uint64_t 28 source/common/arm/pixel-util.h uint64_t x265_pixel_var_8x8_neon(const pixel* pix, intptr_t stride); uint64_t 29 source/common/arm/pixel-util.h uint64_t x265_pixel_var_16x16_neon(const pixel* pix, intptr_t stride); uint64_t 30 source/common/arm/pixel-util.h uint64_t x265_pixel_var_32x32_neon(const pixel* pix, intptr_t stride); uint64_t 31 source/common/arm/pixel-util.h uint64_t x265_pixel_var_64x64_neon(const pixel* pix, intptr_t stride); uint64_t 129 source/common/common.h typedef uint64_t sum2_t; uint64_t 130 source/common/common.h typedef uint64_t pixel4; uint64_t 143 source/common/common.h typedef uint64_t sse_t; uint64_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]; } uint64_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; } uint64_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]; uint64_t 46 source/common/cudata.cpp ((uint64_t*)dst)[2] = ((uint64_t*)src)[2]; ((uint64_t*)dst)[3] = ((uint64_t*)src)[3]; uint64_t 47 source/common/cudata.cpp ((uint64_t*)dst)[4] = ((uint64_t*)src)[4]; ((uint64_t*)dst)[5] = ((uint64_t*)src)[5]; uint64_t 48 source/common/cudata.cpp ((uint64_t*)dst)[6] = ((uint64_t*)src)[6]; ((uint64_t*)dst)[7] = ((uint64_t*)src)[7]; } uint64_t 49 source/common/cudata.cpp static void bcast64(uint8_t* dst, uint8_t val) { uint64_t bval = 0x0101010101010101ULL * val; uint64_t 50 source/common/cudata.cpp ((uint64_t*)dst)[0] = bval; ((uint64_t*)dst)[1] = bval; ((uint64_t*)dst)[2] = bval; ((uint64_t*)dst)[3] = bval; uint64_t 51 source/common/cudata.cpp ((uint64_t*)dst)[4] = bval; ((uint64_t*)dst)[5] = bval; ((uint64_t*)dst)[6] = bval; ((uint64_t*)dst)[7] = bval; } uint64_t 223 source/common/cudata.h uint64_t m_fAc_den[3]; uint64_t 224 source/common/cudata.h uint64_t m_fDc_den[3]; uint64_t 67 source/common/framedata.h uint64_t cntIntraNxN; uint64_t 68 source/common/framedata.h uint64_t totalCu; uint64_t 69 source/common/framedata.h uint64_t totalCtu; uint64_t 70 source/common/framedata.h uint64_t lumaDistortion; uint64_t 71 source/common/framedata.h uint64_t chromaDistortion; uint64_t 72 source/common/framedata.h uint64_t psyEnergy; uint64_t 74 source/common/framedata.h uint64_t resEnergy; uint64_t 75 source/common/framedata.h uint64_t cntSkipCu[NUM_CU_DEPTH]; uint64_t 76 source/common/framedata.h uint64_t cntMergeCu[NUM_CU_DEPTH]; uint64_t 77 source/common/framedata.h uint64_t cntInter[NUM_CU_DEPTH]; uint64_t 78 source/common/framedata.h uint64_t cntIntra[NUM_CU_DEPTH]; uint64_t 79 source/common/framedata.h uint64_t cuInterDistribution[NUM_CU_DEPTH][INTER_MODES]; uint64_t 80 source/common/framedata.h uint64_t cuIntraDistribution[NUM_CU_DEPTH][INTRA_MODES]; uint64_t 83 source/common/framedata.h uint64_t totalPu[NUM_CU_DEPTH + 1]; uint64_t 84 source/common/framedata.h uint64_t cntSkipPu[NUM_CU_DEPTH]; uint64_t 85 source/common/framedata.h uint64_t cntIntraPu[NUM_CU_DEPTH]; uint64_t 86 source/common/framedata.h uint64_t cntAmp[NUM_CU_DEPTH]; uint64_t 87 source/common/framedata.h uint64_t cnt4x4; uint64_t 88 source/common/framedata.h uint64_t cntInterPu[NUM_CU_DEPTH][INTER_MODES - 1]; uint64_t 89 source/common/framedata.h uint64_t cntMergePu[NUM_CU_DEPTH][INTER_MODES - 1]; uint64_t 130 source/common/framedata.h uint64_t avgCost[4]; /* stores the avg cost of CU's in frame for each depth */ uint64_t 153 source/common/lowres.h uint64_t wp_ssd[3]; // This is different than SSDY, this is sum(pixel^2) - sum(pixel)^2 for entire frame uint64_t 154 source/common/lowres.h uint64_t wp_sum[3]; uint64_t 155 source/common/lowres.h uint64_t frameVariance; uint64_t 234 source/common/picyuv.cpp uint64_t lumaSum; uint64_t 235 source/common/picyuv.cpp uint64_t cbSum; uint64_t 236 source/common/picyuv.cpp uint64_t crSum; uint64_t 390 source/common/picyuv.cpp uint64_t sumLuma; uint64_t 695 source/common/pixel.cpp uint64_t pixel_var(const pixel* pix, intptr_t i_stride) uint64_t 710 source/common/pixel.cpp return sum + ((uint64_t)sqr << 32); uint64_t 938 source/common/pixel.cpp static pixel planeClipAndMax_c(pixel *src, intptr_t stride, int width, int height, uint64_t *outsum, uint64_t 942 source/common/pixel.cpp uint64_t sumLuma = 0; uint64_t 164 source/common/primitives.h typedef uint64_t (*var_t)(const pixel* pix, intptr_t stride); uint64_t 200 source/common/primitives.h typedef pixel (*planeClipAndMax_t)(pixel *src, intptr_t stride, int width, int height, uint64_t *outsum, const pixel minPix, const pixel maxPix); uint64_t 482 source/common/quant.cpp uint64_t Quant::ssimDistortion(const CUData& cu, const pixel* fenc, uint32_t fStride, const pixel* recon, intptr_t rstride, uint32_t log2TrSize, TextType ttype, uint32_t absPartIdx) uint64_t 489 source/common/quant.cpp uint64_t ssDc = 0, ssBlock = 0, ssAc = 0; uint64_t 517 source/common/quant.cpp uint64_t fDc_num = 0; uint64_t 520 source/common/quant.cpp uint64_t dc_k = 0; uint64_t 535 source/common/quant.cpp uint64_t fAc_num = 0; uint64_t 538 source/common/quant.cpp uint64_t ac_k = 0; uint64_t 551 source/common/quant.cpp fAc_num = ac_k + uint64_t(s * ac_k) + ssim_c2; uint64_t 555 source/common/quant.cpp uint64_t ssim_distortion = ((ssDc * cu.m_fDc_den[ttype]) / fDc_num) + ((ssAc * cu.m_fAc_den[ttype]) / fAc_num); uint64_t 674 source/common/quant.cpp uint64_t sigCoeffGroupFlag64 = 0; uint64_t 823 source/common/quant.cpp const uint64_t cgBlkPosMask = ((uint64_t)1 << cgBlkPos); uint64_t 936 source/common/quant.cpp static const uint64_t table_cnt64[4] = {0x0000000100110112ULL, 0x0000000011112222ULL, 0x0012001200120012ULL, 0x2222222222222222ULL}; uint64_t 937 source/common/quant.cpp uint64_t ctxCnt = (trSize == 4) ? 0x8877886654325410ULL : table_cnt64[patternSigCtx]; uint64_t 114 source/common/quant.h uint64_t ssimDistortion(const CUData& cu, const pixel* fenc, uint32_t fStride, const pixel* recon, intptr_t rstride, uint64_t 118 source/common/quant.h static uint32_t calcPatternSigCtx(uint64_t sigCoeffGroupFlag64, uint32_t cgPosX, uint32_t cgPosY, uint32_t cgBlkPos, uint32_t trSizeCG) uint64_t 137 source/common/quant.h static uint32_t getSigCoeffGroupCtxInc(uint64_t cgGroupMask, uint32_t cgPosX, uint32_t cgPosY, uint32_t cgBlkPos, uint32_t trSizeCG) uint64_t 75 source/common/threadpool.cpp const uint64_t m1 = 0x5555555555555555; //binary: 0101... uint64_t 76 source/common/threadpool.cpp const uint64_t m2 = 0x3333333333333333; //binary: 00110011.. uint64_t 77 source/common/threadpool.cpp const uint64_t m3 = 0x0f0f0f0f0f0f0f0f; //binary: 4 zeros, 4 ones ... uint64_t 78 source/common/threadpool.cpp const uint64_t h01 = 0x0101010101010101; //the sum of 256 to the power of 0,1,2,3... uint64_t 80 source/common/threadpool.cpp static int popCount(uint64_t x) uint64_t 255 source/common/threadpool.cpp uint64_t nodeMaskPerPool[MAX_NODE_NUM + 2]; uint64_t 337 source/common/threadpool.cpp nodeMaskPerPool[numNumaNodes] |= ((uint64_t)1 << j); uint64_t 344 source/common/threadpool.cpp nodeMaskPerPool[numNumaNodes] |= ((uint64_t)1 << i); uint64_t 352 source/common/threadpool.cpp nodeMaskPerPool[i] = ((uint64_t)1 << i); uint64_t 357 source/common/threadpool.cpp nodeMaskPerPool[numNumaNodes] = ((uint64_t)-1 >> (64 - numNumaNodes)); uint64_t 373 source/common/threadpool.cpp nodeMaskPerPool[numNumaNodes] |= ((uint64_t)1 << i); uint64_t 474 source/common/threadpool.cpp bool ThreadPool::create(int numThreads, int maxProviders, uint64_t nodeMask) uint64_t 38 source/common/threadpool.h typedef uint64_t sleepbitmap_t; uint64_t 98 source/common/threadpool.h bool create(int numThreads, int maxProviders, uint64_t nodeMask); uint64_t 39 source/common/x86/pixel.h pixel PFX(planeClipAndMax_avx2)(pixel *src, intptr_t stride, int width, int height, uint64_t *outsum, const pixel minPix, const pixel maxPix); uint64_t 55 source/common/x86/pixel.h FUNCDEF_TU(uint64_t, pixel_var, cpu, const pixel*, intptr_t); \ uint64_t 90 source/encoder/analysis.cpp cacheCost = X265_MALLOC(uint64_t, costArrSize); uint64_t 312 source/encoder/analysis.cpp ctu.m_encData->m_frameStats.cntSkipPu[depth] += (uint64_t)(1 << shift); uint64_t 313 source/encoder/analysis.cpp ctu.m_encData->m_frameStats.totalPu[depth] += (uint64_t)(1 << shift); uint64_t 324 source/encoder/analysis.cpp ctu.m_encData->m_frameStats.cntIntraPu[depth] += (uint64_t)(1 << shift); uint64_t 325 source/encoder/analysis.cpp ctu.m_encData->m_frameStats.totalPu[depth] += (uint64_t)(1 << shift); uint64_t 330 source/encoder/analysis.cpp ctu.m_encData->m_frameStats.cntAmp[depth] += (uint64_t)(1 << shift); uint64_t 331 source/encoder/analysis.cpp ctu.m_encData->m_frameStats.totalPu[depth] += (uint64_t)(1 << shift); uint64_t 440 source/encoder/analysis.cpp uint64_t bestCUCost, origCUCost, cuCost, cuPrevCost; uint64_t 1089 source/encoder/analysis.cpp uint64_t temp = cuStat.avgCost[depth] * cuStat.count[depth]; uint64_t 1360 source/encoder/analysis.cpp uint64_t splitCost = splitData[0].sa8dCost + splitData[1].sa8dCost + splitData[2].sa8dCost + splitData[3].sa8dCost; uint64_t 1410 source/encoder/analysis.cpp uint64_t splitCost = splitData[0].sa8dCost + splitData[1].sa8dCost + splitData[2].sa8dCost + splitData[3].sa8dCost; uint64_t 1706 source/encoder/analysis.cpp uint64_t temp = cuStat.avgCost[depth] * cuStat.count[depth]; uint64_t 1991 source/encoder/analysis.cpp uint64_t splitCost = splitData[0].sa8dCost + splitData[1].sa8dCost + splitData[2].sa8dCost + splitData[3].sa8dCost; uint64_t 2039 source/encoder/analysis.cpp uint64_t splitCost = splitData[0].sa8dCost + splitData[1].sa8dCost + splitData[2].sa8dCost + splitData[3].sa8dCost; uint64_t 3142 source/encoder/analysis.cpp uint64_t cuCost = cuStat.avgCost[depth] * cuStat.count[depth]; uint64_t 3143 source/encoder/analysis.cpp uint64_t cuCount = cuStat.count[depth]; uint64_t 3145 source/encoder/analysis.cpp uint64_t neighCost = 0, neighCount = 0; uint64_t 3180 source/encoder/analysis.cpp uint64_t avgCost = ((3 * cuCost) + (2 * neighCost)) / ((3 * cuCount) + (2 * neighCount)); uint64_t 3181 source/encoder/analysis.cpp uint64_t curCost = m_param->rdLevel > 1 ? bestMode.rdCost : bestMode.sa8dCost; uint64_t 3286 source/encoder/analysis.cpp uint64_t fDc_den = 0, fAc_den = 0; uint64_t 3289 source/encoder/analysis.cpp uint64_t z_o = 0; uint64_t 3302 source/encoder/analysis.cpp uint64_t z_k = 0; uint64_t 48 source/encoder/analysis.h uint64_t sa8dCost; uint64_t 131 source/encoder/analysis.h uint64_t* cacheCost; uint64_t 1307 source/encoder/encoder.cpp void EncStats::addBits(uint64_t bits) uint64_t 1439 source/encoder/encoder.cpp uint64_t batchCount, coopSliceCount; uint64_t 1449 source/encoder/encoder.cpp uint64_t interRDOTotalCount = 0, intraRDOTotalCount = 0; uint64_t 1639 source/encoder/encoder.cpp uint64_t bits = curEncoder->m_accessUnitBits; uint64_t 1650 source/encoder/encoder.cpp uint64_t ssdY, ssdU, ssdV; uint64_t 2878 source/encoder/encoder.cpp static uint64_t consumedBytes = 0; uint64_t 2879 source/encoder/encoder.cpp static uint64_t totalConsumedBytes = 0; uint64_t 2894 source/encoder/encoder.cpp uint64_t currentOffset = totalConsumedBytes; uint64_t 52 source/encoder/encoder.h uint64_t m_accBits; uint64_t 70 source/encoder/encoder.h void addBits(uint64_t bits); uint64_t 1842 source/encoder/entropy.cpp uint64_t sigCoeffGroupFlag64 = 0; uint64_t 1856 source/encoder/entropy.cpp sigCoeffGroupFlag64 |= ((nonZero ? (uint64_t)1 : 0) << subSet); uint64_t 1931 source/encoder/entropy.cpp const uint64_t cgBlkPosMask = ((uint64_t)1 << cgBlkPos); uint64_t 2104 source/encoder/entropy.cpp m_fracBits += ((uint64_t)sum << 15); uint64_t 103 source/encoder/entropy.h uint64_t m_pad; uint64_t 112 source/encoder/entropy.h uint64_t m_fracBits; uint64_t 223 source/encoder/entropy.h uint64_t fracBits = (m_fracBits & 32767) + sbacGetEntropyBits(ctxModel, binValue); uint64_t 911 source/encoder/frameencoder.cpp uint64_t cuInterRectCnt = 0; // sum of Nx2N, 2NxN counts uint64_t 1029 source/encoder/frameencoder.cpp uint64_t bytes = 0; uint64_t 1899 source/encoder/frameencoder.cpp uint64_t scaledCount = (uint64_t)nrStrength * m_nr->nrCount[cat]; uint64_t 1903 source/encoder/frameencoder.cpp uint64_t value = scaledCount + m_nr->nrResidualSum[cat][i] / 2; uint64_t 1904 source/encoder/frameencoder.cpp uint64_t denom = m_nr->nrResidualSum[cat][i] + 1; uint64_t 55 source/encoder/frameencoder.h uint64_t cntInter[4]; uint64_t 56 source/encoder/frameencoder.h uint64_t cntIntra[4]; uint64_t 57 source/encoder/frameencoder.h uint64_t cuInterDistribution[4][INTER_MODES]; uint64_t 58 source/encoder/frameencoder.h uint64_t cuIntraDistribution[4][INTRA_MODES]; uint64_t 59 source/encoder/frameencoder.h uint64_t cntIntraNxN; uint64_t 60 source/encoder/frameencoder.h uint64_t cntSkipCu[4]; uint64_t 61 source/encoder/frameencoder.h uint64_t cntTotalCu[4]; uint64_t 62 source/encoder/frameencoder.h uint64_t totalCu; uint64_t 155 source/encoder/frameencoder.h uint64_t m_SSDY; uint64_t 156 source/encoder/frameencoder.h uint64_t m_SSDU; uint64_t 157 source/encoder/frameencoder.h uint64_t m_SSDV; uint64_t 159 source/encoder/frameencoder.h uint64_t m_accessUnitBits; uint64_t 35 source/encoder/framefilter.cpp static uint64_t computeSSD(pixel *fenc, pixel *rec, intptr_t stride, uint32_t width, uint32_t height); uint64_t 679 source/encoder/framefilter.cpp uint64_t ssdY = computeSSD(fencPic->getLumaAddr(cuAddr), reconPic->getLumaAddr(cuAddr), stride, width, height); uint64_t 688 source/encoder/framefilter.cpp uint64_t ssdU = computeSSD(fencPic->getCbAddr(cuAddr), reconPic->getCbAddr(cuAddr), stride, width, height); uint64_t 689 source/encoder/framefilter.cpp uint64_t ssdV = computeSSD(fencPic->getCrAddr(cuAddr), reconPic->getCrAddr(cuAddr), stride, width, height); uint64_t 901 source/encoder/framefilter.cpp static uint64_t computeSSD(pixel *fenc, pixel *rec, intptr_t stride, uint32_t width, uint32_t height) uint64_t 903 source/encoder/framefilter.cpp uint64_t ssd = 0; uint64_t 768 source/encoder/ratecontrol.cpp bool RateControl::analyseABR2Pass(uint64_t allAvailableBits) uint64_t 951 source/encoder/ratecontrol.cpp uint64_t allConstBits = 0, allCodedBits = 0; uint64_t 952 source/encoder/ratecontrol.cpp uint64_t allAvailableBits = uint64_t(m_param->rc.bitrate * 1000. * m_numEntries * m_frameDuration); uint64_t 1011 source/encoder/ratecontrol.cpp if (!vbv2Pass((uint64_t)targetBits, endIndex + fps, endIndex + 1)) uint64_t 1040 source/encoder/ratecontrol.cpp if (!vbv2Pass((uint64_t)targetBits, endIndex, endIndex - fps + 1)) uint64_t 1076 source/encoder/ratecontrol.cpp bool RateControl::vbv2Pass(uint64_t allAvailableBits, int endPos, int startPos) uint64_t 1482 source/encoder/ratecontrol.cpp rce->expectedBits = (uint64_t)expectedBits; uint64_t 1795 source/encoder/ratecontrol.cpp uint64_t finalBits = m_rce2Pass[m_numEntries - 1].expectedBits; uint64_t 2337 source/encoder/ratecontrol.cpp uint64_t rowSatdCost = curEncData.m_rowStat[row].rowSatd; uint64_t 2352 source/encoder/ratecontrol.cpp uint64_t intraRowSatdCost = curEncData.m_rowStat[row].rowIntraSatd; uint64_t 98 source/encoder/ratecontrol.h uint64_t expectedBits; /* total expected bits up to the current frame (current one excluded) */ uint64_t 280 source/encoder/ratecontrol.h bool analyseABR2Pass(uint64_t allAvailableBits); uint64_t 284 source/encoder/ratecontrol.h bool vbv2Pass(uint64_t allAvailableBits, int frameCount, int startPos); uint64_t 39 source/encoder/rdcost.h uint64_t m_lambda2; uint64_t 40 source/encoder/rdcost.h uint64_t m_lambda; uint64_t 95 source/encoder/rdcost.h m_lambda2 = (uint64_t)floor(256.0 * lambda2); uint64_t 96 source/encoder/rdcost.h m_lambda = (uint64_t)floor(256.0 * lambda); uint64_t 99 source/encoder/rdcost.h inline uint64_t calcRdCost(sse_t distortion, uint32_t bits) const uint64_t 120 source/encoder/rdcost.h inline uint64_t calcPsyRdCost(sse_t distortion, uint32_t bits, uint32_t psycost) const uint64_t 134 source/encoder/rdcost.h inline uint64_t calcSsimRdCost(uint64_t distortion, uint32_t bits, uint32_t ssimCost) const uint64_t 148 source/encoder/rdcost.h inline uint64_t calcRdSADCost(uint32_t sadCost, uint32_t bits) const uint64_t 166 source/encoder/rdcost.h return (sse_t)((dist * (uint64_t)m_chromaDistWeight[plane - 1] + 128) >> 8); uint64_t 557 source/encoder/search.cpp uint64_t tmpCost; uint64_t 982 source/encoder/search.cpp uint64_t bCost = MAX_INT64; uint64_t 1028 source/encoder/search.cpp uint64_t tmpCost; uint64_t 1291 source/encoder/search.cpp uint64_t cost, bcost; uint64_t 1328 source/encoder/search.cpp uint64_t mpms; uint64_t 1336 source/encoder/search.cpp bbits = (mpms & ((uint64_t)1 << mode)) ? m_entropyCoder.bitsIntraModeMPM(mpmModes, mode) : rbits; uint64_t 1347 source/encoder/search.cpp bits = (mpms & ((uint64_t)1 << mode)) ? m_entropyCoder.bitsIntraModeMPM(mpmModes, mode) : rbits; uint64_t 1366 source/encoder/search.cpp bits = (mpms & ((uint64_t)1 << angle)) ? m_entropyCoder.bitsIntraModeMPM(mpmModes, angle) : rbits; \ uint64_t 1372 source/encoder/search.cpp bits = (mpms & ((uint64_t)1 << angle)) ? m_entropyCoder.bitsIntraModeMPM(mpmModes, angle) : rbits; \ uint64_t 1380 source/encoder/search.cpp uint64_t acost = MAX_INT64; uint64_t 1512 source/encoder/search.cpp uint64_t candCostList[MAX_RD_INTRA_MODES]; uint64_t 1514 source/encoder/search.cpp uint64_t bcost; uint64_t 1539 source/encoder/search.cpp uint64_t mpms; uint64_t 1544 source/encoder/search.cpp uint64_t modeCosts[35]; uint64_t 1548 source/encoder/search.cpp uint32_t bits = (mpms & ((uint64_t)1 << DC_IDX)) ? m_entropyCoder.bitsIntraModeMPM(mpmModes, DC_IDX) : rbits; uint64_t 1558 source/encoder/search.cpp bits = (mpms & ((uint64_t)1 << PLANAR_IDX)) ? m_entropyCoder.bitsIntraModeMPM(mpmModes, PLANAR_IDX) : rbits; uint64_t 1570 source/encoder/search.cpp bits = (mpms & ((uint64_t)1 << mode)) ? m_entropyCoder.bitsIntraModeMPM(mpmModes, mode) : rbits; uint64_t 1583 source/encoder/search.cpp bits = (mpms & ((uint64_t)1 << mode)) ? m_entropyCoder.bitsIntraModeMPM(mpmModes, mode) : rbits; uint64_t 1599 source/encoder/search.cpp uint64_t paddedBcost = bcost + (bcost >> 2); // 1.25% uint64_t 1680 source/encoder/search.cpp uint64_t bestCost = MAX_INT64; uint64_t 1708 source/encoder/search.cpp uint64_t cost = 0; uint64_t 1750 source/encoder/search.cpp uint64_t bestCost = MAX_INT64; uint64_t 1803 source/encoder/search.cpp uint64_t cost = m_rdCost.m_psyRd ? m_rdCost.calcPsyRdCost(outCost.distortion, bits, outCost.energy) : m_rdCost.m_ssimRd ? m_rdCost.calcSsimRdCost(outCost.distortion, bits, outCost.energy) uint64_t 2747 source/encoder/search.cpp uint32_t cbf0Energy; uint64_t cbf0Cost; uint64_t 2976 source/encoder/search.cpp uint64_t Search::estimateNullCbfCost(sse_t dist, uint32_t energy, uint32_t tuDepth, TextType compId) uint64_t 3108 source/encoder/search.cpp uint64_t minCost[MAX_NUM_COMPONENT][2 /*0 = top (or whole TU for non-4:2:2) sub-TU, 1 = bottom sub-TU*/] = { { MAX_INT64, MAX_INT64 }, {MAX_INT64, MAX_INT64}, {MAX_INT64, MAX_INT64} }; uint64_t 3176 source/encoder/search.cpp uint32_t nonZeroEnergyY = 0; uint64_t singleCostY = 0; uint64_t 3200 source/encoder/search.cpp uint64_t nullCostY = estimateNullCbfCost(zeroDistY, zeroEnergyY, tuDepth, TEXT_LUMA); uint64_t 3290 source/encoder/search.cpp uint32_t nonZeroEnergyC = 0; uint64_t singleCostC = 0; uint64_t 3312 source/encoder/search.cpp uint64_t nullCostC = estimateNullCbfCost(zeroDistC, zeroEnergyC, tuDepth, (TextType)chromaId); uint64_t 3370 source/encoder/search.cpp uint64_t singleCostY = MAX_INT64; uint64_t 3431 source/encoder/search.cpp uint64_t singleCostC = MAX_INT64; uint64_t 3790 source/encoder/search.cpp uint32_t Search::getIntraRemModeBits(CUData& cu, uint32_t absPartIdx, uint32_t mpmModes[3], uint64_t& mpms) const uint64_t 3796 source/encoder/search.cpp mpms |= ((uint64_t)1 << mpmModes[i]); uint64_t 3803 source/encoder/search.cpp void Search::updateCandList(uint32_t mode, uint64_t cost, int maxCandCount, uint32_t* candModeList, uint64_t* candCostList) uint64_t 3806 source/encoder/search.cpp uint64_t maxValue = 0; uint64_t 117 source/encoder/search.h uint64_t rdCost; // sum of partition (psy) RD costs (sse(fenc, recon) + lambda2 * bits) uint64_t 118 source/encoder/search.h uint64_t sa8dCost; // sum of partition sa8d distortion costs (sa8d(fenc, pred) + lambda * bits) uint64_t 188 source/encoder/search.h uint64_t countIntraRDO[NUM_CU_DEPTH]; uint64_t 189 source/encoder/search.h uint64_t countInterRDO[NUM_CU_DEPTH]; uint64_t 190 source/encoder/search.h uint64_t countIntraAnalysis; uint64_t 191 source/encoder/search.h uint64_t countMotionEstimate; uint64_t 192 source/encoder/search.h uint64_t countLoopFilter; uint64_t 193 source/encoder/search.h uint64_t countPMETasks; uint64_t 194 source/encoder/search.h uint64_t countPMEMasters; uint64_t 195 source/encoder/search.h uint64_t countPModeTasks; uint64_t 196 source/encoder/search.h uint64_t countPModeMasters; uint64_t 197 source/encoder/search.h uint64_t countWeightAnalyze; uint64_t 198 source/encoder/search.h uint64_t totalCTUs; uint64_t 382 source/encoder/search.h uint64_t rdcost; uint64_t 397 source/encoder/search.h uint64_t estimateNullCbfCost(sse_t dist, uint32_t energy, uint32_t tuDepth, TextType compId); uint64_t 432 source/encoder/search.h static void updateCandList(uint32_t mode, uint64_t cost, int maxCandCount, uint32_t* candModeList, uint64_t* candCostList); uint64_t 435 source/encoder/search.h uint32_t getIntraRemModeBits(CUData & cu, uint32_t absPartIdx, uint32_t mpmModes[3], uint64_t& mpms) const; uint64_t 48 source/encoder/slicetype.cpp inline uint32_t acEnergyVar(Frame *curFrame, uint64_t sum_ssd, int shift, int plane) uint64_t 55 source/encoder/slicetype.cpp return ssd - ((uint64_t)sum * sum >> shift); uint64_t 113 source/encoder/slicetype.cpp uint64_t sum_ssd; uint64_t 198 source/encoder/slicetype.cpp uint64_t rowVariance = 0; uint64_t 305 source/encoder/slicetype.cpp uint64_t sum, ssd; uint64_t 660 source/encoder/slicetype.cpp void Lookahead::getWorkerStats(int64_t& batchElapsedTime, uint64_t& batchCount, int64_t& coopSliceElapsedTime, uint64_t& coopSliceCount) uint64_t 57 source/encoder/slicetype.h uint64_t countBatches; uint64_t 58 source/encoder/slicetype.h uint64_t countCoopSlices; uint64_t 138 source/encoder/slicetype.h uint64_t m_countSlicetypeDecide; uint64_t 139 source/encoder/slicetype.h uint64_t m_countPreLookahead; uint64_t 140 source/encoder/slicetype.h void getWorkerStats(int64_t& batchElapsedTime, uint64_t& batchCount, int64_t& coopSliceElapsedTime, uint64_t& coopSliceCount); uint64_t 273 source/encoder/weightPrediction.cpp uint64_t fencVar = fenc.wp_ssd[plane] + !refLowres.wp_ssd[plane]; uint64_t 274 source/encoder/weightPrediction.cpp uint64_t refVar = refLowres.wp_ssd[plane] + !refLowres.wp_ssd[plane]; uint64_t 145 source/input/y4m.cpp ifs->seekg((uint64_t)estFrameSize * info.skipFrames, ios::cur); uint64_t 135 source/input/yuv.cpp ifs->seekg((uint64_t)framesize * info.skipFrames, ios::cur); uint64_t 61 source/output/y4m.cpp outPicPos += (uint64_t)pic.poc * (6 + frameSize); uint64_t 53 source/output/yuv.cpp uint64_t fileOffset = pic.poc; uint64_t 810 source/test/pixelharness.cpp uint64_t vres = checked(opt, pixel_test_buff[index], stride); uint64_t 811 source/test/pixelharness.cpp uint64_t cres = ref(pixel_test_buff[index], stride); uint64_t 64 source/test/testharness.h uint64_t m_rand; uint64_t 149 source/test/testharness.h void PFX(checkasm_stack_clobber)(uint64_t clobber, ...); uint64_t 84 source/x265.cpp uint64_t totalbytes; uint64_t 164 source/x265.h uint64_t bits; uint64_t 334 source/x265.h uint64_t framesize; uint64_t 513 source/x265.h uint64_t accBits; /* total bits output thus far */