encoder.cpp

jpeg and mpeg 编解码技术源代码

			GetIVal(&par, "Sprite.Points", iObj, &rgiNumPnts[iObj]);
			fatal_error("Sprite.Points must lie in the range -1 to 4", rgiNumPnts[iObj]>=-1 && rgiNumPnts[iObj]<5);

			GetSVal(&par, "Sprite.Mode", iObj, &pchTmp);
			if(strcmp(pchTmp, "Basic")==0)
				rgSpriteMode[iObj] = BASIC_SPRITE;
			else if(strcmp(pchTmp, "LowLatency")==0)
				rgSpriteMode[iObj] = LOW_LATENCY;
			else if(strcmp(pchTmp, "PieceObject")==0)
				rgSpriteMode[iObj] = PIECE_OBJECT;
			else if(strcmp(pchTmp, "PieceUpdate")==0)
				rgSpriteMode[iObj] = PIECE_UPDATE;
			else
				fatal_error("Unkown value for Sprite.Mode");

			if(rguiSpriteUsage[iObj]==0)
			{
				rgiNumPnts[iObj] = -1;
				//rgSpriteMode[iObj] = -1;
			}

			readBoolParam(&par, "Trace.CreateFile.Enable", iObj, &rgbTrace[iObj]);
			readBoolParam(&par, "Trace.DetailedDump.Enable", iObj, &rgbDumpMB[iObj]);

#ifndef __TRACE_AND_STATS_
			if(rgbTrace[iObj])
			{
				printf("Warning: this encoder will not generate trace information.\n");
				printf("If you want trace information, re-compile with __TRACE_AND_STATS_ defined.\n");
			}
#endif

			readBoolParam(&par, "Motion.SkippedMB.Enable", iObj, &rgbAllowSkippedPMBs[iObj]);

			// parameters that can be different for each scalability layer
			Int iLayer, iLayerCount;
			if(rgbScalability[iObj]!=NO_SCALABILITY)
				iLayerCount = 2;
			else
				iLayerCount = 1;

			for(iLayer = 0; iLayer<iLayerCount; iLayer++)
			{
				Int iLayerObj = iObj + iLayer * nVO;

				// rate control
				GetSVal(&par, "RateControl.Type", iLayerObj, &pchTmp);
				if(strcmp(pchTmp, "None")==0)
					rguiRateControl [iLayer][iObj] = 0;
				else if(strcmp(pchTmp, "MP4")==0)
					rguiRateControl [iLayer][iObj] = RC_MPEG4;
				else if(strcmp(pchTmp, "TM5")==0)
					rguiRateControl [iLayer][iObj] = RC_TM5;
				else
					fatal_error("Unknown rate control type");

				// bit budget
				GetIVal(&par, "RateControl.BitsPerVOP", iLayerObj, (Int *)&(rguiBitsBudget[iLayer][iObj]));

				Bool bRVLCEnable, bDPEnable, bVPEnable;
				readBoolParam(&par, "ErrorResil.RVLC.Enable", iLayerObj, &bRVLCEnable);
				readBoolParam(&par, "ErrorResil.DataPartition.Enable", iLayerObj, &bDPEnable);
				readBoolParam(&par, "ErrorResil.VideoPacket.Enable", iLayerObj, &bVPEnable);
				
				rgbErrorResilientDisable [iLayer][iObj] = bVPEnable ? (iLayer!=0) : TRUE;
				rgbReversibleVlc [iLayer] [iObj] = bRVLCEnable ? (iLayer==0) : FALSE;
				rgbDataPartitioning [iLayer][iObj] = bDPEnable ? (iLayer==0) : FALSE;

				if(rgbErrorResilientDisable [BASE_LAYER][iObj])
					rgiBinaryAlphaRR [iObj] = -1;

				GetIVal(&par, "ErrorResil.VideoPacket.Length", iLayerObj, &rgiVPBitTh[iLayer][iObj]);
				if(rgbErrorResilientDisable [iLayer][iObj])
					rgiVPBitTh [iLayer][iObj] = -1;

				readBoolParam(&par, "Motion.Interlaced.Enable", iLayerObj, &rgbInterlacedCoding [iLayer][iObj]);

				GetSVal(&par, "Quant.Type", iLayerObj, &pchTmp);
				if(strcmp(pchTmp, "H263")==0)
					rgfQuant[iLayer][iObj] = Q_H263;
				else if(strcmp(pchTmp, "MPEG")==0)
					rgfQuant[iLayer][iObj] = Q_MPEG;
				else
					fatal_error("Unknown quantizer type");

				readBoolParam(&par, "Texture.QuantMatrix.Intra.Enable", iLayerObj, &rgbLoadIntraMatrix [iLayer][iObj]);
				if(rgbLoadIntraMatrix [iLayer][iObj])
				{
					Double *pdTmp;
					Int iCount;
					GetAVal(&par, "Texture.QuantMatrix.Intra", iLayerObj, &pdTmp, &iCount);
					fatal_error("Wrong number of intra quant matrix values (should be 64)", iCount<=64);
					Int i;
					for(i=0; i<iCount; i++)
						rgppiIntraQuantizerMatrix[iLayer][iObj][i] = (Int)pdTmp[i];
					if(iCount<64)
						rgppiIntraQuantizerMatrix[iLayer][iObj][iCount] = 0;
				}
				else
					memcpy (rgppiIntraQuantizerMatrix [iLayer][iObj], rgiDefaultIntraQMatrix, BLOCK_SQUARE_SIZE * sizeof(Int));
			
				readBoolParam(&par, "Texture.QuantMatrix.Inter.Enable", iLayerObj, &rgbLoadInterMatrix [iLayer][iObj]);
				if(rgbLoadInterMatrix [iLayer][iObj])
				{
					Double *pdTmp;
					Int iCount;
					GetAVal(&par, "Texture.QuantMatrix.Inter", iLayerObj, &pdTmp, &iCount);
					fatal_error("Wrong number of inter quant matrix values (should be 64)", iCount<=64);
					Int i;
					for(i=0; i<iCount; i++)
						rgppiInterQuantizerMatrix[iLayer][iObj][i] = (Int)pdTmp[i];
					if(iCount<64)
						rgppiInterQuantizerMatrix[iLayer][iObj][iCount] = 0;
				}
				else
					memcpy (rgppiInterQuantizerMatrix [iLayer][iObj], rgiDefaultInterQMatrix, BLOCK_SQUARE_SIZE * sizeof(Int));
			
				GetIVal(&par, "Texture.IntraDCThreshold", iLayerObj, &rgiIntraDCSwitchingThr [iLayer] [iObj]);
				fatal_error("Intra DC Threshold must be in range 0 - 7",
					rgiIntraDCSwitchingThr [iLayer] [iObj] >= 0 && rgiIntraDCSwitchingThr [iLayer] [iObj] <= 7);
			
				GetIVal(&par, "Texture.QuantStep.IVOP", iLayerObj, &rgiIStep [iLayer] [iObj]);
				fatal_error("IVOP quantizer stepsize is out of range", 
					rgiIStep [iLayer] [iObj] > 0 && rgiIStep [iLayer] [iObj] < (1<<uiQuantPrecision));

				GetIVal(&par, "Texture.QuantStep.PVOP", iLayerObj, &rgiPStep [iLayer] [iObj]);
				fatal_error("PVOP quantizer stepsize is out of range", 
					rgiPStep [iLayer] [iObj] > 0 && rgiPStep [iLayer] [iObj] < (1<<uiQuantPrecision));

				GetIVal(&par, "Texture.QuantStep.BVOP", iLayerObj, &rgiStepBCode [iLayer] [iObj]);
				fatal_error("BVOP quantizer stepsize is out of range", 
					rgiStepBCode [iLayer] [iObj] > 0 && rgiStepBCode [iLayer] [iObj] < (1<<uiQuantPrecision));

				readBoolParam(&par, "Alpha.QuantMatrix.Intra.Enable", iLayerObj, &rgbLoadIntraMatrixAlpha [iLayer][iObj]);
				if(rgbLoadIntraMatrixAlpha [iLayer][iObj])
				{
					Double *pdTmp;
					Int iCount;
					GetAVal(&par, "Alpha.QuantMatrix.Intra", iLayerObj, &pdTmp, &iCount);
					fatal_error("Wrong number of alpha intra quant matrix values (should be 64)", iCount<=64);
					Int i;
					for(i=0; i<iCount; i++)
						rgppiIntraQuantizerMatrixAlpha[iLayer][iObj][i] = (Int)pdTmp[i];
					if(iCount<64)
						rgppiIntraQuantizerMatrixAlpha[iLayer][iObj][iCount] = 0;
				}
				else
					memcpy (rgppiIntraQuantizerMatrixAlpha [iLayer][iObj], rgiDefaultIntraQMatrixAlpha,
						BLOCK_SQUARE_SIZE * sizeof(Int));
			
				readBoolParam(&par, "Alpha.QuantMatrix.Inter.Enable", iLayerObj, &rgbLoadInterMatrixAlpha [iLayer][iObj]);
				if(rgbLoadInterMatrixAlpha [iLayer][iObj])
				{
					Double *pdTmp;
					Int iCount;
					GetAVal(&par, "Alpha.QuantMatrix.Inter", iLayerObj, &pdTmp, &iCount);
					fatal_error("Wrong number of alpha inter quant matrix values (should be 64)", iCount<=64);
					Int i;
					for(i=0; i<iCount; i++)
						rgppiInterQuantizerMatrixAlpha[iLayer][iObj][i] = (Int)pdTmp[i];
					if(iCount<64)
						rgppiInterQuantizerMatrixAlpha[iLayer][iObj][iCount] = 0;
				}
				else
					memcpy (rgppiInterQuantizerMatrixAlpha [iLayer][iObj], rgiDefaultInterQMatrixAlpha,
						BLOCK_SQUARE_SIZE * sizeof(Int));
				
				GetIVal(&par, "Alpha.QuantStep.IVOP", iLayerObj, &rgiIStepAlpha [iLayer] [iObj]);
				fatal_error("IVOP alpha quantizer stepsize is out of range", 
					rgiIStepAlpha [iLayer] [iObj] > 0 && rgiIStepAlpha [iLayer] [iObj] < 64);

				GetIVal(&par, "Alpha.QuantStep.PVOP", iLayerObj, &rgiPStepAlpha [iLayer] [iObj]);
				fatal_error("PVOP alpha quantizer stepsize is out of range", 
					rgiPStepAlpha [iLayer] [iObj] > 0 && rgiPStepAlpha [iLayer] [iObj] < 64);

				GetIVal(&par, "Alpha.QuantStep.BVOP", iLayerObj, &rgiBStepAlpha [iLayer] [iObj]);
				fatal_error("BVOP alpha quantizer stepsize is out of range", 
					rgiBStepAlpha [iLayer] [iObj] > 0 && rgiBStepAlpha [iLayer] [iObj] < 64);

				readBoolParam(&par, "Alpha.QuantDecouple.Enable", iLayerObj, &rgbNoGrayQuantUpdate [iLayer] [iObj]);

				Int iRate;
				GetIVal(&par, "Source.SamplingRate", iLayerObj, &iRate);
				fatal_error("Source sampling rate must be > 0", iRate>0);
				if(iLayer==BASE_LAYER)
					rgiTSRate[iObj] = iRate;
				else
					rgiEnhcTSRate[iObj] = iRate;

				GetIVal(&par, "Motion.SearchRange", iLayerObj, (Int *)&rguiSearchRange[iLayer][iObj]);
				fatal_error("Motion.SearchRange must be > 0", rguiSearchRange[iLayer][iObj]>0);

				readBoolParam(&par, "Motion.UseSourceForME.Enable", iLayerObj, &rgbOriginalME [iLayer] [iObj]);

				Bool bAdvPredEnable;
				readBoolParam(&par, "Motion.AdvancedPrediction.Enable", iLayerObj, &bAdvPredEnable);
				rgbAdvPredDisable [iLayer][iObj] = !bAdvPredEnable;

				Bool bComplexityEnable;
				readBoolParam(&par, "Complexity.Enable", iLayerObj, &bComplexityEnable);
				rgbComplexityEstimationDisable[iLayer][iObj] = !bComplexityEnable;

				if(bComplexityEnable)
				{
					readBoolParam(&par, "Complexity.Opaque.Enable", iLayerObj, &rgbOpaque[iLayer][iObj]);
					readBoolParam(&par, "Complexity.Transparent.Enable", iLayerObj, &rgbTransparent[iLayer][iObj]);
					readBoolParam(&par, "Complexity.IntraCAE.Enable", iLayerObj, &rgbIntraCAE[iLayer][iObj]);
					readBoolParam(&par, "Complexity.InterCAE.Enable", iLayerObj, &rgbInterCAE[iLayer][iObj]);
					readBoolParam(&par, "Complexity.NoUpdate.Enable", iLayerObj, &rgbNoUpdate[iLayer][iObj]);
					readBoolParam(&par, "Complexity.UpSampling.Enable", iLayerObj, &rgbUpsampling[iLayer][iObj]);
					readBoolParam(&par, "Complexity.IntraBlocks.Enable", iLayerObj, &rgbIntraBlocks[iLayer][iObj]);
					readBoolParam(&par, "Complexity.InterBlocks.Enable", iLayerObj, &rgbInterBlocks[iLayer][iObj]);
					readBoolParam(&par, "Complexity.Inter4VBlocks.Enable", iLayerObj, &rgbInter4vBlocks[iLayer][iObj]);
					readBoolParam(&par, "Complexity.NotCodedBlocks.Enable", iLayerObj, &rgbNotCodedBlocks[iLayer][iObj]);
					readBoolParam(&par, "Complexity.DCTCoefs.Enable", iLayerObj, &rgbDCTCoefs[iLayer][iObj]);
					readBoolParam(&par, "Complexity.DCTLines.Enable", iLayerObj, &rgbDCTLines[iLayer][iObj]);
					readBoolParam(&par, "Complexity.VLCSymbols.Enable", iLayerObj, &rgbVLCSymbols[iLayer][iObj]);
					readBoolParam(&par, "Complexity.VLCBits.Enable", iLayerObj, &rgbVLCBits[iLayer][iObj]);
					readBoolParam(&par, "Complexity.APM.Enable", iLayerObj, &rgbAPM[iLayer][iObj]);
					readBoolParam(&par, "Complexity.NPM.Enable", iLayerObj, &rgbNPM[iLayer][iObj]);
					readBoolParam(&par, "Complexity.InterpMCQ.Enable", iLayerObj, &rgbInterpolateMCQ[iLayer][iObj]);
					readBoolParam(&par, "Complexity.ForwBackMCQ.Enable", iLayerObj, &rgbForwBackMCQ[iLayer][iObj]);
					readBoolParam(&par, "Complexity.HalfPel2.Enable", iLayerObj, &rgbHalfpel2[iLayer][iObj]);
					readBoolParam(&par, "Complexity.HalfPel4.Enable", iLayerObj, &rgbHalfpel4[iLayer][iObj]);
				}
				else
				{
					rgbOpaque[iLayer][iObj] = 0;
					rgbTransparent[iLayer][iObj] = 0;
					rgbIntraCAE[iLayer][iObj] = 0;
					rgbInterCAE[iLayer][iObj] = 0;
					rgbNoUpdate[iLayer][iObj] = 0;
					rgbUpsampling[iLayer][iObj] = 0;
					rgbIntraBlocks[iLayer][iObj] = 0;
					rgbInterBlocks[iLayer][iObj] = 0;
					rgbInter4vBlocks[iLayer][iObj] = 0;
					rgbNotCodedBlocks[iLayer][iObj] = 0;
					rgbDCTCoefs[iLayer][iObj] = 0;
					rgbDCTLines[iLayer][iObj] = 0;
					rgbVLCSymbols[iLayer][iObj] = 0;
					rgbVLCBits[iLayer][iObj] = 0;
					rgbAPM[iLayer][iObj] = 0;
					rgbNPM[iLayer][iObj] = 0;
					rgbInterpolateMCQ[iLayer][iObj] = 0;
					rgbForwBackMCQ[iLayer][iObj] = 0;
					rgbHalfpel2[iLayer][iObj] = 0;
					rgbHalfpel4[iLayer][iObj] = 0;
				}
	
				GetDVal(&par, "Source.FrameRate", iLayerObj, &rgdFrameFrequency[iLayer][iObj]);
				fatal_error("Source.FrameRate is invalid", rgdFrameFrequency[iLayer][iObj] > 0.0);

				readBoolParam(&par, "Motion.Interlaced.TopFieldFirst.Enable", iLayerObj, &rgbTopFieldFirst [iLayer] [iObj]);
				
				readBoolParam(&par, "Motion.Interlaced.AlternativeScan.Enable", iLayerObj, &rgbAlternateScan[iLayer][iObj]);

				GetIVal(&par, "Motion.SearchRange.DirectMode", iLayerObj, &rgiDirectModeRadius[iLayer][iObj]);

				GetSVal(&par, "Motion.ReadWriteMVs", iLayerObj, &pchTmp);
				if(strcmp(pchTmp, "Off")==0)
					rgiMVFileUsage[iLayer][iObj] = 0;
				else if(strcmp(pchTmp, "Read")==0)
					rgiMVFileUsage[iLayer][iObj] = 1;
				else if(strcmp(pchTmp, "Write")==0)
					rgiMVFileUsage[iLayer][iObj] = 2;
				else
					fatal_error("Unknown mode for Motion.ReadWriteMVs");

				if(rgiMVFileUsage[iLayer][iObj]!=0)
				{
					GetSVal(&par, "Motion.ReadWriteMVs.Filename", iLayerObj, &pchTmp);
					iLen = strlen(pchTmp) + 1;
					pchMVFileName [iLayer] [iObj] = new char [iLen];
					memcpy(pchMVFileName [iLayer] [iObj], pchTmp, iLen);
				}

				Bool bVolControlEnable;
				readBoolParam(&par, "VOLControl.Enable", iLayerObj, &bVolControlEnable);
				rguiVolControlParameters[iLayer][iObj] = (UInt)bVolControlEnable;

				GetIVal(&par, "VOLControl.ChromaFormat", iLayerObj, (Int *)&rguiChromaFormat[iLayer][iObj]);
				GetIVal(&par, "VOLControl.LowDelay", iObj, (Int *)&rguiLowDelay[iLayer][iObj]);

				Bool bVBVParams;
				readBoolParam(&par, "VOLControl.VBVParams.Enable", iLayerObj, &bVBVParams);
				rguiVBVParams[iLayer][iObj] = (UInt)bVBVParams;

				GetIVal(&par, "VOLControl.Bitrate", iLayerObj, (Int *)&rguiBitRate[iLayer][iObj]);
				GetIVal(&par, "VOLControl.VBVBuffer.Size", iLayerObj, (Int *)&rguiVbvBufferSize[iLayer][iObj]);
				GetIVal(&par, "VOLControl.VBVBuffer.Occupancy", iLayerObj, (Int *)&rguiVbvBufferOccupany[iLayer][iObj]);
			}

		}
	}
	else
	{
		// OLD STYLE PARAMETER FILE
		ungetc(iCh, pfPara);
		printf("Old style parameter file.\n");

		// verify version number
		nextValidLine (pfPara, pnLine);
		if ( fscanf (pfPara, "%u", &iVersion) != 1 )	{
			fprintf(stderr, "wrong parameter file format on line %d\n", *pnLine);
			exit(1);
		}

		if (iVersion != 813 && iVersion != 812 && iVersion != 814 && iVersion != 815)	{
			// version 812 does not have rounding control flags
			// version 813 does not have VOL control parameters
			// version 814 does not have skipped mb enable
			fprintf(stderr, "wrong parameter file version for %s\n",VERSION_STRING);
			exit(1);
		}

	///// WAVELET VTC: begin ///////////////////////////////
		// sarnoff: wavelet visual texture coding 
		nextValidLine (pfPara, pnLine);
		if ( fscanf (pfPara, "%d", &iVTCFlag) != 1)	{
			fprintf(stderr, "wrong parameter VTC flag on line %d\n", *pnLine);
			assert (FALSE);
		}
		assert (iVTCFlag==0 || iVTCFlag==1);

		// read VTC control file

		char VTCCtlFile[80];
		nextValidLine (pfPara, pnLine);
		if ( fscanf (pfPara, "%s", VTCCtlFile) != 1)	{
			fprintf(stderr, "wrong parameter VTC flag on line %d\n", *pnLine);
			assert (FALSE);
		}

		if (iVTCFlag==1) {
			fclose(pfPara);

			RunVTCCodec(VTCCtlFile);
			return 0;
		}

	///// WAVELET VTC: end ///////////////////////////////


		
		// frame size code

		nextValidLine (pfPara, pnLine);
		if (fscanf (pfPara, "%u", &uiFrmWidth) != 1)	{
			fprintf(stderr, "wrong parameter file format on line %d\n", *pnLine);