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/*
* Copyright ( c ) 2013 Clément Bœsch
*
* 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
*/
# include "libavutil/opt.h"
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# include "libavutil/bprint.h"
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# include "libavutil/eval.h"
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# include "libavutil/file.h"
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# include "libavutil/file_open.h"
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# include "libavutil/intreadwrite.h"
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# include "libavutil/avassert.h"
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# include "libavutil/pixdesc.h"
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# include "avfilter.h"
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# include "drawutils.h"
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# include "internal.h"
# include "video.h"
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# define R 0
# define G 1
# define B 2
# define A 3
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struct keypoint {
double x , y ;
struct keypoint * next ;
} ;
# define NB_COMP 3
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enum preset {
PRESET_NONE ,
PRESET_COLOR_NEGATIVE ,
PRESET_CROSS_PROCESS ,
PRESET_DARKER ,
PRESET_INCREASE_CONTRAST ,
PRESET_LIGHTER ,
PRESET_LINEAR_CONTRAST ,
PRESET_MEDIUM_CONTRAST ,
PRESET_NEGATIVE ,
PRESET_STRONG_CONTRAST ,
PRESET_VINTAGE ,
NB_PRESETS ,
} ;
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enum interp {
INTERP_NATURAL ,
INTERP_PCHIP ,
NB_INTERPS ,
} ;
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typedef struct CurvesContext {
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const AVClass * class ;
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int preset ;
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char * comp_points_str [ NB_COMP + 1 ] ;
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char * comp_points_str_all ;
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uint16_t * graph [ NB_COMP + 1 ] ;
int lut_size ;
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char * psfile ;
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uint8_t rgba_map [ 4 ] ;
int step ;
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char * plot_filename ;
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int saved_plot ;
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int is_16bit ;
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int depth ;
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int parsed_psfile ;
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int interp ;
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int ( * filter_slice ) ( AVFilterContext * ctx , void * arg , int jobnr , int nb_jobs ) ;
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} CurvesContext ;
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typedef struct ThreadData {
AVFrame * in , * out ;
} ThreadData ;
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# define OFFSET(x) offsetof(CurvesContext, x)
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# define FLAGS AV_OPT_FLAG_FILTERING_PARAM|AV_OPT_FLAG_VIDEO_PARAM|AV_OPT_FLAG_RUNTIME_PARAM
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static const AVOption curves_options [ ] = {
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{ " preset " , " select a color curves preset " , OFFSET ( preset ) , AV_OPT_TYPE_INT , { . i64 = PRESET_NONE } , PRESET_NONE , NB_PRESETS - 1 , FLAGS , . unit = " preset_name " } ,
{ " none " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_NONE } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " color_negative " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_COLOR_NEGATIVE } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " cross_process " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_CROSS_PROCESS } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " darker " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_DARKER } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " increase_contrast " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_INCREASE_CONTRAST } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " lighter " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_LIGHTER } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " linear_contrast " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_LINEAR_CONTRAST } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " medium_contrast " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_MEDIUM_CONTRAST } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " negative " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_NEGATIVE } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " strong_contrast " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_STRONG_CONTRAST } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
{ " vintage " , NULL , 0 , AV_OPT_TYPE_CONST , { . i64 = PRESET_VINTAGE } , 0 , 0 , FLAGS , . unit = " preset_name " } ,
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{ " master " , " set master points coordinates " , OFFSET ( comp_points_str [ NB_COMP ] ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
{ " m " , " set master points coordinates " , OFFSET ( comp_points_str [ NB_COMP ] ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
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{ " red " , " set red points coordinates " , OFFSET ( comp_points_str [ 0 ] ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
{ " r " , " set red points coordinates " , OFFSET ( comp_points_str [ 0 ] ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
{ " green " , " set green points coordinates " , OFFSET ( comp_points_str [ 1 ] ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
{ " g " , " set green points coordinates " , OFFSET ( comp_points_str [ 1 ] ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
{ " blue " , " set blue points coordinates " , OFFSET ( comp_points_str [ 2 ] ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
{ " b " , " set blue points coordinates " , OFFSET ( comp_points_str [ 2 ] ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
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{ " all " , " set points coordinates for all components " , OFFSET ( comp_points_str_all ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
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{ " psfile " , " set Photoshop curves file name " , OFFSET ( psfile ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
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{ " plot " , " save Gnuplot script of the curves in specified file " , OFFSET ( plot_filename ) , AV_OPT_TYPE_STRING , { . str = NULL } , . flags = FLAGS } ,
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{ " interp " , " specify the kind of interpolation " , OFFSET ( interp ) , AV_OPT_TYPE_INT , { . i64 = INTERP_NATURAL } , INTERP_NATURAL , NB_INTERPS - 1 , FLAGS , . unit = " interp_name " } ,
{ " natural " , " natural cubic spline " , 0 , AV_OPT_TYPE_CONST , { . i64 = INTERP_NATURAL } , 0 , 0 , FLAGS , . unit = " interp_name " } ,
{ " pchip " , " monotonically cubic interpolation " , 0 , AV_OPT_TYPE_CONST , { . i64 = INTERP_PCHIP } , 0 , 0 , FLAGS , . unit = " interp_name " } ,
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{ NULL }
} ;
AVFILTER_DEFINE_CLASS ( curves ) ;
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static const struct {
const char * r ;
const char * g ;
const char * b ;
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const char * master ;
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} curves_presets [ ] = {
[ PRESET_COLOR_NEGATIVE ] = {
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" 0.129/1 0.466/0.498 0.725/0 " ,
" 0.109/1 0.301/0.498 0.517/0 " ,
" 0.098/1 0.235/0.498 0.423/0 " ,
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} ,
[ PRESET_CROSS_PROCESS ] = {
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" 0/0 0.25/0.156 0.501/0.501 0.686/0.745 1/1 " ,
" 0/0 0.25/0.188 0.38/0.501 0.745/0.815 1/0.815 " ,
" 0/0 0.231/0.094 0.709/0.874 1/1 " ,
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} ,
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[ PRESET_DARKER ] = { . master = " 0/0 0.5/0.4 1/1 " } ,
[ PRESET_INCREASE_CONTRAST ] = { . master = " 0/0 0.149/0.066 0.831/0.905 0.905/0.98 1/1 " } ,
[ PRESET_LIGHTER ] = { . master = " 0/0 0.4/0.5 1/1 " } ,
[ PRESET_LINEAR_CONTRAST ] = { . master = " 0/0 0.305/0.286 0.694/0.713 1/1 " } ,
[ PRESET_MEDIUM_CONTRAST ] = { . master = " 0/0 0.286/0.219 0.639/0.643 1/1 " } ,
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[ PRESET_NEGATIVE ] = { . master = " 0/1 1/0 " } ,
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[ PRESET_STRONG_CONTRAST ] = { . master = " 0/0 0.301/0.196 0.592/0.6 0.686/0.737 1/1 " } ,
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[ PRESET_VINTAGE ] = {
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" 0/0.11 0.42/0.51 1/0.95 " ,
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" 0/0 0.50/0.48 1/1 " ,
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" 0/0.22 0.49/0.44 1/0.8 " ,
}
} ;
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static struct keypoint * make_point ( double x , double y , struct keypoint * next )
{
struct keypoint * point = av_mallocz ( sizeof ( * point ) ) ;
if ( ! point )
return NULL ;
point - > x = x ;
point - > y = y ;
point - > next = next ;
return point ;
}
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static int parse_points_str ( AVFilterContext * ctx , struct keypoint * * points , const char * s ,
int lut_size )
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{
char * p = ( char * ) s ; // strtod won't alter the string
struct keypoint * last = NULL ;
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const int scale = lut_size - 1 ;
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/* construct a linked list based on the key points string */
while ( p & & * p ) {
struct keypoint * point = make_point ( 0 , 0 , NULL ) ;
if ( ! point )
return AVERROR ( ENOMEM ) ;
point - > x = av_strtod ( p , & p ) ; if ( p & & * p ) p + + ;
point - > y = av_strtod ( p , & p ) ; if ( p & & * p ) p + + ;
if ( point - > x < 0 | | point - > x > 1 | | point - > y < 0 | | point - > y > 1 ) {
av_log ( ctx , AV_LOG_ERROR , " Invalid key point coordinates (%f;%f), "
" x and y must be in the [0;1] range. \n " , point - > x , point - > y ) ;
return AVERROR ( EINVAL ) ;
}
if ( ! * points )
* points = point ;
if ( last ) {
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if ( ( int ) ( last - > x * scale ) > = ( int ) ( point - > x * scale ) ) {
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av_log ( ctx , AV_LOG_ERROR , " Key point coordinates (%f;%f) "
" and (%f;%f) are too close from each other or not "
" strictly increasing on the x-axis \n " ,
last - > x , last - > y , point - > x , point - > y ) ;
return AVERROR ( EINVAL ) ;
}
last - > next = point ;
}
last = point ;
}
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if ( * points & & ! ( * points ) - > next ) {
av_log ( ctx , AV_LOG_WARNING , " Only one point (at (%f;%f)) is defined, "
" this is unlikely to behave as you expect. You probably want "
" at least 2 points. " ,
( * points ) - > x , ( * points ) - > y ) ;
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}
return 0 ;
}
static int get_nb_points ( const struct keypoint * d )
{
int n = 0 ;
while ( d ) {
n + + ;
d = d - > next ;
}
return n ;
}
/**
* Natural cubic spline interpolation
* Finding curves using Cubic Splines notes by Steven Rauch and John Stockie .
* @ see http : //people.math.sfu.ca/~stockie/teaching/macm316/notes/splines.pdf
*/
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# define CLIP(v) (nbits == 8 ? av_clip_uint8(v) : av_clip_uintp2_c(v, nbits))
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static inline int interpolate ( void * log_ctx , uint16_t * y ,
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const struct keypoint * points , int nbits )
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{
int i , ret = 0 ;
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const struct keypoint * point = points ;
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double xprev = 0 ;
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const int lut_size = 1 < < nbits ;
const int scale = lut_size - 1 ;
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double ( * matrix ) [ 3 ] ;
double * h , * r ;
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const int n = get_nb_points ( points ) ; // number of splines
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if ( n = = 0 ) {
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for ( i = 0 ; i < lut_size ; i + + )
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y [ i ] = i ;
return 0 ;
}
if ( n = = 1 ) {
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for ( i = 0 ; i < lut_size ; i + + )
y [ i ] = CLIP ( point - > y * scale ) ;
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return 0 ;
}
matrix = av_calloc ( n , sizeof ( * matrix ) ) ;
h = av_malloc ( ( n - 1 ) * sizeof ( * h ) ) ;
r = av_calloc ( n , sizeof ( * r ) ) ;
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if ( ! matrix | | ! h | | ! r ) {
ret = AVERROR ( ENOMEM ) ;
goto end ;
}
/* h(i) = x(i+1) - x(i) */
i = - 1 ;
for ( point = points ; point ; point = point - > next ) {
if ( i ! = - 1 )
h [ i ] = point - > x - xprev ;
xprev = point - > x ;
i + + ;
}
/* right-side of the polynomials, will be modified to contains the solution */
point = points ;
for ( i = 1 ; i < n - 1 ; i + + ) {
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const double yp = point - > y ;
const double yc = point - > next - > y ;
const double yn = point - > next - > next - > y ;
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r [ i ] = 6 * ( ( yn - yc ) / h [ i ] - ( yc - yp ) / h [ i - 1 ] ) ;
point = point - > next ;
}
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# define BD 0 /* sub diagonal (below main) */
# define MD 1 /* main diagonal (center) */
# define AD 2 /* sup diagonal (above main) */
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/* left side of the polynomials into a tridiagonal matrix. */
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matrix [ 0 ] [ MD ] = matrix [ n - 1 ] [ MD ] = 1 ;
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for ( i = 1 ; i < n - 1 ; i + + ) {
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matrix [ i ] [ BD ] = h [ i - 1 ] ;
matrix [ i ] [ MD ] = 2 * ( h [ i - 1 ] + h [ i ] ) ;
matrix [ i ] [ AD ] = h [ i ] ;
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}
/* tridiagonal solving of the linear system */
for ( i = 1 ; i < n ; i + + ) {
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const double den = matrix [ i ] [ MD ] - matrix [ i ] [ BD ] * matrix [ i - 1 ] [ AD ] ;
const double k = den ? 1. / den : 1. ;
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matrix [ i ] [ AD ] * = k ;
r [ i ] = ( r [ i ] - matrix [ i ] [ BD ] * r [ i - 1 ] ) * k ;
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}
for ( i = n - 2 ; i > = 0 ; i - - )
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r [ i ] = r [ i ] - matrix [ i ] [ AD ] * r [ i + 1 ] ;
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point = points ;
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/* left padding */
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for ( i = 0 ; i < ( int ) ( point - > x * scale ) ; i + + )
y [ i ] = CLIP ( point - > y * scale ) ;
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/* compute the graph with x=[x0..xN] */
i = 0 ;
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av_assert0 ( point - > next ) ; // always at least 2 key points
while ( point - > next ) {
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const double yc = point - > y ;
const double yn = point - > next - > y ;
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const double a = yc ;
const double b = ( yn - yc ) / h [ i ] - h [ i ] * r [ i ] / 2. - h [ i ] * ( r [ i + 1 ] - r [ i ] ) / 6. ;
const double c = r [ i ] / 2. ;
const double d = ( r [ i + 1 ] - r [ i ] ) / ( 6. * h [ i ] ) ;
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int x ;
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const int x_start = point - > x * scale ;
const int x_end = point - > next - > x * scale ;
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av_assert0 ( x_start > = 0 & & x_start < lut_size & &
x_end > = 0 & & x_end < lut_size ) ;
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for ( x = x_start ; x < = x_end ; x + + ) {
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const double xx = ( x - x_start ) * 1. / scale ;
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const double yy = a + b * xx + c * xx * xx + d * xx * xx * xx ;
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y [ x ] = CLIP ( yy * scale ) ;
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av_log ( log_ctx , AV_LOG_DEBUG , " f(%f)=%f -> y[%d]=%d \n " , xx , yy , x , y [ x ] ) ;
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}
point = point - > next ;
i + + ;
}
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/* right padding */
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for ( i = ( int ) ( point - > x * scale ) ; i < lut_size ; i + + )
y [ i ] = CLIP ( point - > y * scale ) ;
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end :
av_free ( matrix ) ;
av_free ( h ) ;
av_free ( r ) ;
return ret ;
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}
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# define SIGN(x) (x > 0.0 ? 1 : x < 0.0 ? -1 : 0)
/**
* Evalaute the derivative of an edge endpoint
*
* @ param h0 input interval of the interval closest to the edge
* @ param h1 input interval of the interval next to the closest
* @ param m0 linear slope of the interval closest to the edge
* @ param m1 linear slope of the intervalnext to the closest
* @ return edge endpoint derivative
*
* Based on scipy . interpolate . _edge_case ( )
* https : //github.com/scipy/scipy/blob/2e5883ef7af4f5ed4a5b80a1759a45e43163bf3f/scipy/interpolate/_cubic.py#L239
* which is a python implementation of the special case endpoints , as suggested in
* Cleve Moler , Numerical Computing with MATLAB , Chap 3.6 ( pchiptx . m )
*/
static double pchip_edge_case ( double h0 , double h1 , double m0 , double m1 )
{
int mask , mask2 ;
double d ;
d = ( ( 2 * h0 + h1 ) * m0 - h0 * m1 ) / ( h0 + h1 ) ;
mask = SIGN ( d ) ! = SIGN ( m0 ) ;
mask2 = ( SIGN ( m0 ) ! = SIGN ( m1 ) ) & & ( fabs ( d ) > 3. * fabs ( m0 ) ) ;
if ( mask ) d = 0.0 ;
else if ( mask2 ) d = 3.0 * m0 ;
return d ;
}
/**
* Evalaute the piecewise polynomial derivatives at endpoints
*
* @ param n input interval of the interval closest to the edge
* @ param hk input intervals
* @ param mk linear slopes over intervals
* @ param dk endpoint derivatives ( output )
* @ return 0 success
*
* Based on scipy . interpolate . _find_derivatives ( )
* https : //github.com/scipy/scipy/blob/2e5883ef7af4f5ed4a5b80a1759a45e43163bf3f/scipy/interpolate/_cubic.py#L254
*/
static int pchip_find_derivatives ( const int n , const double * hk , const double * mk , double * dk )
{
int ret = 0 ;
const int m = n - 1 ;
int8_t * smk ;
smk = av_malloc ( n ) ;
if ( ! smk ) {
ret = AVERROR ( ENOMEM ) ;
goto end ;
}
/* smk = sgn(mk) */
for ( int i = 0 ; i < n ; i + + ) smk [ i ] = SIGN ( mk [ i ] ) ;
/* check the strict monotonicity */
for ( int i = 0 ; i < m ; i + + ) {
int8_t condition = ( smk [ i + 1 ] ! = smk [ i ] ) | | ( mk [ i + 1 ] = = 0 ) | | ( mk [ i ] = = 0 ) ;
if ( condition ) {
dk [ i + 1 ] = 0.0 ;
} else {
double w1 = 2 * hk [ i + 1 ] + hk [ i ] ;
double w2 = hk [ i + 1 ] + 2 * hk [ i ] ;
dk [ i + 1 ] = ( w1 + w2 ) / ( w1 / mk [ i ] + w2 / mk [ i + 1 ] ) ;
}
}
dk [ 0 ] = pchip_edge_case ( hk [ 0 ] , hk [ 1 ] , mk [ 0 ] , mk [ 1 ] ) ;
dk [ n ] = pchip_edge_case ( hk [ n - 1 ] , hk [ n - 2 ] , mk [ n - 1 ] , mk [ n - 2 ] ) ;
end :
av_free ( smk ) ;
return ret ;
}
/**
* Evalaute half of the cubic hermite interpolation expression , wrt one interval endpoint
*
* @ param x normalized input value at the endpoint
* @ param f output value at the endpoint
* @ param d derivative at the endpoint : normalized to the interval , and properly sign adjusted
* @ return half of the interpolated value
*/
static inline double interp_cubic_hermite_half ( const double x , const double f ,
const double d )
{
double x2 = x * x , x3 = x2 * x ;
return f * ( 3.0 * x2 - 2.0 * x3 ) + d * ( x3 - x2 ) ;
}
/**
* Prepare the lookup table by piecewise monotonic cubic interpolation ( PCHIP )
*
* @ param log_ctx for logging
* @ param y output lookup table ( output )
* @ param points user - defined control points / endpoints
* @ param nbits bitdepth
* @ return 0 success
*
* References :
* [ 1 ] F . N . Fritsch and J . Butland , A method for constructing local monotone piecewise
* cubic interpolants , SIAM J . Sci . Comput . , 5 ( 2 ) , 300 - 304 ( 1984 ) . DOI : 10.1137 / 0905021.
* [ 2 ] scipy . interpolate : https : //docs.scipy.org/doc/scipy/reference/generated/scipy.interpolate.PchipInterpolator.html
*/
static inline int interpolate_pchip ( void * log_ctx , uint16_t * y ,
const struct keypoint * points , int nbits )
{
const struct keypoint * point = points ;
const int lut_size = 1 < < nbits ;
const int n = get_nb_points ( points ) ; // number of endpoints
double * xi , * fi , * di , * hi , * mi ;
const int scale = lut_size - 1 ; // white value
uint16_t x ; /* input index/value */
int ret = 0 ;
/* no change for n = 0 or 1 */
if ( n = = 0 ) {
/* no points, no change */
for ( int i = 0 ; i < lut_size ; i + + ) y [ i ] = i ;
return 0 ;
}
if ( n = = 1 ) {
/* 1 point - 1 color everywhere */
const uint16_t yval = CLIP ( point - > y * scale ) ;
for ( int i = 0 ; i < lut_size ; i + + ) y [ i ] = yval ;
return 0 ;
}
xi = av_calloc ( 3 * n + 2 * ( n - 1 ) , sizeof ( double ) ) ; /* output values at interval endpoints */
if ( ! xi ) {
ret = AVERROR ( ENOMEM ) ;
goto end ;
}
fi = xi + n ; /* output values at inteval endpoints */
di = fi + n ; /* output slope wrt normalized input at interval endpoints */
hi = di + n ; /* interval widths */
mi = hi + n - 1 ; /* linear slope over intervals */
/* scale endpoints and store them in a contiguous memory block */
for ( int i = 0 ; i < n ; i + + ) {
xi [ i ] = point - > x * scale ;
fi [ i ] = point - > y * scale ;
point = point - > next ;
}
/* h(i) = x(i+1) - x(i); mi(i) = (f(i+1)-f(i))/h(i) */
for ( int i = 0 ; i < n - 1 ; i + + ) {
const double val = ( xi [ i + 1 ] - xi [ i ] ) ;
hi [ i ] = val ;
mi [ i ] = ( fi [ i + 1 ] - fi [ i ] ) / val ;
}
if ( n = = 2 ) {
/* edge case, use linear interpolation */
const double m = mi [ 0 ] , b = fi [ 0 ] - xi [ 0 ] * m ;
for ( int i = 0 ; i < lut_size ; i + + ) y [ i ] = CLIP ( i * m + b ) ;
goto end ;
}
/* compute the derivatives at the endpoints*/
ret = pchip_find_derivatives ( n - 1 , hi , mi , di ) ;
if ( ret )
goto end ;
/* interpolate/extrapolate */
x = 0 ;
if ( xi [ 0 ] > 0 ) {
/* below first endpoint, use the first endpoint value*/
const double xi0 = xi [ 0 ] ;
const double yi0 = fi [ 0 ] ;
const uint16_t yval = CLIP ( yi0 ) ;
for ( ; x < xi0 ; x + + ) {
y [ x ] = yval ;
av_log ( log_ctx , AV_LOG_TRACE , " f(%f)=%f -> y[%d]=%d \n " , xi0 , yi0 , x , y [ x ] ) ;
}
av_log ( log_ctx , AV_LOG_DEBUG , " Interval -1: [0, %d] -> %d \n " , x - 1 , yval ) ;
}
/* for each interval */
for ( int i = 0 , x0 = x ; i < n - 1 ; i + + , x0 = x ) {
const double xi0 = xi [ i ] ; /* start-of-interval input value */
const double xi1 = xi [ i + 1 ] ; /* end-of-interval input value */
const double h = hi [ i ] ; /* interval width */
const double f0 = fi [ i ] ; /* start-of-interval output value */
const double f1 = fi [ i + 1 ] ; /* end-of-interval output value */
const double d0 = di [ i ] ; /* start-of-interval derivative */
const double d1 = di [ i + 1 ] ; /* end-of-interval derivative */
/* fill the lut over the interval */
for ( ; x < xi1 ; x + + ) { /* safe not to check j < lut_size */
const double xx = ( x - xi0 ) / h ; /* normalize input */
const double yy = interp_cubic_hermite_half ( 1 - xx , f0 , - h * d0 )
+ interp_cubic_hermite_half ( xx , f1 , h * d1 ) ;
y [ x ] = CLIP ( yy ) ;
av_log ( log_ctx , AV_LOG_TRACE , " f(%f)=%f -> y[%d]=%d \n " , xx , yy , x , y [ x ] ) ;
}
if ( x > x0 )
av_log ( log_ctx , AV_LOG_DEBUG , " Interval %d: [%d, %d] -> [%d, %d] \n " ,
i , x0 , x - 1 , y [ x0 ] , y [ x - 1 ] ) ;
else
av_log ( log_ctx , AV_LOG_DEBUG , " Interval %d: empty \n " , i ) ;
}
if ( x & & x < lut_size ) {
/* above the last endpoint, use the last endpoint value*/
const double xi1 = xi [ n - 1 ] ;
const double yi1 = fi [ n - 1 ] ;
const uint16_t yval = CLIP ( yi1 ) ;
av_log ( log_ctx , AV_LOG_DEBUG , " Interval %d: [%d, %d] -> %d \n " ,
n - 1 , x , lut_size - 1 , yval ) ;
for ( ; x & & x < lut_size ; x + + ) { /* loop until int overflow */
y [ x ] = yval ;
av_log ( log_ctx , AV_LOG_TRACE , " f(%f)=%f -> y[%d]=%d \n " , xi1 , yi1 , x , yval ) ;
}
}
end :
av_free ( xi ) ;
return ret ;
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}
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static int parse_psfile ( AVFilterContext * ctx , const char * fname )
{
CurvesContext * curves = ctx - > priv ;
uint8_t * buf ;
size_t size ;
int i , ret , av_unused ( version ) , nb_curves ;
AVBPrint ptstr ;
static const int comp_ids [ ] = { 3 , 0 , 1 , 2 } ;
av_bprint_init ( & ptstr , 0 , AV_BPRINT_SIZE_AUTOMATIC ) ;
ret = av_file_map ( fname , & buf , & size , 0 , NULL ) ;
if ( ret < 0 )
return ret ;
# define READ16(dst) do { \
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if ( size < 2 ) { \
ret = AVERROR_INVALIDDATA ; \
goto end ; \
} \
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dst = AV_RB16 ( buf ) ; \
buf + = 2 ; \
size - = 2 ; \
} while ( 0 )
READ16 ( version ) ;
READ16 ( nb_curves ) ;
for ( i = 0 ; i < FFMIN ( nb_curves , FF_ARRAY_ELEMS ( comp_ids ) ) ; i + + ) {
int nb_points , n ;
av_bprint_clear ( & ptstr ) ;
READ16 ( nb_points ) ;
for ( n = 0 ; n < nb_points ; n + + ) {
int y , x ;
READ16 ( y ) ;
READ16 ( x ) ;
av_bprintf ( & ptstr , " %f/%f " , x / 255. , y / 255. ) ;
}
if ( * ptstr . str ) {
char * * pts = & curves - > comp_points_str [ comp_ids [ i ] ] ;
if ( ! * pts ) {
* pts = av_strdup ( ptstr . str ) ;
av_log ( ctx , AV_LOG_DEBUG , " curves %d (intid=%d) [%d points]: [%s] \n " ,
i , comp_ids [ i ] , nb_points , * pts ) ;
if ( ! * pts ) {
ret = AVERROR ( ENOMEM ) ;
goto end ;
}
}
}
}
end :
av_bprint_finalize ( & ptstr , NULL ) ;
av_file_unmap ( buf , size ) ;
return ret ;
}
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static int dump_curves ( const char * fname , uint16_t * graph [ NB_COMP + 1 ] ,
struct keypoint * comp_points [ NB_COMP + 1 ] ,
int lut_size )
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{
int i ;
AVBPrint buf ;
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const double scale = 1. / ( lut_size - 1 ) ;
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static const char * const colors [ ] = { " red " , " green " , " blue " , " #404040 " , } ;
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FILE * f = avpriv_fopen_utf8 ( fname , " w " ) ;
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av_assert0 ( FF_ARRAY_ELEMS ( colors ) = = NB_COMP + 1 ) ;
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 , " set xtics 0.1 \n " ) ;
av_bprintf ( & buf , " set ytics 0.1 \n " ) ;
av_bprintf ( & buf , " set size square \n " ) ;
av_bprintf ( & buf , " set grid \n " ) ;
for ( i = 0 ; i < FF_ARRAY_ELEMS ( colors ) ; i + + ) {
av_bprintf ( & buf , " %s'-' using 1:2 with lines lc '%s' title '' " ,
i ? " , " : " plot " , colors [ i ] ) ;
if ( comp_points [ i ] )
av_bprintf ( & buf , " , '-' using 1:2 with points pointtype 3 lc '%s' title '' " ,
colors [ i ] ) ;
}
av_bprintf ( & buf , " \n " ) ;
for ( i = 0 ; i < FF_ARRAY_ELEMS ( colors ) ; i + + ) {
int x ;
/* plot generated values */
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for ( x = 0 ; x < lut_size ; x + + )
av_bprintf ( & buf , " %f %f \n " , x * scale , graph [ i ] [ x ] * scale ) ;
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av_bprintf ( & buf , " e \n " ) ;
/* plot user knots */
if ( comp_points [ i ] ) {
const struct keypoint * point = comp_points [ i ] ;
while ( point ) {
av_bprintf ( & buf , " %f %f \n " , point - > x , point - > y ) ;
point = point - > next ;
}
av_bprintf ( & buf , " e \n " ) ;
}
}
fwrite ( buf . str , 1 , buf . len , f ) ;
fclose ( f ) ;
av_bprint_finalize ( & buf , NULL ) ;
return 0 ;
}
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static av_cold int curves_init ( AVFilterContext * ctx )
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{
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int i , ret ;
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CurvesContext * curves = ctx - > priv ;
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char * * pts = curves - > comp_points_str ;
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const char * allp = curves - > comp_points_str_all ;
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//if (!allp && curves->preset != PRESET_NONE && curves_presets[curves->preset].all)
// allp = curves_presets[curves->preset].all;
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if ( allp ) {
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for ( i = 0 ; i < NB_COMP ; i + + ) {
if ( ! pts [ i ] )
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pts [ i ] = av_strdup ( allp ) ;
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if ( ! pts [ i ] )
return AVERROR ( ENOMEM ) ;
}
}
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if ( curves - > psfile & & ! curves - > parsed_psfile ) {
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ret = parse_psfile ( ctx , curves - > psfile ) ;
if ( ret < 0 )
return ret ;
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curves - > parsed_psfile = 1 ;
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}
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if ( curves - > preset ! = PRESET_NONE ) {
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# define SET_COMP_IF_NOT_SET(n, name) do { \
if ( ! pts [ n ] & & curves_presets [ curves - > preset ] . name ) { \
pts [ n ] = av_strdup ( curves_presets [ curves - > preset ] . name ) ; \
if ( ! pts [ n ] ) \
return AVERROR ( ENOMEM ) ; \
} \
} while ( 0 )
SET_COMP_IF_NOT_SET ( 0 , r ) ;
SET_COMP_IF_NOT_SET ( 1 , g ) ;
SET_COMP_IF_NOT_SET ( 2 , b ) ;
SET_COMP_IF_NOT_SET ( 3 , master ) ;
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curves - > preset = PRESET_NONE ;
2013-03-25 03:19:17 +03:00
}
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return 0 ;
}
2018-09-24 16:57:10 +02:00
static int filter_slice_packed ( AVFilterContext * ctx , void * arg , int jobnr , int nb_jobs )
{
int x , y ;
const CurvesContext * curves = ctx - > priv ;
const ThreadData * td = arg ;
const AVFrame * in = td - > in ;
const AVFrame * out = td - > out ;
const int direct = out = = in ;
const int step = curves - > step ;
const uint8_t r = curves - > rgba_map [ R ] ;
const uint8_t g = curves - > rgba_map [ G ] ;
const uint8_t b = curves - > rgba_map [ B ] ;
const uint8_t a = curves - > rgba_map [ A ] ;
const int slice_start = ( in - > height * jobnr ) / nb_jobs ;
const int slice_end = ( in - > height * ( jobnr + 1 ) ) / nb_jobs ;
if ( curves - > is_16bit ) {
for ( y = slice_start ; y < slice_end ; y + + ) {
uint16_t * dstp = ( uint16_t * ) ( out - > data [ 0 ] + y * out - > linesize [ 0 ] ) ;
const uint16_t * srcp = ( const uint16_t * ) ( in - > data [ 0 ] + y * in - > linesize [ 0 ] ) ;
for ( x = 0 ; x < in - > width * step ; x + = step ) {
dstp [ x + r ] = curves - > graph [ R ] [ srcp [ x + r ] ] ;
dstp [ x + g ] = curves - > graph [ G ] [ srcp [ x + g ] ] ;
dstp [ x + b ] = curves - > graph [ B ] [ srcp [ x + b ] ] ;
if ( ! direct & & step = = 4 )
dstp [ x + a ] = srcp [ x + a ] ;
}
}
} else {
uint8_t * dst = out - > data [ 0 ] + slice_start * out - > linesize [ 0 ] ;
const uint8_t * src = in - > data [ 0 ] + slice_start * in - > linesize [ 0 ] ;
for ( y = slice_start ; y < slice_end ; y + + ) {
for ( x = 0 ; x < in - > width * step ; x + = step ) {
dst [ x + r ] = curves - > graph [ R ] [ src [ x + r ] ] ;
dst [ x + g ] = curves - > graph [ G ] [ src [ x + g ] ] ;
dst [ x + b ] = curves - > graph [ B ] [ src [ x + b ] ] ;
if ( ! direct & & step = = 4 )
dst [ x + a ] = src [ x + a ] ;
}
dst + = out - > linesize [ 0 ] ;
src + = in - > linesize [ 0 ] ;
}
}
return 0 ;
}
static int filter_slice_planar ( AVFilterContext * ctx , void * arg , int jobnr , int nb_jobs )
{
int x , y ;
const CurvesContext * curves = ctx - > priv ;
const ThreadData * td = arg ;
const AVFrame * in = td - > in ;
const AVFrame * out = td - > out ;
const int direct = out = = in ;
const int step = curves - > step ;
const uint8_t r = curves - > rgba_map [ R ] ;
const uint8_t g = curves - > rgba_map [ G ] ;
const uint8_t b = curves - > rgba_map [ B ] ;
const uint8_t a = curves - > rgba_map [ A ] ;
const int slice_start = ( in - > height * jobnr ) / nb_jobs ;
const int slice_end = ( in - > height * ( jobnr + 1 ) ) / nb_jobs ;
if ( curves - > is_16bit ) {
for ( y = slice_start ; y < slice_end ; y + + ) {
uint16_t * dstrp = ( uint16_t * ) ( out - > data [ r ] + y * out - > linesize [ r ] ) ;
uint16_t * dstgp = ( uint16_t * ) ( out - > data [ g ] + y * out - > linesize [ g ] ) ;
uint16_t * dstbp = ( uint16_t * ) ( out - > data [ b ] + y * out - > linesize [ b ] ) ;
uint16_t * dstap = ( uint16_t * ) ( out - > data [ a ] + y * out - > linesize [ a ] ) ;
const uint16_t * srcrp = ( const uint16_t * ) ( in - > data [ r ] + y * in - > linesize [ r ] ) ;
const uint16_t * srcgp = ( const uint16_t * ) ( in - > data [ g ] + y * in - > linesize [ g ] ) ;
const uint16_t * srcbp = ( const uint16_t * ) ( in - > data [ b ] + y * in - > linesize [ b ] ) ;
const uint16_t * srcap = ( const uint16_t * ) ( in - > data [ a ] + y * in - > linesize [ a ] ) ;
for ( x = 0 ; x < in - > width ; x + + ) {
dstrp [ x ] = curves - > graph [ R ] [ srcrp [ x ] ] ;
dstgp [ x ] = curves - > graph [ G ] [ srcgp [ x ] ] ;
dstbp [ x ] = curves - > graph [ B ] [ srcbp [ x ] ] ;
if ( ! direct & & step = = 4 )
dstap [ x ] = srcap [ x ] ;
}
}
} else {
uint8_t * dstr = out - > data [ r ] + slice_start * out - > linesize [ r ] ;
uint8_t * dstg = out - > data [ g ] + slice_start * out - > linesize [ g ] ;
uint8_t * dstb = out - > data [ b ] + slice_start * out - > linesize [ b ] ;
uint8_t * dsta = out - > data [ a ] + slice_start * out - > linesize [ a ] ;
const uint8_t * srcr = in - > data [ r ] + slice_start * in - > linesize [ r ] ;
const uint8_t * srcg = in - > data [ g ] + slice_start * in - > linesize [ g ] ;
const uint8_t * srcb = in - > data [ b ] + slice_start * in - > linesize [ b ] ;
const uint8_t * srca = in - > data [ a ] + slice_start * in - > linesize [ a ] ;
for ( y = slice_start ; y < slice_end ; y + + ) {
for ( x = 0 ; x < in - > width ; x + + ) {
dstr [ x ] = curves - > graph [ R ] [ srcr [ x ] ] ;
dstg [ x ] = curves - > graph [ G ] [ srcg [ x ] ] ;
dstb [ x ] = curves - > graph [ B ] [ srcb [ x ] ] ;
if ( ! direct & & step = = 4 )
dsta [ x ] = srca [ x ] ;
}
dstr + = out - > linesize [ r ] ;
dstg + = out - > linesize [ g ] ;
dstb + = out - > linesize [ b ] ;
dsta + = out - > linesize [ a ] ;
srcr + = in - > linesize [ r ] ;
srcg + = in - > linesize [ g ] ;
srcb + = in - > linesize [ b ] ;
srca + = in - > linesize [ a ] ;
}
}
return 0 ;
}
2016-07-24 11:13:29 +02:00
static int config_input ( AVFilterLink * inlink )
{
int i , j , ret ;
AVFilterContext * ctx = inlink - > dst ;
CurvesContext * curves = ctx - > priv ;
const AVPixFmtDescriptor * desc = av_pix_fmt_desc_get ( inlink - > format ) ;
char * * pts = curves - > comp_points_str ;
struct keypoint * comp_points [ NB_COMP + 1 ] = { 0 } ;
ff_fill_rgba_map ( curves - > rgba_map , inlink - > format ) ;
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curves - > is_16bit = desc - > comp [ 0 ] . depth > 8 ;
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curves - > depth = desc - > comp [ 0 ] . depth ;
curves - > lut_size = 1 < < curves - > depth ;
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curves - > step = av_get_padded_bits_per_pixel ( desc ) > > ( 3 + curves - > is_16bit ) ;
2018-09-24 16:57:10 +02:00
curves - > filter_slice = desc - > flags & AV_PIX_FMT_FLAG_PLANAR ? filter_slice_planar : filter_slice_packed ;
2016-07-24 11:13:29 +02:00
2013-04-15 11:53:54 +03:00
for ( i = 0 ; i < NB_COMP + 1 ; i + + ) {
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if ( ! curves - > graph [ i ] )
2021-09-14 21:31:53 +02:00
curves - > graph [ i ] = av_calloc ( curves - > lut_size , sizeof ( * curves - > graph [ 0 ] ) ) ;
2016-07-22 22:20:53 +02:00
if ( ! curves - > graph [ i ] )
return AVERROR ( ENOMEM ) ;
2016-07-23 11:56:56 +02:00
ret = parse_points_str ( ctx , comp_points + i , curves - > comp_points_str [ i ] , curves - > lut_size ) ;
2013-03-04 18:06:14 +03:00
if ( ret < 0 )
return ret ;
2022-10-02 04:12:59 +02:00
if ( curves - > interp = = INTERP_PCHIP )
ret = interpolate_pchip ( ctx , curves - > graph [ i ] , comp_points [ i ] , curves - > depth ) ;
else
ret = interpolate ( ctx , curves - > graph [ i ] , comp_points [ i ] , curves - > depth ) ;
2013-03-04 18:06:14 +03:00
if ( ret < 0 )
return ret ;
}
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if ( pts [ NB_COMP ] ) {
for ( i = 0 ; i < NB_COMP ; i + + )
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for ( j = 0 ; j < curves - > lut_size ; j + + )
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curves - > graph [ i ] [ j ] = curves - > graph [ NB_COMP ] [ curves - > graph [ i ] [ j ] ] ;
}
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if ( av_log_get_level ( ) > = AV_LOG_VERBOSE ) {
for ( i = 0 ; i < NB_COMP ; i + + ) {
2016-07-22 22:00:37 +02:00
const struct keypoint * point = comp_points [ i ] ;
2013-03-04 18:06:14 +03:00
av_log ( ctx , AV_LOG_VERBOSE , " #%d points: " , i ) ;
while ( point ) {
av_log ( ctx , AV_LOG_VERBOSE , " (%f;%f) " , point - > x , point - > y ) ;
point = point - > next ;
}
}
}
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if ( curves - > plot_filename & & ! curves - > saved_plot ) {
2016-07-23 11:56:56 +02:00
dump_curves ( curves - > plot_filename , curves - > graph , comp_points , curves - > lut_size ) ;
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curves - > saved_plot = 1 ;
}
2016-07-22 01:17:44 +02:00
2013-04-15 19:04:24 +03:00
for ( i = 0 ; i < NB_COMP + 1 ; i + + ) {
2013-03-04 18:06:14 +03:00
struct keypoint * point = comp_points [ i ] ;
while ( point ) {
struct keypoint * next = point - > next ;
av_free ( point ) ;
point = next ;
}
}
return 0 ;
}
2014-02-13 16:34:58 +03:00
static int filter_frame ( AVFilterLink * inlink , AVFrame * in )
{
AVFilterContext * ctx = inlink - > dst ;
2018-09-24 16:57:10 +02:00
CurvesContext * curves = ctx - > priv ;
2014-02-13 16:34:58 +03:00
AVFilterLink * outlink = ctx - > outputs [ 0 ] ;
AVFrame * out ;
ThreadData td ;
2013-03-04 18:06:14 +03:00
if ( av_frame_is_writable ( in ) ) {
out = in ;
} else {
out = ff_get_video_buffer ( outlink , outlink - > w , outlink - > h ) ;
if ( ! out ) {
av_frame_free ( & in ) ;
return AVERROR ( ENOMEM ) ;
}
av_frame_copy_props ( out , in ) ;
}
2014-02-13 16:34:58 +03:00
td . in = in ;
td . out = out ;
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ff_filter_execute ( ctx , curves - > filter_slice , & td , NULL ,
FFMIN ( outlink - > h , ff_filter_get_nb_threads ( ctx ) ) ) ;
2013-03-04 18:06:14 +03:00
2014-02-13 16:34:58 +03:00
if ( out ! = in )
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av_frame_free ( & in ) ;
return ff_filter_frame ( outlink , out ) ;
}
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static int process_command ( AVFilterContext * ctx , const char * cmd , const char * args ,
char * res , int res_len , int flags )
{
CurvesContext * curves = ctx - > priv ;
int ret ;
if ( ! strcmp ( cmd , " plot " ) ) {
curves - > saved_plot = 0 ;
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} else if ( ! strcmp ( cmd , " all " ) | | ! strcmp ( cmd , " preset " ) | | ! strcmp ( cmd , " psfile " ) | | ! strcmp ( cmd , " interp " ) ) {
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if ( ! strcmp ( cmd , " psfile " ) )
curves - > parsed_psfile = 0 ;
av_freep ( & curves - > comp_points_str_all ) ;
av_freep ( & curves - > comp_points_str [ 0 ] ) ;
av_freep ( & curves - > comp_points_str [ 1 ] ) ;
av_freep ( & curves - > comp_points_str [ 2 ] ) ;
av_freep ( & curves - > comp_points_str [ NB_COMP ] ) ;
} else if ( ! strcmp ( cmd , " red " ) | | ! strcmp ( cmd , " r " ) ) {
av_freep ( & curves - > comp_points_str [ 0 ] ) ;
} else if ( ! strcmp ( cmd , " green " ) | | ! strcmp ( cmd , " g " ) ) {
av_freep ( & curves - > comp_points_str [ 1 ] ) ;
} else if ( ! strcmp ( cmd , " blue " ) | | ! strcmp ( cmd , " b " ) ) {
av_freep ( & curves - > comp_points_str [ 2 ] ) ;
} else if ( ! strcmp ( cmd , " master " ) | | ! strcmp ( cmd , " m " ) ) {
av_freep ( & curves - > comp_points_str [ NB_COMP ] ) ;
}
ret = ff_filter_process_command ( ctx , cmd , args , res , res_len , flags ) ;
if ( ret < 0 )
return ret ;
ret = curves_init ( ctx ) ;
if ( ret < 0 )
return ret ;
return config_input ( ctx - > inputs [ 0 ] ) ;
}
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static av_cold void curves_uninit ( AVFilterContext * ctx )
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{
int i ;
CurvesContext * curves = ctx - > priv ;
for ( i = 0 ; i < NB_COMP + 1 ; i + + )
av_freep ( & curves - > graph [ i ] ) ;
}
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static const AVFilterPad curves_inputs [ ] = {
{
. name = " default " ,
. type = AVMEDIA_TYPE_VIDEO ,
. filter_frame = filter_frame ,
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. config_props = config_input ,
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} ,
} ;
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const AVFilter ff_vf_curves = {
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. name = " curves " ,
. description = NULL_IF_CONFIG_SMALL ( " Adjust components curves. " ) ,
. priv_size = sizeof ( CurvesContext ) ,
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. init = curves_init ,
. uninit = curves_uninit ,
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FILTER_INPUTS ( curves_inputs ) ,
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FILTER_OUTPUTS ( ff_video_default_filterpad ) ,
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FILTER_PIXFMTS ( AV_PIX_FMT_RGB24 , AV_PIX_FMT_BGR24 ,
AV_PIX_FMT_RGBA , AV_PIX_FMT_BGRA ,
AV_PIX_FMT_ARGB , AV_PIX_FMT_ABGR ,
AV_PIX_FMT_0RGB , AV_PIX_FMT_0BGR ,
AV_PIX_FMT_RGB0 , AV_PIX_FMT_BGR0 ,
AV_PIX_FMT_RGB48 , AV_PIX_FMT_BGR48 ,
AV_PIX_FMT_RGBA64 , AV_PIX_FMT_BGRA64 ,
AV_PIX_FMT_GBRP , AV_PIX_FMT_GBRAP ,
AV_PIX_FMT_GBRP9 ,
AV_PIX_FMT_GBRP10 , AV_PIX_FMT_GBRAP10 ,
AV_PIX_FMT_GBRP12 , AV_PIX_FMT_GBRAP12 ,
AV_PIX_FMT_GBRP14 ,
AV_PIX_FMT_GBRP16 , AV_PIX_FMT_GBRAP16 ) ,
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. priv_class = & curves_class ,
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. flags = AVFILTER_FLAG_SUPPORT_TIMELINE_GENERIC | AVFILTER_FLAG_SLICE_THREADS ,
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. process_command = process_command ,
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} ;