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Revision 1.21 - (download) (annotate)
Fri Feb 21 14:41:23 2003 UTC (21 years, 1 month ago) by syskin
Branch: MAIN
CVS Tags: cvs-head, tag-merging-20040322
Branch point for: dev-api-4, Isibaar
Changes since 1.20: +149 -823 lines
cleanups
/**************************************************************************
 *
 *  XVID MPEG-4 VIDEO CODEC
 *  -  MB prediction header file  -
 *
 *  This program is an implementation of a part of one or more MPEG-4
 *  Video tools as specified in ISO/IEC 14496-2 standard.  Those intending
 *  to use this software module in hardware or software products are
 *  advised that its use may infringe existing patents or copyrights, and
 *  any such use would be at such party's own risk.  The original
 *  developer of this software module and his/her company, and subsequent
 *  editors and their companies, will have no liability for use of this
 *  software or modifications or derivatives thereof.
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the xvid_free Software Foundation; either version 2 of the License, or
 *  (at your option) any later version.
 *
 *  This program is distributed in the hope that it will be useful,
 *  but WITHOUT ANY WARRANTY; without even the implied warranty of
 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 *  GNU General Public License for more details.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the xvid_free Software
 *  Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
 *
 *  $Id: mbprediction.h,v 1.21 2003/02/21 14:41:23 syskin Exp $
 *
 *************************************************************************/

 /***************************************************************************
  *																			*
  *  Revision history:														*
  *																			*
  *  29.06.2002 get_pmvdata() bounding										*
  *																			*
  ***************************************************************************/

#ifndef _MBPREDICTION_H_
#define _MBPREDICTION_H_

#include "../portab.h"
#include "../decoder.h"
#include "../global.h"

#define MIN(X, Y) ((X)<(Y)?(X):(Y))
#define MAX(X, Y) ((X)>(Y)?(X):(Y))

/* very large value */
#define MV_MAX_ERROR	(4096 * 256)

#define MVequal(A,B) ( ((A).x)==((B).x) && ((A).y)==((B).y) )

void MBPrediction(FRAMEINFO * frame,	/* <-- The parameter for ACDC and MV prediction */
				uint32_t x_pos,	/* <-- The x position of the MB to be searched	*/
				uint32_t y_pos,	/* <-- The y position of the MB to be searched	*/
				uint32_t x_dim,	/* <-- Number of macroblocks in a row		*/
				int16_t * qcoeff);	/* <-> The quantized DCT coefficients	*/

void add_acdc(MACROBLOCK * pMB,
			uint32_t block,
			int16_t dct_codes[64],
			uint32_t iDcScaler,
			int16_t predictors[8]);

void predict_acdc(MACROBLOCK * pMBs,
				uint32_t x,
				uint32_t y,
				uint32_t mb_width,
				uint32_t block,
				int16_t qcoeff[64],
				uint32_t current_quant,
				int32_t iDcScaler,
				int16_t predictors[8],
				const int bound);

static const VECTOR zeroMV = { 0, 0 };
	/*
	 * MODE_INTER, vm18 page 48
	 * MODE_INTER4V vm18 page 51
	 *
	 *   (x,y-1)	  (x+1,y-1)
	 *   [   |   ]	[   |   ]
	 *   [ 2 | 3 ]	[ 2 |   ]
	 *
	 *   (x-1,y)	   (x,y)		(x+1,y)
	 *   [   | 1 ]	[ 0 | 1 ]	[ 0 |   ]
	 *   [   | 3 ]	[ 2 | 3 ]	[   |   ]
	 */

static __inline VECTOR
get_pmv2(const MACROBLOCK * const mbs,
		const int mb_width,
		const int bound,
		const int x,
		const int y,
		const int block)
{
	int lx, ly, lz;		/* left */
	int tx, ty, tz;		/* top */
	int rx, ry, rz;		/* top-right */
	int lpos, tpos, rpos;
	int num_cand = 0, last_cand = 1;

	VECTOR pmv[4];	/* left neighbour, top neighbour, top-right neighbour */

	switch (block) {
	case 0:
		lx = x - 1;	ly = y;		lz = 1;
		tx = x;		ty = y - 1;	tz = 2;
		rx = x + 1;	ry = y - 1;	rz = 2;
		break;
	case 1:
		lx = x;		ly = y;		lz = 0;
		tx = x;		ty = y - 1;	tz = 3;
		rx = x + 1;	ry = y - 1;	rz = 2;
		break;
	case 2:
		lx = x - 1;	ly = y;		lz = 3;
		tx = x;		ty = y;		tz = 0;
		rx = x;		ry = y;		rz = 1;
		break;
	default:
		lx = x;		ly = y;		lz = 2;
		tx = x;		ty = y;		tz = 0;
		rx = x;		ry = y;		rz = 1;
	}

	lpos = lx + ly * mb_width;
	rpos = rx + ry * mb_width;
	tpos = tx + ty * mb_width;

	if (lpos >= bound && lx >= 0) {
		num_cand++;
		pmv[1] = mbs[lpos].mvs[lz];
	} else pmv[1] = zeroMV;

	if (tpos >= bound) {
		num_cand++;
		last_cand = 2;
		pmv[2] = mbs[tpos].mvs[tz];
	} else pmv[2] = zeroMV;

	if (rpos >= bound && rx < mb_width) {
		num_cand++;
		last_cand = 3;
		pmv[3] = mbs[rpos].mvs[rz];
	} else pmv[3] = zeroMV;

	/* If there're more than one candidate, we return the median vector */

	if (num_cand > 1) {
		/* set median */
		pmv[0].x =
			MIN(MAX(pmv[1].x, pmv[2].x),
				MIN(MAX(pmv[2].x, pmv[3].x), MAX(pmv[1].x, pmv[3].x)));
		pmv[0].y =
			MIN(MAX(pmv[1].y, pmv[2].y),
				MIN(MAX(pmv[2].y, pmv[3].y), MAX(pmv[1].y, pmv[3].y)));
		return pmv[0];
	}

	return pmv[last_cand];	/* no point calculating median mv */
}

static __inline VECTOR
get_qpmv2(const MACROBLOCK * const mbs,
		const int mb_width,
		const int bound,
		const int x,
		const int y,
		const int block)
{
	int lx, ly, lz;		/* left */
	int tx, ty, tz;		/* top */
	int rx, ry, rz;		/* top-right */
	int lpos, tpos, rpos;
	int num_cand = 0, last_cand = 1;

	VECTOR pmv[4];	/* left neighbour, top neighbour, top-right neighbour */

	switch (block) {
	case 0:
		lx = x - 1;	ly = y;		lz = 1;
		tx = x;		ty = y - 1;	tz = 2;
		rx = x + 1;	ry = y - 1;	rz = 2;
		break;
	case 1:
		lx = x;		ly = y;		lz = 0;
		tx = x;		ty = y - 1;	tz = 3;
		rx = x + 1;	ry = y - 1;	rz = 2;
		break;
	case 2:
		lx = x - 1;	ly = y;		lz = 3;
		tx = x;		ty = y;		tz = 0;
		rx = x;		ry = y;		rz = 1;
		break;
	default:
		lx = x;		ly = y;		lz = 2;
		tx = x;		ty = y;		tz = 0;
		rx = x;		ry = y;		rz = 1;
	}

	lpos = lx + ly * mb_width;
	rpos = rx + ry * mb_width;
	tpos = tx + ty * mb_width;

	if (lpos >= bound && lx >= 0) {
		num_cand++;
		pmv[1] = mbs[lpos].qmvs[lz];
	} else pmv[1] = zeroMV;

	if (tpos >= bound) {
		num_cand++;
		last_cand = 2;
		pmv[2] = mbs[tpos].qmvs[tz];
	} else pmv[2] = zeroMV;

	if (rpos >= bound && rx < mb_width) {
		num_cand++;
		last_cand = 3;
		pmv[3] = mbs[rpos].qmvs[rz];
	} else pmv[3] = zeroMV;

	/* If there're more than one candidate, we return the median vector */

	if (num_cand > 1) {
		/* set median */
		pmv[0].x =
			MIN(MAX(pmv[1].x, pmv[2].x),
				MIN(MAX(pmv[2].x, pmv[3].x), MAX(pmv[1].x, pmv[3].x)));
		pmv[0].y =
			MIN(MAX(pmv[1].y, pmv[2].y),
				MIN(MAX(pmv[2].y, pmv[3].y), MAX(pmv[1].y, pmv[3].y)));
		return pmv[0];
	}

	return pmv[last_cand];	/* no point calculating median mv */
}

	/*
	 * pmv are filled with:
	 *  [0]: Median (or whatever is correct in a special case)
	 *  [1]: left neighbour
	 *  [2]: top neighbour
	 *  [3]: topright neighbour
	 * psad are filled with:
	 *  [0]: minimum of [1] to [3]
	 *  [1]: left neighbour's SAD (NB:[1] to [3] are actually not needed)
	 *  [2]: top neighbour's SAD
	 *  [3]: topright neighbour's SAD
	 */

static __inline int
get_pmvdata2(const MACROBLOCK * const mbs,
		const int mb_width,
		const int bound,
		const int x,
		const int y,
		const int block,
		VECTOR * const pmv,
		int32_t * const psad)
{
	int lx, ly, lz;		/* left */
	int tx, ty, tz;		/* top */
	int rx, ry, rz;		/* top-right */
	int lpos, tpos, rpos;
	int num_cand = 0, last_cand = 1;

	switch (block) {
	case 0:
		lx = x - 1;	ly = y;		lz = 1;
		tx = x;		ty = y - 1;	tz = 2;
		rx = x + 1;	ry = y - 1;	rz = 2;
		break;
	case 1:
		lx = x;		ly = y;		lz = 0;
		tx = x;		ty = y - 1;	tz = 3;
		rx = x + 1;	ry = y - 1;	rz = 2;
		break;
	case 2:
		lx = x - 1;	ly = y;		lz = 3;
		tx = x;		ty = y;		tz = 0;
		rx = x;		ry = y;		rz = 1;
		break;
	default:
		lx = x;		ly = y;		lz = 2;
		tx = x;		ty = y;		tz = 0;
		rx = x;		ry = y;		rz = 1;
	}

	lpos = lx + ly * mb_width;
	rpos = rx + ry * mb_width;
	tpos = tx + ty * mb_width;

	if (lpos >= bound && lx >= 0) {
		num_cand++;
		last_cand = 1;
		pmv[1] = mbs[lpos].mvs[lz];
		psad[1] = mbs[lpos].sad8[lz];
	} else {
		pmv[1] = zeroMV;
		psad[1] = MV_MAX_ERROR;
	}

	if (tpos >= bound) {
		num_cand++;
		last_cand = 2;
		pmv[2]= mbs[tpos].mvs[tz];
		psad[2] = mbs[tpos].sad8[tz];
	} else {
		pmv[2] = zeroMV;
		psad[2] = MV_MAX_ERROR;
	}

	if (rpos >= bound && rx < mb_width) {
		num_cand++;
		last_cand = 3;
		pmv[3] = mbs[rpos].mvs[rz];
		psad[3] = mbs[rpos].sad8[rz];
	} else {
		pmv[3] = zeroMV;
		psad[3] = MV_MAX_ERROR;
	}

	/* original pmvdata() compatibility hack */
	if (x == 0 && y == 0 && block == 0) {
		pmv[0] = pmv[1] = pmv[2] = pmv[3] = zeroMV;
		psad[0] = 0;
		psad[1] = psad[2] = psad[3] = MV_MAX_ERROR;
		return 0;
	}

	/* if only one valid candidate preictor, the invalid candiates are set to the canidate */
	if (num_cand == 1) {
		pmv[0] = pmv[last_cand];
		psad[0] = psad[last_cand];
		// return MVequal(pmv[0], zeroMV); /* no point calculating median mv and minimum sad */

		/* original pmvdata() compatibility hack */
		return y==0 && block <= 1 ? 0 : MVequal(pmv[0], zeroMV);
	}

	if ((MVequal(pmv[1], pmv[2])) && (MVequal(pmv[1], pmv[3]))) {
		pmv[0] = pmv[1];
		psad[0] = MIN(MIN(psad[1], psad[2]), psad[3]);
		return 1;
	}

	/* set median, minimum */

	pmv[0].x =
		MIN(MAX(pmv[1].x, pmv[2].x),
			MIN(MAX(pmv[2].x, pmv[3].x), MAX(pmv[1].x, pmv[3].x)));
	pmv[0].y =
		MIN(MAX(pmv[1].y, pmv[2].y),
			MIN(MAX(pmv[2].y, pmv[3].y), MAX(pmv[1].y, pmv[3].y)));

	psad[0] = MIN(MIN(psad[1], psad[2]), psad[3]);

	return 0;
}

#endif							/* _MBPREDICTION_H_ */

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