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/*
* H263/MPEG4 backend for ffmpeg encoder and decoder
* Copyright (c) 2000,2001 Fabrice Bellard
* H263+ support.
* Copyright (c) 2001 Juan J. Sierralta P
* Copyright (c) 2002-2004 Michael Niedermayer <michaelni@gmx.at>
*
* This file is part of FFmpeg.
*
* FFmpeg is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* FFmpeg 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
/**
* @file
* h263/mpeg4 codec.
*/
//#define DEBUG
#include <limits.h>
#include "dsputil.h"
#include "avcodec.h"
#include "mpegvideo.h"
#include "h263.h"
#include "h263data.h"
#include "mathops.h"
#include "unary.h"
#include "flv.h"
#include "mpeg4video.h"
//#undef NDEBUG
//#include <assert.h>
uint8_t ff_h263_static_rl_table_store[2][2][2*MAX_RUN + MAX_LEVEL + 3];
void ff_h263_update_motion_val(MpegEncContext * s){
const int mb_xy = s->mb_y * s->mb_stride + s->mb_x;
//FIXME a lot of that is only needed for !low_delay
const int wrap = s->b8_stride;
const int xy = s->block_index[0];
s->current_picture.mbskip_table[mb_xy]= s->mb_skipped;
if(s->mv_type != MV_TYPE_8X8){
int motion_x, motion_y;
if (s->mb_intra) {
motion_x = 0;
motion_y = 0;
} else if (s->mv_type == MV_TYPE_16X16) {
motion_x = s->mv[0][0][0];
motion_y = s->mv[0][0][1];
} else /*if (s->mv_type == MV_TYPE_FIELD)*/ {
int i;
motion_x = s->mv[0][0][0] + s->mv[0][1][0];
motion_y = s->mv[0][0][1] + s->mv[0][1][1];
motion_x = (motion_x>>1) | (motion_x&1);
for(i=0; i<2; i++){
s->p_field_mv_table[i][0][mb_xy][0]= s->mv[0][i][0];
s->p_field_mv_table[i][0][mb_xy][1]= s->mv[0][i][1];
}
s->current_picture.ref_index[0][4*mb_xy ]=
s->current_picture.ref_index[0][4*mb_xy + 1]= s->field_select[0][0];
s->current_picture.ref_index[0][4*mb_xy + 2]=
s->current_picture.ref_index[0][4*mb_xy + 3]= s->field_select[0][1];
}
/* no update if 8X8 because it has been done during parsing */
s->current_picture.motion_val[0][xy][0] = motion_x;
s->current_picture.motion_val[0][xy][1] = motion_y;
s->current_picture.motion_val[0][xy + 1][0] = motion_x;
s->current_picture.motion_val[0][xy + 1][1] = motion_y;
s->current_picture.motion_val[0][xy + wrap][0] = motion_x;
s->current_picture.motion_val[0][xy + wrap][1] = motion_y;
s->current_picture.motion_val[0][xy + 1 + wrap][0] = motion_x;
s->current_picture.motion_val[0][xy + 1 + wrap][1] = motion_y;
}
if(s->encoding){ //FIXME encoding MUST be cleaned up
if (s->mv_type == MV_TYPE_8X8)
s->current_picture.mb_type[mb_xy]= MB_TYPE_L0 | MB_TYPE_8x8;
else if(s->mb_intra)
s->current_picture.mb_type[mb_xy]= MB_TYPE_INTRA;
else
s->current_picture.mb_type[mb_xy]= MB_TYPE_L0 | MB_TYPE_16x16;
}
}
int h263_pred_dc(MpegEncContext * s, int n, int16_t **dc_val_ptr)
{
int x, y, wrap, a, c, pred_dc;
int16_t *dc_val;
/* find prediction */
if (n < 4) {
x = 2 * s->mb_x + (n & 1);
y = 2 * s->mb_y + ((n & 2) >> 1);
wrap = s->b8_stride;
dc_val = s->dc_val[0];
} else {
x = s->mb_x;
y = s->mb_y;
wrap = s->mb_stride;
dc_val = s->dc_val[n - 4 + 1];
}
/* B C
* A X
*/
a = dc_val[(x - 1) + (y) * wrap];
c = dc_val[(x) + (y - 1) * wrap];
/* No prediction outside GOB boundary */
if(s->first_slice_line && n!=3){
if(n!=2) c= 1024;
if(n!=1 && s->mb_x == s->resync_mb_x) a= 1024;
}
/* just DC prediction */
if (a != 1024 && c != 1024)
pred_dc = (a + c) >> 1;
else if (a != 1024)
pred_dc = a;
else
pred_dc = c;
/* we assume pred is positive */
*dc_val_ptr = &dc_val[x + y * wrap];
return pred_dc;
}
void ff_h263_loop_filter(MpegEncContext * s){
int qp_c;
const int linesize = s->linesize;
const int uvlinesize= s->uvlinesize;
const int xy = s->mb_y * s->mb_stride + s->mb_x;
uint8_t *dest_y = s->dest[0];
uint8_t *dest_cb= s->dest[1];
uint8_t *dest_cr= s->dest[2];
// if(s->pict_type==FF_B_TYPE && !s->readable) return;
/*
Diag Top
Left Center
*/
if(!IS_SKIP(s->current_picture.mb_type[xy])){
qp_c= s->qscale;
s->dsp.h263_v_loop_filter(dest_y+8*linesize , linesize, qp_c);
s->dsp.h263_v_loop_filter(dest_y+8*linesize+8, linesize, qp_c);
}else
qp_c= 0;
if(s->mb_y){
int qp_dt, qp_tt, qp_tc;
if(IS_SKIP(s->current_picture.mb_type[xy-s->mb_stride]))
qp_tt=0;
else
qp_tt= s->current_picture.qscale_table[xy-s->mb_stride];
if(qp_c)
qp_tc= qp_c;
else
qp_tc= qp_tt;
if(qp_tc){
const int chroma_qp= s->chroma_qscale_table[qp_tc];
s->dsp.h263_v_loop_filter(dest_y , linesize, qp_tc);
s->dsp.h263_v_loop_filter(dest_y+8, linesize, qp_tc);
s->dsp.h263_v_loop_filter(dest_cb , uvlinesize, chroma_qp);
s->dsp.h263_v_loop_filter(dest_cr , uvlinesize, chroma_qp);
}
if(qp_tt)
s->dsp.h263_h_loop_filter(dest_y-8*linesize+8 , linesize, qp_tt);
if(s->mb_x){
if(qp_tt || IS_SKIP(s->current_picture.mb_type[xy-1-s->mb_stride]))
qp_dt= qp_tt;
else
qp_dt= s->current_picture.qscale_table[xy-1-s->mb_stride];
if(qp_dt){
const int chroma_qp= s->chroma_qscale_table[qp_dt];
s->dsp.h263_h_loop_filter(dest_y -8*linesize , linesize, qp_dt);
s->dsp.h263_h_loop_filter(dest_cb-8*uvlinesize, uvlinesize, chroma_qp);
s->dsp.h263_h_loop_filter(dest_cr-8*uvlinesize, uvlinesize, chroma_qp);
}
}
}
if(qp_c){
s->dsp.h263_h_loop_filter(dest_y +8, linesize, qp_c);
if(s->mb_y + 1 == s->mb_height)
s->dsp.h263_h_loop_filter(dest_y+8*linesize+8, linesize, qp_c);
}
if(s->mb_x){
int qp_lc;
if(qp_c || IS_SKIP(s->current_picture.mb_type[xy-1]))
qp_lc= qp_c;
else
qp_lc= s->current_picture.qscale_table[xy-1];
if(qp_lc){
s->dsp.h263_h_loop_filter(dest_y, linesize, qp_lc);
if(s->mb_y + 1 == s->mb_height){
const int chroma_qp= s->chroma_qscale_table[qp_lc];
s->dsp.h263_h_loop_filter(dest_y +8* linesize, linesize, qp_lc);
s->dsp.h263_h_loop_filter(dest_cb , uvlinesize, chroma_qp);
s->dsp.h263_h_loop_filter(dest_cr , uvlinesize, chroma_qp);
}
}
}
}
void h263_pred_acdc(MpegEncContext * s, DCTELEM *block, int n)
{
int x, y, wrap, a, c, pred_dc, scale, i;
int16_t *dc_val, *ac_val, *ac_val1;
/* find prediction */
if (n < 4) {
x = 2 * s->mb_x + (n & 1);
y = 2 * s->mb_y + (n>> 1);
wrap = s->b8_stride;
dc_val = s->dc_val[0];
ac_val = s->ac_val[0][0];
scale = s->y_dc_scale;
} else {
x = s->mb_x;
y = s->mb_y;
wrap = s->mb_stride;
dc_val = s->dc_val[n - 4 + 1];
ac_val = s->ac_val[n - 4 + 1][0];
scale = s->c_dc_scale;
}
ac_val += ((y) * wrap + (x)) * 16;
ac_val1 = ac_val;
/* B C
* A X
*/
a = dc_val[(x - 1) + (y) * wrap];
c = dc_val[(x) + (y - 1) * wrap];
/* No prediction outside GOB boundary */
if(s->first_slice_line && n!=3){
if(n!=2) c= 1024;
if(n!=1 && s->mb_x == s->resync_mb_x) a= 1024;
}
if (s->ac_pred) {
pred_dc = 1024;
if (s->h263_aic_dir) {
/* left prediction */
if (a != 1024) {
ac_val -= 16;
for(i=1;i<8;i++) {
block[s->dsp.idct_permutation[i<<3]] += ac_val[i];
}
pred_dc = a;
}
} else {
/* top prediction */
if (c != 1024) {
ac_val -= 16 * wrap;
for(i=1;i<8;i++) {
block[s->dsp.idct_permutation[i ]] += ac_val[i + 8];
}
pred_dc = c;
}
}
} else {
/* just DC prediction */
if (a != 1024 && c != 1024)
pred_dc = (a + c) >> 1;
else if (a != 1024)
pred_dc = a;
else
pred_dc = c;
}
/* we assume pred is positive */
block[0]=block[0]*scale + pred_dc;
if (block[0] < 0)
block[0] = 0;
else
block[0] |= 1;
/* Update AC/DC tables */
dc_val[(x) + (y) * wrap] = block[0];
/* left copy */
for(i=1;i<8;i++)
ac_val1[i ] = block[s->dsp.idct_permutation[i<<3]];
/* top copy */
for(i=1;i<8;i++)
ac_val1[8 + i] = block[s->dsp.idct_permutation[i ]];
}
int16_t *h263_pred_motion(MpegEncContext * s, int block, int dir,
int *px, int *py)
{
int wrap;
int16_t *A, *B, *C, (*mot_val)[2];
static const int off[4]= {2, 1, 1, -1};
wrap = s->b8_stride;
mot_val = s->current_picture.motion_val[dir] + s->block_index[block];
A = mot_val[ - 1];
/* special case for first (slice) line */
if (s->first_slice_line && block<3) {
// we can't just change some MVs to simulate that as we need them for the B frames (and ME)
// and if we ever support non rectangular objects than we need to do a few ifs here anyway :(
if(block==0){ //most common case
if(s->mb_x == s->resync_mb_x){ //rare
*px= *py = 0;
}else if(s->mb_x + 1 == s->resync_mb_x && s->h263_pred){ //rare
C = mot_val[off[block] - wrap];
if(s->mb_x==0){
*px = C[0];
*py = C[1];
}else{
*px = mid_pred(A[0], 0, C[0]);
*py = mid_pred(A[1], 0, C[1]);
}
}else{
*px = A[0];
*py = A[1];
}
}else if(block==1){
if(s->mb_x + 1 == s->resync_mb_x && s->h263_pred){ //rare
C = mot_val[off[block] - wrap];
*px = mid_pred(A[0], 0, C[0]);
*py = mid_pred(A[1], 0, C[1]);
}else{
*px = A[0];
*py = A[1];
}
}else{ /* block==2*/
B = mot_val[ - wrap];
C = mot_val[off[block] - wrap];
if(s->mb_x == s->resync_mb_x) //rare
A[0]=A[1]=0;
*px = mid_pred(A[0], B[0], C[0]);
*py = mid_pred(A[1], B[1], C[1]);
}
} else {
B = mot_val[ - wrap];
C = mot_val[off[block] - wrap];
*px = mid_pred(A[0], B[0], C[0]);
*py = mid_pred(A[1], B[1], C[1]);
}
return *mot_val;
}
/**
* Get the GOB height based on picture height.
*/
int ff_h263_get_gob_height(MpegEncContext *s){
if (s->height <= 400)
return 1;
else if (s->height <= 800)
return 2;
else
return 4;
}
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