📄 mp4decvops.c
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scan = pInfo->VisualObject.VideoObject.VideoObjectPlane.alternate_vertical_scan_flag ? IPPVC_SCAN_VERTICAL : IPPVC_SCAN_ZIGZAG;
interlaced = pInfo->VisualObject.VideoObject.interlaced;
pMVField = interlaced ? pInfo->VisualObject.VideoObject.FieldMV + curRow * mbPerRow * 2 : 0;
// init for non-interlaced
field_prediction = dct_type = mb_ftfr = mb_fbfr = 0;
// reset B-prediction blocks on new row
mp4_ResetIntraPredBblock(pInfo);
for (j = 0; j < mbPerRow;) {
mb_not_coded = mp4_GetBit(pInfo);
mb_type = IPPVC_MBTYPE_INTER;
if (!mb_not_coded)
if (mp4_DecodeMCBPC_P(pInfo, &mb_type, &cbpc, 1) != MP4_STATUS_OK)
goto Err;
if (mb_type != IPPVC_MB_STUFFING) {
pMBinfo->validPred = 1;
if (!mb_not_coded) {
mcsel = (mb_type < IPPVC_MBTYPE_INTER4V) ? mp4_GetBit(pInfo) : 0;
if (mb_type >= IPPVC_MBTYPE_INTRA)
ac_pred_flag = mp4_GetBit(pInfo);
if (mp4_DecodeCBPY_P(pInfo, &cbpy, mb_type) != MP4_STATUS_OK)
goto Err;
quantPred = quant;
if (mb_type == IPPVC_MBTYPE_INTER_Q || mb_type == IPPVC_MBTYPE_INTRA_Q)
mp4_UpdateQuant(pInfo, quant);
if (interlaced) {
dct_type = 0;
field_prediction = 0;
if (mb_type >= IPPVC_MBTYPE_INTRA || (cbpy + cbpc) != 0)
dct_type = mp4_GetBit(pInfo);
if ((mb_type == IPPVC_MBTYPE_INTER || mb_type == IPPVC_MBTYPE_INTER_Q) && !mcsel) {
field_prediction = mp4_GetBit(pInfo);
if (field_prediction) {
mb_ftfr = mp4_GetBit(pInfo);
mb_fbfr = mp4_GetBit(pInfo);
}
}
}
pat = (cbpy << 2) + cbpc;
if (mb_type >= IPPVC_MBTYPE_INTRA) {
if (pInfo->mbInVideoPacket == 0)
quantPred = quant;
dcVLC = (quantPred < mp4_DC_vlc_Threshold[pInfo->VisualObject.VideoObject.VideoObjectPlane.intra_dc_vlc_thr]) ? 1 : 0;
if (mp4_ReconstructCoeffsIntraMB(pInfo, j, pat, quant, dcVLC, ac_pred_flag, pMBinfoMT->dctCoeffs, pMBinfoMT->lnz) != MP4_STATUS_OK)
goto Err;
mp4_Zero4MV(pMBinfo->mv);
} else {
mp4_UpdateIntraPredBuffInvalid(pInfo, j);
if (!mcsel) {
if (!field_prediction) {
if (mb_type != IPPVC_MBTYPE_INTER4V) {
if (mp4_PredictDecode1MV(pInfo, pMBinfo, curRow, j) != MP4_STATUS_OK)
goto Err;
pMBinfo->mv[1] = pMBinfo->mv[2] = pMBinfo->mv[3] = pMBinfo->mv[0];
} else {
if (mp4_PredictDecode4MV(pInfo, pMBinfo, curRow, j) != MP4_STATUS_OK)
goto Err;
}
} else {
if (mp4_PredictDecodeFMV(pInfo, pMBinfo, curRow, j, &pMVField[0], &pMVField[1]) != MP4_STATUS_OK)
goto Err;
}
} else {
ippiCalcGlobalMV_MPEG4(j << 4, curRow << 4, pMBinfo->mv, pInfo->VisualObject.VideoObject.WarpSpec);
pMBinfo->mv[1] = pMBinfo->mv[2] = pMBinfo->mv[3] = pMBinfo->mv[0];
}
mp4_ReconstructCoeffsInterMB(pInfo, pMBinfoMT->dctCoeffs, pMBinfoMT->lnz, pat, 0, scan, quant, Err);
}
} else {
mp4_UpdateIntraPredBuffInvalid(pInfo, j);
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_NOTCODED);
// mp4_Zero4MV(pMBinfo->mv);
field_prediction = 0;
mcsel = 1;
pat = 0;
ippiCalcGlobalMV_MPEG4(j << 4, curRow << 4, pMBinfo->mv, pInfo->VisualObject.VideoObject.WarpSpec);
pMBinfo->mv[1] = pMBinfo->mv[2] = pMBinfo->mv[3] = pMBinfo->mv[0];
}
pMBinfo->not_coded = 0; // for B-VOP all MB have MVs
pMBinfo->type = (Ipp8u)(mcsel ? IPPVC_MBTYPE_INTRA : mb_type); // for OBMC MVs
pMBinfoMT->mcsel = (Ipp8u)mcsel;
pMBinfoMT->pat = (Ipp8u)pat;
if (interlaced) {
pMBinfoMT->dct_type = (Ipp8u)dct_type;
pMBinfo->field_info = (Ipp8u)(field_prediction + (mb_ftfr << 1) + (mb_fbfr << 2));
pMVField += 2;
}
pMBinfo ++;
pMBinfoMT ++;
j ++;
pInfo->mbInVideoPacket ++;
}
if (!pInfo->VisualObject.VideoObject.resync_marker_disable) {
Ipp32s found;
if (mp4_CheckDecodeVideoPacket(pInfo, &found) == MP4_STATUS_OK) {
if (found) {
quant = pInfo->VisualObject.VideoObject.VideoObjectPlane.quant_scale;
// reset Intra prediction buffer on new Video_packet
mp4_ResetIntraPredBuffer(pInfo);
// mark MBs the previous videopacket as invalid for prediction
for (i = 1; i <= (curRow == 0 ? j : mbPerRow + 1); i ++) {
pMBinfo[-i].validPred = 0;
}
pInfo->mbInVideoPacket = 0;
}
} else
goto Err;
}
}
pInfo->VisualObject.VideoObject.VideoObjectPlane.quant = quant;
return MP4_STATUS_OK;
Err:
return MP4_STATUS_ERROR;
}
static void mp4_DecodeVOP_S_ReconSlice(mp4_Info* pInfo, Ipp32s curRow, mp4_MacroBlockMT* pMBinfoMT)
{
Ipp32s j, dx, dy, mbPerRow, pYoff23;
Ipp32s stepYr, stepYc, stepCbr, stepCbc, stepCrr, stepCrc, stepFc[6], stepY;
Ipp8u *pYc, *pCbc, *pCrc, *pYr, *pCbr, *pCrr, *pFc[6];
Ipp32s /*mb_not_coded,*/ mb_type, pat, scan, obmc_disable, rt, quarter_sample;
Ipp32s interlaced, field_prediction, dct_type, mb_ftfr, mb_fbfr;
IppiRect limitRectL, limitRectC;
mp4_MacroBlock *pMBinfo;
IppMotionVector mvCur[4], mvCbCr, mvCbCrT, mvCbCrB, *pMVField, mvTmpT, mvTmpB;
Ipp16s* coeffMB;
mbPerRow = pInfo->VisualObject.VideoObject.MacroBlockPerRow;
stepYc = pInfo->VisualObject.cFrame.stepY;
stepYr = pInfo->VisualObject.rFrame.stepY;
stepCbc = pInfo->VisualObject.cFrame.stepCb;
stepCbr = pInfo->VisualObject.rFrame.stepCb;
stepCrc = pInfo->VisualObject.cFrame.stepCr;
stepCrr = pInfo->VisualObject.rFrame.stepCr;
pYc = pInfo->VisualObject.cFrame.pY + curRow * 16 * stepYc;
pCbc = pInfo->VisualObject.cFrame.pCb + curRow * 8 * stepCbc;
pCrc = pInfo->VisualObject.cFrame.pCr + curRow * 8 * stepCrc;
pYr = pInfo->VisualObject.rFrame.pY + curRow * 16 * stepYr;
pCbr = pInfo->VisualObject.rFrame.pCb + curRow * 8 * stepCbr;
pCrr = pInfo->VisualObject.rFrame.pCr + curRow * 8 * stepCrr;
dy = curRow * 16;
dx = 0;
stepFc[0] = stepFc[1] = stepFc[2] = stepFc[3] = stepYc; stepFc[4] = stepCbc; stepFc[5] = stepCrc;
// Bounding rectangle for MV limitation
limitRectL.x = - 16;
limitRectL.y = - 16;
limitRectL.width = pInfo->VisualObject.VideoObject.width + 32;
limitRectL.height = pInfo->VisualObject.VideoObject.height + 32;
pMBinfo = pInfo->VisualObject.VideoObject.MBinfo + curRow * mbPerRow;
rt = pInfo->VisualObject.VideoObject.VideoObjectPlane.rounding_type;
quarter_sample = pInfo->VisualObject.VideoObject.quarter_sample;
obmc_disable = pInfo->VisualObject.VideoObject.obmc_disable;
scan = pInfo->VisualObject.VideoObject.VideoObjectPlane.alternate_vertical_scan_flag ? IPPVC_SCAN_VERTICAL : IPPVC_SCAN_ZIGZAG;
// Bounding rectangles for MV limitation
limitRectC.x = -8;
limitRectC.y = -8;
limitRectC.width = (pInfo->VisualObject.VideoObject.width >> 1) + 16;
limitRectC.height = (pInfo->VisualObject.VideoObject.height >> 1) + 16;
interlaced = pInfo->VisualObject.VideoObject.interlaced;
pMVField = interlaced ? pInfo->VisualObject.VideoObject.FieldMV + curRow * mbPerRow * 2 : 0;
// init for non-interlaced
stepY = stepYc;
pYoff23 = 8 * stepYc;
field_prediction = dct_type = mb_ftfr = mb_fbfr = 0;
// warning "variable may be used without having been initialized"
mvCbCr.dx = mvCbCr.dy = mvCbCrT.dx = mvCbCrT.dy = mvCbCrB.dx = mvCbCrB.dy = 0;
for (j = 0; j < mbPerRow; j ++) {
//mb_not_coded = pMBinfo->not_coded;
mb_type = pMBinfo->type;
coeffMB = pMBinfoMT->dctCoeffs;
if (pMBinfoMT->mcsel) {
IppiRect mbRect;
mbRect.x = dx; mbRect.y = dy; mbRect.width = mbRect.height = 16;
ippiWarpLuma_MPEG4_8u_C1R(pInfo->VisualObject.rFrame.pY, stepYr, pYc, stepYc, &mbRect, pInfo->VisualObject.VideoObject.WarpSpec);
mbRect.x >>= 1; mbRect.y >>= 1; mbRect.width = mbRect.height = 8;
ippiWarpChroma_MPEG4_8u_P2R(pInfo->VisualObject.rFrame.pCb, stepCbr, pInfo->VisualObject.rFrame.pCr, stepCrr, pCbc, stepCbc, pCrc, stepCrc, &mbRect, pInfo->VisualObject.VideoObject.WarpSpec);
pat = pMBinfoMT->pat;
if (interlaced)
dct_type = pMBinfoMT->dct_type;
if (pat) {
mp4_DCTInvCoeffsInterMB(pInfo, coeffMB, pMBinfoMT->lnz, pat, scan);
if (!dct_type) {
mp4_AddResidual(pat & 32, pYc, stepYc, coeffMB);
mp4_AddResidual(pat & 16, pYc+8, stepYc, coeffMB+64);
mp4_AddResidual(pat & 8, pYc+stepYc*8, stepYc, coeffMB+128);
mp4_AddResidual(pat & 4, pYc+stepYc*8+8, stepYc, coeffMB+192);
} else {
mp4_AddResidual(pat & 32, pYc, stepYc*2, coeffMB);
mp4_AddResidual(pat & 16, pYc+8, stepYc*2, coeffMB+64);
mp4_AddResidual(pat & 8, pYc+stepYc, stepYc*2, coeffMB+128);
mp4_AddResidual(pat & 4, pYc+stepYc+8, stepYc*2, coeffMB+192);
}
mp4_AddResidual(pat & 2, pCbc, stepCbc, coeffMB+256);
mp4_AddResidual(pat & 1, pCrc, stepCrc, coeffMB+320);
}
} else if (mb_type >= IPPVC_MBTYPE_INTRA) {
if (interlaced) {
if (pMBinfoMT->dct_type) {
stepY = stepYc * 2;
pYoff23 = stepYc;
} else {
stepY = stepYc;
pYoff23 = 8 * stepYc;
}
stepFc[0] = stepFc[1] = stepFc[2] = stepFc[3] = stepY;
}
pFc[0] = pYc; pFc[1] = pYc + 8; pFc[2] = pYc + pYoff23; pFc[3] = pYc + pYoff23 + 8; pFc[4] = pCbc; pFc[5] = pCrc;
mp4_DCTInvCoeffsIntraMB(coeffMB, pMBinfoMT->lnz, pFc, stepFc);
} else {
//if (mb_not_coded && obmc_disable) {
// ippiCopy16x16_8u_C1R(pYr, stepYr, pYc, stepYc);
// ippiCopy8x8_8u_C1R(pCbr, stepCbr, pCbc, stepCbc);
// ippiCopy8x8_8u_C1R(pCrr, stepCrr, pCrc, stepCrc);
//} else {
pat = pMBinfoMT->pat;
if (interlaced) {
field_prediction = pMBinfo->field_info & 1;
mb_ftfr = (pMBinfo->field_info >> 1) & 1;
mb_fbfr = (pMBinfo->field_info >> 2) & 1;
dct_type = pMBinfoMT->dct_type;
}
//if (!mb_not_coded) {
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