📄 mc_interlaced.c
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for(Int iAuxComp=0;iAuxComp<m_volmd.iAuxCompCount;iAuxComp++) { // MAC (SB) 26-Nov-99 motionCompYField(m_ppxlcPredMBA[iAuxComp], m_pvopcRefQ0->pixelsA(iAuxComp) + iTopRefFldOffset * m_iFrameWidthY, iXFwdTop, iYFwdTop, prctMVLimitFwd); // added by Y.Suzuki for the extended bounding box support } iXFwdTop -= 2*x; iYFwdTop -= 2*y; } } // Motion compensate the top field backward if (m_volmd.bQuarterSample) { iXBakTop += 4*x; iYBakTop += 4*y; if (plane==0) { // texture MC motionCompQuarterSample(m_ppxlcPredMBBackY, m_pvopcRefQ1->pixelsY(), 0, iXBakTop, iYBakTop, m_vopmd.iRoundingControl, prctMVLimitBak); motionCompFieldUV(m_ppxlcPredMBBackU, m_ppxlcPredMBBackV, m_pvopcRefQ1, x, y, (iXBTQSUV & 3) ? ((iXBTQSUV >> 1) | 1) : (iXBTQSUV >> 1), (iYBTQSUV & 6) ? ((iYBTQSUV >> 1) | 2) : (iYBTQSUV >> 1), 0, prctMVLimitBak); // added by Y.Suzuki for the extended bounding box support } else { // plane=1, grey scale MC for(Int iAuxComp=0;iAuxComp<m_volmd.iAuxCompCount;iAuxComp++) { // MAC (SB) 26-Nov-99 motionCompQuarterSample(m_ppxlcPredMBBackA[iAuxComp], m_pvopcRefQ1->pixelsA(iAuxComp), 0, iXBakTop, iYBakTop, m_vopmd.iRoundingControl, prctMVLimitBak); } } } else { iXBakTop += 2*x; iYBakTop += 2*y; if (plane==0) { // texture MC motionCompYField(m_ppxlcPredMBBackY, m_pvopcRefQ1->pixelsY(), iXBakTop, iYBakTop, prctMVLimitBak); // added by Y.Suzuki for the extended bounding box support iXBakTop -= 2*x; iYBakTop -= 2*y; motionCompFieldUV(m_ppxlcPredMBBackU, m_ppxlcPredMBBackV, m_pvopcRefQ1, x, y, (iXBakTop & 3) ? ((iXBakTop >> 1) | 1) : (iXBakTop >> 1), (iYBakTop & 6) ? ((iYBakTop >> 1) | 2) : (iYBakTop >> 1), 0, prctMVLimitBak); // added by Y.Suzuki for the extended bounding box support } else { // plane=1, grey scale MC for(Int iAuxComp=0;iAuxComp<m_volmd.iAuxCompCount;iAuxComp++) { // MAC (SB) 26-Nov-99 motionCompYField(m_ppxlcPredMBBackA[iAuxComp], m_pvopcRefQ1->pixelsA(iAuxComp), iXBakTop, iYBakTop, prctMVLimitBak); // added by Y.Suzuki for the extended bounding box support } iXBakTop -= 2*x; iYBakTop -= 2*y; } } // Motion compensate the bottom field forward if (m_volmd.bQuarterSample) { iXFwdBot += 4*x; iYFwdBot += 4*y; if (plane==0) { // texture MC motionCompQuarterSample(m_ppxlcPredMBY + MB_SIZE, m_pvopcRefQ0->pixelsY() + iBotRefFldOffset * m_iFrameWidthY, 0, iXFwdBot, iYFwdBot, m_vopmd.iRoundingControl, prctMVLimitFwd); motionCompFieldUV( m_ppxlcPredMBU + BLOCK_SIZE, m_ppxlcPredMBV + BLOCK_SIZE, m_pvopcRefQ0, x, y, (iXFBQSUV & 3) ? ((iXFBQSUV >> 1) | 1) : (iXFBQSUV >> 1), (iYFBQSUV & 6) ? ((iYFBQSUV >> 1) | 2) : (iYFBQSUV >> 1), iBotRefFldOffset, prctMVLimitFwd); // added by Y.Suzuki for the extended bounding box support } else { // plane=1, grey scale MC for(Int iAuxComp=0;iAuxComp<m_volmd.iAuxCompCount;iAuxComp++) { // MAC (SB) 26-Nov-99 motionCompQuarterSample( m_ppxlcPredMBA[iAuxComp] + MB_SIZE, m_pvopcRefQ0->pixelsA(iAuxComp) + iBotRefFldOffset * m_iFrameWidthY, 0, iXFwdBot, iYFwdBot, m_vopmd.iRoundingControl, prctMVLimitFwd); } } } else { iXFwdBot += 2*x; iYFwdBot += 2*y; if (plane==0) { // texture MC motionCompYField(m_ppxlcPredMBY + MB_SIZE, m_pvopcRefQ0->pixelsY() + iBotRefFldOffset * m_iFrameWidthY, iXFwdBot, iYFwdBot, prctMVLimitFwd); // added by Y.Suzuki for the extended bounding box support iXFwdBot -= 2*x; iYFwdBot -= 2*y; motionCompFieldUV(m_ppxlcPredMBU + BLOCK_SIZE, m_ppxlcPredMBV + BLOCK_SIZE, m_pvopcRefQ0, x, y, (iXFwdBot & 3) ? ((iXFwdBot >> 1) | 1) : (iXFwdBot >> 1), (iYFwdBot & 6) ? ((iYFwdBot >> 1) | 2) : (iYFwdBot >> 1), iBotRefFldOffset, prctMVLimitFwd); // added by Y.Suzuki for the extended bounding box support } else { // plane=1, grey scale MC for(Int iAuxComp=0;iAuxComp<m_volmd.iAuxCompCount;iAuxComp++) { // MAC (SB) 26-Nov-99 motionCompYField(m_ppxlcPredMBA[iAuxComp] + MB_SIZE, m_pvopcRefQ0->pixelsA(iAuxComp) + iBotRefFldOffset * m_iFrameWidthY, iXFwdBot, iYFwdBot, prctMVLimitFwd); // added by Y.Suzuki for the extended bounding box support } iXFwdBot -= 2*x; iYFwdBot -= 2*y; } } // Motion compensate the bottom field backward if (m_volmd.bQuarterSample) { iXBakBot += 4*x; iYBakBot += 4*y; if (plane==0) { // texture MC motionCompQuarterSample(m_ppxlcPredMBBackY + MB_SIZE, m_pvopcRefQ1->pixelsY() + m_iFrameWidthY, 0, iXBakBot, iYBakBot, m_vopmd.iRoundingControl, prctMVLimitBak); // 991201 mwi, chg Fwd->Bak motionCompFieldUV(m_ppxlcPredMBBackU + BLOCK_SIZE, m_ppxlcPredMBBackV + BLOCK_SIZE, m_pvopcRefQ1, x, y, (iXBBQSUV & 3) ? ((iXBBQSUV >> 1) | 1) : (iXBBQSUV >> 1), (iYBBQSUV & 6) ? ((iYBBQSUV >> 1) | 2) : (iYBBQSUV >> 1), 1, prctMVLimitBak); // added by Y.Suzuki for the extended bounding box support // 991201 mwi, chg Fwd->Bak } else { // plane=1, grey scale MC for(Int iAuxComp=0;iAuxComp<m_volmd.iAuxCompCount;iAuxComp++) { // MAC (SB) 26-Nov-99 motionCompQuarterSample(m_ppxlcPredMBBackA[iAuxComp] + MB_SIZE, m_pvopcRefQ1->pixelsA(iAuxComp) + m_iFrameWidthY, 0, iXBakBot, iYBakBot, m_vopmd.iRoundingControl, prctMVLimitBak); // 991201 mwi, chg Fwd->Bak } } } else { iXBakBot += 2*x; iYBakBot += 2*y; if (plane==0) { // texture MC motionCompYField(m_ppxlcPredMBBackY + MB_SIZE, m_pvopcRefQ1->pixelsY() + m_iFrameWidthY, iXBakBot, iYBakBot, prctMVLimitBak); // added by Y.Suzuki for the extended bounding box support iXBakBot -= 2*x; iYBakBot -= 2*y; motionCompFieldUV(m_ppxlcPredMBBackU + BLOCK_SIZE, m_ppxlcPredMBBackV + BLOCK_SIZE, m_pvopcRefQ1, x, y, (iXBakBot & 3) ? ((iXBakBot >> 1) | 1) : (iXBakBot >> 1), (iYBakBot & 6) ? ((iYBakBot >> 1) | 2) : (iYBakBot >> 1), 1, prctMVLimitBak); // added by Y.Suzuki for the extended bounding box support } else { // plane=1, grey scale MC for(Int iAuxComp=0;iAuxComp<m_volmd.iAuxCompCount;iAuxComp++) { // MAC (SB) 26-Nov-99 motionCompYField(m_ppxlcPredMBBackA[iAuxComp] + MB_SIZE, m_pvopcRefQ1->pixelsA(iAuxComp) + m_iFrameWidthY, iXBakBot, iYBakBot, prctMVLimitBak); // added by Y.Suzuki for the extended bounding box support } iXBakBot -= 2*x; iYBakBot -= 2*y; } } } else { Int iTempRefD = m_tFutureRef - m_tPastRef; Int iTempRefB = m_t - m_tPastRef; assert(iTempRefD > 0); assert(iTempRefB > 0); Int iChromaFwdX = 0, iChromaFwdY = 0, iChromaBakX = 0, iChromaBakY = 0; CVector vctFwd, vctBak; static I8 iBlkXOffset[] = { 0, 2*BLOCK_SIZE, 0, 2*BLOCK_SIZE }; static I8 iBlkYOffset[] = { 0, 0, 2*BLOCK_SIZE, 2*BLOCK_SIZE }; static Int iMBOffset[] = { 0, BLOCK_SIZE, MB_SIZE*BLOCK_SIZE, MB_SIZE*BLOCK_SIZE + BLOCK_SIZE }; if ((pmbmdRef->m_dctMd == INTRA) || (pmbmdRef->m_dctMd == INTRAQ)) { static CMotionVector mvZero[5]; pmvRef = mvZero; } if(iMBX<m_iNumMBXRef && iMBX>=0 && iMBY<m_iNumMBYRef && iMBY>=0) // new changes 10/21/98 { if (pmbmdRef -> m_bhas4MVForward || m_volmd.bQuarterSample) { for (Int iBlk = 0; iBlk < 4; iBlk++) { if(pmbmd->m_rgTranspStatus[iBlk+1]!=ALL) { MUL_VECT (pmvRef[iBlk + 1].m_vctTrueHalfPel, iTempRefB); DIV_VECT (g_CMulVect, iTempRefD); ADD_VECT (g_CDivVect, pmbmd->m_vctDirectDeltaMV); vctFwd = g_CAddVect; vctBak.x = pmbmd->m_vctDirectDeltaMV.x ? (vctFwd.x - pmvRef[iBlk + 1].m_vctTrueHalfPel.x) : ((pmvRef[iBlk + 1].m_vctTrueHalfPel.x * (iTempRefB - iTempRefD)) / iTempRefD); vctBak.y = pmbmd->m_vctDirectDeltaMV.y ? (vctFwd.y - pmvRef[iBlk + 1].m_vctTrueHalfPel.y) : ((pmvRef[iBlk + 1].m_vctTrueHalfPel.y * (iTempRefB - iTempRefD)) / iTempRefD); // Y MVs iMVX = vctFwd.x; iMVY = vctFwd.y; g_pMV[iBlk] = ((iMVX << 16) | (iMVY & 0x0000FFFF)); // Y MVs iMVX = vctBak.x; iMVY = vctBak.y; g_pMV[iBlk+4] = ((iMVX << 16) | (iMVY & 0x0000FFFF)); if (m_volmd.bQuarterSample) { iChromaFwdX += vctFwd.x/2; iChromaFwdY += vctFwd.y/2; iChromaBakX += vctBak.x/2; iChromaBakY += vctBak.y/2; } else { iChromaFwdX += vctFwd.x; iChromaFwdY += vctFwd.y; iChromaBakX += vctBak.x; iChromaBakY += vctBak.y; } uiDivisor += 4; } } (uiDivisor == 4) ? (rgiMvRound = grgiMvRound4) : (((uiDivisor == 8) ? (rgiMvRound = grgiMvRound8) : ((uiDivisor == 12) ? (rgiMvRound = grgiMvRound12) : (rgiMvRound = grgiMvRound16)))); xRefUVF = sign (iChromaFwdX) * (rgiMvRound [abs (iChromaFwdX) % uiDivisor] + (abs (iChromaFwdX) / uiDivisor) * 2); yRefUVF = sign (iChromaFwdY) * (rgiMvRound [abs (iChromaFwdY) % uiDivisor] + (abs (iChromaFwdY) / uiDivisor) * 2); xRefUVB = sign (iChromaBakX) * (rgiMvRound [abs (iChromaBakX) % uiDivisor] + (abs (iChromaBakX) / uiDivisor) * 2); yRefUVB = sign (iChromaBakY) * (rgiMvRound [abs (iChromaBakY) % uiDivisor] + (abs (iChromaBakY) / uiDivisor) * 2); } else { MUL_VECT (pmvRef[0].m_vctTrueHalfPel, iTempRefB); DIV_VECT (g_CMulVect, iTempRefD); ADD_VECT (g_CDivVect, pmbmd->m_vctDirectDeltaMV); vctFwd = g_CAddVect; vctBak.x = pmbmd->m_vctDirectDeltaMV.x ? (vctFwd.x - pmvRef[0].m_vctTrueHalfPel.x) : ((pmvRef[0].m_vctTrueHalfPel.x * (iTempRefB - iTempRefD)) / iTempRefD); vctBak.y = pmbmd->m_vctDirectDeltaMV.y ? (vctFwd.y - pmvRef[0].m_vctTrueHalfPel.y) : ((pmvRef[0].m_vctTrueHalfPel.y * (iTempRefB - iTempRefD)) / iTempRefD); // This check is redundant since the below condition was already checked above. // *************************************************************************** if (m_volmd.bQuarterSample) { printf("\nCheck me--Cannot enter this if loop, CVideoObject::motionCompDirectMode!!"); exit(0); // mod 991201 mwi for (Int iBlk = 0; iBlk < 4; iBlk++) { motionCompQuarterSample(m_ppxlcPredMBY + iMBOffset[iBlk], m_pvopcRefQ0->pixelsY(), BLOCK_SIZE, x * 4 + iBlkXOffset[iBlk] * 2 + vctFwd.x, y * 4 + iBlkYOffset[iBlk] * 2 + vctFwd.y, m_vopmd.iRoundingControl, prctMVLimitFwd); motionCompQuarterSample(m_ppxlcPredMBBackY + iMBOffset[iBlk] , m_pvopcRefQ1->pixelsY(), BLOCK_SIZE, x * 4 + iBlkXOffset[iBlk] * 2 + vctBak.x, y * 4 + iBlkYOffset[iBlk] * 2 + vctBak.y, m_vopmd.iRoundingControl, prctMVLimitBak); } // ~mod 991201 mwi } // This is a 16x16 Bi-Directional case // *********************************** else { // Y MVs iMVX = vctFwd.x; iMVY = vctFwd.y; g_pMV[0] = g_pMV[1] = ((iMVX << 16) | (iMVY & 0x0000FFFF)); // Y MVs iMVX = vctBak.x; iMVY = vctBak.y; g_pMV[2] = g_pMV[2] = ((iMVX << 16) | (iMVY & 0x0000FFFF)); } if (m_volmd.bQuarterSample) { iChromaFwdX = vctFwd.x/2; iChromaFwdY = vctFwd.y/2; iChromaBakX = vctBak.x/2; iChromaBakY = vctBak.y/2; } else { iChromaFwdX = vctFwd.x; iChromaFwdY = vctFwd.y; iChromaBakX = vctBak.x; iChromaBakY = vctBak.y; } xRefUVF = sign (iChromaFwdX) * (grgiMvRound4 [abs (iChromaFwdX) % 4] + (abs (iChromaFwdX) / 4) * 2); yRefUVF = sign (iChromaFwdY) * (grgiMvRound4 [abs (iChromaFwdY) % 4] + (abs (iChromaFwdY) / 4) * 2); xRefUVB = sign (iChromaBakX) * (grgiMvRound4 [abs (iChromaBakX) % 4] + (abs (iChromaBakX) / 4) * 2); yRefUVB = sign (iChromaBakY) * (grgiMvRound4 [abs (iChromaBakY) % 4] + (abs (iChromaBakY) / 4) * 2); } } // begin of new changes 10/21/98 else { // This case will be entered when the MB X & Y positions are not within the range // which is 0 to the maximum number of the X & Y MBs. The only possible path could be // when RRV is enabled (where in the number of MBs will reduce). // *********************************************************************************** printf("\nCheck me--Unhandled case (X & Y pos of MB not in range??), CVideoObject::motionCompDirectMode!!"); exit(0); vctFwd = pmbmd->m_vctDirectDeltaMV; vctBak.x = pmbmd->m_vctDirectDeltaMV.x ? vctFwd.x :0; vctBak.y = pmbmd->m_vctDirectDeltaMV.y ? vctFwd.y :0; if (m_volmd.bQuarterSample) { // Quarter Sample, mwi // mod 991201 mwi for (Int iBlk = 0; iBlk < 4; iBlk++) { motionCompQuarterSample(m_ppxlcPredMBY + iMBOffset[iBlk], m_pvopcRefQ0->pixelsY(), BLOCK_SIZE, x * 4 + iBlkXOffset[iBlk] * 2 + vctFwd.x, y * 4 + iBlkYOffset[iBlk] * 2 + vctFwd.y, m_vopmd.iRoundingControl, prctMVLimitFwd); motionCompQuarterSample(m_ppxlcPredMBBackY + iMBOffset[iBlk], m_pvopcRefQ1->pixelsY(), BLOCK_SIZE, x * 4 + iBlkXOffset[iBlk] * 2 + vctBak.x, y * 4 + iBlkYOffset[iBlk] * 2 + vctBak.y, m_vopmd.iRoundingControl, prctMVLimitBak); } // ~mod 991201 mwi } else { motionComp(m_ppxlcPredMBY, m_pvopcRefQ0->pixelsY(), MB_SIZE, x * 2 + vctFwd.x, y * 2 + vctFwd.y, m_vopmd.iRoundingControl, prctMVLimitFwd); motionComp(m_ppxlcPredMBBackY , m_pvopcRefQ1->pixelsY(), MB_SIZE, x * 2 + vctBak.x, y * 2 + vctBak.y, m_vopmd.iRoundingControl, prctMVLimitBak); } if (m_volmd.bQuarterSample) { // Quarter Sample, mwi iChromaFwdX = vctFwd.x/2; iChromaFwdY = vctFwd.y/2; iChromaBakX = vctBak.x/2; iChromaBakY = vctBak.y/2; } else { iChromaFwdX = vctFwd.x;⌨️ 快捷键说明
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