📄 encoder.c
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if (*intra) { return; } pEnc->mbParam.fixed_code = (hint->rawhints) ? hint->mvhint.fcode : BitstreamGetBits(&bs, FCODEBITS); length = pEnc->mbParam.fixed_code + 5; high = 1 << (length - 1); for (y=0 ; y<pEnc->mbParam.mb_height ; ++y) { for (x=0 ; x<pEnc->mbParam.mb_width ; ++x) { MACROBLOCK * pMB = &pEnc->pMBs[x + y * pEnc->mbParam.mb_width]; MVBLOCKHINT * bhint = &hint->mvhint.block[x + y * pEnc->mbParam.mb_width]; VECTOR pred[4]; VECTOR tmp; int dummy[4]; int vec; pMB->mode = (hint->rawhints) ? bhint->mode : BitstreamGetBits(&bs, MODEBITS); if (pMB->mode == MODE_INTER || pMB->mode == MODE_INTER_Q) { tmp.x = (hint->rawhints) ? bhint->mvs[0].x : BitstreamGetBits(&bs, length); tmp.y = (hint->rawhints) ? bhint->mvs[0].y : BitstreamGetBits(&bs, length); tmp.x -= (tmp.x >= high) ? high*2 : 0; tmp.y -= (tmp.y >= high) ? high*2 : 0; get_pmvdata(pEnc->pMBs, x, y, pEnc->mbParam.mb_width, 0, pred, dummy); for (vec=0 ; vec<4 ; ++vec) { pMB->mvs[vec].x = tmp.x; pMB->mvs[vec].y = tmp.y; pMB->pmvs[vec].x = pMB->mvs[0].x - pred[0].x; pMB->pmvs[vec].y = pMB->mvs[0].y - pred[0].y; } } else if (pMB->mode == MODE_INTER4V) { for (vec=0 ; vec<4 ; ++vec) { tmp.x = (hint->rawhints) ? bhint->mvs[vec].x : BitstreamGetBits(&bs, length); tmp.y = (hint->rawhints) ? bhint->mvs[vec].y : BitstreamGetBits(&bs, length); tmp.x -= (tmp.x >= high) ? high*2 : 0; tmp.y -= (tmp.y >= high) ? high*2 : 0; get_pmvdata(pEnc->pMBs, x, y, pEnc->mbParam.mb_width, vec, pred, dummy); pMB->mvs[vec].x = tmp.x; pMB->mvs[vec].y = tmp.y; pMB->pmvs[vec].x = pMB->mvs[vec].x - pred[0].x; pMB->pmvs[vec].y = pMB->mvs[vec].y - pred[0].y; } } else // intra / intra_q / stuffing / not_coded { for (vec=0 ; vec<4 ; ++vec) { pMB->mvs[vec].x = pMB->mvs[vec].y = 0; } } } }}staticvoid HintedMEGet(Encoder * pEnc, int intra){ HINTINFO * hint; Bitstream bs; uint32_t x, y; int length, high; hint = pEnc->mbParam.hint; if (hint->rawhints) { hint->mvhint.intra = intra; } else { BitstreamInit(&bs, hint->hintstream, 0); BitstreamPutBit(&bs, intra); } if (intra) { if (!hint->rawhints) { BitstreamPad(&bs); hint->hintlength = BitstreamLength(&bs); } return; } length = pEnc->mbParam.fixed_code + 5; high = 1 << (length - 1); if (hint->rawhints) { hint->mvhint.fcode = pEnc->mbParam.fixed_code; } else { BitstreamPutBits(&bs, pEnc->mbParam.fixed_code, FCODEBITS); } for (y=0 ; y<pEnc->mbParam.mb_height ; ++y) { for (x=0 ; x<pEnc->mbParam.mb_width ; ++x) { MACROBLOCK * pMB = &pEnc->pMBs[x + y * pEnc->mbParam.mb_width]; MVBLOCKHINT * bhint = &hint->mvhint.block[x + y * pEnc->mbParam.mb_width]; VECTOR tmp; if (hint->rawhints) { bhint->mode = pMB->mode; } else { BitstreamPutBits(&bs, pMB->mode, MODEBITS); } if (pMB->mode == MODE_INTER || pMB->mode == MODE_INTER_Q) { tmp.x = pMB->mvs[0].x; tmp.y = pMB->mvs[0].y; tmp.x += (tmp.x < 0) ? high*2 : 0; tmp.y += (tmp.y < 0) ? high*2 : 0; if (hint->rawhints) { bhint->mvs[0].x = tmp.x; bhint->mvs[0].y = tmp.y; } else { BitstreamPutBits(&bs, tmp.x, length); BitstreamPutBits(&bs, tmp.y, length); } } else if (pMB->mode == MODE_INTER4V) { int vec; for (vec=0 ; vec<4 ; ++vec) { tmp.x = pMB->mvs[vec].x; tmp.y = pMB->mvs[vec].y; tmp.x += (tmp.x < 0) ? high*2 : 0; tmp.y += (tmp.y < 0) ? high*2 : 0; if (hint->rawhints) { bhint->mvs[vec].x = tmp.x; bhint->mvs[vec].y = tmp.y; } else { BitstreamPutBits(&bs, tmp.x, length); BitstreamPutBits(&bs, tmp.y, length); } } } } } if (!hint->rawhints) { BitstreamPad(&bs); hint->hintlength = BitstreamLength(&bs); }}static int FrameCodeI(Encoder * pEnc, Bitstream * bs, uint32_t *pBits#ifdef MPEG4IP , bool vol_header#endif ){ DECLARE_ALIGNED_MATRIX(dct_codes, 6, 64, int16_t, CACHE_LINE); DECLARE_ALIGNED_MATRIX(qcoeff, 6, 64, int16_t, CACHE_LINE); uint16_t x, y; pEnc->iFrameNum = 0; pEnc->mbParam.rounding_type = 1; pEnc->mbParam.coding_type = I_VOP;#ifdef MPEG4IP if ((pEnc->mbParam.global_flags & XVID_SHORT_HEADERS) == 0) { if (vol_header) { BitstreamWriteVolHeader(bs, &pEnc->mbParam); }#else BitstreamWriteVolHeader(bs, &pEnc->mbParam);#endif BitstreamWriteVopHeader(bs, &pEnc->mbParam);#ifdef MPEG4IP } else { BitstreamWriteShortVopHeader(bs, &pEnc->mbParam); }#endif *pBits = BitstreamPos(bs); pEnc->sStat.iTextBits = 0; pEnc->sStat.kblks = pEnc->mbParam.mb_width * pEnc->mbParam.mb_height; pEnc->sStat.mblks = pEnc->sStat.ublks = 0; for (y = 0; y < pEnc->mbParam.mb_height; y++) for (x = 0; x < pEnc->mbParam.mb_width; x++) { MACROBLOCK *pMB = &pEnc->pMBs[x + y * pEnc->mbParam.mb_width];#ifdef MPEG4IP if ((pEnc->mbParam.global_flags & XVID_SHORT_HEADERS) != 0) { // DEBUG printf("xvid I mb %u %u\n", y, x); }#endif CodeIntraMB(pEnc, pMB); MBTransQuantIntra(&pEnc->mbParam, pMB, x, y, dct_codes, qcoeff, &pEnc->sCurrent); start_timer(); MBPrediction(&pEnc->mbParam, x, y, pEnc->mbParam.mb_width, qcoeff, pEnc->pMBs); stop_prediction_timer(); start_timer(); MBCoding(&pEnc->mbParam, pMB, qcoeff, bs, &pEnc->sStat); stop_coding_timer(); } emms(); *pBits = BitstreamPos(bs) - *pBits; pEnc->sStat.fMvPrevSigma = -1; pEnc->sStat.iMvSum = 0; pEnc->sStat.iMvCount = 0; pEnc->mbParam.fixed_code = 2; if (pEnc->mbParam.global_flags & XVID_HINTEDME_GET) { HintedMEGet(pEnc, 1); } return 1; // intra}#define INTRA_THRESHOLD 0.5static int FrameCodeP(Encoder * pEnc, Bitstream * bs, uint32_t *pBits, bool force_inter, bool vol_header){ float fSigma; DECLARE_ALIGNED_MATRIX(dct_codes, 6, 64, int16_t, CACHE_LINE); DECLARE_ALIGNED_MATRIX(qcoeff, 6, 64, int16_t, CACHE_LINE); int iLimit; uint32_t x, y; int iSearchRange; bool bIntra; IMAGE *pCurrent = &pEnc->sCurrent; IMAGE *pRef = &pEnc->sReference; start_timer(); image_setedges(pRef, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height, pEnc->mbParam.width, pEnc->mbParam.height, pEnc->mbParam.global_flags & XVID_INTERLACING); stop_edges_timer(); pEnc->mbParam.rounding_type = 1 - pEnc->mbParam.rounding_type; if (!force_inter) iLimit = (int)(pEnc->mbParam.mb_width * pEnc->mbParam.mb_height * INTRA_THRESHOLD); else iLimit = pEnc->mbParam.mb_width * pEnc->mbParam.mb_height + 1; if ((pEnc->mbParam.global_flags & XVID_HALFPEL) > 0) { start_timer(); image_interpolate(pRef, &pEnc->vInterH, &pEnc->vInterV, &pEnc->vInterHV, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height, pEnc->mbParam.rounding_type); stop_inter_timer(); } start_timer(); if (pEnc->mbParam.global_flags & XVID_HINTEDME_SET) { HintedMESet(pEnc, &bIntra); } else { bIntra = MotionEstimation(pEnc->pMBs, &pEnc->mbParam, &pEnc->sReference, &pEnc->vInterH, &pEnc->vInterV, &pEnc->vInterHV, &pEnc->sCurrent, iLimit); } stop_motion_timer(); if (bIntra == 1) {#ifdef MPEG4IP return FrameCodeI(pEnc, bs, pBits, vol_header);#else return FrameCodeI(pEnc, bs, pBits);#endif } pEnc->mbParam.coding_type = P_VOP;#ifdef MPEG4IP if ((pEnc->mbParam.global_flags & XVID_SHORT_HEADERS) == 0) {#endif if(vol_header) BitstreamWriteVolHeader(bs, &pEnc->mbParam); BitstreamWriteVopHeader(bs, &pEnc->mbParam);#ifdef MPEG4IP } else { BitstreamWriteShortVopHeader(bs, &pEnc->mbParam); }#endif *pBits = BitstreamPos(bs); pEnc->sStat.iTextBits = 0; pEnc->sStat.iMvSum = 0; pEnc->sStat.iMvCount = 0; pEnc->sStat.kblks = pEnc->sStat.mblks = pEnc->sStat.ublks = 0; for(y = 0; y < pEnc->mbParam.mb_height; y++) { for(x = 0; x < pEnc->mbParam.mb_width; x++) { MACROBLOCK * pMB = &pEnc->pMBs[x + y * pEnc->mbParam.mb_width]; bIntra = (pMB->mode == MODE_INTRA) || (pMB->mode == MODE_INTRA_Q); if (!bIntra) {#ifdef MPEG4IP if ((pEnc->mbParam.global_flags & XVID_SHORT_HEADERS) != 0) { // DEBUG printf("xvid P INTER mb %u %u\n", y, x); }#endif start_timer(); MBMotionCompensation(pMB, x, y, &pEnc->sReference, &pEnc->vInterH, &pEnc->vInterV, &pEnc->vInterHV, &pEnc->sCurrent, dct_codes, pEnc->mbParam.width, pEnc->mbParam.height, pEnc->mbParam.edged_width, pEnc->mbParam.rounding_type); stop_comp_timer(); if ((pEnc->mbParam.global_flags & XVID_LUMIMASKING) > 0) { if(pMB->dquant != NO_CHANGE) { pMB->mode = MODE_INTER_Q; pEnc->mbParam.quant += DQtab[pMB->dquant]; if (pEnc->mbParam.quant > 31) pEnc->mbParam.quant = 31; else if(pEnc->mbParam.quant < 1) pEnc->mbParam.quant = 1; } } pMB->quant = pEnc->mbParam.quant; pMB->field_pred = 0; pMB->cbp = MBTransQuantInter(&pEnc->mbParam, pMB, x, y, dct_codes, qcoeff, pCurrent); } else {#ifdef MPEG4IP if ((pEnc->mbParam.global_flags & XVID_SHORT_HEADERS) != 0) { // DEBUG printf("xvid P INTRA mb %u %u\n", y, x); }#endif CodeIntraMB(pEnc, pMB); MBTransQuantIntra(&pEnc->mbParam, pMB, x, y, dct_codes, qcoeff, pCurrent); } start_timer(); MBPrediction(&pEnc->mbParam, x, y, pEnc->mbParam.mb_width, qcoeff, pEnc->pMBs); stop_prediction_timer(); if (pMB->mode == MODE_INTRA || pMB->mode == MODE_INTRA_Q) { pEnc->sStat.kblks++; } else if (pMB->cbp || pMB->mvs[0].x || pMB->mvs[0].y || pMB->mvs[1].x || pMB->mvs[1].y || pMB->mvs[2].x || pMB->mvs[2].y || pMB->mvs[3].x || pMB->mvs[3].y) { pEnc->sStat.mblks++; } else { pEnc->sStat.ublks++; } start_timer(); MBCoding(&pEnc->mbParam, pMB, qcoeff, bs, &pEnc->sStat); stop_coding_timer(); } } emms(); if (pEnc->mbParam.global_flags & XVID_HINTEDME_GET) { HintedMEGet(pEnc, 0); } if (pEnc->sStat.iMvCount == 0) pEnc->sStat.iMvCount = 1; fSigma = (float)sqrt((float) pEnc->sStat.iMvSum / pEnc->sStat.iMvCount); iSearchRange = 1 << (3 + pEnc->mbParam.fixed_code); if ((fSigma > iSearchRange / 3) && (pEnc->mbParam.fixed_code <= 3)) // maximum search range 128 { pEnc->mbParam.fixed_code++; iSearchRange *= 2; } else if ((fSigma < iSearchRange / 6) && (pEnc->sStat.fMvPrevSigma >= 0) && (pEnc->sStat.fMvPrevSigma < iSearchRange / 6) && (pEnc->mbParam.fixed_code >= 2)) // minimum search range 16 { pEnc->mbParam.fixed_code--; iSearchRange /= 2; } pEnc->sStat.fMvPrevSigma = fSigma; *pBits = BitstreamPos(bs) - *pBits; return 0; // inter}⌨️ 快捷键说明
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