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/*
* Copyright ( C ) 2004 Michael Niedermayer < michaelni @ gmx . at >
*
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* This file is part of FFmpeg .
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*
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* FFmpeg is free software ; you can redistribute it and / or
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* 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 .
*
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* FFmpeg is distributed in the hope that it will be useful ,
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* 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
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* License along with FFmpeg ; if not , write to the Free Software
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* Foundation , Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA
*/
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# include "libavutil/emms.h"
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# include "libavutil/intmath.h"
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# include "libavutil/libm.h"
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# include "libavutil/log.h"
# include "libavutil/opt.h"
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# include "libavutil/pixdesc.h"
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# include "avcodec.h"
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# include "codec_internal.h"
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# include "encode.h"
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# include "internal.h" //For AVCodecInternal.recon_frame
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# include "me_cmp.h"
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# include "packet_internal.h"
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# include "qpeldsp.h"
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# include "snow_dwt.h"
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# include "snow.h"
# include "rangecoder.h"
# include "mathops.h"
# include "mpegvideo.h"
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# include "h263enc.h"
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# define FF_ME_ITER 3
typedef struct SnowEncContext {
SnowContext com ;
QpelDSPContext qdsp ;
MpegvideoEncDSPContext mpvencdsp ;
int lambda ;
int lambda2 ;
int pass1_rc ;
int pred ;
int memc_only ;
int no_bitstream ;
int intra_penalty ;
int motion_est ;
int iterative_dia_size ;
int scenechange_threshold ;
MECmpContext mecc ;
MpegEncContext m ; // needed for motion estimation, should not be used for anything else, the idea is to eventually make the motion estimation independent of MpegEncContext, so this will be removed then (FIXME/XXX)
# define ME_CACHE_SIZE 1024
unsigned me_cache [ ME_CACHE_SIZE ] ;
unsigned me_cache_generation ;
uint64_t encoding_error [ SNOW_MAX_PLANES ] ;
} SnowEncContext ;
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static void init_ref ( MotionEstContext * c , const uint8_t * const src [ 3 ] ,
uint8_t * const ref [ 3 ] , uint8_t * const ref2 [ 3 ] ,
int x , int y , int ref_index )
{
SnowContext * s = c - > avctx - > priv_data ;
const int offset [ 3 ] = {
y * c - > stride + x ,
( ( y * c - > uvstride + x ) > > s - > chroma_h_shift ) ,
( ( y * c - > uvstride + x ) > > s - > chroma_h_shift ) ,
} ;
for ( int i = 0 ; i < 3 ; i + + ) {
c - > src [ 0 ] [ i ] = src [ i ] ;
c - > ref [ 0 ] [ i ] = ref [ i ] + offset [ i ] ;
}
av_assert2 ( ! ref_index ) ;
}
static inline void put_symbol ( RangeCoder * c , uint8_t * state , int v , int is_signed )
{
if ( v ) {
const int a = FFABS ( v ) ;
const int e = av_log2 ( a ) ;
const int el = FFMIN ( e , 10 ) ;
int i ;
put_rac ( c , state + 0 , 0 ) ;
for ( i = 0 ; i < el ; i + + )
put_rac ( c , state + 1 + i , 1 ) ; //1..10
for ( ; i < e ; i + + )
put_rac ( c , state + 1 + 9 , 1 ) ; //1..10
put_rac ( c , state + 1 + FFMIN ( i , 9 ) , 0 ) ;
for ( i = e - 1 ; i > = el ; i - - )
put_rac ( c , state + 22 + 9 , ( a > > i ) & 1 ) ; //22..31
for ( ; i > = 0 ; i - - )
put_rac ( c , state + 22 + i , ( a > > i ) & 1 ) ; //22..31
if ( is_signed )
put_rac ( c , state + 11 + el , v < 0 ) ; //11..21
} else {
put_rac ( c , state + 0 , 1 ) ;
}
}
static inline void put_symbol2 ( RangeCoder * c , uint8_t * state , int v , int log2 )
{
int r = log2 > = 0 ? 1 < < log2 : 1 ;
av_assert2 ( v > = 0 ) ;
av_assert2 ( log2 > = - 4 ) ;
while ( v > = r ) {
put_rac ( c , state + 4 + log2 , 1 ) ;
v - = r ;
log2 + + ;
if ( log2 > 0 ) r + = r ;
}
put_rac ( c , state + 4 + log2 , 0 ) ;
for ( int i = log2 - 1 ; i > = 0 ; i - - )
put_rac ( c , state + 31 - i , ( v > > i ) & 1 ) ;
}
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static int get_encode_buffer ( SnowContext * s , AVFrame * frame )
{
int ret ;
frame - > width = s - > avctx - > width + 2 * EDGE_WIDTH ;
frame - > height = s - > avctx - > height + 2 * EDGE_WIDTH ;
ret = ff_encode_alloc_frame ( s - > avctx , frame ) ;
if ( ret < 0 )
return ret ;
for ( int i = 0 ; frame - > data [ i ] ; i + + ) {
int offset = ( EDGE_WIDTH > > ( i ? s - > chroma_v_shift : 0 ) ) *
frame - > linesize [ i ] +
( EDGE_WIDTH > > ( i ? s - > chroma_h_shift : 0 ) ) ;
frame - > data [ i ] + = offset ;
}
frame - > width = s - > avctx - > width ;
frame - > height = s - > avctx - > height ;
return 0 ;
}
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static av_cold int encode_init ( AVCodecContext * avctx )
{
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SnowEncContext * const enc = avctx - > priv_data ;
SnowContext * const s = & enc - > com ;
MpegEncContext * const mpv = & enc - > m ;
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int plane_index , ret ;
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int i ;
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if ( enc - > pred = = DWT_97
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& & ( avctx - > flags & AV_CODEC_FLAG_QSCALE )
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& & avctx - > global_quality = = 0 ) {
av_log ( avctx , AV_LOG_ERROR , " The 9/7 wavelet is incompatible with lossless mode. \n " ) ;
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return AVERROR ( EINVAL ) ;
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}
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s - > spatial_decomposition_type = enc - > pred ; //FIXME add decorrelator type r transform_type
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s - > mv_scale = ( avctx - > flags & AV_CODEC_FLAG_QPEL ) ? 2 : 4 ;
s - > block_max_depth = ( avctx - > flags & AV_CODEC_FLAG_4MV ) ? 1 : 0 ;
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for ( plane_index = 0 ; plane_index < 3 ; plane_index + + ) {
s - > plane [ plane_index ] . diag_mc = 1 ;
s - > plane [ plane_index ] . htaps = 6 ;
s - > plane [ plane_index ] . hcoeff [ 0 ] = 40 ;
s - > plane [ plane_index ] . hcoeff [ 1 ] = - 10 ;
s - > plane [ plane_index ] . hcoeff [ 2 ] = 2 ;
s - > plane [ plane_index ] . fast_mc = 1 ;
}
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// Must be before ff_snow_common_init()
ff_hpeldsp_init ( & s - > hdsp , avctx - > flags ) ;
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if ( ( ret = ff_snow_common_init ( avctx ) ) < 0 ) {
return ret ;
}
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# define mcf(dx,dy)\
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enc - > qdsp . put_qpel_pixels_tab [ 0 ] [ dy + dx / 4 ] = \
enc - > qdsp . put_no_rnd_qpel_pixels_tab [ 0 ] [ dy + dx / 4 ] = \
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s - > h264qpel . put_h264_qpel_pixels_tab [ 0 ] [ dy + dx / 4 ] ; \
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enc - > qdsp . put_qpel_pixels_tab [ 1 ] [ dy + dx / 4 ] = \
enc - > qdsp . put_no_rnd_qpel_pixels_tab [ 1 ] [ dy + dx / 4 ] = \
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s - > h264qpel . put_h264_qpel_pixels_tab [ 1 ] [ dy + dx / 4 ] ;
mcf ( 0 , 0 )
mcf ( 4 , 0 )
mcf ( 8 , 0 )
mcf ( 12 , 0 )
mcf ( 0 , 4 )
mcf ( 4 , 4 )
mcf ( 8 , 4 )
mcf ( 12 , 4 )
mcf ( 0 , 8 )
mcf ( 4 , 8 )
mcf ( 8 , 8 )
mcf ( 12 , 8 )
mcf ( 0 , 12 )
mcf ( 4 , 12 )
mcf ( 8 , 12 )
mcf ( 12 , 12 )
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ff_me_cmp_init ( & enc - > mecc , avctx ) ;
ff_mpegvideoencdsp_init ( & enc - > mpvencdsp , avctx ) ;
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ff_snow_alloc_blocks ( s ) ;
s - > version = 0 ;
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mpv - > avctx = avctx ;
mpv - > bit_rate = avctx - > bit_rate ;
mpv - > lmin = avctx - > mb_lmin ;
mpv - > lmax = avctx - > mb_lmax ;
mpv - > mb_num = ( avctx - > width * avctx - > height + 255 ) / 256 ; // For ratecontrol
mpv - > me . temp =
mpv - > me . scratchpad = av_calloc ( avctx - > width + 64 , 2 * 16 * 2 * sizeof ( uint8_t ) ) ;
mpv - > sc . obmc_scratchpad = av_mallocz ( MB_SIZE * MB_SIZE * 12 * sizeof ( uint32_t ) ) ;
mpv - > me . map = av_mallocz ( 2 * ME_MAP_SIZE * sizeof ( * mpv - > me . map ) ) ;
if ( ! mpv - > me . scratchpad | | ! mpv - > me . map | | ! mpv - > sc . obmc_scratchpad )
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return AVERROR ( ENOMEM ) ;
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mpv - > me . score_map = mpv - > me . map + ME_MAP_SIZE ;
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ff_h263_encode_init ( mpv ) ; //mv_penalty
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s - > max_ref_frames = av_clip ( avctx - > refs , 1 , MAX_REF_FRAMES ) ;
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if ( avctx - > flags & AV_CODEC_FLAG_PASS1 ) {
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if ( ! avctx - > stats_out )
avctx - > stats_out = av_mallocz ( 256 ) ;
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if ( ! avctx - > stats_out )
return AVERROR ( ENOMEM ) ;
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}
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if ( ( avctx - > flags & AV_CODEC_FLAG_PASS2 ) | | ! ( avctx - > flags & AV_CODEC_FLAG_QSCALE ) ) {
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ret = ff_rate_control_init ( mpv ) ;
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if ( ret < 0 )
return ret ;
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}
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enc - > pass1_rc = ! ( avctx - > flags & ( AV_CODEC_FLAG_QSCALE | AV_CODEC_FLAG_PASS2 ) ) ;
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switch ( avctx - > pix_fmt ) {
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case AV_PIX_FMT_YUV444P :
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// case AV_PIX_FMT_YUV422P:
case AV_PIX_FMT_YUV420P :
// case AV_PIX_FMT_YUV411P:
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case AV_PIX_FMT_YUV410P :
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s - > nb_planes = 3 ;
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s - > colorspace_type = 0 ;
break ;
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case AV_PIX_FMT_GRAY8 :
s - > nb_planes = 1 ;
s - > colorspace_type = 1 ;
break ;
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/* case AV_PIX_FMT_RGB32:
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s - > colorspace = 1 ;
break ; */
}
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ret = av_pix_fmt_get_chroma_sub_sample ( avctx - > pix_fmt , & s - > chroma_h_shift ,
& s - > chroma_v_shift ) ;
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if ( ret )
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return ret ;
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ret = ff_set_cmp ( & enc - > mecc , enc - > mecc . me_cmp , s - > avctx - > me_cmp ) ;
ret | = ff_set_cmp ( & enc - > mecc , enc - > mecc . me_sub_cmp , s - > avctx - > me_sub_cmp ) ;
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if ( ret < 0 )
return AVERROR ( EINVAL ) ;
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s - > input_picture = av_frame_alloc ( ) ;
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if ( ! s - > input_picture )
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return AVERROR ( ENOMEM ) ;
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if ( ( ret = get_encode_buffer ( s , s - > input_picture ) ) < 0 )
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return ret ;
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if ( enc - > motion_est = = FF_ME_ITER ) {
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int size = s - > b_width * s - > b_height < < 2 * s - > block_max_depth ;
for ( i = 0 ; i < s - > max_ref_frames ; i + + ) {
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s - > ref_mvs [ i ] = av_calloc ( size , sizeof ( * s - > ref_mvs [ i ] ) ) ;
s - > ref_scores [ i ] = av_calloc ( size , sizeof ( * s - > ref_scores [ i ] ) ) ;
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if ( ! s - > ref_mvs [ i ] | | ! s - > ref_scores [ i ] )
return AVERROR ( ENOMEM ) ;
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}
}
return 0 ;
}
//near copy & paste from dsputil, FIXME
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static int pix_sum ( const uint8_t * pix , int line_size , int w , int h )
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{
int s , i , j ;
s = 0 ;
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for ( i = 0 ; i < h ; i + + ) {
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for ( j = 0 ; j < w ; j + + ) {
s + = pix [ 0 ] ;
pix + + ;
}
pix + = line_size - w ;
}
return s ;
}
//near copy & paste from dsputil, FIXME
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static int pix_norm1 ( const uint8_t * pix , int line_size , int w )
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{
int s , i , j ;
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const uint32_t * sq = ff_square_tab + 256 ;
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s = 0 ;
for ( i = 0 ; i < w ; i + + ) {
for ( j = 0 ; j < w ; j + + ) {
s + = sq [ pix [ 0 ] ] ;
pix + + ;
}
pix + = line_size - w ;
}
return s ;
}
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static inline int get_penalty_factor ( int lambda , int lambda2 , int type ) {
switch ( type & 0xFF ) {
default :
case FF_CMP_SAD :
return lambda > > FF_LAMBDA_SHIFT ;
case FF_CMP_DCT :
return ( 3 * lambda ) > > ( FF_LAMBDA_SHIFT + 1 ) ;
case FF_CMP_W53 :
return ( 4 * lambda ) > > ( FF_LAMBDA_SHIFT ) ;
case FF_CMP_W97 :
return ( 2 * lambda ) > > ( FF_LAMBDA_SHIFT ) ;
case FF_CMP_SATD :
case FF_CMP_DCT264 :
return ( 2 * lambda ) > > FF_LAMBDA_SHIFT ;
case FF_CMP_RD :
case FF_CMP_PSNR :
case FF_CMP_SSE :
case FF_CMP_NSSE :
return lambda2 > > FF_LAMBDA_SHIFT ;
case FF_CMP_BIT :
return 1 ;
}
}
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//FIXME copy&paste
# define P_LEFT P[1]
# define P_TOP P[2]
# define P_TOPRIGHT P[3]
# define P_MEDIAN P[4]
# define P_MV1 P[9]
# define FLAG_QPEL 1 //must be 1
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static int encode_q_branch ( SnowEncContext * enc , int level , int x , int y )
{
SnowContext * const s = & enc - > com ;
MotionEstContext * const c = & enc - > m . me ;
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uint8_t p_buffer [ 1024 ] ;
uint8_t i_buffer [ 1024 ] ;
uint8_t p_state [ sizeof ( s - > block_state ) ] ;
uint8_t i_state [ sizeof ( s - > block_state ) ] ;
RangeCoder pc , ic ;
uint8_t * pbbak = s - > c . bytestream ;
uint8_t * pbbak_start = s - > c . bytestream_start ;
int score , score2 , iscore , i_len , p_len , block_s , sum , base_bits ;
const int w = s - > b_width < < s - > block_max_depth ;
const int h = s - > b_height < < s - > block_max_depth ;
const int rem_depth = s - > block_max_depth - level ;
const int index = ( x + y * w ) < < rem_depth ;
const int block_w = 1 < < ( LOG2_MB_SIZE - level ) ;
int trx = ( x + 1 ) < < rem_depth ;
int try = ( y + 1 ) < < rem_depth ;
const BlockNode * left = x ? & s - > block [ index - 1 ] : & null_block ;
const BlockNode * top = y ? & s - > block [ index - w ] : & null_block ;
const BlockNode * right = trx < w ? & s - > block [ index + 1 ] : & null_block ;
const BlockNode * bottom = try < h ? & s - > block [ index + w ] : & null_block ;
const BlockNode * tl = y & & x ? & s - > block [ index - w - 1 ] : left ;
const BlockNode * tr = y & & trx < w & & ( ( x & 1 ) = = 0 | | level = = 0 ) ? & s - > block [ index - w + ( 1 < < rem_depth ) ] : tl ; //FIXME use lt
int pl = left - > color [ 0 ] ;
int pcb = left - > color [ 1 ] ;
int pcr = left - > color [ 2 ] ;
int pmx , pmy ;
int mx = 0 , my = 0 ;
int l , cr , cb ;
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const int stride = s - > current_picture - > linesize [ 0 ] ;
const int uvstride = s - > current_picture - > linesize [ 1 ] ;
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const uint8_t * const current_data [ 3 ] = { s - > input_picture - > data [ 0 ] + ( x + y * stride ) * block_w ,
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s - > input_picture - > data [ 1 ] + ( ( x * block_w ) > > s - > chroma_h_shift ) + ( ( y * uvstride * block_w ) > > s - > chroma_v_shift ) ,
s - > input_picture - > data [ 2 ] + ( ( x * block_w ) > > s - > chroma_h_shift ) + ( ( y * uvstride * block_w ) > > s - > chroma_v_shift ) } ;
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int P [ 10 ] [ 2 ] ;
int16_t last_mv [ 3 ] [ 2 ] ;
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int qpel = ! ! ( s - > avctx - > flags & AV_CODEC_FLAG_QPEL ) ; //unused
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const int shift = 1 + qpel ;
int ref_context = av_log2 ( 2 * left - > ref ) + av_log2 ( 2 * top - > ref ) ;
int mx_context = av_log2 ( 2 * FFABS ( left - > mx - top - > mx ) ) ;
int my_context = av_log2 ( 2 * FFABS ( left - > my - top - > my ) ) ;
int s_context = 2 * left - > level + 2 * top - > level + tl - > level + tr - > level ;
int ref , best_ref , ref_score , ref_mx , ref_my ;
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av_assert0 ( sizeof ( s - > block_state ) > = 256 ) ;
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if ( s - > keyframe ) {
set_blocks ( s , level , x , y , pl , pcb , pcr , 0 , 0 , 0 , BLOCK_INTRA ) ;
return 0 ;
}
// clip predictors / edge ?
P_LEFT [ 0 ] = left - > mx ;
P_LEFT [ 1 ] = left - > my ;
P_TOP [ 0 ] = top - > mx ;
P_TOP [ 1 ] = top - > my ;
P_TOPRIGHT [ 0 ] = tr - > mx ;
P_TOPRIGHT [ 1 ] = tr - > my ;
last_mv [ 0 ] [ 0 ] = s - > block [ index ] . mx ;
last_mv [ 0 ] [ 1 ] = s - > block [ index ] . my ;
last_mv [ 1 ] [ 0 ] = right - > mx ;
last_mv [ 1 ] [ 1 ] = right - > my ;
last_mv [ 2 ] [ 0 ] = bottom - > mx ;
last_mv [ 2 ] [ 1 ] = bottom - > my ;
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enc - > m . mb_stride = 2 ;
enc - > m . mb_x =
enc - > m . mb_y = 0 ;
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c - > skip = 0 ;
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av_assert1 ( c - > stride = = stride ) ;
av_assert1 ( c - > uvstride = = uvstride ) ;
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c - > penalty_factor = get_penalty_factor ( enc - > lambda , enc - > lambda2 , c - > avctx - > me_cmp ) ;
c - > sub_penalty_factor = get_penalty_factor ( enc - > lambda , enc - > lambda2 , c - > avctx - > me_sub_cmp ) ;
c - > mb_penalty_factor = get_penalty_factor ( enc - > lambda , enc - > lambda2 , c - > avctx - > mb_cmp ) ;
c - > current_mv_penalty = c - > mv_penalty [ enc - > m . f_code = 1 ] + MAX_DMV ;
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c - > xmin = - x * block_w - 16 + 3 ;
c - > ymin = - y * block_w - 16 + 3 ;
c - > xmax = - ( x + 1 ) * block_w + ( w < < ( LOG2_MB_SIZE - s - > block_max_depth ) ) + 16 - 3 ;
c - > ymax = - ( y + 1 ) * block_w + ( h < < ( LOG2_MB_SIZE - s - > block_max_depth ) ) + 16 - 3 ;
if ( P_LEFT [ 0 ] > ( c - > xmax < < shift ) ) P_LEFT [ 0 ] = ( c - > xmax < < shift ) ;
if ( P_LEFT [ 1 ] > ( c - > ymax < < shift ) ) P_LEFT [ 1 ] = ( c - > ymax < < shift ) ;
if ( P_TOP [ 0 ] > ( c - > xmax < < shift ) ) P_TOP [ 0 ] = ( c - > xmax < < shift ) ;
if ( P_TOP [ 1 ] > ( c - > ymax < < shift ) ) P_TOP [ 1 ] = ( c - > ymax < < shift ) ;
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if ( P_TOPRIGHT [ 0 ] < ( c - > xmin * ( 1 < < shift ) ) ) P_TOPRIGHT [ 0 ] = ( c - > xmin * ( 1 < < shift ) ) ;
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if ( P_TOPRIGHT [ 0 ] > ( c - > xmax < < shift ) ) P_TOPRIGHT [ 0 ] = ( c - > xmax < < shift ) ; //due to pmx no clip
if ( P_TOPRIGHT [ 1 ] > ( c - > ymax < < shift ) ) P_TOPRIGHT [ 1 ] = ( c - > ymax < < shift ) ;
P_MEDIAN [ 0 ] = mid_pred ( P_LEFT [ 0 ] , P_TOP [ 0 ] , P_TOPRIGHT [ 0 ] ) ;
P_MEDIAN [ 1 ] = mid_pred ( P_LEFT [ 1 ] , P_TOP [ 1 ] , P_TOPRIGHT [ 1 ] ) ;
if ( ! y ) {
c - > pred_x = P_LEFT [ 0 ] ;
c - > pred_y = P_LEFT [ 1 ] ;
} else {
c - > pred_x = P_MEDIAN [ 0 ] ;
c - > pred_y = P_MEDIAN [ 1 ] ;
}
score = INT_MAX ;
best_ref = 0 ;
for ( ref = 0 ; ref < s - > ref_frames ; ref + + ) {
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init_ref ( c , current_data , s - > last_picture [ ref ] - > data , NULL , block_w * x , block_w * y , 0 ) ;
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ref_score = ff_epzs_motion_search ( & enc - > m , & ref_mx , & ref_my , P , 0 , /*ref_index*/ 0 , last_mv ,
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( 1 < < 16 ) > > shift , level - LOG2_MB_SIZE + 4 , block_w ) ;
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av_assert2 ( ref_mx > = c - > xmin ) ;
av_assert2 ( ref_mx < = c - > xmax ) ;
av_assert2 ( ref_my > = c - > ymin ) ;
av_assert2 ( ref_my < = c - > ymax ) ;
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ref_score = c - > sub_motion_search ( & enc - > m , & ref_mx , & ref_my , ref_score , 0 , 0 , level - LOG2_MB_SIZE + 4 , block_w ) ;
ref_score = ff_get_mb_score ( & enc - > m , ref_mx , ref_my , 0 , 0 , level - LOG2_MB_SIZE + 4 , block_w , 0 ) ;
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ref_score + = 2 * av_log2 ( 2 * ref ) * c - > penalty_factor ;
if ( s - > ref_mvs [ ref ] ) {
s - > ref_mvs [ ref ] [ index ] [ 0 ] = ref_mx ;
s - > ref_mvs [ ref ] [ index ] [ 1 ] = ref_my ;
s - > ref_scores [ ref ] [ index ] = ref_score ;
}
if ( score > ref_score ) {
score = ref_score ;
best_ref = ref ;
mx = ref_mx ;
my = ref_my ;
}
}
//FIXME if mb_cmp != SSE then intra cannot be compared currently and mb_penalty vs. lambda2
// subpel search
base_bits = get_rac_count ( & s - > c ) - 8 * ( s - > c . bytestream - s - > c . bytestream_start ) ;
pc = s - > c ;
pc . bytestream_start =
pc . bytestream = p_buffer ; //FIXME end/start? and at the other stoo
memcpy ( p_state , s - > block_state , sizeof ( s - > block_state ) ) ;
if ( level ! = s - > block_max_depth )
put_rac ( & pc , & p_state [ 4 + s_context ] , 1 ) ;
put_rac ( & pc , & p_state [ 1 + left - > type + top - > type ] , 0 ) ;
if ( s - > ref_frames > 1 )
put_symbol ( & pc , & p_state [ 128 + 1024 + 32 * ref_context ] , best_ref , 0 ) ;
pred_mv ( s , & pmx , & pmy , best_ref , left , top , tr ) ;
put_symbol ( & pc , & p_state [ 128 + 32 * ( mx_context + 16 * ! ! best_ref ) ] , mx - pmx , 1 ) ;
put_symbol ( & pc , & p_state [ 128 + 32 * ( my_context + 16 * ! ! best_ref ) ] , my - pmy , 1 ) ;
p_len = pc . bytestream - pc . bytestream_start ;
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score + = ( enc - > lambda2 * ( get_rac_count ( & pc ) - base_bits ) ) > > FF_LAMBDA_SHIFT ;
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block_s = block_w * block_w ;
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sum = pix_sum ( current_data [ 0 ] , stride , block_w , block_w ) ;
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l = ( sum + block_s / 2 ) / block_s ;
iscore = pix_norm1 ( current_data [ 0 ] , stride , block_w ) - 2 * l * sum + l * l * block_s ;
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if ( s - > nb_planes > 2 ) {
block_s = block_w * block_w > > ( s - > chroma_h_shift + s - > chroma_v_shift ) ;
sum = pix_sum ( current_data [ 1 ] , uvstride , block_w > > s - > chroma_h_shift , block_w > > s - > chroma_v_shift ) ;
cb = ( sum + block_s / 2 ) / block_s ;
// iscore += pix_norm1(¤t_mb[1][0], uvstride, block_w>>1) - 2*cb*sum + cb*cb*block_s;
sum = pix_sum ( current_data [ 2 ] , uvstride , block_w > > s - > chroma_h_shift , block_w > > s - > chroma_v_shift ) ;
cr = ( sum + block_s / 2 ) / block_s ;
// iscore += pix_norm1(¤t_mb[2][0], uvstride, block_w>>1) - 2*cr*sum + cr*cr*block_s;
} else
cb = cr = 0 ;
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ic = s - > c ;
ic . bytestream_start =
ic . bytestream = i_buffer ; //FIXME end/start? and at the other stoo
memcpy ( i_state , s - > block_state , sizeof ( s - > block_state ) ) ;
if ( level ! = s - > block_max_depth )
put_rac ( & ic , & i_state [ 4 + s_context ] , 1 ) ;
put_rac ( & ic , & i_state [ 1 + left - > type + top - > type ] , 1 ) ;
put_symbol ( & ic , & i_state [ 32 ] , l - pl , 1 ) ;
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if ( s - > nb_planes > 2 ) {
put_symbol ( & ic , & i_state [ 64 ] , cb - pcb , 1 ) ;
put_symbol ( & ic , & i_state [ 96 ] , cr - pcr , 1 ) ;
}
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i_len = ic . bytestream - ic . bytestream_start ;
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iscore + = ( enc - > lambda2 * ( get_rac_count ( & ic ) - base_bits ) ) > > FF_LAMBDA_SHIFT ;
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av_assert1 ( iscore < 255 * 255 * 256 + enc - > lambda2 * 10 ) ;
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av_assert1 ( iscore > = 0 ) ;
av_assert1 ( l > = 0 & & l < = 255 ) ;
av_assert1 ( pl > = 0 & & pl < = 255 ) ;
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if ( level = = 0 ) {
int varc = iscore > > 8 ;
int vard = score > > 8 ;
if ( vard < = 64 | | vard < varc )
c - > scene_change_score + = ff_sqrt ( vard ) - ff_sqrt ( varc ) ;
else
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c - > scene_change_score + = enc - > m . qscale ;
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}
if ( level ! = s - > block_max_depth ) {
put_rac ( & s - > c , & s - > block_state [ 4 + s_context ] , 0 ) ;
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score2 = encode_q_branch ( enc , level + 1 , 2 * x + 0 , 2 * y + 0 ) ;
score2 + = encode_q_branch ( enc , level + 1 , 2 * x + 1 , 2 * y + 0 ) ;
score2 + = encode_q_branch ( enc , level + 1 , 2 * x + 0 , 2 * y + 1 ) ;
score2 + = encode_q_branch ( enc , level + 1 , 2 * x + 1 , 2 * y + 1 ) ;
score2 + = enc - > lambda2 > > FF_LAMBDA_SHIFT ; //FIXME exact split overhead
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if ( score2 < score & & score2 < iscore )
return score2 ;
}
if ( iscore < score ) {
pred_mv ( s , & pmx , & pmy , 0 , left , top , tr ) ;
memcpy ( pbbak , i_buffer , i_len ) ;
s - > c = ic ;
s - > c . bytestream_start = pbbak_start ;
s - > c . bytestream = pbbak + i_len ;
set_blocks ( s , level , x , y , l , cb , cr , pmx , pmy , 0 , BLOCK_INTRA ) ;
memcpy ( s - > block_state , i_state , sizeof ( s - > block_state ) ) ;
return iscore ;
} else {
memcpy ( pbbak , p_buffer , p_len ) ;
s - > c = pc ;
s - > c . bytestream_start = pbbak_start ;
s - > c . bytestream = pbbak + p_len ;
set_blocks ( s , level , x , y , pl , pcb , pcr , mx , my , best_ref , 0 ) ;
memcpy ( s - > block_state , p_state , sizeof ( s - > block_state ) ) ;
return score ;
}
}
static void encode_q_branch2 ( SnowContext * s , int level , int x , int y ) {
const int w = s - > b_width < < s - > block_max_depth ;
const int rem_depth = s - > block_max_depth - level ;
const int index = ( x + y * w ) < < rem_depth ;
int trx = ( x + 1 ) < < rem_depth ;
BlockNode * b = & s - > block [ index ] ;
const BlockNode * left = x ? & s - > block [ index - 1 ] : & null_block ;
const BlockNode * top = y ? & s - > block [ index - w ] : & null_block ;
const BlockNode * tl = y & & x ? & s - > block [ index - w - 1 ] : left ;
const BlockNode * tr = y & & trx < w & & ( ( x & 1 ) = = 0 | | level = = 0 ) ? & s - > block [ index - w + ( 1 < < rem_depth ) ] : tl ; //FIXME use lt
int pl = left - > color [ 0 ] ;
int pcb = left - > color [ 1 ] ;
int pcr = left - > color [ 2 ] ;
int pmx , pmy ;
int ref_context = av_log2 ( 2 * left - > ref ) + av_log2 ( 2 * top - > ref ) ;
int mx_context = av_log2 ( 2 * FFABS ( left - > mx - top - > mx ) ) + 16 * ! ! b - > ref ;
int my_context = av_log2 ( 2 * FFABS ( left - > my - top - > my ) ) + 16 * ! ! b - > ref ;
int s_context = 2 * left - > level + 2 * top - > level + tl - > level + tr - > level ;
if ( s - > keyframe ) {
set_blocks ( s , level , x , y , pl , pcb , pcr , 0 , 0 , 0 , BLOCK_INTRA ) ;
return ;
}
if ( level ! = s - > block_max_depth ) {
if ( same_block ( b , b + 1 ) & & same_block ( b , b + w ) & & same_block ( b , b + w + 1 ) ) {
put_rac ( & s - > c , & s - > block_state [ 4 + s_context ] , 1 ) ;
} else {
put_rac ( & s - > c , & s - > block_state [ 4 + s_context ] , 0 ) ;
encode_q_branch2 ( s , level + 1 , 2 * x + 0 , 2 * y + 0 ) ;
encode_q_branch2 ( s , level + 1 , 2 * x + 1 , 2 * y + 0 ) ;
encode_q_branch2 ( s , level + 1 , 2 * x + 0 , 2 * y + 1 ) ;
encode_q_branch2 ( s , level + 1 , 2 * x + 1 , 2 * y + 1 ) ;
return ;
}
}
if ( b - > type & BLOCK_INTRA ) {
pred_mv ( s , & pmx , & pmy , 0 , left , top , tr ) ;
put_rac ( & s - > c , & s - > block_state [ 1 + ( left - > type & 1 ) + ( top - > type & 1 ) ] , 1 ) ;
put_symbol ( & s - > c , & s - > block_state [ 32 ] , b - > color [ 0 ] - pl , 1 ) ;
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if ( s - > nb_planes > 2 ) {
put_symbol ( & s - > c , & s - > block_state [ 64 ] , b - > color [ 1 ] - pcb , 1 ) ;
put_symbol ( & s - > c , & s - > block_state [ 96 ] , b - > color [ 2 ] - pcr , 1 ) ;
}
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set_blocks ( s , level , x , y , b - > color [ 0 ] , b - > color [ 1 ] , b - > color [ 2 ] , pmx , pmy , 0 , BLOCK_INTRA ) ;
} else {
pred_mv ( s , & pmx , & pmy , b - > ref , left , top , tr ) ;
put_rac ( & s - > c , & s - > block_state [ 1 + ( left - > type & 1 ) + ( top - > type & 1 ) ] , 0 ) ;
if ( s - > ref_frames > 1 )
put_symbol ( & s - > c , & s - > block_state [ 128 + 1024 + 32 * ref_context ] , b - > ref , 0 ) ;
put_symbol ( & s - > c , & s - > block_state [ 128 + 32 * mx_context ] , b - > mx - pmx , 1 ) ;
put_symbol ( & s - > c , & s - > block_state [ 128 + 32 * my_context ] , b - > my - pmy , 1 ) ;
set_blocks ( s , level , x , y , pl , pcb , pcr , b - > mx , b - > my , b - > ref , 0 ) ;
}
}
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static int get_dc ( SnowEncContext * enc , int mb_x , int mb_y , int plane_index )
{
SnowContext * const s = & enc - > com ;
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int i , x2 , y2 ;
Plane * p = & s - > plane [ plane_index ] ;
const int block_size = MB_SIZE > > s - > block_max_depth ;
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const int block_w = plane_index ? block_size > > s - > chroma_h_shift : block_size ;
const int block_h = plane_index ? block_size > > s - > chroma_v_shift : block_size ;
const uint8_t * obmc = plane_index ? ff_obmc_tab [ s - > block_max_depth + s - > chroma_h_shift ] : ff_obmc_tab [ s - > block_max_depth ] ;
const int obmc_stride = plane_index ? ( 2 * block_size ) > > s - > chroma_h_shift : 2 * block_size ;
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const int ref_stride = s - > current_picture - > linesize [ plane_index ] ;
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const uint8_t * src = s - > input_picture - > data [ plane_index ] ;
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IDWTELEM * dst = ( IDWTELEM * ) enc - > m . sc . obmc_scratchpad + plane_index * block_size * block_size * 4 ; //FIXME change to unsigned
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const int b_stride = s - > b_width < < s - > block_max_depth ;
const int w = p - > width ;
const int h = p - > height ;
int index = mb_x + mb_y * b_stride ;
BlockNode * b = & s - > block [ index ] ;
BlockNode backup = * b ;
int ab = 0 ;
int aa = 0 ;
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av_assert2 ( s - > chroma_h_shift = = s - > chroma_v_shift ) ; //obmc stuff above
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b - > type | = BLOCK_INTRA ;
b - > color [ plane_index ] = 0 ;
memset ( dst , 0 , obmc_stride * obmc_stride * sizeof ( IDWTELEM ) ) ;
for ( i = 0 ; i < 4 ; i + + ) {
int mb_x2 = mb_x + ( i & 1 ) - 1 ;
int mb_y2 = mb_y + ( i > > 1 ) - 1 ;
int x = block_w * mb_x2 + block_w / 2 ;
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int y = block_h * mb_y2 + block_h / 2 ;
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add_yblock ( s , 0 , NULL , dst + ( i & 1 ) * block_w + ( i > > 1 ) * obmc_stride * block_h , NULL , obmc ,
x , y , block_w , block_h , w , h , obmc_stride , ref_stride , obmc_stride , mb_x2 , mb_y2 , 0 , 0 , plane_index ) ;
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for ( y2 = FFMAX ( y , 0 ) ; y2 < FFMIN ( h , y + block_h ) ; y2 + + ) {
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for ( x2 = FFMAX ( x , 0 ) ; x2 < FFMIN ( w , x + block_w ) ; x2 + + ) {
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int index = x2 - ( block_w * mb_x - block_w / 2 ) + ( y2 - ( block_h * mb_y - block_h / 2 ) ) * obmc_stride ;
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int obmc_v = obmc [ index ] ;
int d ;
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if ( y < 0 ) obmc_v + = obmc [ index + block_h * obmc_stride ] ;
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if ( x < 0 ) obmc_v + = obmc [ index + block_w ] ;
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if ( y + block_h > h ) obmc_v + = obmc [ index - block_h * obmc_stride ] ;
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if ( x + block_w > w ) obmc_v + = obmc [ index - block_w ] ;
//FIXME precalculate this or simplify it somehow else
d = - dst [ index ] + ( 1 < < ( FRAC_BITS - 1 ) ) ;
dst [ index ] = d ;
ab + = ( src [ x2 + y2 * ref_stride ] - ( d > > FRAC_BITS ) ) * obmc_v ;
aa + = obmc_v * obmc_v ; //FIXME precalculate this
}
}
}
* b = backup ;
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return av_clip_uint8 ( ROUNDED_DIV ( ab < < LOG2_OBMC_MAX , aa ) ) ; //FIXME we should not need clipping
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}
static inline int get_block_bits ( SnowContext * s , int x , int y , int w ) {
const int b_stride = s - > b_width < < s - > block_max_depth ;
const int b_height = s - > b_height < < s - > block_max_depth ;
int index = x + y * b_stride ;
const BlockNode * b = & s - > block [ index ] ;
const BlockNode * left = x ? & s - > block [ index - 1 ] : & null_block ;
const BlockNode * top = y ? & s - > block [ index - b_stride ] : & null_block ;
const BlockNode * tl = y & & x ? & s - > block [ index - b_stride - 1 ] : left ;
const BlockNode * tr = y & & x + w < b_stride ? & s - > block [ index - b_stride + w ] : tl ;
int dmx , dmy ;
// int mx_context= av_log2(2*FFABS(left->mx - top->mx));
// int my_context= av_log2(2*FFABS(left->my - top->my));
if ( x < 0 | | x > = b_stride | | y > = b_height )
return 0 ;
/*
1 0 0
01 X 1 - 2 1
001 XX 3 - 6 2 - 3
0001 XXX 7 - 14 4 - 7
00001 XXXX 15 - 30 8 - 15
*/
//FIXME try accurate rate
//FIXME intra and inter predictors if surrounding blocks are not the same type
if ( b - > type & BLOCK_INTRA ) {
return 3 + 2 * ( av_log2 ( 2 * FFABS ( left - > color [ 0 ] - b - > color [ 0 ] ) )
+ av_log2 ( 2 * FFABS ( left - > color [ 1 ] - b - > color [ 1 ] ) )
+ av_log2 ( 2 * FFABS ( left - > color [ 2 ] - b - > color [ 2 ] ) ) ) ;
} else {
pred_mv ( s , & dmx , & dmy , b - > ref , left , top , tr ) ;
dmx - = b - > mx ;
dmy - = b - > my ;
return 2 * ( 1 + av_log2 ( 2 * FFABS ( dmx ) ) //FIXME kill the 2* can be merged in lambda
+ av_log2 ( 2 * FFABS ( dmy ) )
+ av_log2 ( 2 * b - > ref ) ) ;
}
}
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static int get_block_rd ( SnowEncContext * enc , int mb_x , int mb_y ,
int plane_index , uint8_t ( * obmc_edged ) [ MB_SIZE * 2 ] )
{
SnowContext * const s = & enc - > com ;
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Plane * p = & s - > plane [ plane_index ] ;
const int block_size = MB_SIZE > > s - > block_max_depth ;
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const int block_w = plane_index ? block_size > > s - > chroma_h_shift : block_size ;
const int block_h = plane_index ? block_size > > s - > chroma_v_shift : block_size ;
const int obmc_stride = plane_index ? ( 2 * block_size ) > > s - > chroma_h_shift : 2 * block_size ;
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const int ref_stride = s - > current_picture - > linesize [ plane_index ] ;
uint8_t * dst = s - > current_picture - > data [ plane_index ] ;
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const uint8_t * src = s - > input_picture - > data [ plane_index ] ;
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IDWTELEM * pred = ( IDWTELEM * ) enc - > m . sc . obmc_scratchpad + plane_index * block_size * block_size * 4 ;
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uint8_t * cur = s - > scratchbuf ;
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uint8_t * tmp = s - > emu_edge_buffer ;
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const int b_stride = s - > b_width < < s - > block_max_depth ;
const int b_height = s - > b_height < < s - > block_max_depth ;
const int w = p - > width ;
const int h = p - > height ;
int distortion ;
int rate = 0 ;
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const int penalty_factor = get_penalty_factor ( enc - > lambda , enc - > lambda2 , s - > avctx - > me_cmp ) ;
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int sx = block_w * mb_x - block_w / 2 ;
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int sy = block_h * mb_y - block_h / 2 ;
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int x0 = FFMAX ( 0 , - sx ) ;
int y0 = FFMAX ( 0 , - sy ) ;
int x1 = FFMIN ( block_w * 2 , w - sx ) ;
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int y1 = FFMIN ( block_h * 2 , h - sy ) ;
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int i , x , y ;
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av_assert2 ( s - > chroma_h_shift = = s - > chroma_v_shift ) ; //obmc and square assumtions below chckinhg only block_w
ff_snow_pred_block ( s , cur , tmp , ref_stride , sx , sy , block_w * 2 , block_h * 2 , & s - > block [ mb_x + mb_y * b_stride ] , plane_index , w , h ) ;
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for ( y = y0 ; y < y1 ; y + + ) {
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const uint8_t * obmc1 = obmc_edged [ y ] ;
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const IDWTELEM * pred1 = pred + y * obmc_stride ;
uint8_t * cur1 = cur + y * ref_stride ;
uint8_t * dst1 = dst + sx + ( sy + y ) * ref_stride ;
for ( x = x0 ; x < x1 ; x + + ) {
# if FRAC_BITS >= LOG2_OBMC_MAX
int v = ( cur1 [ x ] * obmc1 [ x ] ) < < ( FRAC_BITS - LOG2_OBMC_MAX ) ;
# else
int v = ( cur1 [ x ] * obmc1 [ x ] + ( 1 < < ( LOG2_OBMC_MAX - FRAC_BITS - 1 ) ) ) > > ( LOG2_OBMC_MAX - FRAC_BITS ) ;
# endif
v = ( v + pred1 [ x ] ) > > FRAC_BITS ;
if ( v & ( ~ 255 ) ) v = ~ ( v > > 31 ) ;
dst1 [ x ] = v ;
}
}
/* copy the regions where obmc[] = (uint8_t)256 */
if ( LOG2_OBMC_MAX = = 8
& & ( mb_x = = 0 | | mb_x = = b_stride - 1 )
& & ( mb_y = = 0 | | mb_y = = b_height - 1 ) ) {
if ( mb_x = = 0 )
x1 = block_w ;
else
x0 = block_w ;
if ( mb_y = = 0 )
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y1 = block_h ;
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else
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y0 = block_h ;
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for ( y = y0 ; y < y1 ; y + + )
memcpy ( dst + sx + x0 + ( sy + y ) * ref_stride , cur + x0 + y * ref_stride , x1 - x0 ) ;
}
if ( block_w = = 16 ) {
/* FIXME rearrange dsputil to fit 32x32 cmp functions */
/* FIXME check alignment of the cmp wavelet vs the encoding wavelet */
/* FIXME cmps overlap but do not cover the wavelet's whole support.
* So improving the score of one block is not strictly guaranteed
* to improve the score of the whole frame , thus iterative motion
* estimation does not always converge . */
if ( s - > avctx - > me_cmp = = FF_CMP_W97 )
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distortion = ff_w97_32_c ( & enc - > m , src + sx + sy * ref_stride , dst + sx + sy * ref_stride , ref_stride , 32 ) ;
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else if ( s - > avctx - > me_cmp = = FF_CMP_W53 )
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distortion = ff_w53_32_c ( & enc - > m , src + sx + sy * ref_stride , dst + sx + sy * ref_stride , ref_stride , 32 ) ;
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else {
distortion = 0 ;
for ( i = 0 ; i < 4 ; i + + ) {
int off = sx + 16 * ( i & 1 ) + ( sy + 16 * ( i > > 1 ) ) * ref_stride ;
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distortion + = enc - > mecc . me_cmp [ 0 ] ( & enc - > m , src + off , dst + off , ref_stride , 16 ) ;
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}
}
} else {
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av_assert2 ( block_w = = 8 ) ;
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distortion = enc - > mecc . me_cmp [ 0 ] ( & enc - > m , src + sx + sy * ref_stride , dst + sx + sy * ref_stride , ref_stride , block_w * 2 ) ;
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}
if ( plane_index = = 0 ) {
for ( i = 0 ; i < 4 ; i + + ) {
/* ..RRr
* . RXx .
* rxx . .
*/
rate + = get_block_bits ( s , mb_x + ( i & 1 ) - ( i > > 1 ) , mb_y + ( i > > 1 ) , 1 ) ;
}
if ( mb_x = = b_stride - 2 )
rate + = get_block_bits ( s , mb_x + 1 , mb_y + 1 , 1 ) ;
}
return distortion + rate * penalty_factor ;
}
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static int get_4block_rd ( SnowEncContext * enc , int mb_x , int mb_y , int plane_index )
{
SnowContext * const s = & enc - > com ;
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int i , y2 ;
Plane * p = & s - > plane [ plane_index ] ;
const int block_size = MB_SIZE > > s - > block_max_depth ;
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const int block_w = plane_index ? block_size > > s - > chroma_h_shift : block_size ;
const int block_h = plane_index ? block_size > > s - > chroma_v_shift : block_size ;
const uint8_t * obmc = plane_index ? ff_obmc_tab [ s - > block_max_depth + s - > chroma_h_shift ] : ff_obmc_tab [ s - > block_max_depth ] ;
const int obmc_stride = plane_index ? ( 2 * block_size ) > > s - > chroma_h_shift : 2 * block_size ;
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const int ref_stride = s - > current_picture - > linesize [ plane_index ] ;
uint8_t * dst = s - > current_picture - > data [ plane_index ] ;
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const uint8_t * src = s - > input_picture - > data [ plane_index ] ;
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//FIXME zero_dst is const but add_yblock changes dst if add is 0 (this is never the case for dst=zero_dst
// const has only been removed from zero_dst to suppress a warning
static IDWTELEM zero_dst [ 4096 ] ; //FIXME
const int b_stride = s - > b_width < < s - > block_max_depth ;
const int w = p - > width ;
const int h = p - > height ;
int distortion = 0 ;
int rate = 0 ;
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const int penalty_factor = get_penalty_factor ( enc - > lambda , enc - > lambda2 , s - > avctx - > me_cmp ) ;
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av_assert2 ( s - > chroma_h_shift = = s - > chroma_v_shift ) ; //obmc and square assumtions below
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for ( i = 0 ; i < 9 ; i + + ) {
int mb_x2 = mb_x + ( i % 3 ) - 1 ;
int mb_y2 = mb_y + ( i / 3 ) - 1 ;
int x = block_w * mb_x2 + block_w / 2 ;
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int y = block_h * mb_y2 + block_h / 2 ;
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add_yblock ( s , 0 , NULL , zero_dst , dst , obmc ,
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x , y , block_w , block_h , w , h , /*dst_stride*/ 0 , ref_stride , obmc_stride , mb_x2 , mb_y2 , 1 , 1 , plane_index ) ;
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//FIXME find a cleaner/simpler way to skip the outside stuff
for ( y2 = y ; y2 < 0 ; y2 + + )
memcpy ( dst + x + y2 * ref_stride , src + x + y2 * ref_stride , block_w ) ;
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for ( y2 = h ; y2 < y + block_h ; y2 + + )
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memcpy ( dst + x + y2 * ref_stride , src + x + y2 * ref_stride , block_w ) ;
if ( x < 0 ) {
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for ( y2 = y ; y2 < y + block_h ; y2 + + )
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memcpy ( dst + x + y2 * ref_stride , src + x + y2 * ref_stride , - x ) ;
}
if ( x + block_w > w ) {
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for ( y2 = y ; y2 < y + block_h ; y2 + + )
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memcpy ( dst + w + y2 * ref_stride , src + w + y2 * ref_stride , x + block_w - w ) ;
}
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av_assert1 ( block_w = = 8 | | block_w = = 16 ) ;
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distortion + = enc - > mecc . me_cmp [ block_w = = 8 ] ( & enc - > m , src + x + y * ref_stride , dst + x + y * ref_stride , ref_stride , block_h ) ;
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}
if ( plane_index = = 0 ) {
BlockNode * b = & s - > block [ mb_x + mb_y * b_stride ] ;
int merged = same_block ( b , b + 1 ) & & same_block ( b , b + b_stride ) & & same_block ( b , b + b_stride + 1 ) ;
/* ..RRRr
* . RXXx .
* . RXXx .
* rxxx .
*/
if ( merged )
rate = get_block_bits ( s , mb_x , mb_y , 2 ) ;
for ( i = merged ? 4 : 0 ; i < 9 ; i + + ) {
static const int dxy [ 9 ] [ 2 ] = { { 0 , 0 } , { 1 , 0 } , { 0 , 1 } , { 1 , 1 } , { 2 , 0 } , { 2 , 1 } , { - 1 , 2 } , { 0 , 2 } , { 1 , 2 } } ;
rate + = get_block_bits ( s , mb_x + dxy [ i ] [ 0 ] , mb_y + dxy [ i ] [ 1 ] , 1 ) ;
}
}
return distortion + rate * penalty_factor ;
}
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static int encode_subband_c0run ( SnowContext * s , SubBand * b , const IDWTELEM * src , const IDWTELEM * parent , int stride , int orientation ) {
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const int w = b - > width ;
const int h = b - > height ;
int x , y ;
if ( 1 ) {
int run = 0 ;
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int * runs = s - > run_buffer ;
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int run_index = 0 ;
int max_index ;
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
int v , p = 0 ;
int /*ll=0, */ l = 0 , lt = 0 , t = 0 , rt = 0 ;
v = src [ x + y * stride ] ;
if ( y ) {
t = src [ x + ( y - 1 ) * stride ] ;
if ( x ) {
lt = src [ x - 1 + ( y - 1 ) * stride ] ;
}
if ( x + 1 < w ) {
rt = src [ x + 1 + ( y - 1 ) * stride ] ;
}
}
if ( x ) {
l = src [ x - 1 + y * stride ] ;
/*if(x > 1){
if ( orientation = = 1 ) ll = src [ y + ( x - 2 ) * stride ] ;
else ll = src [ x - 2 + y * stride ] ;
} */
}
if ( parent ) {
int px = x > > 1 ;
int py = y > > 1 ;
if ( px < b - > parent - > width & & py < b - > parent - > height )
p = parent [ px + py * 2 * stride ] ;
}
if ( ! ( /*ll|*/ l | lt | t | rt | p ) ) {
if ( v ) {
runs [ run_index + + ] = run ;
run = 0 ;
} else {
run + + ;
}
}
}
}
max_index = run_index ;
runs [ run_index + + ] = run ;
run_index = 0 ;
run = runs [ run_index + + ] ;
put_symbol2 ( & s - > c , b - > state [ 30 ] , max_index , 0 ) ;
if ( run_index < = max_index )
put_symbol2 ( & s - > c , b - > state [ 1 ] , run , 3 ) ;
for ( y = 0 ; y < h ; y + + ) {
if ( s - > c . bytestream_end - s - > c . bytestream < w * 40 ) {
av_log ( s - > avctx , AV_LOG_ERROR , " encoded frame too large \n " ) ;
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return AVERROR ( ENOMEM ) ;
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}
for ( x = 0 ; x < w ; x + + ) {
int v , p = 0 ;
int /*ll=0, */ l = 0 , lt = 0 , t = 0 , rt = 0 ;
v = src [ x + y * stride ] ;
if ( y ) {
t = src [ x + ( y - 1 ) * stride ] ;
if ( x ) {
lt = src [ x - 1 + ( y - 1 ) * stride ] ;
}
if ( x + 1 < w ) {
rt = src [ x + 1 + ( y - 1 ) * stride ] ;
}
}
if ( x ) {
l = src [ x - 1 + y * stride ] ;
/*if(x > 1){
if ( orientation = = 1 ) ll = src [ y + ( x - 2 ) * stride ] ;
else ll = src [ x - 2 + y * stride ] ;
} */
}
if ( parent ) {
int px = x > > 1 ;
int py = y > > 1 ;
if ( px < b - > parent - > width & & py < b - > parent - > height )
p = parent [ px + py * 2 * stride ] ;
}
if ( /*ll|*/ l | lt | t | rt | p ) {
int context = av_log2 ( /*FFABS(ll) + */ 3 * FFABS ( l ) + FFABS ( lt ) + 2 * FFABS ( t ) + FFABS ( rt ) + FFABS ( p ) ) ;
put_rac ( & s - > c , & b - > state [ 0 ] [ context ] , ! ! v ) ;
} else {
if ( ! run ) {
run = runs [ run_index + + ] ;
if ( run_index < = max_index )
put_symbol2 ( & s - > c , b - > state [ 1 ] , run , 3 ) ;
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av_assert2 ( v ) ;
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} else {
run - - ;
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av_assert2 ( ! v ) ;
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}
}
if ( v ) {
int context = av_log2 ( /*FFABS(ll) + */ 3 * FFABS ( l ) + FFABS ( lt ) + 2 * FFABS ( t ) + FFABS ( rt ) + FFABS ( p ) ) ;
int l2 = 2 * FFABS ( l ) + ( l < 0 ) ;
int t2 = 2 * FFABS ( t ) + ( t < 0 ) ;
put_symbol2 ( & s - > c , b - > state [ context + 2 ] , FFABS ( v ) - 1 , context - 4 ) ;
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put_rac ( & s - > c , & b - > state [ 0 ] [ 16 + 1 + 3 + ff_quant3bA [ l2 & 0xFF ] + 3 * ff_quant3bA [ t2 & 0xFF ] ] , v < 0 ) ;
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}
}
}
}
return 0 ;
}
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static int encode_subband ( SnowContext * s , SubBand * b , const IDWTELEM * src , const IDWTELEM * parent , int stride , int orientation ) {
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// encode_subband_qtree(s, b, src, parent, stride, orientation);
// encode_subband_z0run(s, b, src, parent, stride, orientation);
return encode_subband_c0run ( s , b , src , parent , stride , orientation ) ;
// encode_subband_dzr(s, b, src, parent, stride, orientation);
}
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static av_always_inline int check_block_intra ( SnowEncContext * enc , int mb_x , int mb_y , int p [ 3 ] ,
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uint8_t ( * obmc_edged ) [ MB_SIZE * 2 ] , int * best_rd )
{
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SnowContext * const s = & enc - > com ;
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const int b_stride = s - > b_width < < s - > block_max_depth ;
BlockNode * block = & s - > block [ mb_x + mb_y * b_stride ] ;
BlockNode backup = * block ;
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int rd ;
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av_assert2 ( mb_x > = 0 & & mb_y > = 0 ) ;
av_assert2 ( mb_x < b_stride ) ;
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block - > color [ 0 ] = p [ 0 ] ;
block - > color [ 1 ] = p [ 1 ] ;
block - > color [ 2 ] = p [ 2 ] ;
block - > type | = BLOCK_INTRA ;
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rd = get_block_rd ( enc , mb_x , mb_y , 0 , obmc_edged ) + enc - > intra_penalty ;
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//FIXME chroma
if ( rd < * best_rd ) {
* best_rd = rd ;
return 1 ;
} else {
* block = backup ;
return 0 ;
}
}
/* special case for int[2] args we discard afterwards,
* fixes compilation problem with gcc 2.95 */
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static av_always_inline int check_block_inter ( SnowEncContext * enc ,
int mb_x , int mb_y , int p0 , int p1 ,
uint8_t ( * obmc_edged ) [ MB_SIZE * 2 ] , int * best_rd )
{
SnowContext * const s = & enc - > com ;
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const int b_stride = s - > b_width < < s - > block_max_depth ;
BlockNode * block = & s - > block [ mb_x + mb_y * b_stride ] ;
BlockNode backup = * block ;
unsigned value ;
int rd , index ;
av_assert2 ( mb_x > = 0 & & mb_y > = 0 ) ;
av_assert2 ( mb_x < b_stride ) ;
index = ( p0 + 31 * p1 ) & ( ME_CACHE_SIZE - 1 ) ;
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value = enc - > me_cache_generation + ( p0 > > 10 ) + p1 * ( 1 < < 6 ) + ( block - > ref < < 12 ) ;
if ( enc - > me_cache [ index ] = = value )
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return 0 ;
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enc - > me_cache [ index ] = value ;
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block - > mx = p0 ;
block - > my = p1 ;
block - > type & = ~ BLOCK_INTRA ;
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rd = get_block_rd ( enc , mb_x , mb_y , 0 , obmc_edged ) ;
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//FIXME chroma
if ( rd < * best_rd ) {
* best_rd = rd ;
return 1 ;
} else {
* block = backup ;
return 0 ;
}
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}
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static av_always_inline int check_4block_inter ( SnowEncContext * enc , int mb_x , int mb_y ,
int p0 , int p1 , int ref , int * best_rd )
{
SnowContext * const s = & enc - > com ;
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const int b_stride = s - > b_width < < s - > block_max_depth ;
BlockNode * block = & s - > block [ mb_x + mb_y * b_stride ] ;
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BlockNode backup [ 4 ] ;
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unsigned value ;
int rd , index ;
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2012-07-07 19:06:50 +03:00
/* We don't initialize backup[] during variable declaration, because
* that fails to compile on MSVC : " cannot convert from 'BlockNode' to
* ' int16_t ' " . */
backup [ 0 ] = block [ 0 ] ;
backup [ 1 ] = block [ 1 ] ;
backup [ 2 ] = block [ b_stride ] ;
backup [ 3 ] = block [ b_stride + 1 ] ;
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av_assert2 ( mb_x > = 0 & & mb_y > = 0 ) ;
av_assert2 ( mb_x < b_stride ) ;
av_assert2 ( ( ( mb_x | mb_y ) & 1 ) = = 0 ) ;
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index = ( p0 + 31 * p1 ) & ( ME_CACHE_SIZE - 1 ) ;
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value = enc - > me_cache_generation + ( p0 > > 10 ) + ( p1 < < 6 ) + ( block - > ref < < 12 ) ;
if ( enc - > me_cache [ index ] = = value )
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return 0 ;
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enc - > me_cache [ index ] = value ;
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block - > mx = p0 ;
block - > my = p1 ;
block - > ref = ref ;
block - > type & = ~ BLOCK_INTRA ;
block [ 1 ] = block [ b_stride ] = block [ b_stride + 1 ] = * block ;
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rd = get_4block_rd ( enc , mb_x , mb_y , 0 ) ;
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//FIXME chroma
if ( rd < * best_rd ) {
* best_rd = rd ;
return 1 ;
} else {
block [ 0 ] = backup [ 0 ] ;
block [ 1 ] = backup [ 1 ] ;
block [ b_stride ] = backup [ 2 ] ;
block [ b_stride + 1 ] = backup [ 3 ] ;
return 0 ;
}
}
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static void iterative_me ( SnowEncContext * enc )
{
SnowContext * const s = & enc - > com ;
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int pass , mb_x , mb_y ;
const int b_width = s - > b_width < < s - > block_max_depth ;
const int b_height = s - > b_height < < s - > block_max_depth ;
const int b_stride = b_width ;
int color [ 3 ] ;
{
RangeCoder r = s - > c ;
uint8_t state [ sizeof ( s - > block_state ) ] ;
memcpy ( state , s - > block_state , sizeof ( s - > block_state ) ) ;
for ( mb_y = 0 ; mb_y < s - > b_height ; mb_y + + )
for ( mb_x = 0 ; mb_x < s - > b_width ; mb_x + + )
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encode_q_branch ( enc , 0 , mb_x , mb_y ) ;
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s - > c = r ;
memcpy ( s - > block_state , state , sizeof ( s - > block_state ) ) ;
}
for ( pass = 0 ; pass < 25 ; pass + + ) {
int change = 0 ;
for ( mb_y = 0 ; mb_y < b_height ; mb_y + + ) {
for ( mb_x = 0 ; mb_x < b_width ; mb_x + + ) {
int dia_change , i , j , ref ;
int best_rd = INT_MAX , ref_rd ;
BlockNode backup , ref_b ;
const int index = mb_x + mb_y * b_stride ;
BlockNode * block = & s - > block [ index ] ;
BlockNode * tb = mb_y ? & s - > block [ index - b_stride ] : NULL ;
BlockNode * lb = mb_x ? & s - > block [ index - 1 ] : NULL ;
BlockNode * rb = mb_x + 1 < b_width ? & s - > block [ index + 1 ] : NULL ;
BlockNode * bb = mb_y + 1 < b_height ? & s - > block [ index + b_stride ] : NULL ;
BlockNode * tlb = mb_x & & mb_y ? & s - > block [ index - b_stride - 1 ] : NULL ;
BlockNode * trb = mb_x + 1 < b_width & & mb_y ? & s - > block [ index - b_stride + 1 ] : NULL ;
BlockNode * blb = mb_x & & mb_y + 1 < b_height ? & s - > block [ index + b_stride - 1 ] : NULL ;
BlockNode * brb = mb_x + 1 < b_width & & mb_y + 1 < b_height ? & s - > block [ index + b_stride + 1 ] : NULL ;
const int b_w = ( MB_SIZE > > s - > block_max_depth ) ;
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uint8_t obmc_edged [ MB_SIZE * 2 ] [ MB_SIZE * 2 ] ;
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if ( pass & & ( block - > type & BLOCK_OPT ) )
continue ;
block - > type | = BLOCK_OPT ;
backup = * block ;
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if ( ! enc - > me_cache_generation )
memset ( enc - > me_cache , 0 , sizeof ( enc - > me_cache ) ) ;
enc - > me_cache_generation + = 1 < < 22 ;
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//FIXME precalculate
{
int x , y ;
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for ( y = 0 ; y < b_w * 2 ; y + + )
memcpy ( obmc_edged [ y ] , ff_obmc_tab [ s - > block_max_depth ] + y * b_w * 2 , b_w * 2 ) ;
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if ( mb_x = = 0 )
for ( y = 0 ; y < b_w * 2 ; y + + )
memset ( obmc_edged [ y ] , obmc_edged [ y ] [ 0 ] + obmc_edged [ y ] [ b_w - 1 ] , b_w ) ;
if ( mb_x = = b_stride - 1 )
for ( y = 0 ; y < b_w * 2 ; y + + )
memset ( obmc_edged [ y ] + b_w , obmc_edged [ y ] [ b_w ] + obmc_edged [ y ] [ b_w * 2 - 1 ] , b_w ) ;
if ( mb_y = = 0 ) {
for ( x = 0 ; x < b_w * 2 ; x + + )
obmc_edged [ 0 ] [ x ] + = obmc_edged [ b_w - 1 ] [ x ] ;
for ( y = 1 ; y < b_w ; y + + )
memcpy ( obmc_edged [ y ] , obmc_edged [ 0 ] , b_w * 2 ) ;
}
if ( mb_y = = b_height - 1 ) {
for ( x = 0 ; x < b_w * 2 ; x + + )
obmc_edged [ b_w * 2 - 1 ] [ x ] + = obmc_edged [ b_w ] [ x ] ;
for ( y = b_w ; y < b_w * 2 - 1 ; y + + )
memcpy ( obmc_edged [ y ] , obmc_edged [ b_w * 2 - 1 ] , b_w * 2 ) ;
}
}
//skip stuff outside the picture
if ( mb_x = = 0 | | mb_y = = 0 | | mb_x = = b_width - 1 | | mb_y = = b_height - 1 ) {
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const uint8_t * src = s - > input_picture - > data [ 0 ] ;
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uint8_t * dst = s - > current_picture - > data [ 0 ] ;
const int stride = s - > current_picture - > linesize [ 0 ] ;
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const int block_w = MB_SIZE > > s - > block_max_depth ;
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const int block_h = MB_SIZE > > s - > block_max_depth ;
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const int sx = block_w * mb_x - block_w / 2 ;
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const int sy = block_h * mb_y - block_h / 2 ;
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const int w = s - > plane [ 0 ] . width ;
const int h = s - > plane [ 0 ] . height ;
int y ;
for ( y = sy ; y < 0 ; y + + )
memcpy ( dst + sx + y * stride , src + sx + y * stride , block_w * 2 ) ;
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for ( y = h ; y < sy + block_h * 2 ; y + + )
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memcpy ( dst + sx + y * stride , src + sx + y * stride , block_w * 2 ) ;
if ( sx < 0 ) {
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for ( y = sy ; y < sy + block_h * 2 ; y + + )
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memcpy ( dst + sx + y * stride , src + sx + y * stride , - sx ) ;
}
if ( sx + block_w * 2 > w ) {
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for ( y = sy ; y < sy + block_h * 2 ; y + + )
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memcpy ( dst + w + y * stride , src + w + y * stride , sx + block_w * 2 - w ) ;
}
}
// intra(black) = neighbors' contribution to the current block
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for ( i = 0 ; i < s - > nb_planes ; i + + )
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color [ i ] = get_dc ( enc , mb_x , mb_y , i ) ;
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// get previous score (cannot be cached due to OBMC)
if ( pass > 0 & & ( block - > type & BLOCK_INTRA ) ) {
int color0 [ 3 ] = { block - > color [ 0 ] , block - > color [ 1 ] , block - > color [ 2 ] } ;
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check_block_intra ( enc , mb_x , mb_y , color0 , obmc_edged , & best_rd ) ;
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} else
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check_block_inter ( enc , mb_x , mb_y , block - > mx , block - > my , obmc_edged , & best_rd ) ;
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ref_b = * block ;
ref_rd = best_rd ;
for ( ref = 0 ; ref < s - > ref_frames ; ref + + ) {
int16_t ( * mvr ) [ 2 ] = & s - > ref_mvs [ ref ] [ index ] ;
if ( s - > ref_scores [ ref ] [ index ] > s - > ref_scores [ ref_b . ref ] [ index ] * 3 / 2 ) //FIXME tune threshold
continue ;
block - > ref = ref ;
best_rd = INT_MAX ;
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check_block_inter ( enc , mb_x , mb_y , mvr [ 0 ] [ 0 ] , mvr [ 0 ] [ 1 ] , obmc_edged , & best_rd ) ;
check_block_inter ( enc , mb_x , mb_y , 0 , 0 , obmc_edged , & best_rd ) ;
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if ( tb )
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check_block_inter ( enc , mb_x , mb_y , mvr [ - b_stride ] [ 0 ] , mvr [ - b_stride ] [ 1 ] , obmc_edged , & best_rd ) ;
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if ( lb )
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check_block_inter ( enc , mb_x , mb_y , mvr [ - 1 ] [ 0 ] , mvr [ - 1 ] [ 1 ] , obmc_edged , & best_rd ) ;
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if ( rb )
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check_block_inter ( enc , mb_x , mb_y , mvr [ 1 ] [ 0 ] , mvr [ 1 ] [ 1 ] , obmc_edged , & best_rd ) ;
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if ( bb )
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check_block_inter ( enc , mb_x , mb_y , mvr [ b_stride ] [ 0 ] , mvr [ b_stride ] [ 1 ] , obmc_edged , & best_rd ) ;
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/* fullpel ME */
//FIXME avoid subpel interpolation / round to nearest integer
do {
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int newx = block - > mx ;
int newy = block - > my ;
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int dia_size = enc - > iterative_dia_size ? enc - > iterative_dia_size : FFMAX ( s - > avctx - > dia_size , 1 ) ;
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dia_change = 0 ;
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for ( i = 0 ; i < dia_size ; i + + ) {
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for ( j = 0 ; j < i ; j + + ) {
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dia_change | = check_block_inter ( enc , mb_x , mb_y , newx + 4 * ( i - j ) , newy + ( 4 * j ) , obmc_edged , & best_rd ) ;
dia_change | = check_block_inter ( enc , mb_x , mb_y , newx - 4 * ( i - j ) , newy - ( 4 * j ) , obmc_edged , & best_rd ) ;
dia_change | = check_block_inter ( enc , mb_x , mb_y , newx - ( 4 * j ) , newy + 4 * ( i - j ) , obmc_edged , & best_rd ) ;
dia_change | = check_block_inter ( enc , mb_x , mb_y , newx + ( 4 * j ) , newy - 4 * ( i - j ) , obmc_edged , & best_rd ) ;
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}
}
} while ( dia_change ) ;
/* subpel ME */
do {
static const int square [ 8 ] [ 2 ] = { { + 1 , 0 } , { - 1 , 0 } , { 0 , + 1 } , { 0 , - 1 } , { + 1 , + 1 } , { - 1 , - 1 } , { + 1 , - 1 } , { - 1 , + 1 } , } ;
dia_change = 0 ;
for ( i = 0 ; i < 8 ; i + + )
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dia_change | = check_block_inter ( enc , mb_x , mb_y , block - > mx + square [ i ] [ 0 ] , block - > my + square [ i ] [ 1 ] , obmc_edged , & best_rd ) ;
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} while ( dia_change ) ;
//FIXME or try the standard 2 pass qpel or similar
mvr [ 0 ] [ 0 ] = block - > mx ;
mvr [ 0 ] [ 1 ] = block - > my ;
if ( ref_rd > best_rd ) {
ref_rd = best_rd ;
ref_b = * block ;
}
}
best_rd = ref_rd ;
* block = ref_b ;
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check_block_intra ( enc , mb_x , mb_y , color , obmc_edged , & best_rd ) ;
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//FIXME RD style color selection
if ( ! same_block ( block , & backup ) ) {
if ( tb ) tb - > type & = ~ BLOCK_OPT ;
if ( lb ) lb - > type & = ~ BLOCK_OPT ;
if ( rb ) rb - > type & = ~ BLOCK_OPT ;
if ( bb ) bb - > type & = ~ BLOCK_OPT ;
if ( tlb ) tlb - > type & = ~ BLOCK_OPT ;
if ( trb ) trb - > type & = ~ BLOCK_OPT ;
if ( blb ) blb - > type & = ~ BLOCK_OPT ;
if ( brb ) brb - > type & = ~ BLOCK_OPT ;
change + + ;
}
}
}
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av_log ( s - > avctx , AV_LOG_DEBUG , " pass:%d changed:%d \n " , pass , change ) ;
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if ( ! change )
break ;
}
if ( s - > block_max_depth = = 1 ) {
int change = 0 ;
for ( mb_y = 0 ; mb_y < b_height ; mb_y + = 2 ) {
for ( mb_x = 0 ; mb_x < b_width ; mb_x + = 2 ) {
int i ;
int best_rd , init_rd ;
const int index = mb_x + mb_y * b_stride ;
BlockNode * b [ 4 ] ;
b [ 0 ] = & s - > block [ index ] ;
b [ 1 ] = b [ 0 ] + 1 ;
b [ 2 ] = b [ 0 ] + b_stride ;
b [ 3 ] = b [ 2 ] + 1 ;
if ( same_block ( b [ 0 ] , b [ 1 ] ) & &
same_block ( b [ 0 ] , b [ 2 ] ) & &
same_block ( b [ 0 ] , b [ 3 ] ) )
continue ;
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if ( ! enc - > me_cache_generation )
memset ( enc - > me_cache , 0 , sizeof ( enc - > me_cache ) ) ;
enc - > me_cache_generation + = 1 < < 22 ;
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init_rd = best_rd = get_4block_rd ( enc , mb_x , mb_y , 0 ) ;
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//FIXME more multiref search?
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check_4block_inter ( enc , mb_x , mb_y ,
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( b [ 0 ] - > mx + b [ 1 ] - > mx + b [ 2 ] - > mx + b [ 3 ] - > mx + 2 ) > > 2 ,
( b [ 0 ] - > my + b [ 1 ] - > my + b [ 2 ] - > my + b [ 3 ] - > my + 2 ) > > 2 , 0 , & best_rd ) ;
for ( i = 0 ; i < 4 ; i + + )
if ( ! ( b [ i ] - > type & BLOCK_INTRA ) )
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check_4block_inter ( enc , mb_x , mb_y , b [ i ] - > mx , b [ i ] - > my , b [ i ] - > ref , & best_rd ) ;
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if ( init_rd ! = best_rd )
change + + ;
}
}
av_log ( s - > avctx , AV_LOG_ERROR , " pass:4mv changed:%d \n " , change * 4 ) ;
}
}
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static void encode_blocks ( SnowEncContext * enc , int search )
{
SnowContext * const s = & enc - > com ;
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int x , y ;
int w = s - > b_width ;
int h = s - > b_height ;
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if ( enc - > motion_est = = FF_ME_ITER & & ! s - > keyframe & & search )
iterative_me ( enc ) ;
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for ( y = 0 ; y < h ; y + + ) {
if ( s - > c . bytestream_end - s - > c . bytestream < w * MB_SIZE * MB_SIZE * 3 ) { //FIXME nicer limit
av_log ( s - > avctx , AV_LOG_ERROR , " encoded frame too large \n " ) ;
return ;
}
for ( x = 0 ; x < w ; x + + ) {
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if ( enc - > motion_est = = FF_ME_ITER | | ! search )
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encode_q_branch2 ( s , 0 , x , y ) ;
else
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encode_q_branch ( enc , 0 , x , y ) ;
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}
}
}
static void quantize ( SnowContext * s , SubBand * b , IDWTELEM * dst , DWTELEM * src , int stride , int bias ) {
const int w = b - > width ;
const int h = b - > height ;
const int qlog = av_clip ( s - > qlog + b - > qlog , 0 , QROOT * 16 ) ;
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const int qmul = ff_qexp [ qlog & ( QROOT - 1 ) ] < < ( ( qlog > > QSHIFT ) + ENCODER_EXTRA_BITS ) ;
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int x , y , thres1 , thres2 ;
if ( s - > qlog = = LOSSLESS_QLOG ) {
for ( y = 0 ; y < h ; y + + )
for ( x = 0 ; x < w ; x + + )
dst [ x + y * stride ] = src [ x + y * stride ] ;
return ;
}
bias = bias ? 0 : ( 3 * qmul ) > > 3 ;
thres1 = ( ( qmul - bias ) > > QEXPSHIFT ) - 1 ;
thres2 = 2 * thres1 ;
if ( ! bias ) {
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
int i = src [ x + y * stride ] ;
if ( ( unsigned ) ( i + thres1 ) > thres2 ) {
if ( i > = 0 ) {
i < < = QEXPSHIFT ;
i / = qmul ; //FIXME optimize
dst [ x + y * stride ] = i ;
} else {
i = - i ;
i < < = QEXPSHIFT ;
i / = qmul ; //FIXME optimize
dst [ x + y * stride ] = - i ;
}
} else
dst [ x + y * stride ] = 0 ;
}
}
} else {
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
int i = src [ x + y * stride ] ;
if ( ( unsigned ) ( i + thres1 ) > thres2 ) {
if ( i > = 0 ) {
i < < = QEXPSHIFT ;
i = ( i + bias ) / qmul ; //FIXME optimize
dst [ x + y * stride ] = i ;
} else {
i = - i ;
i < < = QEXPSHIFT ;
i = ( i + bias ) / qmul ; //FIXME optimize
dst [ x + y * stride ] = - i ;
}
} else
dst [ x + y * stride ] = 0 ;
}
}
}
}
static void dequantize ( SnowContext * s , SubBand * b , IDWTELEM * src , int stride ) {
const int w = b - > width ;
const int h = b - > height ;
const int qlog = av_clip ( s - > qlog + b - > qlog , 0 , QROOT * 16 ) ;
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const int qmul = ff_qexp [ qlog & ( QROOT - 1 ) ] < < ( qlog > > QSHIFT ) ;
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const int qadd = ( s - > qbias * qmul ) > > QBIAS_SHIFT ;
int x , y ;
if ( s - > qlog = = LOSSLESS_QLOG ) return ;
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
int i = src [ x + y * stride ] ;
if ( i < 0 ) {
src [ x + y * stride ] = - ( ( - i * qmul + qadd ) > > ( QEXPSHIFT ) ) ; //FIXME try different bias
} else if ( i > 0 ) {
src [ x + y * stride ] = ( ( i * qmul + qadd ) > > ( QEXPSHIFT ) ) ;
}
}
}
}
static void decorrelate ( SnowContext * s , SubBand * b , IDWTELEM * src , int stride , int inverse , int use_median ) {
const int w = b - > width ;
const int h = b - > height ;
int x , y ;
for ( y = h - 1 ; y > = 0 ; y - - ) {
for ( x = w - 1 ; x > = 0 ; x - - ) {
int i = x + y * stride ;
if ( x ) {
if ( use_median ) {
if ( y & & x + 1 < w ) src [ i ] - = mid_pred ( src [ i - 1 ] , src [ i - stride ] , src [ i - stride + 1 ] ) ;
else src [ i ] - = src [ i - 1 ] ;
} else {
if ( y ) src [ i ] - = mid_pred ( src [ i - 1 ] , src [ i - stride ] , src [ i - 1 ] + src [ i - stride ] - src [ i - 1 - stride ] ) ;
else src [ i ] - = src [ i - 1 ] ;
}
} else {
if ( y ) src [ i ] - = src [ i - stride ] ;
}
}
}
}
static void correlate ( SnowContext * s , SubBand * b , IDWTELEM * src , int stride , int inverse , int use_median ) {
const int w = b - > width ;
const int h = b - > height ;
int x , y ;
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
int i = x + y * stride ;
if ( x ) {
if ( use_median ) {
if ( y & & x + 1 < w ) src [ i ] + = mid_pred ( src [ i - 1 ] , src [ i - stride ] , src [ i - stride + 1 ] ) ;
else src [ i ] + = src [ i - 1 ] ;
} else {
if ( y ) src [ i ] + = mid_pred ( src [ i - 1 ] , src [ i - stride ] , src [ i - 1 ] + src [ i - stride ] - src [ i - 1 - stride ] ) ;
else src [ i ] + = src [ i - 1 ] ;
}
} else {
if ( y ) src [ i ] + = src [ i - stride ] ;
}
}
}
}
static void encode_qlogs ( SnowContext * s ) {
int plane_index , level , orientation ;
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for ( plane_index = 0 ; plane_index < FFMIN ( s - > nb_planes , 2 ) ; plane_index + + ) {
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for ( level = 0 ; level < s - > spatial_decomposition_count ; level + + ) {
for ( orientation = level ? 1 : 0 ; orientation < 4 ; orientation + + ) {
if ( orientation = = 2 ) continue ;
put_symbol ( & s - > c , s - > header_state , s - > plane [ plane_index ] . band [ level ] [ orientation ] . qlog , 1 ) ;
}
}
}
}
static void encode_header ( SnowContext * s ) {
int plane_index , i ;
uint8_t kstate [ 32 ] ;
memset ( kstate , MID_STATE , sizeof ( kstate ) ) ;
put_rac ( & s - > c , kstate , s - > keyframe ) ;
if ( s - > keyframe | | s - > always_reset ) {
ff_snow_reset_contexts ( s ) ;
s - > last_spatial_decomposition_type =
s - > last_qlog =
s - > last_qbias =
s - > last_mv_scale =
s - > last_block_max_depth = 0 ;
for ( plane_index = 0 ; plane_index < 2 ; plane_index + + ) {
Plane * p = & s - > plane [ plane_index ] ;
p - > last_htaps = 0 ;
p - > last_diag_mc = 0 ;
memset ( p - > last_hcoeff , 0 , sizeof ( p - > last_hcoeff ) ) ;
}
}
if ( s - > keyframe ) {
put_symbol ( & s - > c , s - > header_state , s - > version , 0 ) ;
put_rac ( & s - > c , s - > header_state , s - > always_reset ) ;
put_symbol ( & s - > c , s - > header_state , s - > temporal_decomposition_type , 0 ) ;
put_symbol ( & s - > c , s - > header_state , s - > temporal_decomposition_count , 0 ) ;
put_symbol ( & s - > c , s - > header_state , s - > spatial_decomposition_count , 0 ) ;
put_symbol ( & s - > c , s - > header_state , s - > colorspace_type , 0 ) ;
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if ( s - > nb_planes > 2 ) {
put_symbol ( & s - > c , s - > header_state , s - > chroma_h_shift , 0 ) ;
put_symbol ( & s - > c , s - > header_state , s - > chroma_v_shift , 0 ) ;
}
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put_rac ( & s - > c , s - > header_state , s - > spatial_scalability ) ;
// put_rac(&s->c, s->header_state, s->rate_scalability);
put_symbol ( & s - > c , s - > header_state , s - > max_ref_frames - 1 , 0 ) ;
encode_qlogs ( s ) ;
}
if ( ! s - > keyframe ) {
int update_mc = 0 ;
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for ( plane_index = 0 ; plane_index < FFMIN ( s - > nb_planes , 2 ) ; plane_index + + ) {
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Plane * p = & s - > plane [ plane_index ] ;
update_mc | = p - > last_htaps ! = p - > htaps ;
update_mc | = p - > last_diag_mc ! = p - > diag_mc ;
update_mc | = ! ! memcmp ( p - > last_hcoeff , p - > hcoeff , sizeof ( p - > hcoeff ) ) ;
}
put_rac ( & s - > c , s - > header_state , update_mc ) ;
if ( update_mc ) {
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for ( plane_index = 0 ; plane_index < FFMIN ( s - > nb_planes , 2 ) ; plane_index + + ) {
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Plane * p = & s - > plane [ plane_index ] ;
put_rac ( & s - > c , s - > header_state , p - > diag_mc ) ;
put_symbol ( & s - > c , s - > header_state , p - > htaps / 2 - 1 , 0 ) ;
for ( i = p - > htaps / 2 ; i ; i - - )
put_symbol ( & s - > c , s - > header_state , FFABS ( p - > hcoeff [ i ] ) , 0 ) ;
}
}
if ( s - > last_spatial_decomposition_count ! = s - > spatial_decomposition_count ) {
put_rac ( & s - > c , s - > header_state , 1 ) ;
put_symbol ( & s - > c , s - > header_state , s - > spatial_decomposition_count , 0 ) ;
encode_qlogs ( s ) ;
} else
put_rac ( & s - > c , s - > header_state , 0 ) ;
}
put_symbol ( & s - > c , s - > header_state , s - > spatial_decomposition_type - s - > last_spatial_decomposition_type , 1 ) ;
put_symbol ( & s - > c , s - > header_state , s - > qlog - s - > last_qlog , 1 ) ;
put_symbol ( & s - > c , s - > header_state , s - > mv_scale - s - > last_mv_scale , 1 ) ;
put_symbol ( & s - > c , s - > header_state , s - > qbias - s - > last_qbias , 1 ) ;
put_symbol ( & s - > c , s - > header_state , s - > block_max_depth - s - > last_block_max_depth , 1 ) ;
}
static void update_last_header_values ( SnowContext * s ) {
int plane_index ;
if ( ! s - > keyframe ) {
for ( plane_index = 0 ; plane_index < 2 ; plane_index + + ) {
Plane * p = & s - > plane [ plane_index ] ;
p - > last_diag_mc = p - > diag_mc ;
p - > last_htaps = p - > htaps ;
memcpy ( p - > last_hcoeff , p - > hcoeff , sizeof ( p - > hcoeff ) ) ;
}
}
s - > last_spatial_decomposition_type = s - > spatial_decomposition_type ;
s - > last_qlog = s - > qlog ;
s - > last_qbias = s - > qbias ;
s - > last_mv_scale = s - > mv_scale ;
s - > last_block_max_depth = s - > block_max_depth ;
s - > last_spatial_decomposition_count = s - > spatial_decomposition_count ;
}
static int qscale2qlog ( int qscale ) {
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return lrint ( QROOT * log2 ( qscale / ( float ) FF_QP2LAMBDA ) )
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+ 61 * QROOT / 8 ; ///< 64 > 60
}
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static int ratecontrol_1pass ( SnowEncContext * enc , AVFrame * pict )
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{
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SnowContext * const s = & enc - > com ;
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/* Estimate the frame's complexity as a sum of weighted dwt coefficients.
* FIXME we know exact mv bits at this point ,
* but ratecontrol isn ' t set up to include them . */
uint32_t coef_sum = 0 ;
int level , orientation , delta_qlog ;
for ( level = 0 ; level < s - > spatial_decomposition_count ; level + + ) {
for ( orientation = level ? 1 : 0 ; orientation < 4 ; orientation + + ) {
SubBand * b = & s - > plane [ 0 ] . band [ level ] [ orientation ] ;
IDWTELEM * buf = b - > ibuf ;
const int w = b - > width ;
const int h = b - > height ;
const int stride = b - > stride ;
const int qlog = av_clip ( 2 * QROOT + b - > qlog , 0 , QROOT * 16 ) ;
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const int qmul = ff_qexp [ qlog & ( QROOT - 1 ) ] < < ( qlog > > QSHIFT ) ;
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const int qdiv = ( 1 < < 16 ) / qmul ;
int x , y ;
//FIXME this is ugly
for ( y = 0 ; y < h ; y + + )
for ( x = 0 ; x < w ; x + + )
buf [ x + y * stride ] = b - > buf [ x + y * stride ] ;
if ( orientation = = 0 )
decorrelate ( s , b , buf , stride , 1 , 0 ) ;
for ( y = 0 ; y < h ; y + + )
for ( x = 0 ; x < w ; x + + )
coef_sum + = abs ( buf [ x + y * stride ] ) * qdiv > > 16 ;
}
}
/* ugly, ratecontrol just takes a sqrt again */
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av_assert0 ( coef_sum < INT_MAX ) ;
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coef_sum = ( uint64_t ) coef_sum * coef_sum > > 16 ;
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if ( pict - > pict_type = = AV_PICTURE_TYPE_I ) {
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enc - > m . mb_var_sum = coef_sum ;
enc - > m . mc_mb_var_sum = 0 ;
2011-11-02 20:10:40 +03:00
} else {
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enc - > m . mc_mb_var_sum = coef_sum ;
enc - > m . mb_var_sum = 0 ;
2011-11-02 20:10:40 +03:00
}
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pict - > quality = ff_rate_estimate_qscale ( & enc - > m , 1 ) ;
2011-11-02 20:10:40 +03:00
if ( pict - > quality < 0 )
return INT_MIN ;
2023-09-30 16:00:44 +02:00
enc - > lambda = pict - > quality * 3 / 2 ;
2011-11-02 20:10:40 +03:00
delta_qlog = qscale2qlog ( pict - > quality ) - s - > qlog ;
s - > qlog + = delta_qlog ;
return delta_qlog ;
}
static void calculate_visual_weight ( SnowContext * s , Plane * p ) {
int width = p - > width ;
int height = p - > height ;
int level , orientation , x , y ;
for ( level = 0 ; level < s - > spatial_decomposition_count ; level + + ) {
2023-03-24 01:18:06 +02:00
int64_t error = 0 ;
2011-11-02 20:10:40 +03:00
for ( orientation = level ? 1 : 0 ; orientation < 4 ; orientation + + ) {
SubBand * b = & p - > band [ level ] [ orientation ] ;
IDWTELEM * ibuf = b - > ibuf ;
memset ( s - > spatial_idwt_buffer , 0 , sizeof ( * s - > spatial_idwt_buffer ) * width * height ) ;
ibuf [ b - > width / 2 + b - > height / 2 * b - > stride ] = 256 * 16 ;
2012-06-14 13:47:55 +03:00
ff_spatial_idwt ( s - > spatial_idwt_buffer , s - > temp_idwt_buffer , width , height , width , s - > spatial_decomposition_type , s - > spatial_decomposition_count ) ;
2011-11-02 20:10:40 +03:00
for ( y = 0 ; y < height ; y + + ) {
for ( x = 0 ; x < width ; x + + ) {
int64_t d = s - > spatial_idwt_buffer [ x + y * width ] * 16 ;
error + = d * d ;
}
}
2023-03-24 01:18:06 +02:00
if ( orientation = = 2 )
error / = 2 ;
2015-10-29 06:08:32 +02:00
b - > qlog = ( int ) ( QROOT * log2 ( 352256.0 / sqrt ( error ) ) + 0.5 ) ;
2023-03-24 01:18:06 +02:00
if ( orientation ! = 1 )
error = 0 ;
2011-11-02 20:10:40 +03:00
}
2023-03-24 01:18:06 +02:00
p - > band [ level ] [ 1 ] . qlog = p - > band [ level ] [ 2 ] . qlog ;
2011-11-02 20:10:40 +03:00
}
}
2012-02-23 12:59:22 +03:00
static int encode_frame ( AVCodecContext * avctx , AVPacket * pkt ,
2014-05-06 02:03:58 +03:00
const AVFrame * pict , int * got_packet )
2012-02-23 12:59:22 +03:00
{
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SnowEncContext * const enc = avctx - > priv_data ;
SnowContext * const s = & enc - > com ;
MpegEncContext * const mpv = & enc - > m ;
2011-11-02 20:10:40 +03:00
RangeCoder * const c = & s - > c ;
2023-03-19 13:23:28 +02:00
AVCodecInternal * avci = avctx - > internal ;
2015-09-20 22:55:15 +02:00
AVFrame * pic ;
2011-11-02 20:10:40 +03:00
const int width = s - > avctx - > width ;
const int height = s - > avctx - > height ;
2012-02-23 12:59:22 +03:00
int level , orientation , plane_index , i , y , ret ;
2011-11-02 20:10:40 +03:00
uint8_t rc_header_bak [ sizeof ( s - > header_state ) ] ;
uint8_t rc_block_bak [ sizeof ( s - > block_state ) ] ;
2024-02-18 01:02:43 +02:00
if ( ( ret = ff_alloc_packet ( avctx , pkt , s - > b_width * s - > b_height * MB_SIZE * MB_SIZE * 3 + FF_INPUT_BUFFER_MIN_SIZE ) ) < 0 )
2012-02-23 12:59:22 +03:00
return ret ;
ff_init_range_encoder ( c , pkt - > data , pkt - > size ) ;
2015-06-01 22:30:30 +02:00
ff_build_rac_states ( c , ( 1LL < < 32 ) / 20 , 256 - 8 ) ;
2011-11-02 20:10:40 +03:00
2013-08-29 23:06:07 +03:00
for ( i = 0 ; i < s - > nb_planes ; i + + ) {
2012-06-22 16:17:33 +03:00
int hshift = i ? s - > chroma_h_shift : 0 ;
int vshift = i ? s - > chroma_v_shift : 0 ;
2016-01-27 17:19:38 +02:00
for ( y = 0 ; y < AV_CEIL_RSHIFT ( height , vshift ) ; y + + )
2013-03-11 01:43:52 +03:00
memcpy ( & s - > input_picture - > data [ i ] [ y * s - > input_picture - > linesize [ i ] ] ,
2011-11-02 20:10:40 +03:00
& pict - > data [ i ] [ y * pict - > linesize [ i ] ] ,
2016-01-27 17:19:38 +02:00
AV_CEIL_RSHIFT ( width , hshift ) ) ;
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enc - > mpvencdsp . draw_edges ( s - > input_picture - > data [ i ] , s - > input_picture - > linesize [ i ] ,
2016-01-27 17:19:38 +02:00
AV_CEIL_RSHIFT ( width , hshift ) , AV_CEIL_RSHIFT ( height , vshift ) ,
2014-07-07 16:54:17 +03:00
EDGE_WIDTH > > hshift , EDGE_WIDTH > > vshift ,
EDGE_TOP | EDGE_BOTTOM ) ;
2013-03-06 18:35:47 +03:00
2011-11-02 20:10:40 +03:00
}
2013-03-06 21:26:40 +03:00
emms_c ( ) ;
2015-09-20 22:55:15 +02:00
pic = s - > input_picture ;
pic - > pict_type = pict - > pict_type ;
pic - > quality = pict - > quality ;
2011-11-02 20:10:40 +03:00
2023-09-30 16:00:44 +02:00
mpv - > picture_number = avctx - > frame_num ;
2015-07-27 21:14:31 +02:00
if ( avctx - > flags & AV_CODEC_FLAG_PASS2 ) {
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mpv - > pict_type = pic - > pict_type = mpv - > rc_context . entry [ avctx - > frame_num ] . new_pict_type ;
2012-02-23 12:47:30 +03:00
s - > keyframe = pic - > pict_type = = AV_PICTURE_TYPE_I ;
2015-07-27 21:14:31 +02:00
if ( ! ( avctx - > flags & AV_CODEC_FLAG_QSCALE ) ) {
2023-09-30 16:00:44 +02:00
pic - > quality = ff_rate_estimate_qscale ( mpv , 0 ) ;
2012-02-23 12:47:30 +03:00
if ( pic - > quality < 0 )
2011-11-02 20:10:40 +03:00
return - 1 ;
}
} else {
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s - > keyframe = avctx - > gop_size = = 0 | | avctx - > frame_num % avctx - > gop_size = = 0 ;
2023-09-30 16:00:44 +02:00
mpv - > pict_type = pic - > pict_type = s - > keyframe ? AV_PICTURE_TYPE_I : AV_PICTURE_TYPE_P ;
2011-11-02 20:10:40 +03:00
}
2023-09-30 16:00:44 +02:00
if ( enc - > pass1_rc & & avctx - > frame_num = = 0 )
2012-02-23 12:47:30 +03:00
pic - > quality = 2 * FF_QP2LAMBDA ;
if ( pic - > quality ) {
s - > qlog = qscale2qlog ( pic - > quality ) ;
2023-09-30 16:00:44 +02:00
enc - > lambda = pic - > quality * 3 / 2 ;
2011-11-02 20:10:40 +03:00
}
2015-07-27 21:14:31 +02:00
if ( s - > qlog < 0 | | ( ! pic - > quality & & ( avctx - > flags & AV_CODEC_FLAG_QSCALE ) ) ) {
2011-11-02 20:10:40 +03:00
s - > qlog = LOSSLESS_QLOG ;
2023-09-30 16:00:44 +02:00
enc - > lambda = 0 ;
2011-11-02 20:10:40 +03:00
} //else keep previous frame's qlog until after motion estimation
2017-10-23 21:04:31 +02:00
if ( s - > current_picture - > data [ 0 ] ) {
2014-07-16 05:10:25 +03:00
int w = s - > avctx - > width ;
int h = s - > avctx - > height ;
2023-09-30 16:00:44 +02:00
enc - > mpvencdsp . draw_edges ( s - > current_picture - > data [ 0 ] ,
s - > current_picture - > linesize [ 0 ] , w , h ,
EDGE_WIDTH , EDGE_WIDTH , EDGE_TOP | EDGE_BOTTOM ) ;
2014-07-16 05:10:25 +03:00
if ( s - > current_picture - > data [ 2 ] ) {
2023-09-30 16:00:44 +02:00
enc - > mpvencdsp . draw_edges ( s - > current_picture - > data [ 1 ] ,
s - > current_picture - > linesize [ 1 ] , w > > s - > chroma_h_shift , h > > s - > chroma_v_shift ,
EDGE_WIDTH > > s - > chroma_h_shift , EDGE_WIDTH > > s - > chroma_v_shift , EDGE_TOP | EDGE_BOTTOM ) ;
enc - > mpvencdsp . draw_edges ( s - > current_picture - > data [ 2 ] ,
s - > current_picture - > linesize [ 2 ] , w > > s - > chroma_h_shift , h > > s - > chroma_v_shift ,
EDGE_WIDTH > > s - > chroma_h_shift , EDGE_WIDTH > > s - > chroma_v_shift , EDGE_TOP | EDGE_BOTTOM ) ;
2014-07-16 05:10:25 +03:00
}
2016-10-21 15:10:48 +02:00
emms_c ( ) ;
2014-07-16 05:10:25 +03:00
}
2023-09-25 18:21:55 +02:00
ff_snow_frames_prepare ( s ) ;
ret = get_encode_buffer ( s , s - > current_picture ) ;
if ( ret < 0 )
return ret ;
2011-11-02 20:10:40 +03:00
2023-09-30 16:00:44 +02:00
mpv - > current_picture_ptr = & mpv - > current_picture ;
mpv - > current_picture . f = s - > current_picture ;
mpv - > current_picture . f - > pts = pict - > pts ;
2012-02-23 12:47:30 +03:00
if ( pic - > pict_type = = AV_PICTURE_TYPE_P ) {
2011-11-02 20:10:40 +03:00
int block_width = ( width + 15 ) > > 4 ;
int block_height = ( height + 15 ) > > 4 ;
2013-03-11 01:43:52 +03:00
int stride = s - > current_picture - > linesize [ 0 ] ;
2011-11-02 20:10:40 +03:00
2013-03-11 01:43:52 +03:00
av_assert0 ( s - > current_picture - > data [ 0 ] ) ;
av_assert0 ( s - > last_picture [ 0 ] - > data [ 0 ] ) ;
2011-11-02 20:10:40 +03:00
2023-09-30 16:00:44 +02:00
mpv - > avctx = s - > avctx ;
mpv - > last_picture . f = s - > last_picture [ 0 ] ;
mpv - > new_picture = s - > input_picture ;
mpv - > last_picture_ptr = & mpv - > last_picture ;
mpv - > linesize = stride ;
mpv - > uvlinesize = s - > current_picture - > linesize [ 1 ] ;
mpv - > width = width ;
mpv - > height = height ;
mpv - > mb_width = block_width ;
mpv - > mb_height = block_height ;
mpv - > mb_stride = mpv - > mb_width + 1 ;
mpv - > b8_stride = 2 * mpv - > mb_width + 1 ;
mpv - > f_code = 1 ;
mpv - > pict_type = pic - > pict_type ;
mpv - > motion_est = enc - > motion_est ;
mpv - > me . scene_change_score = 0 ;
mpv - > me . dia_size = avctx - > dia_size ;
mpv - > quarter_sample = ( s - > avctx - > flags & AV_CODEC_FLAG_QPEL ) ! = 0 ;
mpv - > out_format = FMT_H263 ;
mpv - > unrestricted_mv = 1 ;
mpv - > lambda = enc - > lambda ;
mpv - > qscale = ( mpv - > lambda * 139 + FF_LAMBDA_SCALE * 64 ) > > ( FF_LAMBDA_SHIFT + 7 ) ;
enc - > lambda2 = mpv - > lambda2 = ( mpv - > lambda * mpv - > lambda + FF_LAMBDA_SCALE / 2 ) > > FF_LAMBDA_SHIFT ;
mpv - > mecc = enc - > mecc ; //move
mpv - > qdsp = enc - > qdsp ; //move
mpv - > hdsp = s - > hdsp ;
ff_init_me ( & enc - > m ) ;
s - > hdsp = mpv - > hdsp ;
enc - > mecc = mpv - > mecc ;
}
if ( enc - > pass1_rc ) {
2011-11-02 20:10:40 +03:00
memcpy ( rc_header_bak , s - > header_state , sizeof ( s - > header_state ) ) ;
memcpy ( rc_block_bak , s - > block_state , sizeof ( s - > block_state ) ) ;
}
redo_frame :
2014-03-21 22:58:33 +03:00
s - > spatial_decomposition_count = 5 ;
2011-11-02 20:10:40 +03:00
2012-05-12 04:35:19 +03:00
while ( ! ( width > > ( s - > chroma_h_shift + s - > spatial_decomposition_count ) )
| | ! ( height > > ( s - > chroma_v_shift + s - > spatial_decomposition_count ) ) )
s - > spatial_decomposition_count - - ;
2013-07-09 22:10:45 +03:00
if ( s - > spatial_decomposition_count < = 0 ) {
av_log ( avctx , AV_LOG_ERROR , " Resolution too low \n " ) ;
return AVERROR ( EINVAL ) ;
}
2023-09-30 16:00:44 +02:00
mpv - > pict_type = pic - > pict_type ;
2012-02-23 12:47:30 +03:00
s - > qbias = pic - > pict_type = = AV_PICTURE_TYPE_P ? 2 : 0 ;
2011-11-02 20:10:40 +03:00
ff_snow_common_init_after_header ( avctx ) ;
if ( s - > last_spatial_decomposition_count ! = s - > spatial_decomposition_count ) {
2013-08-29 23:06:07 +03:00
for ( plane_index = 0 ; plane_index < s - > nb_planes ; plane_index + + ) {
2011-11-02 20:10:40 +03:00
calculate_visual_weight ( s , & s - > plane [ plane_index ] ) ;
}
}
encode_header ( s ) ;
2023-09-30 16:00:44 +02:00
mpv - > misc_bits = 8 * ( s - > c . bytestream - s - > c . bytestream_start ) ;
encode_blocks ( enc , 1 ) ;
mpv - > mv_bits = 8 * ( s - > c . bytestream - s - > c . bytestream_start ) - mpv - > misc_bits ;
2011-11-02 20:10:40 +03:00
2013-08-29 23:06:07 +03:00
for ( plane_index = 0 ; plane_index < s - > nb_planes ; plane_index + + ) {
2011-11-02 20:10:40 +03:00
Plane * p = & s - > plane [ plane_index ] ;
int w = p - > width ;
int h = p - > height ;
int x , y ;
// int bits= put_bits_count(&s->c.pb);
2023-09-30 16:00:44 +02:00
if ( ! enc - > memc_only ) {
2011-11-02 20:10:40 +03:00
//FIXME optimize
if ( pict - > data [ plane_index ] ) //FIXME gray hack
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
s - > spatial_idwt_buffer [ y * w + x ] = pict - > data [ plane_index ] [ y * pict - > linesize [ plane_index ] + x ] < < FRAC_BITS ;
}
}
predict_plane ( s , s - > spatial_idwt_buffer , plane_index , 0 ) ;
if ( plane_index = = 0
2012-02-23 12:47:30 +03:00
& & pic - > pict_type = = AV_PICTURE_TYPE_P
2015-07-27 21:14:31 +02:00
& & ! ( avctx - > flags & AV_CODEC_FLAG_PASS2 )
2023-09-30 16:00:44 +02:00
& & mpv - > me . scene_change_score > enc - > scenechange_threshold ) {
2012-02-23 12:59:22 +03:00
ff_init_range_encoder ( c , pkt - > data , pkt - > size ) ;
2015-06-01 22:30:30 +02:00
ff_build_rac_states ( c , ( 1LL < < 32 ) / 20 , 256 - 8 ) ;
2012-02-23 12:47:30 +03:00
pic - > pict_type = AV_PICTURE_TYPE_I ;
2011-11-02 20:10:40 +03:00
s - > keyframe = 1 ;
2023-04-12 18:58:54 +02:00
s - > current_picture - > flags | = AV_FRAME_FLAG_KEY ;
2011-11-02 20:10:40 +03:00
goto redo_frame ;
}
if ( s - > qlog = = LOSSLESS_QLOG ) {
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
s - > spatial_dwt_buffer [ y * w + x ] = ( s - > spatial_idwt_buffer [ y * w + x ] + ( 1 < < ( FRAC_BITS - 1 ) ) - 1 ) > > FRAC_BITS ;
}
}
} else {
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
2019-10-14 22:51:57 +02:00
s - > spatial_dwt_buffer [ y * w + x ] = s - > spatial_idwt_buffer [ y * w + x ] * ( 1 < < ENCODER_EXTRA_BITS ) ;
2011-11-02 20:10:40 +03:00
}
}
}
2013-08-29 17:59:26 +03:00
ff_spatial_dwt ( s - > spatial_dwt_buffer , s - > temp_dwt_buffer , w , h , w , s - > spatial_decomposition_type , s - > spatial_decomposition_count ) ;
2011-11-02 20:10:40 +03:00
2023-09-30 16:00:44 +02:00
if ( enc - > pass1_rc & & plane_index = = 0 ) {
int delta_qlog = ratecontrol_1pass ( enc , pic ) ;
2011-11-02 20:10:40 +03:00
if ( delta_qlog < = INT_MIN )
return - 1 ;
if ( delta_qlog ) {
//reordering qlog in the bitstream would eliminate this reset
2012-02-23 12:59:22 +03:00
ff_init_range_encoder ( c , pkt - > data , pkt - > size ) ;
2011-11-02 20:10:40 +03:00
memcpy ( s - > header_state , rc_header_bak , sizeof ( s - > header_state ) ) ;
memcpy ( s - > block_state , rc_block_bak , sizeof ( s - > block_state ) ) ;
encode_header ( s ) ;
2023-09-30 16:00:44 +02:00
encode_blocks ( enc , 0 ) ;
2011-11-02 20:10:40 +03:00
}
}
for ( level = 0 ; level < s - > spatial_decomposition_count ; level + + ) {
for ( orientation = level ? 1 : 0 ; orientation < 4 ; orientation + + ) {
SubBand * b = & p - > band [ level ] [ orientation ] ;
2013-08-29 17:59:26 +03:00
quantize ( s , b , b - > ibuf , b - > buf , b - > stride , s - > qbias ) ;
2011-11-02 20:10:40 +03:00
if ( orientation = = 0 )
2012-02-23 12:47:30 +03:00
decorrelate ( s , b , b - > ibuf , b - > stride , pic - > pict_type = = AV_PICTURE_TYPE_P , 0 ) ;
2023-09-30 16:00:44 +02:00
if ( ! enc - > no_bitstream )
2011-11-02 20:10:40 +03:00
encode_subband ( s , b , b - > ibuf , b - > parent ? b - > parent - > ibuf : NULL , b - > stride , orientation ) ;
2013-08-29 18:04:37 +03:00
av_assert0 ( b - > parent = = NULL | | b - > parent - > stride = = b - > stride * 2 ) ;
2011-11-02 20:10:40 +03:00
if ( orientation = = 0 )
correlate ( s , b , b - > ibuf , b - > stride , 1 , 0 ) ;
}
}
for ( level = 0 ; level < s - > spatial_decomposition_count ; level + + ) {
for ( orientation = level ? 1 : 0 ; orientation < 4 ; orientation + + ) {
SubBand * b = & p - > band [ level ] [ orientation ] ;
dequantize ( s , b , b - > ibuf , b - > stride ) ;
}
}
2012-06-14 13:47:55 +03:00
ff_spatial_idwt ( s - > spatial_idwt_buffer , s - > temp_idwt_buffer , w , h , w , s - > spatial_decomposition_type , s - > spatial_decomposition_count ) ;
2011-11-02 20:10:40 +03:00
if ( s - > qlog = = LOSSLESS_QLOG ) {
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
2022-09-27 01:40:24 +02:00
s - > spatial_idwt_buffer [ y * w + x ] * = 1 < < FRAC_BITS ;
2011-11-02 20:10:40 +03:00
}
}
}
predict_plane ( s , s - > spatial_idwt_buffer , plane_index , 1 ) ;
} else {
//ME/MC only
2012-02-23 12:47:30 +03:00
if ( pic - > pict_type = = AV_PICTURE_TYPE_I ) {
2011-11-02 20:10:40 +03:00
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
2013-03-11 01:43:52 +03:00
s - > current_picture - > data [ plane_index ] [ y * s - > current_picture - > linesize [ plane_index ] + x ] =
2011-11-02 20:10:40 +03:00
pict - > data [ plane_index ] [ y * pict - > linesize [ plane_index ] + x ] ;
}
}
} else {
memset ( s - > spatial_idwt_buffer , 0 , sizeof ( IDWTELEM ) * w * h ) ;
predict_plane ( s , s - > spatial_idwt_buffer , plane_index , 1 ) ;
}
}
2015-07-27 21:14:31 +02:00
if ( s - > avctx - > flags & AV_CODEC_FLAG_PSNR ) {
2011-11-02 20:10:40 +03:00
int64_t error = 0 ;
if ( pict - > data [ plane_index ] ) //FIXME gray hack
for ( y = 0 ; y < h ; y + + ) {
for ( x = 0 ; x < w ; x + + ) {
2013-03-11 01:43:52 +03:00
int d = s - > current_picture - > data [ plane_index ] [ y * s - > current_picture - > linesize [ plane_index ] + x ] - pict - > data [ plane_index ] [ y * pict - > linesize [ plane_index ] + x ] ;
2011-11-02 20:10:40 +03:00
error + = d * d ;
}
}
s - > avctx - > error [ plane_index ] + = error ;
2023-09-30 16:00:44 +02:00
enc - > encoding_error [ plane_index ] = error ;
2011-11-02 20:10:40 +03:00
}
}
2016-10-21 15:10:48 +02:00
emms_c ( ) ;
2011-11-02 20:10:40 +03:00
update_last_header_values ( s ) ;
ff_snow_release_buffer ( avctx ) ;
2015-09-20 22:55:15 +02:00
s - > current_picture - > pict_type = pic - > pict_type ;
s - > current_picture - > quality = pic - > quality ;
2023-09-30 16:00:44 +02:00
mpv - > frame_bits = 8 * ( s - > c . bytestream - s - > c . bytestream_start ) ;
mpv - > p_tex_bits = mpv - > frame_bits - mpv - > misc_bits - mpv - > mv_bits ;
mpv - > total_bits + = 8 * ( s - > c . bytestream - s - > c . bytestream_start ) ;
mpv - > current_picture . display_picture_number =
mpv - > current_picture . coded_picture_number = avctx - > frame_num ;
mpv - > current_picture . f - > quality = pic - > quality ;
if ( enc - > pass1_rc )
if ( ff_rate_estimate_qscale ( mpv , 0 ) < 0 )
2011-11-02 20:10:40 +03:00
return - 1 ;
2015-07-27 21:14:31 +02:00
if ( avctx - > flags & AV_CODEC_FLAG_PASS1 )
2023-09-30 16:00:44 +02:00
ff_write_pass1_stats ( mpv ) ;
mpv - > last_pict_type = mpv - > pict_type ;
2011-11-02 20:10:40 +03:00
emms_c ( ) ;
2015-07-28 02:17:39 +02:00
ff_side_data_set_encoder_stats ( pkt , s - > current_picture - > quality ,
2023-09-30 16:00:44 +02:00
enc - > encoding_error ,
2022-01-11 00:23:43 +02:00
( s - > avctx - > flags & AV_CODEC_FLAG_PSNR ) ? SNOW_MAX_PLANES : 0 ,
2015-07-28 02:17:39 +02:00
s - > current_picture - > pict_type ) ;
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if ( s - > avctx - > flags & AV_CODEC_FLAG_RECON_FRAME ) {
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av_frame_replace ( avci - > recon_frame , s - > current_picture ) ;
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}
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pkt - > size = ff_rac_terminate ( c , 0 ) ;
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if ( s - > current_picture - > flags & AV_FRAME_FLAG_KEY )
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pkt - > flags | = AV_PKT_FLAG_KEY ;
* got_packet = 1 ;
return 0 ;
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}
static av_cold int encode_end ( AVCodecContext * avctx )
{
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SnowEncContext * const enc = avctx - > priv_data ;
SnowContext * const s = & enc - > com ;
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ff_snow_common_end ( s ) ;
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ff_rate_control_uninit ( & enc - > m ) ;
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av_frame_free ( & s - > input_picture ) ;
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for ( int i = 0 ; i < MAX_REF_FRAMES ; i + + ) {
av_freep ( & s - > ref_mvs [ i ] ) ;
av_freep ( & s - > ref_scores [ i ] ) ;
}
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enc - > m . me . temp = NULL ;
av_freep ( & enc - > m . me . scratchpad ) ;
av_freep ( & enc - > m . me . map ) ;
av_freep ( & enc - > m . sc . obmc_scratchpad ) ;
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av_freep ( & avctx - > stats_out ) ;
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return 0 ;
}
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# define OFFSET(x) offsetof(SnowEncContext, x)
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# define VE AV_OPT_FLAG_VIDEO_PARAM | AV_OPT_FLAG_ENCODING_PARAM
static const AVOption options [ ] = {
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{ " motion_est " , " motion estimation algorithm " , OFFSET ( motion_est ) , AV_OPT_TYPE_INT , { . i64 = FF_ME_EPZS } , FF_ME_ZERO , FF_ME_ITER , VE , . unit = " motion_est " } ,
{ " zero " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = FF_ME_ZERO } , 0 , 0 , VE , . unit = " motion_est " } ,
{ " epzs " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = FF_ME_EPZS } , 0 , 0 , VE , . unit = " motion_est " } ,
{ " xone " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = FF_ME_XONE } , 0 , 0 , VE , . unit = " motion_est " } ,
{ " iter " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = FF_ME_ITER } , 0 , 0 , VE , . unit = " motion_est " } ,
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{ " memc_only " , " Only do ME/MC (I frames -> ref, P frame -> ME+MC). " , OFFSET ( memc_only ) , AV_OPT_TYPE_BOOL , { . i64 = 0 } , 0 , 1 , VE } ,
{ " no_bitstream " , " Skip final bitstream writeout. " , OFFSET ( no_bitstream ) , AV_OPT_TYPE_BOOL , { . i64 = 0 } , 0 , 1 , VE } ,
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{ " intra_penalty " , " Penalty for intra blocks in block decission " , OFFSET ( intra_penalty ) , AV_OPT_TYPE_INT , { . i64 = 0 } , 0 , INT_MAX , VE } ,
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{ " iterative_dia_size " , " Dia size for the iterative ME " , OFFSET ( iterative_dia_size ) , AV_OPT_TYPE_INT , { . i64 = 0 } , 0 , INT_MAX , VE } ,
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{ " sc_threshold " , " Scene change threshold " , OFFSET ( scenechange_threshold ) , AV_OPT_TYPE_INT , { . i64 = 0 } , INT_MIN , INT_MAX , VE } ,
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{ " pred " , " Spatial decomposition type " , OFFSET ( pred ) , AV_OPT_TYPE_INT , { . i64 = 0 } , DWT_97 , DWT_53 , VE , . unit = " pred " } ,
{ " dwt97 " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = 0 } , INT_MIN , INT_MAX , VE , . unit = " pred " } ,
{ " dwt53 " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = 1 } , INT_MIN , INT_MAX , VE , . unit = " pred " } ,
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{ " rc_eq " , " Set rate control equation. When computing the expression, besides the standard functions "
" defined in the section 'Expression Evaluation', the following functions are available: "
" bits2qp(bits), qp2bits(qp). Also the following constants are available: iTex pTex tex mv "
" fCode iCount mcVar var isI isP isB avgQP qComp avgIITex avgPITex avgPPTex avgBPTex avgTex. " ,
OFFSET ( m . rc_eq ) , AV_OPT_TYPE_STRING , { . str = NULL } , 0 , 0 , VE } ,
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{ NULL } ,
} ;
static const AVClass snowenc_class = {
. class_name = " snow encoder " ,
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. item_name = av_default_item_name ,
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. option = options ,
. version = LIBAVUTIL_VERSION_INT ,
} ;
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const FFCodec ff_snow_encoder = {
. p . name = " snow " ,
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CODEC_LONG_NAME ( " Snow " ) ,
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. p . type = AVMEDIA_TYPE_VIDEO ,
. p . id = AV_CODEC_ID_SNOW ,
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. p . capabilities = AV_CODEC_CAP_DR1 |
AV_CODEC_CAP_ENCODER_REORDERED_OPAQUE |
AV_CODEC_CAP_ENCODER_RECON_FRAME ,
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. priv_data_size = sizeof ( SnowEncContext ) ,
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. init = encode_init ,
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FF_CODEC_ENCODE_CB ( encode_frame ) ,
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. close = encode_end ,
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. p . pix_fmts = ( const enum AVPixelFormat [ ] ) {
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AV_PIX_FMT_YUV420P , AV_PIX_FMT_YUV410P , AV_PIX_FMT_YUV444P ,
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AV_PIX_FMT_GRAY8 ,
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AV_PIX_FMT_NONE
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} ,
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. p . priv_class = & snowenc_class ,
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. caps_internal = FF_CODEC_CAP_INIT_CLEANUP ,
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} ;