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/*
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* Copyright ( c ) 2015 Stupeflix
*
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* This file is part of FFmpeg .
*
* FFmpeg is free software ; you can redistribute it and / or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation ; either
* version 2.1 of the License , or ( at your option ) any later version .
*
* FFmpeg is distributed in the hope that it will be useful ,
* but WITHOUT ANY WARRANTY ; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE . See the GNU
* Lesser General Public License for more details .
*
* You should have received a copy of the GNU Lesser General Public
* License along with FFmpeg ; if not , write to the Free Software
* Foundation , Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA
*/
/**
* @ file
* Use a palette to downsample an input video stream .
*/
# include "libavutil/bprint.h"
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# include "libavutil/internal.h"
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# include "libavutil/opt.h"
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# include "libavutil/qsort.h"
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# include "avfilter.h"
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# include "filters.h"
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# include "framesync.h"
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# include "internal.h"
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enum dithering_mode {
DITHERING_NONE ,
DITHERING_BAYER ,
DITHERING_HECKBERT ,
DITHERING_FLOYD_STEINBERG ,
DITHERING_SIERRA2 ,
DITHERING_SIERRA2_4A ,
NB_DITHERING
} ;
enum color_search_method {
COLOR_SEARCH_NNS_ITERATIVE ,
COLOR_SEARCH_NNS_RECURSIVE ,
COLOR_SEARCH_BRUTEFORCE ,
NB_COLOR_SEARCHES
} ;
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enum diff_mode {
DIFF_MODE_NONE ,
DIFF_MODE_RECTANGLE ,
NB_DIFF_MODE
} ;
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struct color_node {
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uint8_t val [ 4 ] ;
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uint8_t palette_id ;
int split ;
int left_id , right_id ;
} ;
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# define NBITS 5
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# define CACHE_SIZE (1<<(3*NBITS))
struct cached_color {
uint32_t color ;
uint8_t pal_entry ;
} ;
struct cache_node {
struct cached_color * entries ;
int nb_entries ;
} ;
struct PaletteUseContext ;
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typedef int ( * set_frame_func ) ( struct PaletteUseContext * s , AVFrame * out , AVFrame * in ,
int x_start , int y_start , int width , int height ) ;
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typedef struct PaletteUseContext {
const AVClass * class ;
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FFFrameSync fs ;
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struct cache_node cache [ CACHE_SIZE ] ; /* lookup cache */
struct color_node map [ AVPALETTE_COUNT ] ; /* 3D-Tree (KD-Tree with K=3) for reverse colormap */
uint32_t palette [ AVPALETTE_COUNT ] ;
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int transparency_index ; /* index in the palette of transparency. -1 if there is no transparency in the palette. */
int trans_thresh ;
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int palette_loaded ;
int dither ;
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int new ;
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set_frame_func set_frame ;
int bayer_scale ;
int ordered_dither [ 8 * 8 ] ;
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int diff_mode ;
AVFrame * last_in ;
AVFrame * last_out ;
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/* debug options */
char * dot_filename ;
int color_search_method ;
int calc_mean_err ;
uint64_t total_mean_err ;
int debug_accuracy ;
} PaletteUseContext ;
# define OFFSET(x) offsetof(PaletteUseContext, x)
# define FLAGS AV_OPT_FLAG_FILTERING_PARAM|AV_OPT_FLAG_VIDEO_PARAM
static const AVOption paletteuse_options [ ] = {
{ " dither " , " select dithering mode " , OFFSET ( dither ) , AV_OPT_TYPE_INT , { . i64 = DITHERING_SIERRA2_4A } , 0 , NB_DITHERING - 1 , FLAGS , " dithering_mode " } ,
{ " bayer " , " ordered 8x8 bayer dithering (deterministic) " , 0 , AV_OPT_TYPE_CONST , { . i64 = DITHERING_BAYER } , INT_MIN , INT_MAX , FLAGS , " dithering_mode " } ,
{ " heckbert " , " dithering as defined by Paul Heckbert in 1982 (simple error diffusion) " , 0 , AV_OPT_TYPE_CONST , { . i64 = DITHERING_HECKBERT } , INT_MIN , INT_MAX , FLAGS , " dithering_mode " } ,
{ " floyd_steinberg " , " Floyd and Steingberg dithering (error diffusion) " , 0 , AV_OPT_TYPE_CONST , { . i64 = DITHERING_FLOYD_STEINBERG } , INT_MIN , INT_MAX , FLAGS , " dithering_mode " } ,
{ " sierra2 " , " Frankie Sierra dithering v2 (error diffusion) " , 0 , AV_OPT_TYPE_CONST , { . i64 = DITHERING_SIERRA2 } , INT_MIN , INT_MAX , FLAGS , " dithering_mode " } ,
{ " sierra2_4a " , " Frankie Sierra dithering v2 \" Lite \" (error diffusion) " , 0 , AV_OPT_TYPE_CONST , { . i64 = DITHERING_SIERRA2_4A } , INT_MIN , INT_MAX , FLAGS , " dithering_mode " } ,
{ " bayer_scale " , " set scale for bayer dithering " , OFFSET ( bayer_scale ) , AV_OPT_TYPE_INT , { . i64 = 2 } , 0 , 5 , FLAGS } ,
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{ " diff_mode " , " set frame difference mode " , OFFSET ( diff_mode ) , AV_OPT_TYPE_INT , { . i64 = DIFF_MODE_NONE } , 0 , NB_DIFF_MODE - 1 , FLAGS , " diff_mode " } ,
{ " rectangle " , " process smallest different rectangle " , 0 , AV_OPT_TYPE_CONST , { . i64 = DIFF_MODE_RECTANGLE } , INT_MIN , INT_MAX , FLAGS , " diff_mode " } ,
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{ " new " , " take new palette for each output frame " , OFFSET ( new ) , AV_OPT_TYPE_BOOL , { . i64 = 0 } , 0 , 1 , FLAGS } ,
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{ " alpha_threshold " , " set the alpha threshold for transparency " , OFFSET ( trans_thresh ) , AV_OPT_TYPE_INT , { . i64 = 128 } , 0 , 255 } ,
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/* following are the debug options, not part of the official API */
{ " debug_kdtree " , " save Graphviz graph of the kdtree in specified file " , OFFSET ( dot_filename ) , AV_OPT_TYPE_STRING , { . str = NULL } , CHAR_MIN , CHAR_MAX , FLAGS } ,
{ " color_search " , " set reverse colormap color search method " , OFFSET ( color_search_method ) , AV_OPT_TYPE_INT , { . i64 = COLOR_SEARCH_NNS_ITERATIVE } , 0 , NB_COLOR_SEARCHES - 1 , FLAGS , " search " } ,
{ " nns_iterative " , " iterative search " , 0 , AV_OPT_TYPE_CONST , { . i64 = COLOR_SEARCH_NNS_ITERATIVE } , INT_MIN , INT_MAX , FLAGS , " search " } ,
{ " nns_recursive " , " recursive search " , 0 , AV_OPT_TYPE_CONST , { . i64 = COLOR_SEARCH_NNS_RECURSIVE } , INT_MIN , INT_MAX , FLAGS , " search " } ,
{ " bruteforce " , " brute-force into the palette " , 0 , AV_OPT_TYPE_CONST , { . i64 = COLOR_SEARCH_BRUTEFORCE } , INT_MIN , INT_MAX , FLAGS , " search " } ,
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{ " mean_err " , " compute and print mean error " , OFFSET ( calc_mean_err ) , AV_OPT_TYPE_BOOL , { . i64 = 0 } , 0 , 1 , FLAGS } ,
{ " debug_accuracy " , " test color search accuracy " , OFFSET ( debug_accuracy ) , AV_OPT_TYPE_BOOL , { . i64 = 0 } , 0 , 1 , FLAGS } ,
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{ NULL }
} ;
AVFILTER_DEFINE_CLASS ( paletteuse ) ;
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static int load_apply_palette ( FFFrameSync * fs ) ;
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static int query_formats ( AVFilterContext * ctx )
{
static const enum AVPixelFormat in_fmts [ ] = { AV_PIX_FMT_RGB32 , AV_PIX_FMT_NONE } ;
static const enum AVPixelFormat inpal_fmts [ ] = { AV_PIX_FMT_RGB32 , AV_PIX_FMT_NONE } ;
static const enum AVPixelFormat out_fmts [ ] = { AV_PIX_FMT_PAL8 , AV_PIX_FMT_NONE } ;
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int ret ;
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AVFilterFormats * in = ff_make_format_list ( in_fmts ) ;
AVFilterFormats * inpal = ff_make_format_list ( inpal_fmts ) ;
AVFilterFormats * out = ff_make_format_list ( out_fmts ) ;
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if ( ! in | | ! inpal | | ! out ) {
av_freep ( & in ) ;
av_freep ( & inpal ) ;
av_freep ( & out ) ;
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return AVERROR ( ENOMEM ) ;
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}
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if ( ( ret = ff_formats_ref ( in , & ctx - > inputs [ 0 ] - > out_formats ) ) < 0 | |
( ret = ff_formats_ref ( inpal , & ctx - > inputs [ 1 ] - > out_formats ) ) < 0 | |
( ret = ff_formats_ref ( out , & ctx - > outputs [ 0 ] - > in_formats ) ) < 0 )
return ret ;
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return 0 ;
}
static av_always_inline int dither_color ( uint32_t px , int er , int eg , int eb , int scale , int shift )
{
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return av_clip_uint8 ( px > > 24 ) < < 24
| av_clip_uint8 ( ( px > > 16 & 0xff ) + ( ( er * scale ) / ( 1 < < shift ) ) ) < < 16
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| av_clip_uint8 ( ( px > > 8 & 0xff ) + ( ( eg * scale ) / ( 1 < < shift ) ) ) < < 8
| av_clip_uint8 ( ( px & 0xff ) + ( ( eb * scale ) / ( 1 < < shift ) ) ) ;
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}
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static av_always_inline int diff ( const uint8_t * c1 , const uint8_t * c2 , const int trans_thresh )
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{
// XXX: try L*a*b with CIE76 (dL*dL + da*da + db*db)
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const int dr = c1 [ 1 ] - c2 [ 1 ] ;
const int dg = c1 [ 2 ] - c2 [ 2 ] ;
const int db = c1 [ 3 ] - c2 [ 3 ] ;
if ( c1 [ 0 ] < trans_thresh & & c2 [ 0 ] < trans_thresh ) {
return 0 ;
} else if ( c1 [ 0 ] > = trans_thresh & & c2 [ 0 ] > = trans_thresh ) {
return dr * dr + dg * dg + db * db ;
} else {
return 255 * 255 + 255 * 255 + 255 * 255 ;
}
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}
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static av_always_inline uint8_t colormap_nearest_bruteforce ( const uint32_t * palette , const uint8_t * argb , const int trans_thresh )
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{
int i , pal_id = - 1 , min_dist = INT_MAX ;
for ( i = 0 ; i < AVPALETTE_COUNT ; i + + ) {
const uint32_t c = palette [ i ] ;
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if ( c > > 24 > = trans_thresh ) { // ignore transparent entry
const uint8_t palargb [ ] = {
palette [ i ] > > 24 & 0xff ,
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palette [ i ] > > 16 & 0xff ,
palette [ i ] > > 8 & 0xff ,
palette [ i ] & 0xff ,
} ;
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const int d = diff ( palargb , argb , trans_thresh ) ;
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if ( d < min_dist ) {
pal_id = i ;
min_dist = d ;
}
}
}
return pal_id ;
}
/* Recursive form, simpler but a bit slower. Kept for reference. */
struct nearest_color {
int node_pos ;
int dist_sqd ;
} ;
static void colormap_nearest_node ( const struct color_node * map ,
const int node_pos ,
const uint8_t * target ,
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const int trans_thresh ,
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struct nearest_color * nearest )
{
const struct color_node * kd = map + node_pos ;
const int s = kd - > split ;
int dx , nearer_kd_id , further_kd_id ;
const uint8_t * current = kd - > val ;
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const int current_to_target = diff ( target , current , trans_thresh ) ;
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if ( current_to_target < nearest - > dist_sqd ) {
nearest - > node_pos = node_pos ;
nearest - > dist_sqd = current_to_target ;
}
if ( kd - > left_id ! = - 1 | | kd - > right_id ! = - 1 ) {
dx = target [ s ] - current [ s ] ;
if ( dx < = 0 ) nearer_kd_id = kd - > left_id , further_kd_id = kd - > right_id ;
else nearer_kd_id = kd - > right_id , further_kd_id = kd - > left_id ;
if ( nearer_kd_id ! = - 1 )
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colormap_nearest_node ( map , nearer_kd_id , target , trans_thresh , nearest ) ;
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if ( further_kd_id ! = - 1 & & dx * dx < nearest - > dist_sqd )
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colormap_nearest_node ( map , further_kd_id , target , trans_thresh , nearest ) ;
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}
}
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static av_always_inline uint8_t colormap_nearest_recursive ( const struct color_node * node , const uint8_t * rgb , const int trans_thresh )
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{
struct nearest_color res = { . dist_sqd = INT_MAX , . node_pos = - 1 } ;
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colormap_nearest_node ( node , 0 , rgb , trans_thresh , & res ) ;
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return node [ res . node_pos ] . palette_id ;
}
struct stack_node {
int color_id ;
int dx2 ;
} ;
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static av_always_inline uint8_t colormap_nearest_iterative ( const struct color_node * root , const uint8_t * target , const int trans_thresh )
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{
int pos = 0 , best_node_id = - 1 , best_dist = INT_MAX , cur_color_id = 0 ;
struct stack_node nodes [ 16 ] ;
struct stack_node * node = & nodes [ 0 ] ;
for ( ; ; ) {
const struct color_node * kd = & root [ cur_color_id ] ;
const uint8_t * current = kd - > val ;
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const int current_to_target = diff ( target , current , trans_thresh ) ;
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/* Compare current color node to the target and update our best node if
* it ' s actually better . */
if ( current_to_target < best_dist ) {
best_node_id = cur_color_id ;
if ( ! current_to_target )
goto end ; // exact match, we can return immediately
best_dist = current_to_target ;
}
/* Check if it's not a leaf */
if ( kd - > left_id ! = - 1 | | kd - > right_id ! = - 1 ) {
const int split = kd - > split ;
const int dx = target [ split ] - current [ split ] ;
int nearer_kd_id , further_kd_id ;
/* Define which side is the most interesting. */
if ( dx < = 0 ) nearer_kd_id = kd - > left_id , further_kd_id = kd - > right_id ;
else nearer_kd_id = kd - > right_id , further_kd_id = kd - > left_id ;
if ( nearer_kd_id ! = - 1 ) {
if ( further_kd_id ! = - 1 ) {
/* Here, both paths are defined, so we push a state for
* when we are going back . */
node - > color_id = further_kd_id ;
node - > dx2 = dx * dx ;
pos + + ;
node + + ;
}
/* We can now update current color with the most probable path
* ( no need to create a state since there is nothing to save
* anymore ) . */
cur_color_id = nearer_kd_id ;
continue ;
} else if ( dx * dx < best_dist ) {
/* The nearest path isn't available, so there is only one path
* possible and it ' s the least probable . We enter it only if the
* distance from the current point to the hyper rectangle is
* less than our best distance . */
cur_color_id = further_kd_id ;
continue ;
}
}
/* Unstack as much as we can, typically as long as the least probable
* branch aren ' t actually probable . */
do {
if ( - - pos < 0 )
goto end ;
node - - ;
} while ( node - > dx2 > = best_dist ) ;
/* We got a node where the least probable branch might actually contain
* a relevant color . */
cur_color_id = node - > color_id ;
}
end :
return root [ best_node_id ] . palette_id ;
}
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# define COLORMAP_NEAREST(search, palette, root, target, trans_thresh) \
search = = COLOR_SEARCH_NNS_ITERATIVE ? colormap_nearest_iterative ( root , target , trans_thresh ) : \
search = = COLOR_SEARCH_NNS_RECURSIVE ? colormap_nearest_recursive ( root , target , trans_thresh ) : \
colormap_nearest_bruteforce ( palette , target , trans_thresh )
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/**
* Check if the requested color is in the cache already . If not , find it in the
* color tree and cache it .
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* Note : a , r , g , and b are the components of color , but are passed as well to avoid
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* recomputing them ( they are generally computed by the caller for other uses ) .
*/
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static av_always_inline int color_get ( PaletteUseContext * s , uint32_t color ,
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uint8_t a , uint8_t r , uint8_t g , uint8_t b ,
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const enum color_search_method search_method )
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{
int i ;
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const uint8_t argb_elts [ ] = { a , r , g , b } ;
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const uint8_t rhash = r & ( ( 1 < < NBITS ) - 1 ) ;
const uint8_t ghash = g & ( ( 1 < < NBITS ) - 1 ) ;
const uint8_t bhash = b & ( ( 1 < < NBITS ) - 1 ) ;
const unsigned hash = rhash < < ( NBITS * 2 ) | ghash < < NBITS | bhash ;
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struct cache_node * node = & s - > cache [ hash ] ;
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struct cached_color * e ;
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// first, check for transparency
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if ( a < s - > trans_thresh & & s - > transparency_index > = 0 ) {
return s - > transparency_index ;
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}
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for ( i = 0 ; i < node - > nb_entries ; i + + ) {
e = & node - > entries [ i ] ;
if ( e - > color = = color )
return e - > pal_entry ;
}
e = av_dynarray2_add ( ( void * * ) & node - > entries , & node - > nb_entries ,
sizeof ( * node - > entries ) , NULL ) ;
if ( ! e )
return AVERROR ( ENOMEM ) ;
e - > color = color ;
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e - > pal_entry = COLORMAP_NEAREST ( search_method , s - > palette , s - > map , argb_elts , s - > trans_thresh ) ;
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return e - > pal_entry ;
}
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static av_always_inline int get_dst_color_err ( PaletteUseContext * s ,
uint32_t c , int * er , int * eg , int * eb ,
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const enum color_search_method search_method )
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{
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const uint8_t a = c > > 24 & 0xff ;
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const uint8_t r = c > > 16 & 0xff ;
const uint8_t g = c > > 8 & 0xff ;
const uint8_t b = c & 0xff ;
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uint32_t dstc ;
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const int dstx = color_get ( s , c , a , r , g , b , search_method ) ;
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if ( dstx < 0 )
return dstx ;
dstc = s - > palette [ dstx ] ;
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* er = r - ( dstc > > 16 & 0xff ) ;
* eg = g - ( dstc > > 8 & 0xff ) ;
* eb = b - ( dstc & 0xff ) ;
return dstx ;
}
static av_always_inline int set_frame ( PaletteUseContext * s , AVFrame * out , AVFrame * in ,
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int x_start , int y_start , int w , int h ,
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enum dithering_mode dither ,
const enum color_search_method search_method )
{
int x , y ;
const int src_linesize = in - > linesize [ 0 ] > > 2 ;
const int dst_linesize = out - > linesize [ 0 ] ;
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uint32_t * src = ( ( uint32_t * ) in - > data [ 0 ] ) + y_start * src_linesize ;
uint8_t * dst = out - > data [ 0 ] + y_start * dst_linesize ;
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w + = x_start ;
h + = y_start ;
for ( y = y_start ; y < h ; y + + ) {
for ( x = x_start ; x < w ; x + + ) {
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int er , eg , eb ;
if ( dither = = DITHERING_BAYER ) {
const int d = s - > ordered_dither [ ( y & 7 ) < < 3 | ( x & 7 ) ] ;
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const uint8_t a8 = src [ x ] > > 24 & 0xff ;
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const uint8_t r8 = src [ x ] > > 16 & 0xff ;
const uint8_t g8 = src [ x ] > > 8 & 0xff ;
const uint8_t b8 = src [ x ] & 0xff ;
const uint8_t r = av_clip_uint8 ( r8 + d ) ;
const uint8_t g = av_clip_uint8 ( g8 + d ) ;
const uint8_t b = av_clip_uint8 ( b8 + d ) ;
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const int color = color_get ( s , src [ x ] , a8 , r , g , b , search_method ) ;
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if ( color < 0 )
return color ;
dst [ x ] = color ;
} else if ( dither = = DITHERING_HECKBERT ) {
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const int right = x < w - 1 , down = y < h - 1 ;
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const int color = get_dst_color_err ( s , src [ x ] , & er , & eg , & eb , search_method ) ;
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if ( color < 0 )
return color ;
dst [ x ] = color ;
if ( right ) src [ x + 1 ] = dither_color ( src [ x + 1 ] , er , eg , eb , 3 , 3 ) ;
if ( down ) src [ src_linesize + x ] = dither_color ( src [ src_linesize + x ] , er , eg , eb , 3 , 3 ) ;
if ( right & & down ) src [ src_linesize + x + 1 ] = dither_color ( src [ src_linesize + x + 1 ] , er , eg , eb , 2 , 3 ) ;
} else if ( dither = = DITHERING_FLOYD_STEINBERG ) {
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const int right = x < w - 1 , down = y < h - 1 , left = x > x_start ;
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const int color = get_dst_color_err ( s , src [ x ] , & er , & eg , & eb , search_method ) ;
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if ( color < 0 )
return color ;
dst [ x ] = color ;
if ( right ) src [ x + 1 ] = dither_color ( src [ x + 1 ] , er , eg , eb , 7 , 4 ) ;
if ( left & & down ) src [ src_linesize + x - 1 ] = dither_color ( src [ src_linesize + x - 1 ] , er , eg , eb , 3 , 4 ) ;
if ( down ) src [ src_linesize + x ] = dither_color ( src [ src_linesize + x ] , er , eg , eb , 5 , 4 ) ;
if ( right & & down ) src [ src_linesize + x + 1 ] = dither_color ( src [ src_linesize + x + 1 ] , er , eg , eb , 1 , 4 ) ;
} else if ( dither = = DITHERING_SIERRA2 ) {
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const int right = x < w - 1 , down = y < h - 1 , left = x > x_start ;
const int right2 = x < w - 2 , left2 = x > x_start + 1 ;
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const int color = get_dst_color_err ( s , src [ x ] , & er , & eg , & eb , search_method ) ;
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if ( color < 0 )
return color ;
dst [ x ] = color ;
if ( right ) src [ x + 1 ] = dither_color ( src [ x + 1 ] , er , eg , eb , 4 , 4 ) ;
if ( right2 ) src [ x + 2 ] = dither_color ( src [ x + 2 ] , er , eg , eb , 3 , 4 ) ;
if ( down ) {
if ( left2 ) src [ src_linesize + x - 2 ] = dither_color ( src [ src_linesize + x - 2 ] , er , eg , eb , 1 , 4 ) ;
if ( left ) src [ src_linesize + x - 1 ] = dither_color ( src [ src_linesize + x - 1 ] , er , eg , eb , 2 , 4 ) ;
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if ( 1 ) src [ src_linesize + x ] = dither_color ( src [ src_linesize + x ] , er , eg , eb , 3 , 4 ) ;
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if ( right ) src [ src_linesize + x + 1 ] = dither_color ( src [ src_linesize + x + 1 ] , er , eg , eb , 2 , 4 ) ;
if ( right2 ) src [ src_linesize + x + 2 ] = dither_color ( src [ src_linesize + x + 2 ] , er , eg , eb , 1 , 4 ) ;
}
} else if ( dither = = DITHERING_SIERRA2_4A ) {
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const int right = x < w - 1 , down = y < h - 1 , left = x > x_start ;
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const int color = get_dst_color_err ( s , src [ x ] , & er , & eg , & eb , search_method ) ;
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if ( color < 0 )
return color ;
dst [ x ] = color ;
if ( right ) src [ x + 1 ] = dither_color ( src [ x + 1 ] , er , eg , eb , 2 , 2 ) ;
if ( left & & down ) src [ src_linesize + x - 1 ] = dither_color ( src [ src_linesize + x - 1 ] , er , eg , eb , 1 , 2 ) ;
if ( down ) src [ src_linesize + x ] = dither_color ( src [ src_linesize + x ] , er , eg , eb , 1 , 2 ) ;
} else {
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const uint8_t a = src [ x ] > > 24 & 0xff ;
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const uint8_t r = src [ x ] > > 16 & 0xff ;
const uint8_t g = src [ x ] > > 8 & 0xff ;
const uint8_t b = src [ x ] & 0xff ;
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const int color = color_get ( s , src [ x ] , a , r , g , b , search_method ) ;
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if ( color < 0 )
return color ;
dst [ x ] = color ;
}
}
src + = src_linesize ;
dst + = dst_linesize ;
}
return 0 ;
}
# define INDENT 4
static void disp_node ( AVBPrint * buf ,
const struct color_node * map ,
int parent_id , int node_id ,
int depth )
{
const struct color_node * node = & map [ node_id ] ;
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const uint32_t fontcolor = node - > val [ 1 ] > 0x50 & &
node - > val [ 2 ] > 0x50 & &
node - > val [ 3 ] > 0x50 ? 0 : 0xffffff ;
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const int rgb_comp = node - > split - 1 ;
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av_bprintf ( buf , " %*cnode%d [ "
" label= \" %c%02X%c%02X%c%02X%c \" "
" fillcolor= \" #%02x%02x%02x \" "
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" fontcolor= \" #%06 " PRIX32 " \" ] \n " ,
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depth * INDENT , ' ' , node - > palette_id ,
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" [ " [ rgb_comp ] , node - > val [ 1 ] ,
" ][ " [ rgb_comp ] , node - > val [ 2 ] ,
" ][ " [ rgb_comp ] , node - > val [ 3 ] ,
" ] " [ rgb_comp ] ,
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node - > val [ 1 ] , node - > val [ 2 ] , node - > val [ 3 ] ,
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fontcolor ) ;
if ( parent_id ! = - 1 )
av_bprintf ( buf , " %*cnode%d -> node%d \n " , depth * INDENT , ' ' ,
map [ parent_id ] . palette_id , node - > palette_id ) ;
if ( node - > left_id ! = - 1 ) disp_node ( buf , map , node_id , node - > left_id , depth + 1 ) ;
if ( node - > right_id ! = - 1 ) disp_node ( buf , map , node_id , node - > right_id , depth + 1 ) ;
}
// debug_kdtree=kdtree.dot -> dot -Tpng kdtree.dot > kdtree.png
static int disp_tree ( const struct color_node * node , const char * fname )
{
AVBPrint buf ;
FILE * f = av_fopen_utf8 ( fname , " w " ) ;
if ( ! f ) {
int ret = AVERROR ( errno ) ;
av_log ( NULL , AV_LOG_ERROR , " Cannot open file '%s' for writing: %s \n " ,
fname , av_err2str ( ret ) ) ;
return ret ;
}
av_bprint_init ( & buf , 0 , AV_BPRINT_SIZE_UNLIMITED ) ;
av_bprintf ( & buf , " digraph { \n " ) ;
av_bprintf ( & buf , " node [style=filled fontsize=10 shape=box] \n " ) ;
disp_node ( & buf , node , - 1 , 0 , 0 ) ;
av_bprintf ( & buf , " } \n " ) ;
fwrite ( buf . str , 1 , buf . len , f ) ;
fclose ( f ) ;
av_bprint_finalize ( & buf , NULL ) ;
return 0 ;
}
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static int debug_accuracy ( const struct color_node * node , const uint32_t * palette , const int trans_thresh ,
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const enum color_search_method search_method )
{
int r , g , b , ret = 0 ;
for ( r = 0 ; r < 256 ; r + + ) {
for ( g = 0 ; g < 256 ; g + + ) {
for ( b = 0 ; b < 256 ; b + + ) {
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const uint8_t argb [ ] = { 0xff , r , g , b } ;
const int r1 = COLORMAP_NEAREST ( search_method , palette , node , argb , trans_thresh ) ;
const int r2 = colormap_nearest_bruteforce ( palette , argb , trans_thresh ) ;
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if ( r1 ! = r2 ) {
const uint32_t c1 = palette [ r1 ] ;
const uint32_t c2 = palette [ r2 ] ;
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const uint8_t palargb1 [ ] = { 0xff , c1 > > 16 & 0xff , c1 > > 8 & 0xff , c1 & 0xff } ;
const uint8_t palargb2 [ ] = { 0xff , c2 > > 16 & 0xff , c2 > > 8 & 0xff , c2 & 0xff } ;
const int d1 = diff ( palargb1 , argb , trans_thresh ) ;
const int d2 = diff ( palargb2 , argb , trans_thresh ) ;
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if ( d1 ! = d2 ) {
av_log ( NULL , AV_LOG_ERROR ,
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" /! \\ %02X%02X%02X: %d ! %d (%06 " PRIX32 " ! %06 " PRIX32 " ) / dist: %d ! %d \n " ,
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r , g , b , r1 , r2 , c1 & 0xffffff , c2 & 0xffffff , d1 , d2 ) ;
ret = 1 ;
}
}
}
}
}
return ret ;
}
struct color {
uint32_t value ;
uint8_t pal_id ;
} ;
struct color_rect {
uint8_t min [ 3 ] ;
uint8_t max [ 3 ] ;
} ;
typedef int ( * cmp_func ) ( const void * , const void * ) ;
# define DECLARE_CMP_FUNC(name, pos) \
static int cmp_ # # name ( const void * pa , const void * pb ) \
{ \
const struct color * a = pa ; \
const struct color * b = pb ; \
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return ( a - > value > > ( 8 * ( 3 - ( pos ) ) ) & 0xff ) \
- ( b - > value > > ( 8 * ( 3 - ( pos ) ) ) & 0xff ) ; \
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}
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DECLARE_CMP_FUNC ( a , 0 )
DECLARE_CMP_FUNC ( r , 1 )
DECLARE_CMP_FUNC ( g , 2 )
DECLARE_CMP_FUNC ( b , 3 )
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static const cmp_func cmp_funcs [ ] = { cmp_a , cmp_r , cmp_g , cmp_b } ;
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static int get_next_color ( const uint8_t * color_used , const uint32_t * palette ,
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const int trans_thresh ,
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int * component , const struct color_rect * box )
{
int wr , wg , wb ;
int i , longest = 0 ;
unsigned nb_color = 0 ;
struct color_rect ranges ;
struct color tmp_pal [ 256 ] ;
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cmp_func cmpf ;
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ranges . min [ 0 ] = ranges . min [ 1 ] = ranges . min [ 2 ] = 0xff ;
ranges . max [ 0 ] = ranges . max [ 1 ] = ranges . max [ 2 ] = 0x00 ;
for ( i = 0 ; i < AVPALETTE_COUNT ; i + + ) {
const uint32_t c = palette [ i ] ;
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const uint8_t a = c > > 24 & 0xff ;
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const uint8_t r = c > > 16 & 0xff ;
const uint8_t g = c > > 8 & 0xff ;
const uint8_t b = c & 0xff ;
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if ( a < trans_thresh ) {
continue ;
}
if ( color_used [ i ] | | ( a ! = 0xff ) | |
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r < box - > min [ 0 ] | | g < box - > min [ 1 ] | | b < box - > min [ 2 ] | |
r > box - > max [ 0 ] | | g > box - > max [ 1 ] | | b > box - > max [ 2 ] )
continue ;
if ( r < ranges . min [ 0 ] ) ranges . min [ 0 ] = r ;
if ( g < ranges . min [ 1 ] ) ranges . min [ 1 ] = g ;
if ( b < ranges . min [ 2 ] ) ranges . min [ 2 ] = b ;
if ( r > ranges . max [ 0 ] ) ranges . max [ 0 ] = r ;
if ( g > ranges . max [ 1 ] ) ranges . max [ 1 ] = g ;
if ( b > ranges . max [ 2 ] ) ranges . max [ 2 ] = b ;
tmp_pal [ nb_color ] . value = c ;
tmp_pal [ nb_color ] . pal_id = i ;
nb_color + + ;
}
if ( ! nb_color )
return - 1 ;
/* define longest axis that will be the split component */
wr = ranges . max [ 0 ] - ranges . min [ 0 ] ;
wg = ranges . max [ 1 ] - ranges . min [ 1 ] ;
wb = ranges . max [ 2 ] - ranges . min [ 2 ] ;
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if ( wr > = wg & & wr > = wb ) longest = 1 ;
if ( wg > = wr & & wg > = wb ) longest = 2 ;
if ( wb > = wr & & wb > = wg ) longest = 3 ;
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cmpf = cmp_funcs [ longest ] ;
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* component = longest ;
/* sort along this axis to get median */
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AV_QSORT ( tmp_pal , nb_color , struct color , cmpf ) ;
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return tmp_pal [ nb_color > > 1 ] . pal_id ;
}
static int colormap_insert ( struct color_node * map ,
uint8_t * color_used ,
int * nb_used ,
const uint32_t * palette ,
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const int trans_thresh ,
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const struct color_rect * box )
{
uint32_t c ;
int component , cur_id ;
int node_left_id = - 1 , node_right_id = - 1 ;
struct color_node * node ;
struct color_rect box1 , box2 ;
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const int pal_id = get_next_color ( color_used , palette , trans_thresh , & component , box ) ;
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if ( pal_id < 0 )
return - 1 ;
/* create new node with that color */
cur_id = ( * nb_used ) + + ;
c = palette [ pal_id ] ;
node = & map [ cur_id ] ;
node - > split = component ;
node - > palette_id = pal_id ;
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node - > val [ 0 ] = c > > 24 & 0xff ;
node - > val [ 1 ] = c > > 16 & 0xff ;
node - > val [ 2 ] = c > > 8 & 0xff ;
node - > val [ 3 ] = c & 0xff ;
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color_used [ pal_id ] = 1 ;
/* get the two boxes this node creates */
box1 = box2 = * box ;
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box1 . max [ component - 1 ] = node - > val [ component ] ;
box2 . min [ component - 1 ] = node - > val [ component ] + 1 ;
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node_left_id = colormap_insert ( map , color_used , nb_used , palette , trans_thresh , & box1 ) ;
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if ( box2 . min [ component - 1 ] < = box2 . max [ component - 1 ] )
node_right_id = colormap_insert ( map , color_used , nb_used , palette , trans_thresh , & box2 ) ;
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node - > left_id = node_left_id ;
node - > right_id = node_right_id ;
return cur_id ;
}
static int cmp_pal_entry ( const void * a , const void * b )
{
const int c1 = * ( const uint32_t * ) a & 0xffffff ;
const int c2 = * ( const uint32_t * ) b & 0xffffff ;
return c1 - c2 ;
}
static void load_colormap ( PaletteUseContext * s )
{
int i , nb_used = 0 ;
uint8_t color_used [ AVPALETTE_COUNT ] = { 0 } ;
uint32_t last_color = 0 ;
struct color_rect box ;
/* disable transparent colors and dups */
qsort ( s - > palette , AVPALETTE_COUNT , sizeof ( * s - > palette ) , cmp_pal_entry ) ;
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// update transparency index:
if ( s - > transparency_index > = 0 ) {
for ( i = 0 ; i < AVPALETTE_COUNT ; i + + ) {
if ( ( s - > palette [ i ] > > 24 & 0xff ) = = 0 ) {
s - > transparency_index = i ; // we are assuming at most one transparent color in palette
break ;
}
}
}
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for ( i = 0 ; i < AVPALETTE_COUNT ; i + + ) {
const uint32_t c = s - > palette [ i ] ;
if ( i ! = 0 & & c = = last_color ) {
color_used [ i ] = 1 ;
continue ;
}
last_color = c ;
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if ( c > > 24 < s - > trans_thresh ) {
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color_used [ i ] = 1 ; // ignore transparent color(s)
continue ;
}
}
box . min [ 0 ] = box . min [ 1 ] = box . min [ 2 ] = 0x00 ;
box . max [ 0 ] = box . max [ 1 ] = box . max [ 2 ] = 0xff ;
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colormap_insert ( s - > map , color_used , & nb_used , s - > palette , s - > trans_thresh , & box ) ;
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if ( s - > dot_filename )
disp_tree ( s - > map , s - > dot_filename ) ;
if ( s - > debug_accuracy ) {
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if ( ! debug_accuracy ( s - > map , s - > palette , s - > trans_thresh , s - > color_search_method ) )
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av_log ( NULL , AV_LOG_INFO , " Accuracy check passed \n " ) ;
}
}
static void debug_mean_error ( PaletteUseContext * s , const AVFrame * in1 ,
const AVFrame * in2 , int frame_count )
{
int x , y ;
const uint32_t * palette = s - > palette ;
uint32_t * src1 = ( uint32_t * ) in1 - > data [ 0 ] ;
uint8_t * src2 = in2 - > data [ 0 ] ;
const int src1_linesize = in1 - > linesize [ 0 ] > > 2 ;
const int src2_linesize = in2 - > linesize [ 0 ] ;
const float div = in1 - > width * in1 - > height * 3 ;
unsigned mean_err = 0 ;
for ( y = 0 ; y < in1 - > height ; y + + ) {
for ( x = 0 ; x < in1 - > width ; x + + ) {
const uint32_t c1 = src1 [ x ] ;
const uint32_t c2 = palette [ src2 [ x ] ] ;
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const uint8_t argb1 [ ] = { 0xff , c1 > > 16 & 0xff , c1 > > 8 & 0xff , c1 & 0xff } ;
const uint8_t argb2 [ ] = { 0xff , c2 > > 16 & 0xff , c2 > > 8 & 0xff , c2 & 0xff } ;
mean_err + = diff ( argb1 , argb2 , s - > trans_thresh ) ;
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}
src1 + = src1_linesize ;
src2 + = src2_linesize ;
}
s - > total_mean_err + = mean_err ;
av_log ( NULL , AV_LOG_INFO , " MEP:%.3f TotalMEP:%.3f \n " ,
mean_err / div , s - > total_mean_err / ( div * frame_count ) ) ;
}
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static void set_processing_window ( enum diff_mode diff_mode ,
const AVFrame * prv_src , const AVFrame * cur_src ,
const AVFrame * prv_dst , AVFrame * cur_dst ,
int * xp , int * yp , int * wp , int * hp )
{
int x_start = 0 , y_start = 0 ;
int width = cur_src - > width ;
int height = cur_src - > height ;
if ( prv_src & & diff_mode = = DIFF_MODE_RECTANGLE ) {
int y ;
int x_end = cur_src - > width - 1 ,
y_end = cur_src - > height - 1 ;
const uint32_t * prv_srcp = ( const uint32_t * ) prv_src - > data [ 0 ] ;
const uint32_t * cur_srcp = ( const uint32_t * ) cur_src - > data [ 0 ] ;
const uint8_t * prv_dstp = prv_dst - > data [ 0 ] ;
uint8_t * cur_dstp = cur_dst - > data [ 0 ] ;
const int prv_src_linesize = prv_src - > linesize [ 0 ] > > 2 ;
const int cur_src_linesize = cur_src - > linesize [ 0 ] > > 2 ;
const int prv_dst_linesize = prv_dst - > linesize [ 0 ] ;
const int cur_dst_linesize = cur_dst - > linesize [ 0 ] ;
/* skip common lines */
while ( y_start < y_end & & ! memcmp ( prv_srcp + y_start * prv_src_linesize ,
cur_srcp + y_start * cur_src_linesize ,
cur_src - > width * 4 ) ) {
memcpy ( cur_dstp + y_start * cur_dst_linesize ,
prv_dstp + y_start * prv_dst_linesize ,
cur_dst - > width ) ;
y_start + + ;
}
while ( y_end > y_start & & ! memcmp ( prv_srcp + y_end * prv_src_linesize ,
cur_srcp + y_end * cur_src_linesize ,
cur_src - > width * 4 ) ) {
memcpy ( cur_dstp + y_end * cur_dst_linesize ,
prv_dstp + y_end * prv_dst_linesize ,
cur_dst - > width ) ;
y_end - - ;
}
height = y_end + 1 - y_start ;
/* skip common columns */
while ( x_start < x_end ) {
int same_column = 1 ;
for ( y = y_start ; y < = y_end ; y + + ) {
if ( prv_srcp [ y * prv_src_linesize + x_start ] ! = cur_srcp [ y * cur_src_linesize + x_start ] ) {
same_column = 0 ;
break ;
}
}
if ( ! same_column )
break ;
x_start + + ;
}
while ( x_end > x_start ) {
int same_column = 1 ;
for ( y = y_start ; y < = y_end ; y + + ) {
if ( prv_srcp [ y * prv_src_linesize + x_end ] ! = cur_srcp [ y * cur_src_linesize + x_end ] ) {
same_column = 0 ;
break ;
}
}
if ( ! same_column )
break ;
x_end - - ;
}
width = x_end + 1 - x_start ;
if ( x_start ) {
for ( y = y_start ; y < = y_end ; y + + )
memcpy ( cur_dstp + y * cur_dst_linesize ,
prv_dstp + y * prv_dst_linesize , x_start ) ;
}
if ( x_end ! = cur_src - > width - 1 ) {
const int copy_len = cur_src - > width - 1 - x_end ;
for ( y = y_start ; y < = y_end ; y + + )
memcpy ( cur_dstp + y * cur_dst_linesize + x_end + 1 ,
prv_dstp + y * prv_dst_linesize + x_end + 1 ,
copy_len ) ;
}
}
* xp = x_start ;
* yp = y_start ;
* wp = width ;
* hp = height ;
}
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static AVFrame * apply_palette ( AVFilterLink * inlink , AVFrame * in )
{
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int x , y , w , h ;
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AVFilterContext * ctx = inlink - > dst ;
PaletteUseContext * s = ctx - > priv ;
AVFilterLink * outlink = inlink - > dst - > outputs [ 0 ] ;
AVFrame * out = ff_get_video_buffer ( outlink , outlink - > w , outlink - > h ) ;
if ( ! out ) {
av_frame_free ( & in ) ;
return NULL ;
}
av_frame_copy_props ( out , in ) ;
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set_processing_window ( s - > diff_mode , s - > last_in , in ,
s - > last_out , out , & x , & y , & w , & h ) ;
av_frame_free ( & s - > last_in ) ;
av_frame_free ( & s - > last_out ) ;
s - > last_in = av_frame_clone ( in ) ;
s - > last_out = av_frame_clone ( out ) ;
if ( ! s - > last_in | | ! s - > last_out | |
av_frame_make_writable ( s - > last_in ) < 0 ) {
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av_frame_free ( & in ) ;
av_frame_free ( & out ) ;
return NULL ;
}
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ff_dlog ( ctx , " %dx%d rect: (%d;%d) -> (%d,%d) [area:%dx%d] \n " ,
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w , h , x , y , x + w , y + h , in - > width , in - > height ) ;
if ( s - > set_frame ( s , out , in , x , y , w , h ) < 0 ) {
av_frame_free ( & out ) ;
return NULL ;
}
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memcpy ( out - > data [ 1 ] , s - > palette , AVPALETTE_SIZE ) ;
if ( s - > calc_mean_err )
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debug_mean_error ( s , in , out , inlink - > frame_count_out ) ;
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av_frame_free ( & in ) ;
return out ;
}
static int config_output ( AVFilterLink * outlink )
{
int ret ;
AVFilterContext * ctx = outlink - > src ;
PaletteUseContext * s = ctx - > priv ;
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ret = ff_framesync_init_dualinput ( & s - > fs , ctx ) ;
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if ( ret < 0 )
return ret ;
s - > fs . opt_repeatlast = 1 ; // only 1 frame in the palette
s - > fs . in [ 1 ] . before = s - > fs . in [ 1 ] . after = EXT_INFINITY ;
s - > fs . on_event = load_apply_palette ;
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outlink - > w = ctx - > inputs [ 0 ] - > w ;
outlink - > h = ctx - > inputs [ 0 ] - > h ;
outlink - > time_base = ctx - > inputs [ 0 ] - > time_base ;
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if ( ( ret = ff_framesync_configure ( & s - > fs ) ) < 0 )
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return ret ;
return 0 ;
}
static int config_input_palette ( AVFilterLink * inlink )
{
AVFilterContext * ctx = inlink - > dst ;
if ( inlink - > w * inlink - > h ! = AVPALETTE_COUNT ) {
av_log ( ctx , AV_LOG_ERROR ,
" Palette input must contain exactly %d pixels. "
" Specified input has %dx%d=%d pixels \n " ,
AVPALETTE_COUNT , inlink - > w , inlink - > h ,
inlink - > w * inlink - > h ) ;
return AVERROR ( EINVAL ) ;
}
return 0 ;
}
static void load_palette ( PaletteUseContext * s , const AVFrame * palette_frame )
{
int i , x , y ;
const uint32_t * p = ( const uint32_t * ) palette_frame - > data [ 0 ] ;
const int p_linesize = palette_frame - > linesize [ 0 ] > > 2 ;
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s - > transparency_index = - 1 ;
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if ( s - > new ) {
memset ( s - > palette , 0 , sizeof ( s - > palette ) ) ;
memset ( s - > map , 0 , sizeof ( s - > map ) ) ;
for ( i = 0 ; i < CACHE_SIZE ; i + + )
av_freep ( & s - > cache [ i ] . entries ) ;
memset ( s - > cache , 0 , sizeof ( s - > cache ) ) ;
}
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i = 0 ;
for ( y = 0 ; y < palette_frame - > height ; y + + ) {
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for ( x = 0 ; x < palette_frame - > width ; x + + ) {
s - > palette [ i ] = p [ x ] ;
if ( p [ x ] > > 24 < s - > trans_thresh ) {
s - > transparency_index = i ; // we are assuming at most one transparent color in palette
}
i + + ;
}
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p + = p_linesize ;
}
load_colormap ( s ) ;
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if ( ! s - > new )
s - > palette_loaded = 1 ;
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}
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static int load_apply_palette ( FFFrameSync * fs )
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{
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AVFilterContext * ctx = fs - > parent ;
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AVFilterLink * inlink = ctx - > inputs [ 0 ] ;
PaletteUseContext * s = ctx - > priv ;
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AVFrame * master , * second , * out ;
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int ret ;
// writable for error diffusal dithering
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ret = ff_framesync_dualinput_get_writable ( fs , & master , & second ) ;
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if ( ret < 0 )
return ret ;
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if ( ! master | | ! second ) {
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ret = AVERROR_BUG ;
goto error ;
}
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if ( ! s - > palette_loaded ) {
load_palette ( s , second ) ;
}
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out = apply_palette ( inlink , master ) ;
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return ff_filter_frame ( ctx - > outputs [ 0 ] , out ) ;
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error :
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av_frame_free ( & master ) ;
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av_frame_free ( & second ) ;
return ret ;
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}
# define DEFINE_SET_FRAME(color_search, name, value) \
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static int set_frame_ # # name ( PaletteUseContext * s , AVFrame * out , AVFrame * in , \
int x_start , int y_start , int w , int h ) \
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{ \
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return set_frame ( s , out , in , x_start , y_start , w , h , value , color_search ) ; \
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}
# define DEFINE_SET_FRAME_COLOR_SEARCH(color_search, color_search_macro) \
DEFINE_SET_FRAME ( color_search_macro , color_search # # _ # # none , DITHERING_NONE ) \
DEFINE_SET_FRAME ( color_search_macro , color_search # # _ # # bayer , DITHERING_BAYER ) \
DEFINE_SET_FRAME ( color_search_macro , color_search # # _ # # heckbert , DITHERING_HECKBERT ) \
DEFINE_SET_FRAME ( color_search_macro , color_search # # _ # # floyd_steinberg , DITHERING_FLOYD_STEINBERG ) \
DEFINE_SET_FRAME ( color_search_macro , color_search # # _ # # sierra2 , DITHERING_SIERRA2 ) \
DEFINE_SET_FRAME ( color_search_macro , color_search # # _ # # sierra2_4a , DITHERING_SIERRA2_4A ) \
DEFINE_SET_FRAME_COLOR_SEARCH ( nns_iterative , COLOR_SEARCH_NNS_ITERATIVE )
DEFINE_SET_FRAME_COLOR_SEARCH ( nns_recursive , COLOR_SEARCH_NNS_RECURSIVE )
DEFINE_SET_FRAME_COLOR_SEARCH ( bruteforce , COLOR_SEARCH_BRUTEFORCE )
# define DITHERING_ENTRIES(color_search) { \
set_frame_ # # color_search # # _none , \
set_frame_ # # color_search # # _bayer , \
set_frame_ # # color_search # # _heckbert , \
set_frame_ # # color_search # # _floyd_steinberg , \
set_frame_ # # color_search # # _sierra2 , \
set_frame_ # # color_search # # _sierra2_4a , \
}
static const set_frame_func set_frame_lut [ NB_COLOR_SEARCHES ] [ NB_DITHERING ] = {
DITHERING_ENTRIES ( nns_iterative ) ,
DITHERING_ENTRIES ( nns_recursive ) ,
DITHERING_ENTRIES ( bruteforce ) ,
} ;
static int dither_value ( int p )
{
const int q = p ^ ( p > > 3 ) ;
return ( p & 4 ) > > 2 | ( q & 4 ) > > 1 \
| ( p & 2 ) < < 1 | ( q & 2 ) < < 2 \
| ( p & 1 ) < < 4 | ( q & 1 ) < < 5 ;
}
static av_cold int init ( AVFilterContext * ctx )
{
PaletteUseContext * s = ctx - > priv ;
s - > set_frame = set_frame_lut [ s - > color_search_method ] [ s - > dither ] ;
if ( s - > dither = = DITHERING_BAYER ) {
int i ;
const int delta = 1 < < ( 5 - s - > bayer_scale ) ; // to avoid too much luma
for ( i = 0 ; i < FF_ARRAY_ELEMS ( s - > ordered_dither ) ; i + + )
s - > ordered_dither [ i ] = ( dither_value ( i ) > > s - > bayer_scale ) - delta ;
}
return 0 ;
}
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static int activate ( AVFilterContext * ctx )
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{
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PaletteUseContext * s = ctx - > priv ;
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return ff_framesync_activate ( & s - > fs ) ;
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}
static av_cold void uninit ( AVFilterContext * ctx )
{
int i ;
PaletteUseContext * s = ctx - > priv ;
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ff_framesync_uninit ( & s - > fs ) ;
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for ( i = 0 ; i < CACHE_SIZE ; i + + )
av_freep ( & s - > cache [ i ] . entries ) ;
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av_frame_free ( & s - > last_in ) ;
av_frame_free ( & s - > last_out ) ;
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}
static const AVFilterPad paletteuse_inputs [ ] = {
{
. name = " default " ,
. type = AVMEDIA_TYPE_VIDEO ,
} , {
. name = " palette " ,
. type = AVMEDIA_TYPE_VIDEO ,
. config_props = config_input_palette ,
} ,
{ NULL }
} ;
static const AVFilterPad paletteuse_outputs [ ] = {
{
. name = " default " ,
. type = AVMEDIA_TYPE_VIDEO ,
. config_props = config_output ,
} ,
{ NULL }
} ;
AVFilter ff_vf_paletteuse = {
. name = " paletteuse " ,
. description = NULL_IF_CONFIG_SMALL ( " Use a palette to downsample an input video stream. " ) ,
. priv_size = sizeof ( PaletteUseContext ) ,
. query_formats = query_formats ,
. init = init ,
. uninit = uninit ,
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. activate = activate ,
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. inputs = paletteuse_inputs ,
. outputs = paletteuse_outputs ,
. priv_class = & paletteuse_class ,
} ;