uint8_t, depthBytes); uint8_t 3029 source/encoder/encoder.cpp X265_FREAD(mvpIdx[i], sizeof(uint8_t), depthBytes, m_analysisFile, interPic->mvpIdx[i]); uint8_t 3090 source/encoder/encoder.cpp X265_FREAD(((analysis_intra_data *)analysis->intraData)->modes, sizeof(uint8_t), analysis->numCUsInFrame * analysis->numPartitions, m_analysisFile, intraPic->modes); uint8_t 3094 source/encoder/encoder.cpp uint8_t *tempLumaBuf = X265_MALLOC(uint8_t, analysis->numCUsInFrame * scaledNumPartition); uint8_t 3095 source/encoder/encoder.cpp X265_FREAD(tempLumaBuf, sizeof(uint8_t), analysis->numCUsInFrame * scaledNumPartition, m_analysisFile, intraPic->modes); uint8_t 3142 source/encoder/encoder.cpp uint8_t* tempBuf = NULL, *depthBuf = NULL; uint8_t 3144 source/encoder/encoder.cpp tempBuf = X265_MALLOC(uint8_t, depthBytes); uint8_t 3145 source/encoder/encoder.cpp X265_FREAD(tempBuf, sizeof(uint8_t), depthBytes, m_analysisFileIn); uint8_t 3187 source/encoder/encoder.cpp uint8_t* tempModeBuf = NULL, *modeBuf = NULL; uint8_t 3202 source/encoder/encoder.cpp tempModeBuf = X265_MALLOC(uint8_t, depthBytes); uint8_t 3203 source/encoder/encoder.cpp X265_FREAD(tempModeBuf, sizeof(uint8_t), depthBytes, m_analysisFileIn); uint8_t 3269 source/encoder/encoder.cpp uint8_t depth = 0; uint8_t 3270 source/encoder/encoder.cpp uint8_t mode = 0; uint8_t 3271 source/encoder/encoder.cpp uint8_t partSize = 0; uint8_t 3289 source/encoder/encoder.cpp memcpy(&intraDataCTU->modes[ctu->m_cuAddr * ctu->m_numPartitions], ctu->m_lumaIntraDir, sizeof(uint8_t)* ctu->m_numPartitions); uint8_t 3297 source/encoder/encoder.cpp uint8_t depth = 0; uint8_t 3298 source/encoder/encoder.cpp uint8_t predMode = 0; uint8_t 3299 source/encoder/encoder.cpp uint8_t partSize = 0; uint8_t 3346 source/encoder/encoder.cpp memcpy(&intraDataCTU->modes[ctu->m_cuAddr * ctu->m_numPartitions], ctu->m_lumaIntraDir, sizeof(uint8_t)* ctu->m_numPartitions); uint8_t 3351 source/encoder/encoder.cpp analysis->frameRecordSize += sizeof(uint8_t)* analysis->numCUsInFrame * analysis->numPartitions + depthBytes * 3; uint8_t 3363 source/encoder/encoder.cpp analysis->frameRecordSize += sizeof(uint8_t)* depthBytes * numDir; uint8_t 3367 source/encoder/encoder.cpp analysis->frameRecordSize += sizeof(uint8_t)* analysis->numCUsInFrame * analysis->numPartitions + depthBytes; uint8_t 3394 source/encoder/encoder.cpp X265_FWRITE(((analysis_intra_data*)analysis->intraData)->depth, sizeof(uint8_t), depthBytes, m_analysisFile); uint8_t 3395 source/encoder/encoder.cpp X265_FWRITE(((analysis_intra_data*)analysis->intraData)->chromaModes, sizeof(uint8_t), depthBytes, m_analysisFile); uint8_t 3397 source/encoder/encoder.cpp X265_FWRITE(((analysis_intra_data*)analysis->intraData)->modes, sizeof(uint8_t), analysis->numCUsInFrame * analysis->numPartitions, m_analysisFile); uint8_t 3401 source/encoder/encoder.cpp X265_FWRITE(((analysis_inter_data*)analysis->interData)->depth, sizeof(uint8_t), depthBytes, m_analysisFile); uint8_t 3402 source/encoder/encoder.cpp X265_FWRITE(((analysis_inter_data*)analysis->interData)->modes, sizeof(uint8_t), depthBytes, m_analysisFile); uint8_t 3405 source/encoder/encoder.cpp X265_FWRITE(((analysis_inter_data*)analysis->interData)->partSize, sizeof(uint8_t), depthBytes, m_analysisFile); uint8_t 3406 source/encoder/encoder.cpp X265_FWRITE(((analysis_inter_data*)analysis->interData)->mergeFlag, sizeof(uint8_t), depthBytes, m_analysisFile); uint8_t 3409 source/encoder/encoder.cpp X265_FWRITE(((analysis_inter_data*)analysis->interData)->interDir, sizeof(uint8_t), depthBytes, m_analysisFile); uint8_t 3410 source/encoder/encoder.cpp if (bIntraInInter) X265_FWRITE(((analysis_intra_data*)analysis->intraData)->chromaModes, sizeof(uint8_t), depthBytes, m_analysisFile); uint8_t 3413 source/encoder/encoder.cpp X265_FWRITE(((analysis_inter_data*)analysis->interData)->mvpIdx[dir], sizeof(uint8_t), depthBytes, m_analysisFile); uint8_t 3418 source/encoder/encoder.cpp X265_FWRITE(((analysis_intra_data*)analysis->intraData)->modes, sizeof(uint8_t), analysis->numCUsInFrame * analysis->numPartitions, m_analysisFile); uint8_t 3447 source/encoder/encoder.cpp uint8_t depth = 0; uint8_t 3465 source/encoder/encoder.cpp uint8_t depth = 0; uint8_t 3466 source/encoder/encoder.cpp uint8_t predMode = 0; uint8_t 3494 source/encoder/encoder.cpp analysis2Pass->frameRecordSize += depthBytes * sizeof(uint8_t); uint8_t 3502 source/encoder/encoder.cpp analysis2Pass->frameRecordSize += depthBytes * sizeof(uint8_t); uint8_t 3508 source/encoder/encoder.cpp X265_FWRITE(analysisFrameData->depth, sizeof(uint8_t), depthBytes, m_analysisFileOut); uint8_t 3519 source/encoder/encoder.cpp X265_FWRITE(analysisFrameData->modes, sizeof(uint8_t), depthBytes, m_analysisFileOut); uint8_t 181 source/encoder/encoder.h uint8_t **m_cim; uint8_t 42 source/encoder/entropy.cpp static const uint8_t INIT_CU_TRANSQUANT_BYPASS_FLAG[3][NUM_TQUANT_BYPASS_FLAG_CTX] = uint8_t 50 source/encoder/entropy.cpp static const uint8_t INIT_SPLIT_FLAG[3][NUM_SPLIT_FLAG_CTX] = uint8_t 57 source/encoder/entropy.cpp static const uint8_t INIT_SKIP_FLAG[3][NUM_SKIP_FLAG_CTX] = uint8_t 64 source/encoder/entropy.cpp static const uint8_t INIT_MERGE_FLAG_EXT[3][NUM_MERGE_FLAG_EXT_CTX] = uint8_t 71 source/encoder/entropy.cpp static const uint8_t INIT_MERGE_IDX_EXT[3][NUM_MERGE_IDX_EXT_CTX] = uint8_t 78 source/encoder/entropy.cpp static const uint8_t INIT_PART_SIZE[3][NUM_PART_SIZE_CTX] = uint8_t 85 source/encoder/entropy.cpp static const uint8_t INIT_PRED_MODE[3][NUM_PRED_MODE_CTX] = uint8_t 92 source/encoder/entropy.cpp static const uint8_t INIT_INTRA_PRED_MODE[3][NUM_ADI_CTX] = uint8_t 99 source/encoder/entropy.cpp static const uint8_t INIT_CHROMA_PRED_MODE[3][NUM_CHROMA_PRED_CTX] = uint8_t 106 source/encoder/entropy.cpp static const uint8_t INIT_INTER_DIR[3][NUM_INTER_DIR_CTX] = uint8_t 113 source/encoder/entropy.cpp static const uint8_t INIT_MVD[3][NUM_MV_RES_CTX] = uint8_t 120 source/encoder/entropy.cpp static const uint8_t INIT_REF_PIC[3][NUM_REF_NO_CTX] = uint8_t 127 source/encoder/entropy.cpp static const uint8_t INIT_DQP[3][NUM_DELTA_QP_CTX] = uint8_t 134 source/encoder/entropy.cpp static const uint8_t INIT_QT_CBF[3][NUM_QT_CBF_CTX] = uint8_t 141 source/encoder/entropy.cpp static const uint8_t INIT_QT_ROOT_CBF[3][NUM_QT_ROOT_CBF_CTX] = uint8_t 148 source/encoder/entropy.cpp static const uint8_t INIT_LAST[3][NUM_CTX_LAST_FLAG_XY] = uint8_t 158 source/encoder/entropy.cpp static const uint8_t INIT_SIG_CG_FLAG[3][2 * NUM_SIG_CG_FLAG_CTX] = uint8_t 168 source/encoder/entropy.cpp static const uint8_t INIT_SIG_FLAG[3][NUM_SIG_FLAG_CTX] = uint8_t 175 source/encoder/entropy.cpp static const uint8_t INIT_ONE_FLAG[3][NUM_ONE_FLAG_CTX] = uint8_t 182 source/encoder/entropy.cpp static const uint8_t INIT_ABS_FLAG[3][NUM_ABS_FLAG_CTX] = uint8_t 189 source/encoder/entropy.cpp static const uint8_t INIT_MVP_IDX[3][NUM_MVP_IDX_CTX] = uint8_t 196 source/encoder/entropy.cpp static const uint8_t INIT_SAO_MERGE_FLAG[3][NUM_SAO_MERGE_FLAG_CTX] = uint8_t 203 source/encoder/entropy.cpp static const uint8_t INIT_SAO_TYPE_IDX[3][NUM_SAO_TYPE_IDX_CTX] = uint8_t 210 source/encoder/entropy.cpp static const uint8_t INIT_TRANS_SUBDIV_FLAG[3][NUM_TRANS_SUBDIV_FLAG_CTX] = uint8_t 217 source/encoder/entropy.cpp static const uint8_t INIT_TRANSFORMSKIP_FLAG[3][2 * NUM_TRANSFORMSKIP_FLAG_CTX] = uint8_t 1287 source/encoder/entropy.cpp uint8_t sbacInit(int qp, int initValue) uint8_t 1297 source/encoder/entropy.cpp return (uint8_t)state; uint8_t 1300 source/encoder/entropy.cpp static void initBuffer(uint8_t* contextModel, SliceType sliceType, int qp, uint8_t* ctxModel, int size) uint8_t 1313 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_SPLIT_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_SPLIT_FLAG, NUM_SPLIT_FLAG_CTX); uint8_t 1314 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_SKIP_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_SKIP_FLAG, NUM_SKIP_FLAG_CTX); uint8_t 1315 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_MERGE_FLAG_EXT_CTX], sliceType, qp, (uint8_t*)INIT_MERGE_FLAG_EXT, NUM_MERGE_FLAG_EXT_CTX); uint8_t 1316 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_MERGE_IDX_EXT_CTX], sliceType, qp, (uint8_t*)INIT_MERGE_IDX_EXT, NUM_MERGE_IDX_EXT_CTX); uint8_t 1317 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_PART_SIZE_CTX], sliceType, qp, (uint8_t*)INIT_PART_SIZE, NUM_PART_SIZE_CTX); uint8_t 1318 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_PRED_MODE_CTX], sliceType, qp, (uint8_t*)INIT_PRED_MODE, NUM_PRED_MODE_CTX); uint8_t 1319 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_ADI_CTX], sliceType, qp, (uint8_t*)INIT_INTRA_PRED_MODE, NUM_ADI_CTX); uint8_t 1320 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_CHROMA_PRED_CTX], sliceType, qp, (uint8_t*)INIT_CHROMA_PRED_MODE, NUM_CHROMA_PRED_CTX); uint8_t 1321 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_DELTA_QP_CTX], sliceType, qp, (uint8_t*)INIT_DQP, NUM_DELTA_QP_CTX); uint8_t 1322 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_INTER_DIR_CTX], sliceType, qp, (uint8_t*)INIT_INTER_DIR, NUM_INTER_DIR_CTX); uint8_t 1323 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_REF_NO_CTX], sliceType, qp, (uint8_t*)INIT_REF_PIC, NUM_REF_NO_CTX); uint8_t 1324 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_MV_RES_CTX], sliceType, qp, (uint8_t*)INIT_MVD, NUM_MV_RES_CTX); uint8_t 1325 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_QT_CBF_CTX], sliceType, qp, (uint8_t*)INIT_QT_CBF, NUM_QT_CBF_CTX); uint8_t 1326 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_TRANS_SUBDIV_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_TRANS_SUBDIV_FLAG, NUM_TRANS_SUBDIV_FLAG_CTX); uint8_t 1327 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_QT_ROOT_CBF_CTX], sliceType, qp, (uint8_t*)INIT_QT_ROOT_CBF, NUM_QT_ROOT_CBF_CTX); uint8_t 1328 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_SIG_CG_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_SIG_CG_FLAG, 2 * NUM_SIG_CG_FLAG_CTX); uint8_t 1329 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_SIG_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_SIG_FLAG, NUM_SIG_FLAG_CTX); uint8_t 1330 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_CTX_LAST_FLAG_X], sliceType, qp, (uint8_t*)INIT_LAST, NUM_CTX_LAST_FLAG_XY); uint8_t 1331 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_CTX_LAST_FLAG_Y], sliceType, qp, (uint8_t*)INIT_LAST, NUM_CTX_LAST_FLAG_XY); uint8_t 1332 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_ONE_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_ONE_FLAG, NUM_ONE_FLAG_CTX); uint8_t 1333 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_ABS_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_ABS_FLAG, NUM_ABS_FLAG_CTX); uint8_t 1334 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_MVP_IDX_CTX], sliceType, qp, (uint8_t*)INIT_MVP_IDX, NUM_MVP_IDX_CTX); uint8_t 1335 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_SAO_MERGE_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_SAO_MERGE_FLAG, NUM_SAO_MERGE_FLAG_CTX); uint8_t 1336 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_SAO_TYPE_IDX_CTX], sliceType, qp, (uint8_t*)INIT_SAO_TYPE_IDX, NUM_SAO_TYPE_IDX_CTX); uint8_t 1337 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_TRANSFORMSKIP_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_TRANSFORMSKIP_FLAG, 2 * NUM_TRANSFORMSKIP_FLAG_CTX); uint8_t 1338 source/encoder/entropy.cpp initBuffer(&m_contextState[OFF_TQUANT_BYPASS_FLAG_CTX], sliceType, qp, (uint8_t*)INIT_CU_TRANSQUANT_BYPASS_FLAG, NUM_TQUANT_BYPASS_FLAG_CTX); uint8_t 1418 source/encoder/entropy.cpp void Entropy::writeUnaryMaxSymbol(uint32_t symbol, uint8_t* scmModel, int offset, uint32_t maxSymbol) uint8_t 1505 source/encoder/entropy.cpp memcpy(m_contextState, src.m_contextState, MAX_OFF_CTX_MOD * sizeof(uint8_t)); uint8_t 1833 source/encoder/entropy.cpp uint8_t coeffNum[MLS_GRP_NUM]; // value range[0, 16] uint8_t 1854 source/encoder/entropy.cpp const uint8_t subSet = (uint8_t)codingParameters.scanCG[idx]; uint8_t 1855 source/encoder/entropy.cpp const uint8_t nonZero = (coeffNum[idx] != 0); uint8_t 1877 source/encoder/entropy.cpp uint8_t *ctx = &m_contextState[OFF_CTX_LAST_FLAG_X]; uint8_t 1899 source/encoder/entropy.cpp uint8_t * const baseCoeffGroupCtx = &m_contextState[OFF_SIG_CG_FLAG_CTX + (bIsLuma ? 0 : NUM_SIG_CG_FLAG_CTX)]; uint8_t 1900 source/encoder/entropy.cpp uint8_t * const baseCtx = bIsLuma ? &m_contextState[OFF_SIG_FLAG_CTX] : &m_contextState[OFF_SIG_FLAG_CTX + NUM_SIG_FLAG_CTX_LUMA]; uint8_t 1950 source/encoder/entropy.cpp static const uint8_t table_cnt[5][SCAN_SET_SIZE] = uint8_t 2030 source/encoder/entropy.cpp const uint8_t *tabSigCtx = table_cnt[(uint32_t)patternSigCtx]; uint8_t 2057 source/encoder/entropy.cpp const uint8_t *tabSigCtx = table_cnt[(log2TrSize == 2) ? 4 : (uint32_t)patternSigCtx]; uint8_t 2080 source/encoder/entropy.cpp const uint8_t ctxSet = (((subSet > 0) + bIsLuma) & 2) + !(c1 & 3); uint8_t 2084 source/encoder/entropy.cpp uint8_t *baseCtxMod = &m_contextState[(bIsLuma ? 0 : NUM_ONE_FLAG_CTX_LUMA) + OFF_ONE_FLAG_CTX + 4 * ctxSet]; uint8_t 2223 source/encoder/entropy.cpp const uint8_t *ctx = &m_contextState[OFF_QT_CBF_CTX]; uint8_t 2282 source/encoder/entropy.cpp const uint8_t *ctxState = &m_contextState[OFF_CTX_LAST_FLAG_X + ctxIdx]; uint8_t 2300 source/encoder/entropy.cpp const uint8_t *ctxState = &m_contextState[OFF_CTX_LAST_FLAG_X + ctxIdx]; uint8_t 2324 source/encoder/entropy.cpp const uint8_t *ctxState = &m_contextState[OFF_CTX_LAST_FLAG_X + ctxIdx]; uint8_t 2343 source/encoder/entropy.cpp const uint8_t *ctxOne = &m_contextState[OFF_ONE_FLAG_CTX]; uint8_t 2344 source/encoder/entropy.cpp const uint8_t *ctxAbs = &m_contextState[OFF_ABS_FLAG_CTX]; uint8_t 2360 source/encoder/entropy.cpp const uint8_t *ctxOne = &m_contextState[OFF_ONE_FLAG_CTX + NUM_ONE_FLAG_CTX_LUMA]; uint8_t 2361 source/encoder/entropy.cpp const uint8_t *ctxAbs = &m_contextState[OFF_ABS_FLAG_CTX + NUM_ABS_FLAG_CTX_LUMA]; uint8_t 2444 source/encoder/entropy.cpp void Entropy::encodeBin(uint32_t binValue, uint8_t &ctxModel) uint8_t 2458 source/encoder/entropy.cpp uint32_t lps = g_lpsTable[state][((uint8_t)range >> 6)]; uint8_t 2597 source/encoder/entropy.cpp m_bufferedByte = (uint8_t)leadByte; uint8_t 2614 source/encoder/entropy.cpp const uint8_t g_nextState[128][2] = uint8_t 104 source/encoder/entropy.h uint8_t m_contextState[160]; // MAX_OFF_CTX_MOD + padding uint8_t 215 source/encoder/entropy.h void encodeBin(uint32_t binValue, uint8_t& ctxModel); uint8_t 233 source/encoder/entropy.h void writeUnaryMaxSymbol(uint32_t symbol, uint8_t* scmModel, int offset, uint32_t maxSymbol); uint8_t 475 source/encoder/frameencoder.cpp m_top->m_prevTonemapPayload.payload = (uint8_t*)x265_malloc(sizeof(uint8_t) * payload->payloadSize); uint8_t 65 source/encoder/motion.cpp const uint8_t mod6m1[8] = { 5, 0, 1, 2, 3, 4, 5, 0 }; /* (x-1)%6 */ uint8_t 987 source/encoder/motion.cpp static const uint8_t range_mul[4][4] = uint8_t 57 source/encoder/nal.cpp other.m_buffer = X265_MALLOC(uint8_t, m_allocSize); uint8_t 65 source/encoder/nal.cpp const uint8_t* bpayload = bs.getFIFO(); uint8_t 72 source/encoder/nal.cpp uint8_t *temp = X265_MALLOC(uint8_t, nextSize); uint8_t 92 source/encoder/nal.cpp uint8_t *out = m_buffer + m_occupancy; uint8_t 116 source/encoder/nal.cpp out[bytes++] = (uint8_t)nalUnitType << 1; uint8_t 158 source/encoder/nal.cpp out[0] = (uint8_t)(dataSize >> 24); uint8_t 159 source/encoder/nal.cpp out[1] = (uint8_t)(dataSize >> 16); uint8_t 160 source/encoder/nal.cpp out[2] = (uint8_t)(dataSize >> 8); uint8_t 161 source/encoder/nal.cpp out[3] = (uint8_t)dataSize; uint8_t 186 source/encoder/nal.cpp uint8_t *temp = X265_MALLOC(uint8_t, estSize); uint8_t 201 source/encoder/nal.cpp uint8_t *out = m_extraBuffer; uint8_t 206 source/encoder/nal.cpp const uint8_t *inBytes = stream.getFIFO(); uint8_t 45 source/encoder/nal.h uint8_t* m_buffer; uint8_t 49 source/encoder/nal.h uint8_t* m_extraBuffer; uint8_t 72 source/encoder/ratecontrol.cpp static uint8_t lut[16] = {4, 0, 1, 0, 2, 0, 1, 0, 3, 0, 1, 0, 2, 0, 1, 0}; uint8_t 84 source/encoder/ratecontrol.cpp static uint8_t lut[16] = {4, 3, 2, 2, 1, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0}; uint8_t 1537 source/encoder/ratecontrol.cpp uint8_t sliceTypeActual = (uint8_t)m_rce2Pass[index].sliceType; uint8_t 1547 source/encoder/ratecontrol.cpp uint8_t type; uint8_t 2818 source/encoder/ratecontrol.cpp uint8_t sliceType = (uint8_t)rce->sliceType; uint8_t 150 source/encoder/search.cpp CHECKED_MALLOC(m_qtTempCbf[0], uint8_t, numPartitions * 3); uint8_t 153 source/encoder/search.cpp CHECKED_MALLOC(m_qtTempTransformSkipFlag[0], uint8_t, numPartitions * 3); uint8_t 159 source/encoder/search.cpp CHECKED_MALLOC(m_qtTempCbf[0], uint8_t, numPartitions); uint8_t 161 source/encoder/search.cpp CHECKED_MALLOC(m_qtTempTransformSkipFlag[0], uint8_t, numPartitions); uint8_t 777 source/encoder/search.cpp inline void offsetCBFs(uint8_t subTUCBF[2]) uint8_t 779 source/encoder/search.cpp uint8_t combinedCBF = subTUCBF[0] | subTUCBF[1]; uint8_t 798 source/encoder/search.cpp uint8_t subTUCBF[2]; uint8_t 1421 source/encoder/search.cpp cu.setLumaIntraDirSubParts((uint8_t)bmode, absPartIdx, depth + initTuDepth); uint8_t 1508 source/encoder/search.cpp if (intraMode.cu.m_lumaIntraDir[puIdx] != (uint8_t)ALL_IDX) uint8_t 1757 source/encoder/search.cpp if (intraMode.cu.m_chromaIntraDir[0] != (uint8_t)ALL_IDX && !initTuDepth) uint8_t 1812 source/encoder/search.cpp memcpy(m_qtTempCbf[1], cu.m_cbf[1] + absPartIdxC, tuIterator.absPartIdxStep * sizeof(uint8_t)); uint8_t 1813 source/encoder/search.cpp memcpy(m_qtTempCbf[2], cu.m_cbf[2] + absPartIdxC, tuIterator.absPartIdxStep * sizeof(uint8_t)); uint8_t 1814 source/encoder/search.cpp memcpy(m_qtTempTransformSkipFlag[1], cu.m_transformSkip[1] + absPartIdxC, tuIterator.absPartIdxStep * sizeof(uint8_t)); uint8_t 1815 source/encoder/search.cpp memcpy(m_qtTempTransformSkipFlag[2], cu.m_transformSkip[2] + absPartIdxC, tuIterator.absPartIdxStep * sizeof(uint8_t)); uint8_t 1836 source/encoder/search.cpp memcpy(cu.m_cbf[1] + absPartIdxC, m_qtTempCbf[1], tuIterator.absPartIdxStep * sizeof(uint8_t)); uint8_t 1837 source/encoder/search.cpp memcpy(cu.m_cbf[2] + absPartIdxC, m_qtTempCbf[2], tuIterator.absPartIdxStep * sizeof(uint8_t)); uint8_t 1838 source/encoder/search.cpp memcpy(cu.m_transformSkip[1] + absPartIdxC, m_qtTempTransformSkipFlag[1], tuIterator.absPartIdxStep * sizeof(uint8_t)); uint8_t 1839 source/encoder/search.cpp memcpy(cu.m_transformSkip[2] + absPartIdxC, m_qtTempTransformSkipFlag[2], tuIterator.absPartIdxStep * sizeof(uint8_t)); uint8_t 1871 source/encoder/search.cpp uint8_t candDir[MRG_MAX_NUM_CANDS]; uint8_t 3102 source/encoder/search.cpp uint8_t cbfFlag[MAX_NUM_COMPONENT][2 /*0 = top (or whole TU for non-4:2:2) sub-TU, 1 = bottom sub-TU*/] = { { 0, 0 }, {0, 0}, {0, 0} }; uint8_t 267 source/encoder/search.h uint8_t* m_qtTempCbf[3]; uint8_t 268 source/encoder/search.h uint8_t* m_qtTempTransformSkipFlag[3]; uint8_t 393 source/encoder/search.h uint8_t cbfFlag[NUM_SUBPART][MAX_NUM_COMPONENT][2]; uint8_t 32 source/encoder/sei.cpp const uint8_t SEIuserDataUnregistered::m_uuid_iso_iec_11578[16] = { uint8_t 58 source/encoder/sei.h static const uint8_t m_uuid_iso_iec_11578[16]; uint8_t 59 source/encoder/sei.h uint8_t *m_userData; uint8_t 136 source/encoder/sei.h uint8_t m_digest[3][16]; uint8_t 279 source/encoder/sei.h uint8_t *m_payload; uint8_t 399 source/encoder/slicetype.cpp fenc.intraMode[cuXY] = (uint8_t)ilowmode; uint8_t 1510 source/test/pixelharness.cpp uint8_t ref_coeffNum[MLS_GRP_NUM], opt_coeffNum[MLS_GRP_NUM]; // value range[0, 16] uint8_t 1630 source/test/pixelharness.cpp if ((uint8_t)ref_scanPos != (uint8_t)opt_scanPos) uint8_t 1679 source/test/pixelharness.cpp uint8_t m_contextState_ref[OFF_SIG_FLAG_CTX + NUM_SIG_FLAG_CTX_LUMA]; uint8_t 1680 source/test/pixelharness.cpp uint8_t m_contextState_opt[OFF_SIG_FLAG_CTX + NUM_SIG_FLAG_CTX_LUMA]; uint8_t 1686 source/test/pixelharness.cpp uint8_t *const ref_baseCtx = m_contextState_ref; uint8_t 1687 source/test/pixelharness.cpp uint8_t *const opt_baseCtx = m_contextState_opt; uint8_t 1704 source/test/pixelharness.cpp ALIGN_VAR_32(static const uint8_t, table_cnt[5][SCAN_SET_SIZE]) = uint8_t 1742 source/test/pixelharness.cpp const uint8_t *rand_tabSigCtx = table_cnt[(rand_scan_size == 2) ? 4 : (uint32_t)rand_patternSigCtx]; uint8_t 1768 source/test/pixelharness.cpp uint32_t ref_sum = ref(scanTblCG4x4, &ref_src[blkPosBase + i], (intptr_t)trSize, ref_absCoeff + numNonZero, rand_tabSigCtx, scanFlagMask, (uint8_t*)ref_baseCtx, offset, rand_scanPosSigOff, subPosBase); uint8_t 1769 source/test/pixelharness.cpp uint32_t opt_sum = (uint32_t)checked(opt, scanTblCG4x4, &ref_src[blkPosBase + i], (intptr_t)trSize, opt_absCoeff + numNonZero, rand_tabSigCtx, scanFlagMask, (uint8_t*)opt_baseCtx, offset, rand_scanPosSigOff, subPosBase); uint8_t 1828 source/test/pixelharness.cpp uint8_t ref_baseCtx[8]; uint8_t 1829 source/test/pixelharness.cpp uint8_t opt_baseCtx[8]; uint8_t 3253 source/test/pixelharness.cpp REPORT_SPEEDUP(opt.scanPosLast, ref.scanPosLast, g_scanOrder[SCAN_DIAG][NUM_SCAN_SIZE - 1], coefBuf, (uint16_t*)sbuf1, (uint16_t*)sbuf2, (uint8_t*)psbuf1, 32, g_scan4x4[SCAN_DIAG], 32); uint8_t 3275 source/test/pixelharness.cpp ALIGN_VAR_32(static uint8_t const, ctxSig[]) = uint8_t 3282 source/test/pixelharness.cpp uint8_t ctx[OFF_SIG_FLAG_CTX + NUM_SIG_FLAG_CTX_LUMA]; uint8_t 3304 source/test/pixelharness.cpp REPORT_SPEEDUP(opt.costC1C2Flag, ref.costC1C2Flag, abscoefBuf, C1FLAG_NUMBER, (uint8_t*)psbuf1, 1); uint8_t 68 source/test/pixelharness.h uint8_t uchar_test_buff[TEST_CASES][BUFFSIZE]; uint8_t 379 source/x265-extras.cpp uint8_t* dst = (uint8_t *)src; uint8_t 386 source/x265-extras.cpp dst[x] = (uint8_t)tmpDst; uint8_t 88 source/x265.h uint8_t* payload; uint8_t 246 source/x265.h uint8_t* payload;