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832 lines
55 KiB
C
832 lines
55 KiB
C
/* ///////////////////////////////////////////////////////////////////////
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//
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// INTEL CORPORATION PROPRIETARY INFORMATION
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// This software is supplied under the terms of a license agreement or
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// nondisclosure agreement with Intel Corporation and may not be copied
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// or disclosed except in accordance with the terms of that agreement.
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// Copyright (c) 2001-2007 Intel Corporation. All Rights Reserved.
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//
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// Description: Decodes B-VOPs
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//
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*/
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#include "mp4def.h"
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#include "mp4dec.h"
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/*
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// Purpose: decode MPEG-4 BVOP
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*/
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mp4_Status mp4_DecodeVOP_B(mp4_Info* pInfo)
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{
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__ALIGN16(int16_t, coeffMB, 64*6);
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__ALIGN16(uint8_t, tmpMB, 64*4);
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uint32_t code;
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uint8_t *pYc, *pCbc, *pCrc, *pYp, *pCbp, *pCrp, *pYn, *pCbn, *pCrn, *pc, *pr, *pn;
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int32_t stepYp, stepYc, stepYn, stepCbp, stepCbc, stepCbn, stepCrp, stepCrc, stepCrn, mbPerRow, mbPerCol;
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int32_t dx, dy, TRB, TRD, quant, mbCurr, mbInVideoPacket, colNum, rowNum;
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IppiRect limitRectL, limitRectC;
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int32_t quarter_sample, modb, mb_type, cbpb, dct_type, field_prediction, rvlc = 0, scan;
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int32_t mb_ftfr, mb_fbfr, mb_btfr, mb_bbfr, fcode_forward, fcode_backward;
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mp4_MacroBlock *pMBinfo;
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mp4_Status sts;
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sts = MP4_STATUS_OK;
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if (!pInfo->VisualObject.cFrame)
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pInfo->VisualObject.cFrame = CreateFrame(&pInfo->VisualObject);
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stepYc = pInfo->VisualObject.cFrame->stepY;
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stepYp = pInfo->VisualObject.rFrame->stepY;
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stepYn = pInfo->VisualObject.nFrame->stepY;
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stepCbc = pInfo->VisualObject.cFrame->stepCb;
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stepCbp = pInfo->VisualObject.rFrame->stepCb;
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stepCbn = pInfo->VisualObject.nFrame->stepCb;
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stepCrc = pInfo->VisualObject.cFrame->stepCr;
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stepCrp = pInfo->VisualObject.rFrame->stepCr;
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stepCrn = pInfo->VisualObject.nFrame->stepCr;
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pYc = pInfo->VisualObject.cFrame->pY;
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pCbc = pInfo->VisualObject.cFrame->pCb;
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pCrc = pInfo->VisualObject.cFrame->pCr;
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pYp = pInfo->VisualObject.rFrame->pY;
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pCbp = pInfo->VisualObject.rFrame->pCb;
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pCrp = pInfo->VisualObject.rFrame->pCr;
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pYn = pInfo->VisualObject.nFrame->pY;
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pCbn = pInfo->VisualObject.nFrame->pCb;
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pCrn = pInfo->VisualObject.nFrame->pCr;
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quarter_sample = pInfo->VisualObject.VideoObject.quarter_sample;
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scan = pInfo->VisualObject.VideoObject.VideoObjectPlane.alternate_vertical_scan_flag ? IPPVC_SCAN_VERTICAL : IPPVC_SCAN_ZIGZAG;
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fcode_forward = pInfo->VisualObject.VideoObject.VideoObjectPlane.fcode_forward;
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fcode_backward = pInfo->VisualObject.VideoObject.VideoObjectPlane.fcode_backward;
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// Bounding rectangles for MV limitation
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limitRectL.x = - 16 * MP4_NUM_EXT_MB;
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limitRectL.y = - 16 * MP4_NUM_EXT_MB;
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limitRectL.width = pInfo->VisualObject.VideoObject.width + 16 * 2 * MP4_NUM_EXT_MB;
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limitRectL.height = pInfo->VisualObject.VideoObject.height + 16 * 2 * MP4_NUM_EXT_MB;
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limitRectC.x = -8 * MP4_NUM_EXT_MB;
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limitRectC.y = -8 * MP4_NUM_EXT_MB;
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limitRectC.width = (pInfo->VisualObject.VideoObject.width >> 1) + 8 * 2 * MP4_NUM_EXT_MB;
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limitRectC.height = (pInfo->VisualObject.VideoObject.height >> 1) + 8 * 2 * MP4_NUM_EXT_MB;
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quant = pInfo->VisualObject.VideoObject.VideoObjectPlane.quant;
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mbPerRow = pInfo->VisualObject.VideoObject.MacroBlockPerRow;
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mbPerCol = pInfo->VisualObject.VideoObject.MacroBlockPerCol;
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mbCurr = colNum = rowNum = 0;
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TRD = pInfo->VisualObject.VideoObject.TRD;
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TRB = pInfo->VisualObject.VideoObject.TRB;
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pMBinfo = pInfo->VisualObject.VideoObject.MBinfo;
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// decode interlaced B-VOP
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if (pInfo->VisualObject.VideoObject.interlaced) {
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IppMotionVector mvCbCrF, mvCbCrB, mvForwT, mvBackT, mvForwB, mvBackB, mvForw[4], mvBack[4], mvCbCrFFT, mvCbCrFFB, mvCbCrBFT, mvCbCrBFB, *mvField = pInfo->VisualObject.VideoObject.FieldMV;
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// warning "variable may be used without having been initialized"
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mvCbCrF.dx = mvCbCrF.dy = mvCbCrB.dx = mvCbCrB.dy = mvCbCrFFT.dx = mvCbCrFFT.dy = mvCbCrFFB.dx = mvCbCrFFB.dy = mvCbCrBFT.dx = mvCbCrBFT.dy = mvCbCrBFB.dx = mvCbCrBFB.dy = 0;
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mb_ftfr = mb_fbfr = mb_btfr = mb_bbfr = 0;
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for (;;) {
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mbInVideoPacket = 0;
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// reset MV predictors at new VideoPacket
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mvForwT.dx = mvForwT.dy = mvBackT.dx = mvBackT.dy = mvForwB.dx = mvForwB.dy = mvBackB.dx = mvBackB.dy = 0;
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// decode B-VOP macroblocks
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for (;;) {
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if (pMBinfo->not_coded) {
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ippiCopy16x16_8u_C1R(pYp, stepYp, pYc, stepYc);
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ippiCopy8x8_8u_C1R(pCbp, stepCbp, pCbc, stepCbc);
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ippiCopy8x8_8u_C1R(pCrp, stepCrp, pCrc, stepCrc);
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mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_NOTCODED);
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} else {
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cbpb = 0;
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if (mp4_GetBit(pInfo)) {
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modb = 2;
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mb_type = IPPVC_MBTYPE_DIRECT;
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} else {
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modb = mp4_GetBit(pInfo);
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// decode mb_type
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code = mp4_ShowBits9(pInfo, 4);
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if (code != 0) {
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mb_type = mp4_BVOPmb_type[code].code;
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mp4_FlushBits(pInfo, mp4_BVOPmb_type[code].len);
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} else {
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mp4_Error("Error when decode mb_type of B-VOP macroblock");
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goto Err_1;
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}
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if (modb == 0)
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cbpb = mp4_GetBits9(pInfo, 6);
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if (mb_type != IPPVC_MBTYPE_DIRECT && cbpb != 0)
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mp4_UpdateQuant_B(pInfo, quant);
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}
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dct_type = 0;
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field_prediction = 0;
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if (cbpb != 0)
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dct_type = mp4_GetBit(pInfo);
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if (mb_type != IPPVC_MBTYPE_DIRECT) {
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field_prediction = mp4_GetBit(pInfo);
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if (field_prediction) {
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if (mb_type != IPPVC_MBTYPE_BACKWARD) {
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mb_ftfr = mp4_GetBit(pInfo);
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mb_fbfr = mp4_GetBit(pInfo);
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}
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if (mb_type != IPPVC_MBTYPE_FORWARD) {
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mb_btfr = mp4_GetBit(pInfo);
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mb_bbfr = mp4_GetBit(pInfo);
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}
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}
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}
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// coordinates of current MB for limitation
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dx = colNum * 16;
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dy = rowNum * 16;
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if (mb_type == IPPVC_MBTYPE_FORWARD) {
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mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_FORWARD);
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if (!field_prediction) {
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if (mp4_DecodeMV(pInfo, &mvForwT, fcode_forward) != MP4_STATUS_OK)
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goto Err_1;
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if (quarter_sample) {
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mp4_LimitMVQ(&mvForwT, &mvForw[0], &limitRectL, dx, dy, 16);
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mp4_ComputeChromaMVQ(&mvForw[0], &mvCbCrF);
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mp4_Copy16x16QP_8u(pYp, stepYp, pYc, stepYc, &mvForw[0], 0);
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} else {
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mp4_LimitMV(&mvForwT, &mvForw[0], &limitRectL, dx, dy, 16);
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mp4_ComputeChromaMV(&mvForw[0], &mvCbCrF);
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mp4_Copy16x16HP_8u(pYp, stepYp, pYc, stepYc, &mvForw[0], 0);
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}
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//mvForw[1] = mvForw[2] = mvForw[3] = mvForw[0];
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mvForwB = mvForwT;
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} else {
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mvForwT.dy = (int16_t)mp4_Div2(mvForwT.dy);
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if (mp4_DecodeMV(pInfo, &mvForwT, fcode_forward) != MP4_STATUS_OK)
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goto Err_1;
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mvForwB.dy = (int16_t)mp4_Div2(mvForwB.dy);
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if (mp4_DecodeMV(pInfo, &mvForwB, fcode_forward) != MP4_STATUS_OK)
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goto Err_1;
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if (quarter_sample) {
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mp4_LimitFMVQ(&mvForwT, &mvForw[0], &limitRectL, dx, dy, 16);
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mp4_Copy16x8QP_8u(pYp+(mb_ftfr ? stepYp : 0), stepYp*2, pYc, stepYc*2, &mvForw[0], 0);
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mvForw[0].dx = (int16_t)mp4_Div2(mvForw[0].dx);
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mvForw[0].dy = (int16_t)(mp4_Div2(mvForw[0].dy*2) >> 1);
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mp4_LimitFMVQ(&mvForwB, &mvForw[2], &limitRectL, dx, dy, 16);
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mp4_Copy16x8QP_8u(pYp+(mb_fbfr ? stepYp : 0), stepYp*2, pYc+stepYc, stepYc*2, &mvForw[2], 0);
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mvForw[2].dx = (int16_t)mp4_Div2(mvForw[2].dx);
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mvForw[2].dy = (int16_t)(mp4_Div2(mvForw[2].dy*2) >> 1);
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} else {
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mp4_LimitFMV(&mvForwT, &mvForw[0], &limitRectL, dx, dy, 16);
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mp4_Copy16x8HP_8u(pYp+(mb_ftfr ? stepYp : 0), stepYp*2, pYc, stepYc*2, &mvForw[0], 0);
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mp4_LimitFMV(&mvForwB, &mvForw[2], &limitRectL, dx, dy, 16);
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mp4_Copy16x8HP_8u(pYp+(mb_fbfr ? stepYp : 0), stepYp*2, pYc+stepYc, stepYc*2, &mvForw[2], 0);
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}
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mvForwT.dy <<= 1;
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mvForwB.dy <<= 1;
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//mvForw[1] = mvForw[0];
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//mvForw[3] = mvForw[2];
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mp4_ComputeChromaMV(&mvForw[0], &mvCbCrFFT);
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mp4_ComputeChromaMV(&mvForw[2], &mvCbCrFFB);
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}
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if (mp4_DecodeInterMB(pInfo, coeffMB, quant, cbpb, scan) != MP4_STATUS_OK)
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goto Err_1;
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if (!dct_type) {
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mp4_AddResidual(cbpb & 32, pYc, stepYc, coeffMB);
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mp4_AddResidual(cbpb & 16, pYc+8, stepYc, coeffMB+64);
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mp4_AddResidual(cbpb & 8, pYc+stepYc*8, stepYc, coeffMB+128);
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mp4_AddResidual(cbpb & 4, pYc+stepYc*8+8, stepYc, coeffMB+192);
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} else {
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mp4_AddResidual(cbpb & 32, pYc, stepYc*2, coeffMB);
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mp4_AddResidual(cbpb & 16, pYc+8, stepYc*2, coeffMB+64);
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mp4_AddResidual(cbpb & 8, pYc+stepYc, stepYc*2, coeffMB+128);
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mp4_AddResidual(cbpb & 4, pYc+stepYc+8, stepYc*2, coeffMB+192);
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}
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if (!field_prediction) {
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mp4_MC_HP(cbpb & 2, pCbp, stepCbp, pCbc, stepCbc, coeffMB+256, &mvCbCrF, 0);
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mp4_MC_HP(cbpb & 1, pCrp, stepCrp, pCrc, stepCrc, coeffMB+320, &mvCbCrF, 0);
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} else {
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mp4_Copy8x4HP_8u(pCbp+(mb_ftfr ? stepCbp : 0), stepCbp*2, pCbc, stepCbc*2, &mvCbCrFFT, 0);
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mp4_Copy8x4HP_8u(pCrp+(mb_ftfr ? stepCrp : 0), stepCrp*2, pCrc, stepCrc*2, &mvCbCrFFT, 0);
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mp4_Copy8x4HP_8u(pCbp+(mb_fbfr ? stepCbp : 0), stepCbp*2, pCbc+stepCbc, stepCbc*2, &mvCbCrFFB, 0);
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mp4_Copy8x4HP_8u(pCrp+(mb_fbfr ? stepCrp : 0), stepCrp*2, pCrc+stepCrc, stepCrc*2, &mvCbCrFFB, 0);
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mp4_AddResidual(cbpb & 2, pCbc, stepCbc, coeffMB+256);
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mp4_AddResidual(cbpb & 1, pCrc, stepCrc, coeffMB+320);
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}
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} else if (mb_type == IPPVC_MBTYPE_BACKWARD) {
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mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_BACKWARD);
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if (!field_prediction) {
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if (mp4_DecodeMV(pInfo, &mvBackT, fcode_backward) != MP4_STATUS_OK)
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goto Err_1;
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if (quarter_sample) {
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mp4_LimitMVQ(&mvBackT, &mvBack[0], &limitRectL, dx, dy, 16);
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mp4_ComputeChromaMVQ(&mvBack[0], &mvCbCrB);
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mp4_Copy16x16QP_8u(pYn, stepYn, pYc, stepYc, &mvBack[0], 0);
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} else {
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mp4_LimitMV(&mvBackT, &mvBack[0], &limitRectL, dx, dy, 16);
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mp4_ComputeChromaMV(&mvBack[0], &mvCbCrB);
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mp4_Copy16x16HP_8u(pYn, stepYn, pYc, stepYc, &mvBack[0], 0);
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}
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//mvBack[1] = mvBack[2] = mvBack[3] = mvBack[0];
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mvBackB = mvBackT;
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} else {
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mvBackT.dy = (int16_t)mp4_Div2(mvBackT.dy);
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if (mp4_DecodeMV(pInfo, &mvBackT, fcode_backward) != MP4_STATUS_OK)
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goto Err_1;
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mvBackB.dy = (int16_t)mp4_Div2(mvBackB.dy);
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if (mp4_DecodeMV(pInfo, &mvBackB, fcode_backward) != MP4_STATUS_OK)
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goto Err_1;
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if (quarter_sample) {
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mp4_LimitFMVQ(&mvBackT, &mvBack[0], &limitRectL, dx, dy, 16);
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mp4_Copy16x8QP_8u(pYn+(mb_btfr ? stepYn : 0), stepYn*2, pYc, stepYc*2, &mvBack[0], 0);
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mvBack[0].dx = (int16_t)mp4_Div2(mvBack[0].dx);
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mvBack[0].dy = (int16_t)(mp4_Div2(mvBack[0].dy*2) >> 1);
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mp4_LimitFMVQ(&mvBackB, &mvBack[2], &limitRectL, dx, dy, 16);
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mp4_Copy16x8QP_8u(pYn+(mb_bbfr ? stepYn : 0), stepYn*2, pYc+stepYc, stepYc*2, &mvBack[2], 0);
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mvBack[2].dx = (int16_t)mp4_Div2(mvBack[2].dx);
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mvBack[2].dy = (int16_t)(mp4_Div2(mvBack[2].dy*2) >> 1);
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} else {
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mp4_LimitFMV(&mvBackT, &mvBack[0], &limitRectL, dx, dy, 16);
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mp4_Copy16x8HP_8u(pYn+(mb_btfr ? stepYn : 0), stepYn*2, pYc, stepYc*2, &mvBack[0], 0);
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mp4_LimitFMV(&mvBackB, &mvBack[2], &limitRectL, dx, dy, 16);
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mp4_Copy16x8HP_8u(pYn+(mb_bbfr ? stepYn : 0), stepYn*2, pYc+stepYc, stepYc*2, &mvBack[2], 0);
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}
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mvBackT.dy <<= 1;
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mvBackB.dy <<= 1;
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//mvBack[1] = mvBack[0];
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//mvBack[3] = mvBack[2];
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mp4_ComputeChromaMV(&mvBack[0], &mvCbCrBFT);
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mp4_ComputeChromaMV(&mvBack[2], &mvCbCrBFB);
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}
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if (mp4_DecodeInterMB(pInfo, coeffMB, quant, cbpb, scan) != MP4_STATUS_OK)
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goto Err_1;
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if (!dct_type) {
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mp4_AddResidual(cbpb & 32, pYc, stepYc, coeffMB);
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mp4_AddResidual(cbpb & 16, pYc+8, stepYc, coeffMB+64);
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mp4_AddResidual(cbpb & 8, pYc+stepYc*8, stepYc, coeffMB+128);
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mp4_AddResidual(cbpb & 4, pYc+stepYc*8+8, stepYc, coeffMB+192);
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} else {
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mp4_AddResidual(cbpb & 32, pYc, stepYc*2, coeffMB);
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mp4_AddResidual(cbpb & 16, pYc+8, stepYc*2, coeffMB+64);
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mp4_AddResidual(cbpb & 8, pYc+stepYc, stepYc*2, coeffMB+128);
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mp4_AddResidual(cbpb & 4, pYc+stepYc+8, stepYc*2, coeffMB+192);
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}
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if (!field_prediction) {
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mp4_MC_HP(cbpb & 2, pCbn, stepCbn, pCbc, stepCbc, coeffMB+256, &mvCbCrB, 0);
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mp4_MC_HP(cbpb & 1, pCrn, stepCrn, pCrc, stepCrc, coeffMB+320, &mvCbCrB, 0);
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} else {
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mp4_Copy8x4HP_8u(pCbn+(mb_btfr ? stepCbn : 0), stepCbn*2, pCbc, stepCbc*2, &mvCbCrBFT, 0);
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mp4_Copy8x4HP_8u(pCrn+(mb_btfr ? stepCrn : 0), stepCrn*2, pCrc, stepCrc*2, &mvCbCrBFT, 0);
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mp4_Copy8x4HP_8u(pCbn+(mb_bbfr ? stepCbn : 0), stepCbn*2, pCbc+stepCbc, stepCbc*2, &mvCbCrBFB, 0);
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mp4_Copy8x4HP_8u(pCrn+(mb_bbfr ? stepCrn : 0), stepCrn*2, pCrc+stepCrc, stepCrc*2, &mvCbCrBFB, 0);
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mp4_AddResidual(cbpb & 2, pCbc, stepCbc, coeffMB+256);
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mp4_AddResidual(cbpb & 1, pCrc, stepCrc, coeffMB+320);
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}
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} else if (mb_type == IPPVC_MBTYPE_INTERPOLATE) {
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mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_INTERPOLATE);
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if (!field_prediction) {
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if (mp4_DecodeMV(pInfo, &mvForwT, fcode_forward) != MP4_STATUS_OK)
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goto Err_1;
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if (mp4_DecodeMV(pInfo, &mvBackT, fcode_backward) != MP4_STATUS_OK)
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goto Err_1;
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if (quarter_sample) {
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mp4_LimitMVQ(&mvForwT, &mvForw[0], &limitRectL, dx, dy, 16);
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mp4_ComputeChromaMVQ(&mvForw[0], &mvCbCrF);
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mp4_Copy16x16QP_8u(pYp, stepYp, pYc, stepYc, &mvForw[0], 0);
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mp4_LimitMVQ(&mvBackT, &mvBack[0], &limitRectL, dx, dy, 16);
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mp4_ComputeChromaMVQ(&mvBack[0], &mvCbCrB);
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mp4_Copy16x16QP_8u(pYn, stepYn, tmpMB, 16, &mvBack[0], 0);
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} else {
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mp4_LimitMV(&mvForwT, &mvForw[0], &limitRectL, dx, dy, 16);
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mp4_ComputeChromaMV(&mvForw[0], &mvCbCrF);
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mp4_Copy16x16HP_8u(pYp, stepYp, pYc, stepYc, &mvForw[0], 0);
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mp4_LimitMV(&mvBackT, &mvBack[0], &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMV(&mvBack[0], &mvCbCrB);
|
|
mp4_Copy16x16HP_8u(pYn, stepYn, tmpMB, 16, &mvBack[0], 0);
|
|
}
|
|
//mvForw[1] = mvForw[2] = mvForw[3] = mvForw[0];
|
|
mvForwB = mvForwT;
|
|
//mvBack[1] = mvBack[2] = mvBack[3] = mvBack[0];
|
|
mvBackB = mvBackT;
|
|
} else {
|
|
mvForwT.dy = (int16_t)mp4_Div2(mvForwT.dy);
|
|
if (mp4_DecodeMV(pInfo, &mvForwT, fcode_forward) != MP4_STATUS_OK)
|
|
goto Err_1;
|
|
mvForwB.dy = (int16_t)mp4_Div2(mvForwB.dy);
|
|
if (mp4_DecodeMV(pInfo, &mvForwB, fcode_forward) != MP4_STATUS_OK)
|
|
goto Err_1;
|
|
mvBackT.dy = (int16_t)mp4_Div2(mvBackT.dy);
|
|
if (mp4_DecodeMV(pInfo, &mvBackT, fcode_backward) != MP4_STATUS_OK)
|
|
goto Err_1;
|
|
mvBackB.dy = (int16_t)mp4_Div2(mvBackB.dy);
|
|
if (mp4_DecodeMV(pInfo, &mvBackB, fcode_backward) != MP4_STATUS_OK)
|
|
goto Err_1;
|
|
if (quarter_sample) {
|
|
mp4_LimitFMVQ(&mvForwT, &mvForw[0], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8QP_8u(pYp+(mb_ftfr ? stepYp : 0), stepYp*2, pYc, stepYc*2, &mvForw[0], 0);
|
|
mvForw[0].dx = (int16_t)mp4_Div2(mvForw[0].dx);
|
|
mvForw[0].dy = (int16_t)(mp4_Div2(mvForw[0].dy*2) >> 1);
|
|
mp4_LimitFMVQ(&mvForwB, &mvForw[2], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8QP_8u(pYp+(mb_fbfr ? stepYp : 0), stepYp*2, pYc+stepYc, stepYc*2, &mvForw[2], 0);
|
|
mvForw[2].dx = (int16_t)mp4_Div2(mvForw[2].dx);
|
|
mvForw[2].dy = (int16_t)(mp4_Div2(mvForw[2].dy*2) >> 1);
|
|
mp4_LimitFMVQ(&mvBackT, &mvBack[0], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8QP_8u(pYn+(mb_btfr ? stepYn : 0), stepYn*2, tmpMB, 32, &mvBack[0], 0);
|
|
mvBack[0].dx = (int16_t)mp4_Div2(mvBack[0].dx);
|
|
mvBack[0].dy = (int16_t)(mp4_Div2(mvBack[0].dy*2) >> 1);
|
|
mp4_LimitFMVQ(&mvBackB, &mvBack[2], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8QP_8u(pYn+(mb_bbfr ? stepYn : 0), stepYn*2, tmpMB+16, 32, &mvBack[2], 0);
|
|
mvBack[2].dx = (int16_t)mp4_Div2(mvBack[2].dx);
|
|
mvBack[2].dy = (int16_t)(mp4_Div2(mvBack[2].dy*2) >> 1);
|
|
} else {
|
|
mp4_LimitFMV(&mvForwT, &mvForw[0], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8HP_8u(pYp+(mb_ftfr ? stepYp : 0), stepYp*2, pYc, stepYc*2, &mvForw[0], 0);
|
|
mp4_LimitFMV(&mvForwB, &mvForw[2], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8HP_8u(pYp+(mb_fbfr ? stepYp : 0), stepYp*2, pYc+stepYc, stepYc*2, &mvForw[2], 0);
|
|
mp4_LimitFMV(&mvBackT, &mvBack[0], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8HP_8u(pYn+(mb_btfr ? stepYn : 0), stepYn*2, tmpMB, 32, &mvBack[0], 0);
|
|
mp4_LimitFMV(&mvBackB, &mvBack[2], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8HP_8u(pYn+(mb_bbfr ? stepYn : 0), stepYn*2, tmpMB+16, 32, &mvBack[2], 0);
|
|
}
|
|
mvForwT.dy <<= 1;
|
|
mvForwB.dy <<= 1;
|
|
mvBackT.dy <<= 1;
|
|
mvBackB.dy <<= 1;
|
|
//mvForw[1] = mvForw[0];
|
|
//mvForw[3] = mvForw[2];
|
|
//mvBack[1] = mvBack[0];
|
|
//mvBack[3] = mvBack[2];
|
|
mp4_ComputeChromaMV(&mvForw[0], &mvCbCrFFT);
|
|
mp4_ComputeChromaMV(&mvForw[2], &mvCbCrFFB);
|
|
mp4_ComputeChromaMV(&mvBack[0], &mvCbCrBFT);
|
|
mp4_ComputeChromaMV(&mvBack[2], &mvCbCrBFB);
|
|
}
|
|
ippiAverage16x16_8u_C1IR(tmpMB, 16, pYc, stepYc);
|
|
if (mp4_DecodeInterMB(pInfo, coeffMB, quant, cbpb, scan) != MP4_STATUS_OK)
|
|
goto Err_1;
|
|
if (!dct_type) {
|
|
mp4_AddResidual(cbpb & 32, pYc, stepYc, coeffMB);
|
|
mp4_AddResidual(cbpb & 16, pYc+8, stepYc, coeffMB+64);
|
|
mp4_AddResidual(cbpb & 8, pYc+stepYc*8, stepYc, coeffMB+128);
|
|
mp4_AddResidual(cbpb & 4, pYc+stepYc*8+8, stepYc, coeffMB+192);
|
|
} else {
|
|
mp4_AddResidual(cbpb & 32, pYc, stepYc*2, coeffMB);
|
|
mp4_AddResidual(cbpb & 16, pYc+8, stepYc*2, coeffMB+64);
|
|
mp4_AddResidual(cbpb & 8, pYc+stepYc, stepYc*2, coeffMB+128);
|
|
mp4_AddResidual(cbpb & 4, pYc+stepYc+8, stepYc*2, coeffMB+192);
|
|
}
|
|
if (!field_prediction) {
|
|
mp4_Copy8x8HP_8u(pCbp, stepCbp, pCbc, stepCbc, &mvCbCrF, 0);
|
|
mp4_Copy8x8HP_8u(pCrp, stepCrp, pCrc, stepCrc, &mvCbCrF, 0);
|
|
mp4_Copy8x8HP_8u(pCbn, stepCbn, tmpMB, 8, &mvCbCrB, 0);
|
|
mp4_Copy8x8HP_8u(pCrn, stepCrn, tmpMB+64, 8, &mvCbCrB, 0);
|
|
} else {
|
|
mp4_Copy8x4HP_8u(pCbp+(mb_ftfr ? stepCbp : 0), stepCbp*2, pCbc, stepCbc*2, &mvCbCrFFT, 0);
|
|
mp4_Copy8x4HP_8u(pCrp+(mb_ftfr ? stepCrp : 0), stepCrp*2, pCrc, stepCrc*2, &mvCbCrFFT, 0);
|
|
mp4_Copy8x4HP_8u(pCbp+(mb_fbfr ? stepCbp : 0), stepCbp*2, pCbc+stepCbc, stepCbc*2, &mvCbCrFFB, 0);
|
|
mp4_Copy8x4HP_8u(pCrp+(mb_fbfr ? stepCrp : 0), stepCrp*2, pCrc+stepCrc, stepCrc*2, &mvCbCrFFB, 0);
|
|
mp4_Copy8x4HP_8u(pCbn+(mb_btfr ? stepCbn : 0), stepCbn*2, tmpMB, 16, &mvCbCrBFT, 0);
|
|
mp4_Copy8x4HP_8u(pCrn+(mb_btfr ? stepCrn : 0), stepCrn*2, tmpMB+64, 16, &mvCbCrBFT, 0);
|
|
mp4_Copy8x4HP_8u(pCbn+(mb_bbfr ? stepCbn : 0), stepCbn*2, tmpMB+8, 16, &mvCbCrBFB, 0);
|
|
mp4_Copy8x4HP_8u(pCrn+(mb_bbfr ? stepCrn : 0), stepCrn*2, tmpMB+64+8, 16, &mvCbCrBFB, 0);
|
|
}
|
|
ippiAverage8x8_8u_C1IR(tmpMB, 8, pCbc, stepCbc);
|
|
ippiAverage8x8_8u_C1IR(tmpMB+64, 8, pCrc, stepCrc);
|
|
mp4_AddResidual(cbpb & 2, pCbc, stepCbc, coeffMB+256);
|
|
mp4_AddResidual(cbpb & 1, pCrc, stepCrc, coeffMB+320);
|
|
} else { // IPPVC_MBTYPE_DIRECT
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_DIRECT);
|
|
field_prediction = pMBinfo->field_info & 1;
|
|
if (!field_prediction) {
|
|
// frame direct mode
|
|
if (mp4_DecodeMV_Direct(pInfo, pMBinfo->mv, mvForw, mvBack, TRB, TRD, modb, pMBinfo->type) != MP4_STATUS_OK)
|
|
goto Err_1;
|
|
if (quarter_sample) {
|
|
mp4_ComputeChroma4MVQ(mvForw, &mvCbCrF);
|
|
mp4_Limit4MVQ(mvForw, mvForw, &limitRectL, dx, dy, 8);
|
|
mp4_ComputeChroma4MVQ(mvBack, &mvCbCrB);
|
|
mp4_Limit4MVQ(mvBack, mvBack, &limitRectL, dx, dy, 8);
|
|
pc = pYc;
|
|
pr = pYp;
|
|
pn = pYn;
|
|
mp4_Copy8x8QP_8u(pr, stepYp, pc, stepYc, &mvForw[0], 0);
|
|
mp4_Copy8x8QP_8u(pn, stepYn, tmpMB, 16, &mvBack[0], 0);
|
|
mp4_Copy8x8QP_8u(pr+8, stepYp, pc+8, stepYc, &mvForw[1], 0);
|
|
mp4_Copy8x8QP_8u(pn+8, stepYn, tmpMB+8, 16, &mvBack[1], 0);
|
|
pc = pYc + stepYc * 8;
|
|
pr = pYp + stepYp * 8;
|
|
pn = pYn + stepYn * 8;
|
|
mp4_Copy8x8QP_8u(pr, stepYp, pc, stepYc, &mvForw[2], 0);
|
|
mp4_Copy8x8QP_8u(pn, stepYn, tmpMB+128, 16, &mvBack[2], 0);
|
|
mp4_Copy8x8QP_8u(pr+8, stepYp, pc+8, stepYc, &mvForw[3], 0);
|
|
mp4_Copy8x8QP_8u(pn+8, stepYn, tmpMB+136, 16, &mvBack[3], 0);
|
|
} else {
|
|
mp4_ComputeChroma4MV(mvForw, &mvCbCrF);
|
|
mp4_Limit4MV(mvForw, mvForw, &limitRectL, dx, dy, 8);
|
|
mp4_ComputeChroma4MV(mvBack, &mvCbCrB);
|
|
mp4_Limit4MV(mvBack, mvBack, &limitRectL, dx, dy, 8);
|
|
pc = pYc;
|
|
pr = pYp;
|
|
pn = pYn;
|
|
mp4_Copy8x8HP_8u(pr, stepYp, pc, stepYc, &mvForw[0], 0);
|
|
mp4_Copy8x8HP_8u(pn, stepYn, tmpMB, 16, &mvBack[0], 0);
|
|
mp4_Copy8x8HP_8u(pr+8, stepYp, pc+8, stepYc, &mvForw[1], 0);
|
|
mp4_Copy8x8HP_8u(pn+8, stepYn, tmpMB+8, 16, &mvBack[1], 0);
|
|
pc = pYc + stepYc * 8;
|
|
pr = pYp + stepYp * 8;
|
|
pn = pYn + stepYn * 8;
|
|
mp4_Copy8x8HP_8u(pr, stepYp, pc, stepYc, &mvForw[2], 0);
|
|
mp4_Copy8x8HP_8u(pn, stepYn, tmpMB+128, 16, &mvBack[2], 0);
|
|
mp4_Copy8x8HP_8u(pr+8, stepYp, pc+8, stepYc, &mvForw[3], 0);
|
|
mp4_Copy8x8HP_8u(pn+8, stepYn, tmpMB+136, 16, &mvBack[3], 0);
|
|
}
|
|
mp4_LimitMV(&mvCbCrF, &mvCbCrF, &limitRectC, dx >> 1, dy >> 1, 8);
|
|
mp4_LimitMV(&mvCbCrB, &mvCbCrB, &limitRectC, dx >> 1, dy >> 1, 8);
|
|
} else {
|
|
mb_ftfr = (pMBinfo->field_info >> 1) & 1;
|
|
mb_fbfr = (pMBinfo->field_info >> 2) & 1;
|
|
if (mp4_DecodeMV_DirectField(pInfo, mb_ftfr, mb_fbfr, &mvField[0], &mvField[1], &mvForw[0], &mvForw[2], &mvBack[0], &mvBack[2], TRB, TRD, modb) != MP4_STATUS_OK)
|
|
goto Err_1;
|
|
if (quarter_sample) {
|
|
mp4_LimitFMVQ(&mvForw[0], &mvForw[0], &limitRectL, dx, dy, 16);
|
|
mp4_LimitFMVQ(&mvForw[2], &mvForw[2], &limitRectL, dx, dy, 16);
|
|
mp4_LimitFMVQ(&mvBack[0], &mvBack[0], &limitRectL, dx, dy, 16);
|
|
mp4_LimitFMVQ(&mvBack[2], &mvBack[2], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8QP_8u(pYp+(mb_ftfr ? stepYp : 0), stepYp*2, pYc, stepYc*2, &mvForw[0], 0);
|
|
mp4_Copy16x8QP_8u(pYp+(mb_fbfr ? stepYp : 0), stepYp*2, pYc+stepYc, stepYc*2, &mvForw[2], 0);
|
|
mp4_Copy16x8QP_8u(pYn/*+stepYn*mb_btfr*/, stepYn*2, tmpMB, 32, &mvBack[0], 0);
|
|
mp4_Copy16x8QP_8u(pYn+stepYn/**mb_bbfr*/, stepYn*2, tmpMB+16, 32, &mvBack[2], 0);
|
|
mvForw[0].dx = (int16_t)mp4_Div2(mvForw[0].dx);
|
|
mvForw[0].dy = (int16_t)(mp4_Div2(mvForw[0].dy*2) >> 1);
|
|
mvForw[2].dx = (int16_t)mp4_Div2(mvForw[2].dx);
|
|
mvForw[2].dy = (int16_t)(mp4_Div2(mvForw[2].dy*2) >> 1);
|
|
mvBack[0].dx = (int16_t)mp4_Div2(mvBack[0].dx);
|
|
mvBack[0].dy = (int16_t)(mp4_Div2(mvBack[0].dy*2) >> 1);
|
|
mvBack[2].dx = (int16_t)mp4_Div2(mvBack[2].dx);
|
|
mvBack[2].dy = (int16_t)(mp4_Div2(mvBack[2].dy*2) >> 1);
|
|
} else {
|
|
mp4_LimitFMV(&mvForw[0], &mvForw[0], &limitRectL, dx, dy, 16);
|
|
mp4_LimitFMV(&mvForw[2], &mvForw[2], &limitRectL, dx, dy, 16);
|
|
mp4_LimitFMV(&mvBack[0], &mvBack[0], &limitRectL, dx, dy, 16);
|
|
mp4_LimitFMV(&mvBack[2], &mvBack[2], &limitRectL, dx, dy, 16);
|
|
mp4_Copy16x8HP_8u(pYp+(mb_ftfr ? stepYp : 0), stepYp*2, pYc, stepYc*2, &mvForw[0], 0);
|
|
mp4_Copy16x8HP_8u(pYp+(mb_fbfr ? stepYp : 0), stepYp*2, pYc+stepYc, stepYc*2, &mvForw[2], 0);
|
|
mp4_Copy16x8HP_8u(pYn/*+stepYn*mb_btfr*/, stepYn*2, tmpMB, 32, &mvBack[0], 0);
|
|
mp4_Copy16x8HP_8u(pYn+stepYn/**mb_bbfr*/, stepYn*2, tmpMB+16, 32, &mvBack[2], 0);
|
|
}
|
|
mp4_ComputeChromaMV(&mvForw[0], &mvCbCrFFT);
|
|
mp4_ComputeChromaMV(&mvForw[2], &mvCbCrFFB);
|
|
mp4_ComputeChromaMV(&mvBack[0], &mvCbCrBFT);
|
|
mp4_ComputeChromaMV(&mvBack[2], &mvCbCrBFB);
|
|
}
|
|
ippiAverage16x16_8u_C1IR(tmpMB, 16, pYc, stepYc);
|
|
if (mp4_DecodeInterMB(pInfo, coeffMB, quant, cbpb, scan) != MP4_STATUS_OK)
|
|
goto Err_1;
|
|
if (!dct_type) {
|
|
mp4_AddResidual(cbpb & 32, pYc, stepYc, coeffMB);
|
|
mp4_AddResidual(cbpb & 16, pYc+8, stepYc, coeffMB+64);
|
|
mp4_AddResidual(cbpb & 8, pYc+stepYc*8, stepYc, coeffMB+128);
|
|
mp4_AddResidual(cbpb & 4, pYc+stepYc*8+8, stepYc, coeffMB+192);
|
|
} else {
|
|
mp4_AddResidual(cbpb & 32, pYc, stepYc*2, coeffMB);
|
|
mp4_AddResidual(cbpb & 16, pYc+8, stepYc*2, coeffMB+64);
|
|
mp4_AddResidual(cbpb & 8, pYc+stepYc, stepYc*2, coeffMB+128);
|
|
mp4_AddResidual(cbpb & 4, pYc+stepYc+8, stepYc*2, coeffMB+192);
|
|
}
|
|
if (!field_prediction) {
|
|
mp4_Copy8x8HP_8u(pCbp, stepCbp, pCbc, stepCbc, &mvCbCrF, 0);
|
|
mp4_Copy8x8HP_8u(pCrp, stepCrp, pCrc, stepCrc, &mvCbCrF, 0);
|
|
mp4_Copy8x8HP_8u(pCbn, stepCbn, tmpMB, 8, &mvCbCrB, 0);
|
|
mp4_Copy8x8HP_8u(pCrn, stepCrn, tmpMB+64, 8, &mvCbCrB, 0);
|
|
} else {
|
|
mp4_Copy8x4HP_8u(pCbp+(mb_ftfr ? stepCbp : 0), stepCbp*2, pCbc, stepCbc*2, &mvCbCrFFT, 0);
|
|
mp4_Copy8x4HP_8u(pCrp+(mb_ftfr ? stepCrp : 0), stepCrp*2, pCrc, stepCrc*2, &mvCbCrFFT, 0);
|
|
mp4_Copy8x4HP_8u(pCbp+(mb_fbfr ? stepCbp : 0), stepCbp*2, pCbc+stepCbc, stepCbc*2, &mvCbCrFFB, 0);
|
|
mp4_Copy8x4HP_8u(pCrp+(mb_fbfr ? stepCrp : 0), stepCrp*2, pCrc+stepCrc, stepCrc*2, &mvCbCrFFB, 0);
|
|
mp4_Copy8x4HP_8u(pCbn/*+(mb_btfr ? stepCbn : 0)*/, stepCbn*2, tmpMB, 16, &mvCbCrBFT, 0);
|
|
mp4_Copy8x4HP_8u(pCrn/*+(mb_btfr ? stepCrn : 0)*/, stepCrn*2, tmpMB+64, 16, &mvCbCrBFT, 0);
|
|
mp4_Copy8x4HP_8u(pCbn+/*(mb_bbfr ? */stepCbn/* : 0)*/, stepCbn*2, tmpMB+8, 16, &mvCbCrBFB, 0);
|
|
mp4_Copy8x4HP_8u(pCrn+/*(mb_bbfr ? */stepCrn/* : 0)*/, stepCrn*2, tmpMB+64+8, 16, &mvCbCrBFB, 0);
|
|
}
|
|
ippiAverage8x8_8u_C1IR(tmpMB, 8, pCbc, stepCbc);
|
|
ippiAverage8x8_8u_C1IR(tmpMB+64, 8, pCrc, stepCrc);
|
|
mp4_AddResidual(cbpb & 2, pCbc, stepCbc, coeffMB+256);
|
|
mp4_AddResidual(cbpb & 1, pCrc, stepCrc, coeffMB+320);
|
|
}
|
|
}
|
|
//mbCurr ++;
|
|
mbInVideoPacket ++;
|
|
colNum ++;
|
|
pMBinfo ++;
|
|
mvField += 2;
|
|
if (colNum == mbPerRow) {
|
|
colNum = 0;
|
|
rowNum ++;
|
|
if (rowNum == mbPerCol)
|
|
return sts;
|
|
pYc += (2 * MP4_NUM_EXT_MB + 1) * 16 + (stepYc << 4) - stepYc;
|
|
pCbc += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCbc << 3) - stepCbc;
|
|
pCrc += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCrc << 3) - stepCrc;
|
|
pYp += (2 * MP4_NUM_EXT_MB + 1) * 16 + (stepYp << 4) - stepYp;
|
|
pCbp += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCbp << 3) - stepCbp;
|
|
pCrp += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCrp << 3) - stepCrp;
|
|
pYn += (2 * MP4_NUM_EXT_MB + 1) * 16 + (stepYn << 4) - stepYn;
|
|
pCbn += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCbn << 3) - stepCbn;
|
|
pCrn += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCrn << 3) - stepCrn;
|
|
// reset MV predictors at new row
|
|
mvForwT.dx = mvForwT.dy = mvBackT.dx = mvBackT.dy = mvForwB.dx = mvForwB.dy = mvBackB.dx = mvBackB.dy = 0;
|
|
} else {
|
|
pYc += 16; pCrc += 8; pCbc += 8;
|
|
pYp += 16; pCrp += 8; pCbp += 8;
|
|
pYn += 16; pCrn += 8; pCbn += 8;
|
|
}
|
|
if (!pInfo->VisualObject.VideoObject.resync_marker_disable) {
|
|
int32_t found;
|
|
ErrRet_1:
|
|
if (mp4_CheckDecodeVideoPacket(pInfo, &found) == MP4_STATUS_OK) {
|
|
if (found) {
|
|
quant = pInfo->VisualObject.VideoObject.VideoObjectPlane.quant_scale;
|
|
mbCurr = pInfo->VisualObject.VideoObject.VideoObjectPlane.macroblock_num;
|
|
mp4_CopyMacroBlocks(pInfo->VisualObject.rFrame, pInfo->VisualObject.cFrame, mbPerRow, rowNum, colNum, mbCurr - rowNum * mbPerRow - colNum);
|
|
rowNum = mbCurr / mbPerRow;
|
|
colNum = mbCurr % mbPerRow;
|
|
pYc = pInfo->VisualObject.cFrame->pY + (rowNum * stepYc + colNum) * 16; pCbc = pInfo->VisualObject.cFrame->pCb + (rowNum * stepCbc + colNum) * 8; pCrc = pInfo->VisualObject.cFrame->pCr + (rowNum * stepCrc + colNum) * 8;
|
|
pYp = pInfo->VisualObject.rFrame->pY + (rowNum * stepYp + colNum) * 16; pCbp = pInfo->VisualObject.rFrame->pCb + (rowNum * stepCbp + colNum) * 8; pCrp = pInfo->VisualObject.rFrame->pCr + (rowNum * stepCrp + colNum) * 8;
|
|
pYn = pInfo->VisualObject.nFrame->pY + (rowNum * stepYn + colNum) * 16; pCbn = pInfo->VisualObject.nFrame->pCb + (rowNum * stepCbn + colNum) * 8; pCrn = pInfo->VisualObject.nFrame->pCr + (rowNum * stepCrn + colNum) * 8;
|
|
pMBinfo = pInfo->VisualObject.VideoObject.MBinfo + mbCurr;
|
|
break;
|
|
}
|
|
} else
|
|
goto Err_1;
|
|
}
|
|
}
|
|
}
|
|
Err_1:
|
|
sts = MP4_STATUS_ERROR;
|
|
if (pInfo->stopOnErr)
|
|
return sts;
|
|
if (pInfo->VisualObject.VideoObject.resync_marker_disable || !mp4_SeekResyncMarker(pInfo))
|
|
{
|
|
mp4_CopyMacroBlocks(pInfo->VisualObject.rFrame, pInfo->VisualObject.cFrame, mbPerRow, rowNum, colNum, pInfo->VisualObject.VideoObject.MacroBlockPerVOP - rowNum * mbPerRow - colNum);
|
|
return sts;
|
|
}
|
|
goto ErrRet_1;
|
|
}
|
|
// decode usual B-VOP
|
|
for (;;) {
|
|
IppMotionVector mvCbCrF, mvCbCrB, mvForw, mvBack, mvForwLim, mvBackLim;
|
|
|
|
mbInVideoPacket = 0;
|
|
// reset MV predictors at new VideoPacket
|
|
mvForw.dx = mvForw.dy = mvBack.dx = mvBack.dy = 0;
|
|
// decode B-VOP macroblocks
|
|
for (;;) {
|
|
if (pMBinfo->not_coded) {
|
|
ippiCopy16x16_8u_C1R(pYp, stepYp, pYc, stepYc);
|
|
ippiCopy8x8_8u_C1R(pCbp, stepCbp, pCbc, stepCbc);
|
|
ippiCopy8x8_8u_C1R(pCrp, stepCrp, pCrc, stepCrc);
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_NOTCODED);
|
|
} else {
|
|
cbpb = 0;
|
|
if (mp4_GetBit(pInfo)) {
|
|
modb = 2;
|
|
mb_type = IPPVC_MBTYPE_DIRECT;
|
|
} else {
|
|
modb = mp4_GetBit(pInfo);
|
|
// decode mb_type
|
|
code = mp4_ShowBits9(pInfo, 4);
|
|
if (code != 0) {
|
|
mb_type = mp4_BVOPmb_type[code].code;
|
|
mp4_FlushBits(pInfo, mp4_BVOPmb_type[code].len);
|
|
} else {
|
|
mp4_Error("Error when decode mb_type of B-VOP macroblock");
|
|
goto Err_2;
|
|
}
|
|
if (modb == 0)
|
|
cbpb = mp4_GetBits9(pInfo, 6);
|
|
if (mb_type != IPPVC_MBTYPE_DIRECT && cbpb != 0)
|
|
mp4_UpdateQuant_B(pInfo, quant);
|
|
}
|
|
// coordinates of current MB for limitation
|
|
dx = colNum * 16;
|
|
dy = rowNum * 16;
|
|
if (mb_type == IPPVC_MBTYPE_FORWARD) {
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_FORWARD);
|
|
if (mp4_DecodeMV(pInfo, &mvForw, fcode_forward) != MP4_STATUS_OK)
|
|
goto Err_2;
|
|
if (quarter_sample) {
|
|
mp4_LimitMVQ(&mvForw, &mvForwLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMVQ(&mvForwLim, &mvCbCrF);
|
|
mp4_Copy16x16QP_8u(pYp, stepYp, pYc, stepYc, &mvForwLim, 0);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 32, pYc, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 16, pYc+8, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 8, pYc+8*stepYc, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 4, pYc+8*stepYc+8, stepYc, Err_2);
|
|
} else {
|
|
mp4_LimitMV(&mvForw, &mvForwLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMV(&mvForwLim, &mvCbCrF);
|
|
if (cbpb & 60) {
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 32, pYp, stepYp, pYc, stepYc, mvForwLim, 0, Err_2);
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 16, pYp+8, stepYp, pYc+8, stepYc, mvForwLim, 0, Err_2);
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 8, pYp+8*stepYp, stepYp, pYc+8*stepYc, stepYc, mvForwLim, 0, Err_2);
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 4, pYp+8*stepYp+8, stepYp, pYc+8*stepYc+8, stepYc, mvForwLim, 0, Err_2);
|
|
} else {
|
|
mp4_Copy16x16HP_8u(pYp, stepYp, pYc, stepYc, &mvForwLim, 0);
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nB_INTER_NC);
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nB_INTER_NC);
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nB_INTER_NC);
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nB_INTER_NC);
|
|
}
|
|
}
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 2, pCbp, stepCbp, pCbc, stepCbc, mvCbCrF, 0, Err_2);
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 1, pCrp, stepCrp, pCrc, stepCrc, mvCbCrF, 0, Err_2);
|
|
} else if (mb_type == IPPVC_MBTYPE_BACKWARD) {
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_BACKWARD);
|
|
if (mp4_DecodeMV(pInfo, &mvBack, fcode_backward) != MP4_STATUS_OK)
|
|
goto Err_2;
|
|
if (quarter_sample) {
|
|
mp4_LimitMVQ(&mvBack, &mvBackLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMVQ(&mvBackLim, &mvCbCrB);
|
|
mp4_Copy16x16QP_8u(pYn, stepYn, pYc, stepYc, &mvBackLim, 0);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 32, pYc, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 16, pYc+8, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 8, pYc+8*stepYc, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 4, pYc+8*stepYc+8, stepYc, Err_2);
|
|
} else {
|
|
mp4_LimitMV(&mvBack, &mvBackLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMV(&mvBackLim, &mvCbCrB);
|
|
if (cbpb & 60) {
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 32, pYn, stepYn, pYc, stepYc, mvBackLim, 0, Err_2);
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 16, pYn+8, stepYn, pYc+8, stepYc, mvBackLim, 0, Err_2);
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 8, pYn+8*stepYn, stepYp, pYc+8*stepYc, stepYc, mvBackLim, 0, Err_2);
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 4, pYn+8*stepYn+8, stepYp, pYc+8*stepYc+8, stepYc, mvBackLim, 0, Err_2);
|
|
} else {
|
|
mp4_Copy16x16HP_8u(pYn, stepYn, pYc, stepYc, &mvBackLim, 0);
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nB_INTER_NC);
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nB_INTER_NC);
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nB_INTER_NC);
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nB_INTER_NC);
|
|
}
|
|
}
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 2, pCbn, stepCbn, pCbc, stepCbc, mvCbCrB, 0, Err_2);
|
|
mp4_DecodeMCBlockInter_MPEG4(cbpb & 1, pCrn, stepCrn, pCrc, stepCrc, mvCbCrB, 0, Err_2);
|
|
}
|
|
else if (mb_type == IPPVC_MBTYPE_INTERPOLATE)
|
|
{
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_INTERPOLATE);
|
|
if (mp4_DecodeMV(pInfo, &mvForw, fcode_forward) != MP4_STATUS_OK)
|
|
goto Err_2;
|
|
if (mp4_DecodeMV(pInfo, &mvBack, fcode_backward) != MP4_STATUS_OK)
|
|
goto Err_2;
|
|
if (quarter_sample)
|
|
{
|
|
mp4_LimitMVQ(&mvForw, &mvForwLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMVQ(&mvForwLim, &mvCbCrF);
|
|
mp4_Copy16x16QP_8u(pYp, stepYp, pYc, stepYc, &mvForwLim, 0);
|
|
mp4_LimitMVQ(&mvBack, &mvBackLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMVQ(&mvBackLim, &mvCbCrB);
|
|
mp4_Copy16x16QP_8u(pYn, stepYn, tmpMB, 16, &mvBackLim, 0);
|
|
}
|
|
else
|
|
{
|
|
mp4_LimitMV(&mvForw, &mvForwLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMV(&mvForwLim, &mvCbCrF);
|
|
mp4_Copy16x16HP_8u(pYp, stepYp, pYc, stepYc, &mvForwLim, 0);
|
|
mp4_LimitMV(&mvBack, &mvBackLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMV(&mvBackLim, &mvCbCrB);
|
|
mp4_Copy16x16HP_8u(pYn, stepYn, tmpMB, 16, &mvBackLim, 0);
|
|
}
|
|
ippiAverage16x16_8u_C1IR(tmpMB, 16, pYc, stepYc);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 32, pYc, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 16, pYc+8, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 8, pYc+8*stepYc, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 4, pYc+8*stepYc+8, stepYc, Err_2);
|
|
mp4_Copy8x8HP_8u(pCbp, stepCbp, pCbc, stepCbc, &mvCbCrF, 0);
|
|
mp4_Copy8x8HP_8u(pCbn, stepCbn, tmpMB, 8, &mvCbCrB, 0);
|
|
ippiAverage8x8_8u_C1IR(tmpMB, 8, pCbc, stepCbc);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 2, pCbc, stepCbc, Err_2);
|
|
mp4_Copy8x8HP_8u(pCrp, stepCrp, pCrc, stepCrc, &mvCbCrF, 0);
|
|
mp4_Copy8x8HP_8u(pCrn, stepCrn, tmpMB, 8, &mvCbCrB, 0);
|
|
ippiAverage8x8_8u_C1IR(tmpMB, 8, pCrc, stepCrc);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 1, pCrc, stepCrc, Err_2);
|
|
}
|
|
else
|
|
{ // IPPVC_MBTYPE_DIRECT
|
|
IppMotionVector mvForw[4], mvBack[4], mvForwLim[4], mvBackLim[4];
|
|
|
|
mp4_StatisticInc_(&pInfo->VisualObject.Statistic.nMB_DIRECT);
|
|
//f MVs of collocated block of recently decoded I or P frame used in Direct mode
|
|
if (mp4_DecodeMV_Direct(pInfo, pMBinfo->mv, mvForw, mvBack, TRB, TRD, modb, pMBinfo->type) != MP4_STATUS_OK)
|
|
goto Err_2;
|
|
if (quarter_sample)
|
|
{
|
|
mp4_Limit4MVQ(mvForw, mvForwLim, &limitRectL, dx, dy, 8);
|
|
mp4_ComputeChroma4MVQ(mvForw, &mvCbCrF);
|
|
mp4_Limit4MVQ(mvBack, mvBackLim, &limitRectL, dx, dy, 8);
|
|
mp4_ComputeChroma4MVQ(mvBack, &mvCbCrB);
|
|
mp4_Copy8x8QP_8u(pYp, stepYp, pYc, stepYc, &mvForwLim[0], 0);
|
|
mp4_Copy8x8QP_8u(pYn, stepYn, tmpMB, 16, &mvBackLim[0], 0);
|
|
mp4_Copy8x8QP_8u(pYp+8, stepYp, pYc+8, stepYc, &mvForwLim[1], 0);
|
|
mp4_Copy8x8QP_8u(pYn+8, stepYn, tmpMB+8, 16, &mvBackLim[1], 0);
|
|
mp4_Copy8x8QP_8u(pYp+8*stepYp, stepYp, pYc+8*stepYc, stepYc, &mvForwLim[2], 0);
|
|
mp4_Copy8x8QP_8u(pYn+8*stepYn, stepYn, tmpMB+8*16, 16, &mvBackLim[2], 0);
|
|
mp4_Copy8x8QP_8u(pYp+8*stepYp+8, stepYp, pYc+8*stepYc+8, stepYc, &mvForwLim[3], 0);
|
|
mp4_Copy8x8QP_8u(pYn+8*stepYn+8, stepYn, tmpMB+8*16+8, 16, &mvBackLim[3], 0);
|
|
}
|
|
else
|
|
{
|
|
if (pMBinfo->type == IPPVC_MBTYPE_INTER4V) {
|
|
mp4_Limit4MV(mvForw, mvForwLim, &limitRectL, dx, dy, 8);
|
|
mp4_ComputeChroma4MV(mvForw, &mvCbCrF);
|
|
mp4_Limit4MV(mvBack, mvBackLim, &limitRectL, dx, dy, 8);
|
|
mp4_ComputeChroma4MV(mvBack, &mvCbCrB);
|
|
mp4_Copy8x8HP_8u(pYp, stepYp, pYc, stepYc, &mvForwLim[0], 0);
|
|
mp4_Copy8x8HP_8u(pYn, stepYn, tmpMB, 16, &mvBackLim[0], 0);
|
|
mp4_Copy8x8HP_8u(pYp+8, stepYp, pYc+8, stepYc, &mvForwLim[1], 0);
|
|
mp4_Copy8x8HP_8u(pYn+8, stepYn, tmpMB+8, 16, &mvBackLim[1], 0);
|
|
mp4_Copy8x8HP_8u(pYp+8*stepYp, stepYp, pYc+8*stepYc, stepYc, &mvForwLim[2], 0);
|
|
mp4_Copy8x8HP_8u(pYn+8*stepYn, stepYn, tmpMB+8*16, 16, &mvBackLim[2], 0);
|
|
mp4_Copy8x8HP_8u(pYp+8*stepYp+8, stepYp, pYc+8*stepYc+8, stepYc, &mvForwLim[3], 0);
|
|
mp4_Copy8x8HP_8u(pYn+8*stepYn+8, stepYn, tmpMB+8*16+8, 16, &mvBackLim[3], 0);
|
|
}
|
|
else
|
|
{
|
|
mp4_LimitMV(mvForw, mvForwLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMV(mvForwLim, &mvCbCrF);
|
|
mp4_LimitMV(mvBack, mvBackLim, &limitRectL, dx, dy, 16);
|
|
mp4_ComputeChromaMV(mvBackLim, &mvCbCrB);
|
|
mp4_Copy16x16HP_8u(pYp, stepYp, pYc, stepYc, &mvForwLim[0], 0);
|
|
mp4_Copy16x16HP_8u(pYn, stepYn, tmpMB, 16, &mvBackLim[0], 0);
|
|
}
|
|
}
|
|
ippiAverage16x16_8u_C1IR(tmpMB, 16, pYc, stepYc);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 32, pYc, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 16, pYc+8, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 8, pYc+8*stepYc, stepYc, Err_2);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 4, pYc+8*stepYc+8, stepYc, Err_2);
|
|
mp4_LimitMV(&mvCbCrF, &mvCbCrF, &limitRectC, dx >> 1, dy >> 1, 8);
|
|
mp4_LimitMV(&mvCbCrB, &mvCbCrB, &limitRectC, dx >> 1, dy >> 1, 8);
|
|
mp4_Copy8x8HP_8u(pCbp, stepCbp, pCbc, stepCbc, &mvCbCrF, 0);
|
|
mp4_Copy8x8HP_8u(pCbn, stepCbn, tmpMB, 8, &mvCbCrB, 0);
|
|
ippiAverage8x8_8u_C1IR(tmpMB, 8, pCbc, stepCbc);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 2, pCbc, stepCbc, Err_2);
|
|
mp4_Copy8x8HP_8u(pCrp, stepCrp, pCrc, stepCrc, &mvCbCrF, 0);
|
|
mp4_Copy8x8HP_8u(pCrn, stepCrn, tmpMB, 8, &mvCbCrB, 0);
|
|
ippiAverage8x8_8u_C1IR(tmpMB, 8, pCrc, stepCrc);
|
|
mp4_DecodeReconBlockInter_MPEG4(cbpb & 1, pCrc, stepCrc, Err_2);
|
|
}
|
|
}
|
|
//mbCurr ++;
|
|
mbInVideoPacket ++;
|
|
colNum ++;
|
|
pMBinfo ++;
|
|
if (colNum == mbPerRow)
|
|
{
|
|
colNum = 0;
|
|
rowNum ++;
|
|
if (rowNum == mbPerCol)
|
|
return sts;
|
|
pYc += (2 * MP4_NUM_EXT_MB + 1) * 16 + (stepYc << 4) - stepYc;
|
|
pCbc += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCbc << 3) - stepCbc;
|
|
pCrc += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCrc << 3) - stepCrc;
|
|
pYp += (2 * MP4_NUM_EXT_MB + 1) * 16 + (stepYp << 4) - stepYp;
|
|
pCbp += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCbp << 3) - stepCbp;
|
|
pCrp += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCrp << 3) - stepCrp;
|
|
pYn += (2 * MP4_NUM_EXT_MB + 1) * 16 + (stepYn << 4) - stepYn;
|
|
pCbn += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCbn << 3) - stepCbn;
|
|
pCrn += (2 * MP4_NUM_EXT_MB + 1) * 8 + (stepCrn << 3) - stepCrn;
|
|
// reset MV predictors at new row
|
|
mvForw.dx = mvForw.dy = mvBack.dx = mvBack.dy = 0;
|
|
}
|
|
else
|
|
{
|
|
pYc += 16; pCrc += 8; pCbc += 8;
|
|
pYp += 16; pCrp += 8; pCbp += 8;
|
|
pYn += 16; pCrn += 8; pCbn += 8;
|
|
}
|
|
if (!pInfo->VisualObject.VideoObject.resync_marker_disable)
|
|
{
|
|
int32_t found;
|
|
ErrRet_2:
|
|
if (mp4_CheckDecodeVideoPacket(pInfo, &found) == MP4_STATUS_OK)
|
|
{
|
|
if (found)
|
|
{
|
|
quant = pInfo->VisualObject.VideoObject.VideoObjectPlane.quant_scale;
|
|
mbCurr = pInfo->VisualObject.VideoObject.VideoObjectPlane.macroblock_num;
|
|
mp4_CopyMacroBlocks(pInfo->VisualObject.rFrame, pInfo->VisualObject.cFrame, mbPerRow, rowNum, colNum, mbCurr - rowNum * mbPerRow - colNum);
|
|
rowNum = mbCurr / mbPerRow;
|
|
colNum = mbCurr % mbPerRow;
|
|
pYc = pInfo->VisualObject.cFrame->pY + (rowNum * stepYc + colNum) * 16; pCbc = pInfo->VisualObject.cFrame->pCb + (rowNum * stepCbc + colNum) * 8; pCrc = pInfo->VisualObject.cFrame->pCr + (rowNum * stepCrc + colNum) * 8;
|
|
pYp = pInfo->VisualObject.rFrame->pY + (rowNum * stepYp + colNum) * 16; pCbp = pInfo->VisualObject.rFrame->pCb + (rowNum * stepCbp + colNum) * 8; pCrp = pInfo->VisualObject.rFrame->pCr + (rowNum * stepCrp + colNum) * 8;
|
|
pYn = pInfo->VisualObject.nFrame->pY + (rowNum * stepYn + colNum) * 16; pCbn = pInfo->VisualObject.nFrame->pCb + (rowNum * stepCbn + colNum) * 8; pCrn = pInfo->VisualObject.nFrame->pCr + (rowNum * stepCrn + colNum) * 8;
|
|
pMBinfo = pInfo->VisualObject.VideoObject.MBinfo + mbCurr;
|
|
break;
|
|
}
|
|
}
|
|
else
|
|
goto Err_2;
|
|
}
|
|
}
|
|
}
|
|
Err_2:
|
|
sts = MP4_STATUS_ERROR;
|
|
if (pInfo->stopOnErr)
|
|
return sts;
|
|
if (pInfo->VisualObject.VideoObject.resync_marker_disable || !mp4_SeekResyncMarker(pInfo))
|
|
{
|
|
mp4_CopyMacroBlocks(pInfo->VisualObject.rFrame, pInfo->VisualObject.cFrame, mbPerRow, rowNum, colNum, pInfo->VisualObject.VideoObject.MacroBlockPerVOP - rowNum * mbPerRow - colNum);
|
|
return sts;
|
|
}
|
|
goto ErrRet_2;
|
|
}
|
|
|