Mercurial > hg > forks > libbpg
view x265/source/common/lowres.h @ 0:772086c29cc7
Initial import.
| author | Matti Hamalainen <ccr@tnsp.org> |
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| date | Wed, 16 Nov 2016 11:16:33 +0200 |
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/***************************************************************************** * Copyright (C) 2013 x265 project * * Authors: Gopu Govindaswamy <gopu@multicorewareinc.com> * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111, USA. * * This program is also available under a commercial proprietary license. * For more information, contact us at license @ x265.com. *****************************************************************************/ #ifndef X265_LOWRES_H #define X265_LOWRES_H #include "primitives.h" #include "common.h" #include "picyuv.h" #include "mv.h" namespace X265_NS { // private namespace struct ReferencePlanes { ReferencePlanes() { memset(this, 0, sizeof(ReferencePlanes)); } pixel* fpelPlane[3]; pixel* lowresPlane[4]; PicYuv* reconPic; bool isWeighted; bool isLowres; intptr_t lumaStride; intptr_t chromaStride; struct { int weight; int offset; int shift; int round; } w[3]; pixel* getLumaAddr(uint32_t ctuAddr, uint32_t absPartIdx) { return fpelPlane[0] + reconPic->m_cuOffsetY[ctuAddr] + reconPic->m_buOffsetY[absPartIdx]; } pixel* getCbAddr(uint32_t ctuAddr, uint32_t absPartIdx) { return fpelPlane[1] + reconPic->m_cuOffsetC[ctuAddr] + reconPic->m_buOffsetC[absPartIdx]; } pixel* getCrAddr(uint32_t ctuAddr, uint32_t absPartIdx) { return fpelPlane[2] + reconPic->m_cuOffsetC[ctuAddr] + reconPic->m_buOffsetC[absPartIdx]; } /* lowres motion compensation, you must provide a buffer and stride for QPEL averaged pixels * in case QPEL is required. Else it returns a pointer to the HPEL pixels */ inline pixel *lowresMC(intptr_t blockOffset, const MV& qmv, pixel *buf, intptr_t& outstride) { if ((qmv.x | qmv.y) & 1) { int hpelA = (qmv.y & 2) | ((qmv.x & 2) >> 1); pixel *frefA = lowresPlane[hpelA] + blockOffset + (qmv.x >> 2) + (qmv.y >> 2) * lumaStride; int qmvx = qmv.x + (qmv.x & 1); int qmvy = qmv.y + (qmv.y & 1); int hpelB = (qmvy & 2) | ((qmvx & 2) >> 1); pixel *frefB = lowresPlane[hpelB] + blockOffset + (qmvx >> 2) + (qmvy >> 2) * lumaStride; primitives.pu[LUMA_8x8].pixelavg_pp(buf, outstride, frefA, lumaStride, frefB, lumaStride, 32); return buf; } else { outstride = lumaStride; int hpel = (qmv.y & 2) | ((qmv.x & 2) >> 1); return lowresPlane[hpel] + blockOffset + (qmv.x >> 2) + (qmv.y >> 2) * lumaStride; } } inline int lowresQPelCost(pixel *fenc, intptr_t blockOffset, const MV& qmv, pixelcmp_t comp) { if ((qmv.x | qmv.y) & 1) { ALIGN_VAR_16(pixel, subpelbuf[8 * 8]); int hpelA = (qmv.y & 2) | ((qmv.x & 2) >> 1); pixel *frefA = lowresPlane[hpelA] + blockOffset + (qmv.x >> 2) + (qmv.y >> 2) * lumaStride; int qmvx = qmv.x + (qmv.x & 1); int qmvy = qmv.y + (qmv.y & 1); int hpelB = (qmvy & 2) | ((qmvx & 2) >> 1); pixel *frefB = lowresPlane[hpelB] + blockOffset + (qmvx >> 2) + (qmvy >> 2) * lumaStride; primitives.pu[LUMA_8x8].pixelavg_pp(subpelbuf, 8, frefA, lumaStride, frefB, lumaStride, 32); return comp(fenc, FENC_STRIDE, subpelbuf, 8); } else { int hpel = (qmv.y & 2) | ((qmv.x & 2) >> 1); pixel *fref = lowresPlane[hpel] + blockOffset + (qmv.x >> 2) + (qmv.y >> 2) * lumaStride; return comp(fenc, FENC_STRIDE, fref, lumaStride); } } }; /* lowres buffers, sizes and strides */ struct Lowres : public ReferencePlanes { pixel *buffer[4]; int frameNum; // Presentation frame number int sliceType; // Slice type decided by lookahead int width; // width of lowres frame in pixels int lines; // height of lowres frame in pixel lines int leadingBframes; // number of leading B frames for P or I bool bScenecut; // Set to false if the frame cannot possibly be part of a real scenecut. bool bKeyframe; bool bLastMiniGopBFrame; /* lookahead output data */ int64_t costEst[X265_BFRAME_MAX + 2][X265_BFRAME_MAX + 2]; int64_t costEstAq[X265_BFRAME_MAX + 2][X265_BFRAME_MAX + 2]; int32_t* rowSatds[X265_BFRAME_MAX + 2][X265_BFRAME_MAX + 2]; int intraMbs[X265_BFRAME_MAX + 2]; int32_t* intraCost; uint8_t* intraMode; int64_t satdCost; uint16_t* lowresCostForRc; uint16_t(*lowresCosts[X265_BFRAME_MAX + 2][X265_BFRAME_MAX + 2]); int32_t* lowresMvCosts[2][X265_BFRAME_MAX + 1]; MV* lowresMvs[2][X265_BFRAME_MAX + 1]; uint32_t maxBlocksInRow; uint32_t maxBlocksInCol; /* used for vbvLookahead */ int plannedType[X265_LOOKAHEAD_MAX + 1]; int64_t plannedSatd[X265_LOOKAHEAD_MAX + 1]; int indB; int bframes; /* rate control / adaptive quant data */ double* qpAqOffset; // AQ QP offset values for each 16x16 CU double* qpCuTreeOffset; // cuTree QP offset values for each 16x16 CU int* invQscaleFactor; // qScale values for qp Aq Offsets uint64_t wp_ssd[3]; // This is different than SSDY, this is sum(pixel^2) - sum(pixel)^2 for entire frame uint64_t wp_sum[3]; /* cutree intermediate data */ uint16_t* propagateCost; double weightedCostDelta[X265_BFRAME_MAX + 2]; bool create(PicYuv *origPic, int _bframes, bool bAqEnabled); void destroy(); void init(PicYuv *origPic, int poc); }; } #endif // ifndef X265_LOWRES_H