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Revision 78 - (download) (annotate)
Thu Mar 28 20:57:25 2002 UTC (17 years, 5 months ago) by edgomez
Original Path: trunk/xvidcore/src/encoder.c
File size: 15752 byte(s)
Big patch, use it with care (tests done with GNU/Linux) :
 - Trivial warnings in encoder.c line 282 ret1 = ret 2 = 0;
 - Lot of "New line at end of file missing" warnings fixed (gcc3)
 - All 2d arrays have been turned into 1d arrays
   To force alignment of matrices on stack, use DECLARE_ALIGNED_MATRIX
   (read portab.h)

Win32 users should give feedback.
#include <stdlib.h>
#include <stdio.h>
#include <math.h>

#include "encoder.h"
#include "prediction/mbprediction.h"
#include "global.h"
#include "utils/timer.h"
#include "image/image.h"
#include "bitstream/cbp.h"
#include "utils/mbfunctions.h"
#include "bitstream/bitstream.h"
#include "bitstream/mbcoding.h"
#include "utils/ratecontrol.h"
#include "utils/emms.h"
#include "bitstream/mbcoding.h"
#include "quant/adapt_quant.h"
#include "quant/quant_matrix.h"
#include "utils/mem_align.h"

#define ENC_CHECK(X) if(!(X)) return XVID_ERR_FORMAT


static int FrameCodeI(Encoder * pEnc, Bitstream * bs, uint32_t *pBits);
static int FrameCodeP(Encoder * pEnc, Bitstream * bs, uint32_t *pBits, bool force_inter, bool vol_header);

static int DQtab[4] = 
{
	-1, -2, 1, 2
};

static int iDQtab[5] = 
{
	1, 0, NO_CHANGE, 2, 3
};


int encoder_create(XVID_ENC_PARAM * pParam)
{
	Encoder *pEnc;
	uint32_t i;

	pParam->handle = NULL;

	ENC_CHECK(pParam);

	ENC_CHECK(pParam->width > 0 && pParam->width <= 1920);
	ENC_CHECK(pParam->height > 0 && pParam->height <= 1280);
	ENC_CHECK(!(pParam->width % 2));
	ENC_CHECK(!(pParam->height % 2));

	if (pParam->fincr <= 0 || pParam->fbase <= 0)
	{
		pParam->fincr = 1;
		pParam->fbase = 25;
	}

	// simplify the "fincr/fbase" fraction
	// (neccessary, since windows supplies us with huge numbers)

	i = pParam->fincr;
	while (i > 1)
	{
		if (pParam->fincr % i == 0 && pParam->fbase % i == 0)
		{
			pParam->fincr /= i;
			pParam->fbase /= i;
			i = pParam->fincr;
			continue;
		}
		i--;
	}

	if (pParam->fbase > 65535)
	{
		float div = (float)pParam->fbase / 65535;
		pParam->fbase = (int)(pParam->fbase / div);
		pParam->fincr = (int)(pParam->fincr / div);
	}

	if (pParam->bitrate <= 0)
		pParam->bitrate = 900000;

	if (pParam->rc_buffersize <= 0)
		pParam->rc_buffersize = 16;

	if ((pParam->min_quantizer <= 0) || (pParam->min_quantizer > 31))
		pParam->min_quantizer = 1;

	if ((pParam->max_quantizer <= 0) || (pParam->max_quantizer > 31))
		pParam->max_quantizer = 31;

	if (pParam->max_key_interval == 0)		/* 1 keyframe each 10 seconds */ 
		pParam->max_key_interval = 10 * pParam->fincr / pParam->fbase;
					
	if (pParam->max_quantizer < pParam->min_quantizer)
		pParam->max_quantizer = pParam->min_quantizer;

	if ((pEnc = (Encoder *) xvid_malloc(sizeof(Encoder), CACHE_LINE)) == NULL)
		return XVID_ERR_MEMORY;

	/* Fill members of Encoder structure */

	pEnc->mbParam.width = pParam->width;
	pEnc->mbParam.height = pParam->height;

	pEnc->mbParam.mb_width = (pEnc->mbParam.width + 15) / 16;
	pEnc->mbParam.mb_height = (pEnc->mbParam.height + 15) / 16;

	pEnc->mbParam.edged_width = 16 * pEnc->mbParam.mb_width + 2 * EDGE_SIZE;
	pEnc->mbParam.edged_height = 16 * pEnc->mbParam.mb_height + 2 * EDGE_SIZE;

	pEnc->sStat.fMvPrevSigma = -1;

	/* Fill rate control parameters */

	pEnc->mbParam.quant = 4;

	pEnc->bitrate = pParam->bitrate;

	pEnc->iFrameNum = 0;
	pEnc->iMaxKeyInterval = pParam->max_key_interval;

	if (image_create(&pEnc->sCurrent, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height) < 0)
	{
		xvid_free(pEnc);
		return XVID_ERR_MEMORY;
	}

	if (image_create(&pEnc->sReference, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height) < 0)
	{
		image_destroy(&pEnc->sCurrent, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		xvid_free(pEnc);
		return XVID_ERR_MEMORY;
	}

	if (image_create(&pEnc->vInterH, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height) < 0)
	{
		image_destroy(&pEnc->sCurrent, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->sReference, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		xvid_free(pEnc);
		return XVID_ERR_MEMORY;
	}

	if (image_create(&pEnc->vInterV, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height) < 0)
	{
		image_destroy(&pEnc->sCurrent, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->sReference, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->vInterH, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		xvid_free(pEnc);
		return XVID_ERR_MEMORY;
	}

	if (image_create(&pEnc->vInterHV, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height) < 0)
	{
		image_destroy(&pEnc->sCurrent, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->sReference, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->vInterH, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->vInterV, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		xvid_free(pEnc);
		return XVID_ERR_MEMORY;
	}

	pEnc->pMBs = xvid_malloc(sizeof(MACROBLOCK) * pEnc->mbParam.mb_width * pEnc->mbParam.mb_height, CACHE_LINE);
	if (pEnc->pMBs == NULL)
	{
		image_destroy(&pEnc->sCurrent, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->sReference, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->vInterH, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->vInterV, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		image_destroy(&pEnc->vInterHV, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
		xvid_free(pEnc);
		return XVID_ERR_MEMORY;
	}

	// init macroblock array
	for (i = 0; i < pEnc->mbParam.mb_width * pEnc->mbParam.mb_height; i++)
	{
		pEnc->pMBs[i].dquant = NO_CHANGE;
	}

	pParam->handle = (void *)pEnc;

	if (pParam->bitrate)
	{
		RateControlInit(pParam->bitrate, pParam->rc_buffersize, pParam->fbase * 100 / pParam->fincr,
				pParam->max_quantizer, pParam->min_quantizer);
	}

	create_vlc_tables();
	init_timer();

	return XVID_ERR_OK;
}


int encoder_destroy(Encoder * pEnc)
{
	ENC_CHECK(pEnc);
	ENC_CHECK(pEnc->sCurrent.y);
	ENC_CHECK(pEnc->sReference.y);

	xvid_free(pEnc->pMBs);
	image_destroy(&pEnc->sCurrent, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
	image_destroy(&pEnc->sReference, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
	image_destroy(&pEnc->vInterH, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
	image_destroy(&pEnc->vInterV, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
	image_destroy(&pEnc->vInterHV, pEnc->mbParam.edged_width, pEnc->mbParam.edged_height);
	xvid_free(pEnc);

	destroy_vlc_tables();

	return XVID_ERR_OK;
}

int encoder_encode(Encoder * pEnc, XVID_ENC_FRAME * pFrame, XVID_ENC_STATS * pResult)
{
	uint16_t x, y;
	Bitstream bs;
	uint32_t bits;
	uint16_t write_vol_header = 0;

	start_global_timer();

	ENC_CHECK(pEnc);
	ENC_CHECK(pFrame);
	ENC_CHECK(pFrame->bitstream);
	ENC_CHECK(pFrame->image);

	pEnc->mbParam.global_flags = pFrame->general;
	pEnc->mbParam.motion_flags = pFrame->motion;

	start_timer();
	if (image_input(&pEnc->sCurrent, pEnc->mbParam.width, pEnc->mbParam.height, pEnc->mbParam.edged_width,
			pFrame->image, pFrame->colorspace))
	{
		return XVID_ERR_FORMAT;
	}
	stop_conv_timer();

	EMMS();

	BitstreamInit(&bs, pFrame->bitstream, 0);

	if (pFrame->quant == 0)
	{
		pEnc->mbParam.quant = RateControlGetQ(0);
	}
	else
	{
		pEnc->mbParam.quant = pFrame->quant;
	}

	if ((pEnc->mbParam.global_flags & XVID_LUMIMASKING) > 0)
	{
		int * temp_dquants = (int *) xvid_malloc(pEnc->mbParam.mb_width * pEnc->mbParam.mb_height * sizeof(int), CACHE_LINE);
		
		pEnc->mbParam.quant = adaptive_quantization(pEnc->sCurrent.y,
							    pEnc->mbParam.width,
							    temp_dquants,
							    pFrame->quant,
							    pFrame->quant,
							    2*pFrame->quant,
							    pEnc->mbParam.mb_width,
							    pEnc->mbParam.mb_height);
			
		for (y = 0; y < pEnc->mbParam.mb_height; y++)
			for (x = 0; x < pEnc->mbParam.mb_width; x++)
			{
				MACROBLOCK *pMB = &pEnc->pMBs[x + y * pEnc->mbParam.mb_width];
				pMB->dquant = iDQtab[(temp_dquants[y * pEnc->mbParam.mb_width + x] + 2)];
			}
		xvid_free(temp_dquants);
	}

	if(pEnc->mbParam.global_flags & XVID_H263QUANT) {
		if(pEnc->mbParam.quant_type != H263_QUANT)
			write_vol_header = 1;
		pEnc->mbParam.quant_type = H263_QUANT;
	}
	else if(pEnc->mbParam.global_flags & XVID_MPEGQUANT) {
		int ret1, ret2;

		ret1 = ret2 = 0;

		if(pEnc->mbParam.quant_type != MPEG4_QUANT)
			write_vol_header = 1;
		
		pEnc->mbParam.quant_type = MPEG4_QUANT;
		
		if ((pEnc->mbParam.global_flags & XVID_CUSTOM_QMATRIX) > 0) {
			if(pFrame->quant_intra_matrix != NULL)
				ret1 = set_intra_matrix(pFrame->quant_intra_matrix);
			if(pFrame->quant_inter_matrix != NULL)
				ret2 = set_inter_matrix(pFrame->quant_inter_matrix);
		}
		else {
			ret1 = set_intra_matrix(get_default_intra_matrix());
			ret2 = set_inter_matrix(get_default_inter_matrix());
		}
		if(write_vol_header == 0)
			write_vol_header = ret1 | ret2;
	}

	if (pFrame->intra < 0)
	{
		if ((pEnc->iFrameNum == 0) || ((pEnc->iMaxKeyInterval > 0) 
					       && (pEnc->iFrameNum >= pEnc->iMaxKeyInterval)))

			pFrame->intra = FrameCodeI(pEnc, &bs, &bits);
		else
			pFrame->intra = FrameCodeP(pEnc, &bs, &bits, 0, write_vol_header);
	}
	else
	{
		if (pFrame->intra == 1)
			pFrame->intra = FrameCodeI(pEnc, &bs, &bits);
		else
			pFrame->intra = FrameCodeP(pEnc, &bs, &bits, 1, write_vol_header);
	}

	BitstreamPutBits(&bs, 0xFFFF, 16);
	BitstreamPutBits(&bs, 0xFFFF, 16);
	BitstreamPad(&bs);
	pFrame->length = BitstreamLength(&bs);

	if (pResult)
	{
		pResult->quant = pEnc->mbParam.quant;
		pResult->hlength = pFrame->length - (pEnc->sStat.iTextBits / 8);
		pResult->kblks = pEnc->sStat.kblks;
		pResult->mblks = pEnc->sStat.mblks;
		pResult->ublks = pEnc->sStat.ublks;
	}
   
	EMMS();

	if (pFrame->quant == 0)
	{
		RateControlUpdate(pEnc->mbParam.quant, pFrame->length, pFrame->intra);
	}

	pEnc->iFrameNum++;
	image_swap(&pEnc->sCurrent, &pEnc->sReference);
	
	stop_global_timer();
	write_timer();

	return XVID_ERR_OK;
}


static __inline void CodeIntraMB(Encoder *pEnc, MACROBLOCK *pMB) {

	pMB->mode = MODE_INTRA;

	if ((pEnc->mbParam.global_flags & XVID_LUMIMASKING) > 0) {
		if(pMB->dquant != NO_CHANGE)
		{
			pMB->mode = MODE_INTRA_Q;
			pEnc->mbParam.quant += DQtab[pMB->dquant];
		
			if (pEnc->mbParam.quant > 31) pEnc->mbParam.quant = 31;
			if (pEnc->mbParam.quant < 1) pEnc->mbParam.quant = 1;
		}
	}

	pMB->quant = pEnc->mbParam.quant;
}


static int FrameCodeI(Encoder * pEnc, Bitstream * bs, uint32_t *pBits)
{

	DECLARE_ALIGNED_MATRIX(dct_codes, 6, 64, int16_t, CACHE_LINE);
	DECLARE_ALIGNED_MATRIX(qcoeff,    6, 64, int16_t, CACHE_LINE);

	uint16_t x, y;

	pEnc->iFrameNum = 0;
	pEnc->mbParam.rounding_type = 1;
	pEnc->mbParam.coding_type = I_VOP;

	BitstreamWriteVolHeader(bs, &pEnc->mbParam);
	BitstreamWriteVopHeader(bs, &pEnc->mbParam);

	*pBits = BitstreamPos(bs);

	pEnc->sStat.iTextBits = 0;
	pEnc->sStat.kblks = pEnc->mbParam.mb_width * pEnc->mbParam.mb_height;
	pEnc->sStat.mblks = pEnc->sStat.ublks = 0;

	for (y = 0; y < pEnc->mbParam.mb_height; y++)
		for (x = 0; x < pEnc->mbParam.mb_width; x++)
		{
			MACROBLOCK *pMB = &pEnc->pMBs[x + y * pEnc->mbParam.mb_width];

			CodeIntraMB(pEnc, pMB);

			MBTransQuantIntra(&pEnc->mbParam, pMB, x, y, dct_codes, qcoeff, &pEnc->sCurrent);

			start_timer();
			MBPrediction(&pEnc->mbParam, x, y, pEnc->mbParam.mb_width, qcoeff, pEnc->pMBs);
			stop_prediction_timer();

			start_timer();
			MBCoding(&pEnc->mbParam, pMB, qcoeff, bs, &pEnc->sStat);
			stop_coding_timer();
		}

	emms();

	*pBits = BitstreamPos(bs) - *pBits;
	pEnc->sStat.fMvPrevSigma = -1;
	pEnc->sStat.iMvSum = 0;
	pEnc->sStat.iMvCount = 0;
	pEnc->mbParam.fixed_code = 2;

	return 1;					 // intra
}


#define INTRA_THRESHOLD 0.5

static int FrameCodeP(Encoder * pEnc, Bitstream * bs, uint32_t *pBits, bool force_inter, bool vol_header)
{
	float fSigma;

	DECLARE_ALIGNED_MATRIX(dct_codes, 6, 64, int16_t, CACHE_LINE);
	DECLARE_ALIGNED_MATRIX(qcoeff,    6, 64, int16_t, CACHE_LINE);

	int iLimit;
	uint32_t x, y;
	int iSearchRange;
	bool bIntra;

	IMAGE *pCurrent = &pEnc->sCurrent;
	IMAGE *pRef = &pEnc->sReference;

	start_timer();
	image_setedges(pRef,
		       pEnc->mbParam.edged_width,
		       pEnc->mbParam.edged_height,
		       pEnc->mbParam.width,
		       pEnc->mbParam.height,
		       pEnc->mbParam.global_flags & XVID_INTERLACING);
	stop_edges_timer();

	pEnc->mbParam.rounding_type = 1 - pEnc->mbParam.rounding_type;

	if (!force_inter)
		iLimit = (int)(pEnc->mbParam.mb_width * pEnc->mbParam.mb_height * INTRA_THRESHOLD);
	else
		iLimit = pEnc->mbParam.mb_width * pEnc->mbParam.mb_height + 1;

	if ((pEnc->mbParam.global_flags & XVID_HALFPEL) > 0) {
		start_timer();
		image_interpolate(pRef, &pEnc->vInterH, &pEnc->vInterV, &pEnc->vInterHV,
				  pEnc->mbParam.edged_width, pEnc->mbParam.edged_height,
				  pEnc->mbParam.rounding_type);
		stop_inter_timer();
	}

	start_timer();
	bIntra = MotionEstimation(pEnc->pMBs, &pEnc->mbParam, &pEnc->sReference,
				  &pEnc->vInterH, &pEnc->vInterV,
				  &pEnc->vInterHV, &pEnc->sCurrent, iLimit);
	stop_motion_timer();

	if (bIntra == 1)
		return FrameCodeI(pEnc, bs, pBits);

	pEnc->mbParam.coding_type = P_VOP;

	if(vol_header)
		BitstreamWriteVolHeader(bs, &pEnc->mbParam);

	BitstreamWriteVopHeader(bs, &pEnc->mbParam);

	*pBits = BitstreamPos(bs);

	pEnc->sStat.iTextBits = 0;
	pEnc->sStat.iMvSum = 0;
	pEnc->sStat.iMvCount = 0;
	pEnc->sStat.kblks = pEnc->sStat.mblks = pEnc->sStat.ublks = 0;

	for(y = 0; y < pEnc->mbParam.mb_height; y++)
	{
		for(x = 0; x < pEnc->mbParam.mb_width; x++)
		{
			MACROBLOCK * pMB = &pEnc->pMBs[x + y * pEnc->mbParam.mb_width];

			bIntra = (pMB->mode == MODE_INTRA) || (pMB->mode == MODE_INTRA_Q);

			if (!bIntra)
			{
				start_timer();
				MBMotionCompensation(pMB,
						     x, y,
						     &pEnc->sReference,
						     &pEnc->vInterH,
						     &pEnc->vInterV,
						     &pEnc->vInterHV,
						     &pEnc->sCurrent,
						     dct_codes,
						     pEnc->mbParam.width,
						     pEnc->mbParam.height,
						     pEnc->mbParam.edged_width,
						     pEnc->mbParam.rounding_type);
				stop_comp_timer();

				if ((pEnc->mbParam.global_flags & XVID_LUMIMASKING) > 0) {
					if(pMB->dquant != NO_CHANGE) {
						pMB->mode = MODE_INTER_Q;
						pEnc->mbParam.quant += DQtab[pMB->dquant];
						if (pEnc->mbParam.quant > 31) pEnc->mbParam.quant = 31;
						else if(pEnc->mbParam.quant < 1) pEnc->mbParam.quant = 1;
					}
				}
				pMB->quant = pEnc->mbParam.quant;

				pMB->field_pred = 0;

				pMB->cbp = MBTransQuantInter(&pEnc->mbParam, pMB, x, y, dct_codes, qcoeff, pCurrent);
			}
			else 
			{
				CodeIntraMB(pEnc, pMB);
				MBTransQuantIntra(&pEnc->mbParam, pMB, x, y, dct_codes, qcoeff, pCurrent);
			}

			start_timer();
			MBPrediction(&pEnc->mbParam, x, y, pEnc->mbParam.mb_width, qcoeff, pEnc->pMBs);
			stop_prediction_timer();

			if (pMB->mode == MODE_INTRA || pMB->mode == MODE_INTRA_Q)
			{
				pEnc->sStat.kblks++;
			}
			else if (pMB->cbp || 
				 pMB->mvs[0].x || pMB->mvs[0].y ||
				 pMB->mvs[1].x || pMB->mvs[1].y ||
				 pMB->mvs[2].x || pMB->mvs[2].y ||
				 pMB->mvs[3].x || pMB->mvs[3].y)
			{
				pEnc->sStat.mblks++;
			}
			else
			{
				pEnc->sStat.ublks++;
			}

			start_timer();
			MBCoding(&pEnc->mbParam, pMB, qcoeff, bs, &pEnc->sStat);
			stop_coding_timer();
		}
	}

	emms();

	if (pEnc->sStat.iMvCount == 0)
		pEnc->sStat.iMvCount = 1;

	fSigma = (float)sqrt((float) pEnc->sStat.iMvSum / pEnc->sStat.iMvCount);

	iSearchRange = 1 << (3 + pEnc->mbParam.fixed_code);

	if ((fSigma > iSearchRange / 3) 
	    && (pEnc->mbParam.fixed_code <= 3))	// maximum search range 128
	{
		pEnc->mbParam.fixed_code++;
		iSearchRange *= 2;
	}
	else if ((fSigma < iSearchRange / 6)
		 && (pEnc->sStat.fMvPrevSigma >= 0)
		 && (pEnc->sStat.fMvPrevSigma < iSearchRange / 6)
		 && (pEnc->mbParam.fixed_code >= 2))	// minimum search range 16
	{
		pEnc->mbParam.fixed_code--;
		iSearchRange /= 2;
	}

	pEnc->sStat.fMvPrevSigma = fSigma;
    
	*pBits = BitstreamPos(bs) - *pBits;

	return 0;					 // inter
}

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