📄 h263decframeb.c
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/* ///////////////////////////////////////////////////////////////////////
//
// INTEL CORPORATION PROPRIETARY INFORMATION
// This software is supplied under the terms of a license agreement or
// nondisclosure agreement with Intel Corporation and may not be copied
// or disclosed except in accordance with the terms of that agreement.
// Copyright (c) 2005-2007 Intel Corporation. All Rights Reserved.
//
// Description: Decodes B-Frames
//
*/
#include "h263.h"
#include "h263dec.h"
static h263_Status h263_PredictDecodeMV_B(h263_Info *pInfo, IppMotionVector *mvPred, IppMotionVector *mvCurr,
Ipp32s frGOB, Ipp32s y, Ipp32s x)
{
IppMotionVector *mvLeft, *mvTop, *mvRight;
h263_Status status;
h263_VideoPicture *VPic = &pInfo->VideoSequence.VideoPicture;
Ipp32s mbInRow = VPic->MacroBlockPerRow;
mvLeft = &mvPred[x-1];
mvTop = &mvPred[x];
mvRight = &mvPred[x+1];
if (y == frGOB && x == 0) {
mvCurr->dx = mvCurr->dy = 0;
} else if (x == 0) {
mvCurr->dx = h263_Median(0, mvTop->dx, mvRight->dx);
mvCurr->dy = h263_Median(0, mvTop->dy, mvRight->dy);
} else if (y == frGOB) {
*mvCurr = *mvLeft;
} else if (x == mbInRow - 1) {
mvCurr->dx = h263_Median(0, mvLeft->dx, mvTop->dx);
mvCurr->dy = h263_Median(0, mvLeft->dy, mvTop->dy);
} else {
mvCurr->dx = h263_Median(mvLeft->dx, mvTop->dx, mvRight->dx);
mvCurr->dy = h263_Median(mvLeft->dy, mvTop->dy, mvRight->dy);
}
if (!VPic->oppmodes.UMV && !VPic->modes.UMV) {
status = h263_DecodeMV(pInfo, mvCurr, -32, 31);
} else if (!VPic->oppmodes.UMV) {
status = h263_DecodeMV(pInfo, mvCurr, -63, 63);
} else {
Ipp32s mvdx, mvdy;
status = h263_DecodeMVD_umvplus(pInfo, &mvdx, &mvdy);
mvCurr->dx = mvCurr->dx + (Ipp16s)mvdx;
mvCurr->dy = mvCurr->dy + (Ipp16s)mvdy;
}
*mvTop = *mvCurr; /* updating the predictor */
return status;
}
static void h263_CalculateMV_Direct(IppMotionVector *mvC, IppMotionVector *mvF, IppMotionVector *mvB,
IppMotionVector *mvCbCrF, IppMotionVector *mvCbCrB,
Ipp32s trd, Ipp32s trb, Ipp32s mb_typeC, Ipp32s dx, Ipp32s dy,
IppiRect *limitRectL, IppiRect *limitRectC)
{
Ipp32s i;
if (mb_typeC == IPPVC_MBTYPE_INTER4V || mb_typeC == IPPVC_MBTYPE_INTER4V_Q) {
for (i = 0; i < 4; i++) {
mvF[i].dx = (Ipp16s)(mvC[i].dx * trb / trd);
mvF[i].dy = (Ipp16s)(mvC[i].dy * trb / trd);
mvB[i].dx = (Ipp16s)((trb - trd) * mvC[i].dx / trd);
mvB[i].dy = (Ipp16s)((trb - trd) * mvC[i].dy / trd);
}
h263_Limit4MV(mvF, mvF, limitRectL, dx, dy, 8);
h263_Limit4MV(mvB, mvB, limitRectL, dx, dy, 8);
h263_ComputeChroma4MV(mvF, mvCbCrF);
h263_ComputeChroma4MV(mvB, mvCbCrB);
h263_LimitMV(mvCbCrF, mvCbCrF, limitRectC, dx >> 1, dy >> 1, 8);
h263_LimitMV(mvCbCrB, mvCbCrB, limitRectC, dx >> 1, dy >> 1, 8);
} else {
mvF[0].dx = (Ipp16s)(mvC[0].dx * trb / trd);
mvF[0].dy = (Ipp16s)(mvC[0].dy * trb / trd);
mvB[0].dx = (Ipp16s)((trb - trd) * mvC[0].dx / trd);
mvB[0].dy = (Ipp16s)((trb - trd) * mvC[0].dy / trd);
h263_LimitMV(mvF, mvF, limitRectL, dx, dy, 16);
h263_LimitMV(mvB, mvB, limitRectL, dx, dy, 16);
h263_ComputeChromaMV(mvF, mvCbCrF);
h263_ComputeChromaMV(mvB, mvCbCrB);
}
}
/*
// Purpose: decode H.263 B-Frame
*/
h263_Status h263_DecodeFrame_B(h263_Info* pInfo, h263_EnhancedLayer *Layer, h263_Frame *rFrame)
{
__ALIGN16(Ipp16s, coeffMB, 64*2);
__ALIGN16(Ipp8u, tmpMB, 64*4*2);
Ipp8u *pYc, *pCbc, *pCrc, *pYn, *pCbn, *pCrn, *pYr, *pCbr, *pCrr, *pF[6];
Ipp32s stepYc, stepYn, stepCbc, stepCbn, stepCrc, stepCrn;
Ipp32s stepYr, stepCbr, stepCrr, mbPerRow, mbPerCol, stepF[6];
Ipp32s dx, dy, TRB, TRD, colNum, rowNum;
IppiRect limitRectL, limitRectC;
Ipp32s mb_type, cbpy, cbpc;
Ipp32s quant, quant_c;
h263_MacroBlock *pMBinfo;
Ipp32s frGOB;
Ipp32s rt;
h263_VideoPicture *VPic = &pInfo->VideoSequence.VideoPicture;
Ipp32s gob_header_present = 1;
Ipp32s predMode = 0;
h263_Status status;
Ipp32s num_rows_per_gob, num_gobs, row;
Ipp32s i, k;
Ipp32s cbpFlag, dquantFlag;
IppMotionVector mvCbCrF, mvCbCrB, mvForw[4], mvBack[4];
IppMotionVector *predMVF, *predMVB;
h263_IntraPredBlock *b = pInfo->VideoSequence.IntraPredBuff.block;
Ipp32s mb_not_coded;
IppiSize roiSize;
h263_Status sts;
mbPerRow = pInfo->VideoSequence.VideoPicture.MacroBlockPerRow;
mbPerCol = pInfo->VideoSequence.VideoPicture.MacroBlockPerCol;
predMVF = &pInfo->VideoSequence.Bmv[0];
predMVB = &pInfo->VideoSequence.Bmv[mbPerRow];
/* B-frame in n, next (in displaying order) P - c, previous - r */
if (VPic->enh_layer_num == 1) {
stepYn = pInfo->VideoSequence.nFrame.stepY;
stepCbn = pInfo->VideoSequence.nFrame.stepCb;
stepCrn = pInfo->VideoSequence.nFrame.stepCr;
pYn = pInfo->VideoSequence.nFrame.pY;
pCbn = pInfo->VideoSequence.nFrame.pCb;
pCrn = pInfo->VideoSequence.nFrame.pCr;
} else {
stepYn = Layer->n_Frame.stepY;
stepCbn = Layer->n_Frame.stepCb;
stepCrn = Layer->n_Frame.stepCr;
pYn = Layer->n_Frame.pY;
pCbn = Layer->n_Frame.pCb;
pCrn = Layer->n_Frame.pCr;
}
if (VPic->ref_layer_num == 1) {
stepYc = pInfo->VideoSequence.cFrame.stepY;
stepCbc = pInfo->VideoSequence.cFrame.stepCb;
stepCrc = pInfo->VideoSequence.cFrame.stepCr;
pYc = pInfo->VideoSequence.cFrame.pY;
pCbc = pInfo->VideoSequence.cFrame.pCb;
pCrc = pInfo->VideoSequence.cFrame.pCr;
} else {
h263_EnhancedLayer *refLayer = pInfo->VideoSequence.enhLayers[VPic->ref_layer_num - 2];
stepYc = refLayer->c_Frame.stepY;
stepCbc = refLayer->c_Frame.stepCb;
stepCrc = refLayer->c_Frame.stepCr;
pYc = refLayer->c_Frame.pY;
pCbc = refLayer->c_Frame.pCb;
pCrc = refLayer->c_Frame.pCr;
}
stepYr = rFrame->stepY;
stepCbr = rFrame->stepCb;
stepCrr = rFrame->stepCr;
pYr = rFrame->pY;
pCbr = rFrame->pCb;
pCrr = rFrame->pCr;
stepF[0] = stepF[1] = stepF[2] = stepF[3] = stepYc; stepF[4] = stepCbc; stepF[5] = stepCrc;
// Bounding rectangles for MV limitation
limitRectL.x = -16;
limitRectL.y = -16;
limitRectL.width = pInfo->VideoSequence.VideoPicture.MacroBlockPerRow * 16 + 32;
limitRectL.height = pInfo->VideoSequence.VideoPicture.MacroBlockPerCol * 16 + 32;
limitRectC.x = -8;
limitRectC.y = -8;
limitRectC.width = pInfo->VideoSequence.VideoPicture.MacroBlockPerRow * 8 + 16;
limitRectC.height = pInfo->VideoSequence.VideoPicture.MacroBlockPerCol * 8 + 16;
quant = pInfo->VideoSequence.VideoPicture.pic_quant;
colNum = rowNum = 0;
TRD = pInfo->VideoSequence.TRD;
TRB = pInfo->VideoSequence.TRB;
pMBinfo = pInfo->VideoSequence.MBinfo;
quant = VPic->pic_quant;
pInfo->VideoSequence.VideoPicture.gob_number = 0;
num_gobs = pInfo->VideoSequence.VideoPicture.num_gobs_in_pic;
num_rows_per_gob = pInfo->VideoSequence.VideoPicture.RowsPerGOB;
rt = VPic->rtype;
dy = 0;
frGOB = 0;
for (i = 0; i < num_gobs; i++) {
VPic->gob_number = i;
if (i) {
ErrRet_1:
gob_header_present = h263_ParseGOBHeader(pInfo);
if (gob_header_present < 0) {
h263_Error("Error: Invalid GOB header");
goto Err_1;
}
if (VPic->gob_number > 30)
return H263_STATUS_OK; /* EOS or EOSBS */
if (gob_header_present) {
Ipp32s nummbs2copy = (VPic->gob_number * num_rows_per_gob - rowNum) * mbPerRow - colNum;
h263_CopyMacroBlocks(&pInfo->VideoSequence.rFrame, &pInfo->VideoSequence.nFrame, mbPerRow, rowNum, colNum, nummbs2copy);
rowNum = num_rows_per_gob * VPic->gob_number;
colNum = 0;
pYc = pInfo->VideoSequence.cFrame.pY + (stepYc << 4) * rowNum;
pCbc = pInfo->VideoSequence.cFrame.pCb + (stepCbc << 3) * rowNum;
pCrc = pInfo->VideoSequence.cFrame.pCr + (stepCrc << 3) * rowNum;
pYr = pInfo->VideoSequence.rFrame.pY + (stepYr << 4) * rowNum;
pCbr = pInfo->VideoSequence.rFrame.pCb + (stepCbr << 3) * rowNum;
pCrr = pInfo->VideoSequence.rFrame.pCr + (stepCrr << 3) * rowNum;
pYn = pInfo->VideoSequence.nFrame.pY + (stepYn << 4) * rowNum;
pCbn = pInfo->VideoSequence.nFrame.pCb + (stepCbn << 3) * rowNum;
pCrn = pInfo->VideoSequence.nFrame.pCr + (stepCrn << 3) * rowNum;
pMBinfo = pInfo->VideoSequence.MBinfo + rowNum * mbPerRow;
if (VPic->gob_number > i)
ippsSet_8u(127, pInfo->VideoSequence.GOBboundary + i*num_rows_per_gob, (VPic->gob_number - i) * num_rows_per_gob);
i = VPic->gob_number;
}
if (gob_header_present) {
frGOB = i*num_rows_per_gob;
pInfo->VideoSequence.GOBboundary[frGOB] = 1;
}
}
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