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/*
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* Copyright ( C ) 2011 - 2012 Michael Niedermayer ( michaelni @ gmx . at )
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*
* This file is part of libswresample
*
* libswresample 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 .
*
* libswresample 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 libswresample ; if not , write to the Free Software
* Foundation , Inc . , 51 Franklin Street , Fifth Floor , Boston , MA 02110 - 1301 USA
*/
# include "libavutil/opt.h"
# include "swresample_internal.h"
# include "audioconvert.h"
# include "libavutil/avassert.h"
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# include "libavutil/audioconvert.h"
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# include <float.h>
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# define C30DB M_SQRT2
# define C15DB 1.189207115
# define C__0DB 1.0
# define C_15DB 0.840896415
# define C_30DB M_SQRT1_2
# define C_45DB 0.594603558
# define C_60DB 0.5
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# define ALIGN 32
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//TODO split options array out?
# define OFFSET(x) offsetof(SwrContext,x)
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# define PARAM AV_OPT_FLAG_AUDIO_PARAM
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static const AVOption options [ ] = {
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{ " ich " , " Input Channel Count " , OFFSET ( in . ch_count ) , AV_OPT_TYPE_INT , { . dbl = 2 } , 0 , SWR_CH_MAX , PARAM } ,
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{ " in_channel_count " , " Input Channel Count " , OFFSET ( in . ch_count ) , AV_OPT_TYPE_INT , { . dbl = 2 } , 0 , SWR_CH_MAX , PARAM } ,
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{ " och " , " Output Channel Count " , OFFSET ( out . ch_count ) , AV_OPT_TYPE_INT , { . dbl = 2 } , 0 , SWR_CH_MAX , PARAM } ,
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{ " out_channel_count " , " Output Channel Count " , OFFSET ( out . ch_count ) , AV_OPT_TYPE_INT , { . dbl = 2 } , 0 , SWR_CH_MAX , PARAM } ,
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{ " uch " , " Used Channel Count " , OFFSET ( used_ch_count ) , AV_OPT_TYPE_INT , { . dbl = 0 } , 0 , SWR_CH_MAX , PARAM } ,
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{ " used_channel_count " , " Used Channel Count " , OFFSET ( used_ch_count ) , AV_OPT_TYPE_INT , { . dbl = 0 } , 0 , SWR_CH_MAX , PARAM } ,
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{ " isr " , " Input Sample Rate " , OFFSET ( in_sample_rate ) , AV_OPT_TYPE_INT , { . dbl = 0 } , 0 , INT_MAX , PARAM } ,
{ " in_sample_rate " , " Input Sample Rate " , OFFSET ( in_sample_rate ) , AV_OPT_TYPE_INT , { . dbl = 0 } , 0 , INT_MAX , PARAM } ,
{ " osr " , " Output Sample Rate " , OFFSET ( out_sample_rate ) , AV_OPT_TYPE_INT , { . dbl = 0 } , 0 , INT_MAX , PARAM } ,
{ " out_sample_rate " , " Output Sample Rate " , OFFSET ( out_sample_rate ) , AV_OPT_TYPE_INT , { . dbl = 0 } , 0 , INT_MAX , PARAM } ,
{ " isf " , " Input Sample Format " , OFFSET ( in_sample_fmt ) , AV_OPT_TYPE_INT , { . dbl = AV_SAMPLE_FMT_NONE } , - 1 , AV_SAMPLE_FMT_NB - 1 + 256 , PARAM } ,
{ " in_sample_fmt " , " Input Sample Format " , OFFSET ( in_sample_fmt ) , AV_OPT_TYPE_INT , { . dbl = AV_SAMPLE_FMT_NONE } , - 1 , AV_SAMPLE_FMT_NB - 1 + 256 , PARAM } ,
{ " osf " , " Output Sample Format " , OFFSET ( out_sample_fmt ) , AV_OPT_TYPE_INT , { . dbl = AV_SAMPLE_FMT_NONE } , - 1 , AV_SAMPLE_FMT_NB - 1 + 256 , PARAM } ,
{ " out_sample_fmt " , " Output Sample Format " , OFFSET ( out_sample_fmt ) , AV_OPT_TYPE_INT , { . dbl = AV_SAMPLE_FMT_NONE } , - 1 , AV_SAMPLE_FMT_NB - 1 + 256 , PARAM } ,
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{ " tsf " , " Internal Sample Format " , OFFSET ( int_sample_fmt ) , AV_OPT_TYPE_INT , { . dbl = AV_SAMPLE_FMT_NONE } , - 1 , AV_SAMPLE_FMT_FLTP , PARAM } ,
{ " internal_sample_fmt " , " Internal Sample Format " , OFFSET ( int_sample_fmt ) , AV_OPT_TYPE_INT , { . dbl = AV_SAMPLE_FMT_NONE } , - 1 , AV_SAMPLE_FMT_FLTP , PARAM } ,
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{ " icl " , " Input Channel Layout " , OFFSET ( in_ch_layout ) , AV_OPT_TYPE_INT64 , { . dbl = 0 } , 0 , INT64_MAX , PARAM , " channel_layout " } ,
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{ " in_channel_layout " , " Input Channel Layout " , OFFSET ( in_ch_layout ) , AV_OPT_TYPE_INT64 , { . dbl = 0 } , 0 , INT64_MAX , PARAM , " channel_layout " } ,
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{ " ocl " , " Output Channel Layout " , OFFSET ( out_ch_layout ) , AV_OPT_TYPE_INT64 , { . dbl = 0 } , 0 , INT64_MAX , PARAM , " channel_layout " } ,
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{ " out_channel_layout " , " Output Channel Layout " , OFFSET ( out_ch_layout ) , AV_OPT_TYPE_INT64 , { . dbl = 0 } , 0 , INT64_MAX , PARAM , " channel_layout " } ,
{ " clev " , " Center Mix Level " , OFFSET ( clev ) , AV_OPT_TYPE_FLOAT , { . dbl = C_30DB } , - 32 , 32 , PARAM } ,
{ " center_mix_level " , " Center Mix Level " , OFFSET ( clev ) , AV_OPT_TYPE_FLOAT , { . dbl = C_30DB } , - 32 , 32 , PARAM } ,
{ " slev " , " Sourround Mix Level " , OFFSET ( slev ) , AV_OPT_TYPE_FLOAT , { . dbl = C_30DB } , - 32 , 32 , PARAM } ,
{ " surround_mix_level " , " Sourround Mix Level " , OFFSET ( slev ) , AV_OPT_TYPE_FLOAT , { . dbl = C_30DB } , - 32 , 32 , PARAM } ,
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{ " lfe_mix_level " , " LFE Mix Level " , OFFSET ( lfe_mix_level ) , AV_OPT_TYPE_FLOAT , { . dbl = 0 } , - 32 , 32 , PARAM } ,
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{ " rmvol " , " Rematrix Volume " , OFFSET ( rematrix_volume ) , AV_OPT_TYPE_FLOAT , { . dbl = 1.0 } , - 1000 , 1000 , PARAM } ,
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{ " rematrix_volume " , " Rematrix Volume " , OFFSET ( rematrix_volume ) , AV_OPT_TYPE_FLOAT , { . dbl = 1.0 } , - 1000 , 1000 , PARAM } ,
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{ " flags " , NULL , OFFSET ( flags ) , AV_OPT_TYPE_FLAGS , { . dbl = 0 } , 0 , UINT_MAX , PARAM , " flags " } ,
{ " swr_flags " , NULL , OFFSET ( flags ) , AV_OPT_TYPE_FLAGS , { . dbl = 0 } , 0 , UINT_MAX , PARAM , " flags " } ,
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{ " res " , " Force Resampling " , 0 , AV_OPT_TYPE_CONST , { . dbl = SWR_FLAG_RESAMPLE } , INT_MIN , INT_MAX , PARAM , " flags " } ,
{ " dither_scale " , " Dither Scale " , OFFSET ( dither_scale ) , AV_OPT_TYPE_FLOAT , { . dbl = 1 } , 0 , INT_MAX , PARAM } ,
{ " dither_method " , " Dither Method " , OFFSET ( dither_method ) , AV_OPT_TYPE_INT , { . dbl = 0 } , 0 , SWR_DITHER_NB - 1 , PARAM , " dither_method " } ,
{ " rectangular " , " Rectangular Dither " , 0 , AV_OPT_TYPE_CONST , { . dbl = SWR_DITHER_RECTANGULAR } , INT_MIN , INT_MAX , PARAM , " dither_method " } ,
{ " triangular " , " Triangular Dither " , 0 , AV_OPT_TYPE_CONST , { . dbl = SWR_DITHER_TRIANGULAR } , INT_MIN , INT_MAX , PARAM , " dither_method " } ,
{ " triangular_hp " , " Triangular Dither With High Pass " , 0 , AV_OPT_TYPE_CONST , { . dbl = SWR_DITHER_TRIANGULAR_HIGHPASS } , INT_MIN , INT_MAX , PARAM , " dither_method " } ,
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{ " filter_size " , " Resampling Filter Size " , OFFSET ( filter_size ) , AV_OPT_TYPE_INT , { . dbl = 16 } , 0 , INT_MAX , PARAM } ,
{ " phase_shift " , " Resampling Phase Shift " , OFFSET ( phase_shift ) , AV_OPT_TYPE_INT , { . dbl = 10 } , 0 , 30 , PARAM } ,
{ " linear_interp " , " Use Linear Interpolation " , OFFSET ( linear_interp ) , AV_OPT_TYPE_INT , { . dbl = 0 } , 0 , 1 , PARAM } ,
{ " cutoff " , " Cutoff Frequency Ratio " , OFFSET ( cutoff ) , AV_OPT_TYPE_DOUBLE , { . dbl = 0.8 } , 0 , 1 , PARAM } ,
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{ " min_comp " , " Minimum difference between timestamps and audio data (in seconds) below which no timestamp compensation of either kind is applied "
, OFFSET ( min_compensation ) , AV_OPT_TYPE_FLOAT , { . dbl = FLT_MAX } , 0 , FLT_MAX , PARAM } ,
{ " min_hard_comp " , " Minimum difference between timestamps and audio data (in seconds) to trigger padding/trimming the data. "
, OFFSET ( min_hard_compensation ) , AV_OPT_TYPE_FLOAT , { . dbl = 0.1 } , 0 , INT_MAX , PARAM } ,
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{ " comp_duration " , " Duration (in seconds) over which data is stretched/squeezed to make it match the timestamps. "
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, OFFSET ( soft_compensation_duration ) , AV_OPT_TYPE_FLOAT , { . dbl = 1 } , 0 , INT_MAX , PARAM } ,
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{ " max_soft_comp " , " Maximum factor by which data is stretched/squeezed to make it match the timestamps. "
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, OFFSET ( max_soft_compensation ) , AV_OPT_TYPE_FLOAT , { . dbl = 0 } , INT_MIN , INT_MAX , PARAM } ,
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{ 0 }
} ;
static const char * context_to_name ( void * ptr ) {
return " SWR " ;
}
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static const AVClass av_class = {
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. class_name = " SWResampler " ,
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. item_name = context_to_name ,
. option = options ,
. version = LIBAVUTIL_VERSION_INT ,
. log_level_offset_offset = OFFSET ( log_level_offset ) ,
. parent_log_context_offset = OFFSET ( log_ctx ) ,
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. category = AV_CLASS_CATEGORY_SWRESAMPLER ,
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} ;
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unsigned swresample_version ( void )
{
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av_assert0 ( LIBSWRESAMPLE_VERSION_MICRO > = 100 ) ;
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return LIBSWRESAMPLE_VERSION_INT ;
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}
const char * swresample_configuration ( void )
{
return FFMPEG_CONFIGURATION ;
}
const char * swresample_license ( void )
{
# define LICENSE_PREFIX "libswresample license: "
return LICENSE_PREFIX FFMPEG_LICENSE + sizeof ( LICENSE_PREFIX ) - 1 ;
}
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int swr_set_channel_mapping ( struct SwrContext * s , const int * channel_map ) {
if ( ! s | | s - > in_convert ) // s needs to be allocated but not initialized
return AVERROR ( EINVAL ) ;
s - > channel_map = channel_map ;
return 0 ;
}
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const AVClass * swr_get_class ( void )
{
return & av_class ;
}
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struct SwrContext * swr_alloc ( void ) {
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SwrContext * s = av_mallocz ( sizeof ( SwrContext ) ) ;
if ( s ) {
s - > av_class = & av_class ;
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av_opt_set_defaults ( s ) ;
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}
return s ;
}
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struct SwrContext * swr_alloc_set_opts ( struct SwrContext * s ,
int64_t out_ch_layout , enum AVSampleFormat out_sample_fmt , int out_sample_rate ,
int64_t in_ch_layout , enum AVSampleFormat in_sample_fmt , int in_sample_rate ,
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int log_offset , void * log_ctx ) {
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if ( ! s ) s = swr_alloc ( ) ;
if ( ! s ) return NULL ;
s - > log_level_offset = log_offset ;
s - > log_ctx = log_ctx ;
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av_opt_set_int ( s , " ocl " , out_ch_layout , 0 ) ;
av_opt_set_int ( s , " osf " , out_sample_fmt , 0 ) ;
av_opt_set_int ( s , " osr " , out_sample_rate , 0 ) ;
av_opt_set_int ( s , " icl " , in_ch_layout , 0 ) ;
av_opt_set_int ( s , " isf " , in_sample_fmt , 0 ) ;
av_opt_set_int ( s , " isr " , in_sample_rate , 0 ) ;
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av_opt_set_int ( s , " tsf " , AV_SAMPLE_FMT_NONE , 0 ) ;
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av_opt_set_int ( s , " ich " , av_get_channel_layout_nb_channels ( s - > in_ch_layout ) , 0 ) ;
av_opt_set_int ( s , " och " , av_get_channel_layout_nb_channels ( s - > out_ch_layout ) , 0 ) ;
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av_opt_set_int ( s , " uch " , 0 , 0 ) ;
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return s ;
}
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static void set_audiodata_fmt ( AudioData * a , enum AVSampleFormat fmt ) {
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a - > fmt = fmt ;
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a - > bps = av_get_bytes_per_sample ( fmt ) ;
a - > planar = av_sample_fmt_is_planar ( fmt ) ;
}
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static void free_temp ( AudioData * a ) {
av_free ( a - > data ) ;
memset ( a , 0 , sizeof ( * a ) ) ;
}
void swr_free ( SwrContext * * ss ) {
SwrContext * s = * ss ;
if ( s ) {
free_temp ( & s - > postin ) ;
free_temp ( & s - > midbuf ) ;
free_temp ( & s - > preout ) ;
free_temp ( & s - > in_buffer ) ;
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free_temp ( & s - > dither ) ;
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swri_audio_convert_free ( & s - > in_convert ) ;
swri_audio_convert_free ( & s - > out_convert ) ;
swri_audio_convert_free ( & s - > full_convert ) ;
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swri_resample_free ( & s - > resample ) ;
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swri_rematrix_free ( s ) ;
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}
av_freep ( ss ) ;
}
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int swr_init ( struct SwrContext * s ) {
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s - > in_buffer_index = 0 ;
s - > in_buffer_count = 0 ;
s - > resample_in_constraint = 0 ;
free_temp ( & s - > postin ) ;
free_temp ( & s - > midbuf ) ;
free_temp ( & s - > preout ) ;
free_temp ( & s - > in_buffer ) ;
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free_temp ( & s - > dither ) ;
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swri_audio_convert_free ( & s - > in_convert ) ;
swri_audio_convert_free ( & s - > out_convert ) ;
swri_audio_convert_free ( & s - > full_convert ) ;
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swri_rematrix_free ( s ) ;
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s - > flushed = 0 ;
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if ( s - > in_sample_fmt > = AV_SAMPLE_FMT_NB ) {
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av_log ( s , AV_LOG_ERROR , " Requested input sample format %d is invalid \n " , s - > in_sample_fmt ) ;
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return AVERROR ( EINVAL ) ;
}
if ( s - > out_sample_fmt > = AV_SAMPLE_FMT_NB ) {
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av_log ( s , AV_LOG_ERROR , " Requested output sample format %d is invalid \n " , s - > out_sample_fmt ) ;
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return AVERROR ( EINVAL ) ;
}
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if ( s - > int_sample_fmt = = AV_SAMPLE_FMT_NONE ) {
if ( av_get_planar_sample_fmt ( s - > in_sample_fmt ) < = AV_SAMPLE_FMT_S16P ) {
s - > int_sample_fmt = AV_SAMPLE_FMT_S16P ;
} else if ( av_get_planar_sample_fmt ( s - > in_sample_fmt ) < = AV_SAMPLE_FMT_FLTP ) {
s - > int_sample_fmt = AV_SAMPLE_FMT_FLTP ;
} else {
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av_log ( s , AV_LOG_DEBUG , " Using double precision mode \n " ) ;
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s - > int_sample_fmt = AV_SAMPLE_FMT_DBLP ;
}
}
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if ( s - > int_sample_fmt ! = AV_SAMPLE_FMT_S16P
& & s - > int_sample_fmt ! = AV_SAMPLE_FMT_S32P
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& & s - > int_sample_fmt ! = AV_SAMPLE_FMT_FLTP
& & s - > int_sample_fmt ! = AV_SAMPLE_FMT_DBLP ) {
av_log ( s , AV_LOG_ERROR , " Requested sample format %s is not supported internally, S16/S32/FLT/DBL is supported \n " , av_get_sample_fmt_name ( s - > int_sample_fmt ) ) ;
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return AVERROR ( EINVAL ) ;
}
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set_audiodata_fmt ( & s - > in , s - > in_sample_fmt ) ;
set_audiodata_fmt ( & s - > out , s - > out_sample_fmt ) ;
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if ( s - > out_sample_rate ! = s - > in_sample_rate | | ( s - > flags & SWR_FLAG_RESAMPLE ) ) {
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s - > resample = swri_resample_init ( s - > resample , s - > out_sample_rate , s - > in_sample_rate , s - > filter_size , s - > phase_shift , s - > linear_interp , s - > cutoff , s - > int_sample_fmt ) ;
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} else
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swri_resample_free ( & s - > resample ) ;
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if ( s - > int_sample_fmt ! = AV_SAMPLE_FMT_S16P
& & s - > int_sample_fmt ! = AV_SAMPLE_FMT_S32P
& & s - > int_sample_fmt ! = AV_SAMPLE_FMT_FLTP
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& & s - > int_sample_fmt ! = AV_SAMPLE_FMT_DBLP
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& & s - > resample ) {
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av_log ( s , AV_LOG_ERROR , " Resampling only supported with internal s16/s32/flt/dbl \n " ) ;
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return - 1 ;
}
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if ( ! s - > used_ch_count )
s - > used_ch_count = s - > in . ch_count ;
if ( s - > used_ch_count & & s - > in_ch_layout & & s - > used_ch_count ! = av_get_channel_layout_nb_channels ( s - > in_ch_layout ) ) {
av_log ( s , AV_LOG_WARNING , " Input channel layout has a different number of channels than the number of used channels, ignoring layout \n " ) ;
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s - > in_ch_layout = 0 ;
}
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if ( ! s - > in_ch_layout )
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s - > in_ch_layout = av_get_default_channel_layout ( s - > used_ch_count ) ;
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if ( ! s - > out_ch_layout )
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s - > out_ch_layout = av_get_default_channel_layout ( s - > out . ch_count ) ;
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s - > rematrix = s - > out_ch_layout ! = s - > in_ch_layout | | s - > rematrix_volume ! = 1.0 | |
s - > rematrix_custom ;
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# define RSC 1 //FIXME finetune
if ( ! s - > in . ch_count )
s - > in . ch_count = av_get_channel_layout_nb_channels ( s - > in_ch_layout ) ;
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if ( ! s - > used_ch_count )
s - > used_ch_count = s - > in . ch_count ;
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if ( ! s - > out . ch_count )
s - > out . ch_count = av_get_channel_layout_nb_channels ( s - > out_ch_layout ) ;
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if ( ! s - > in . ch_count ) {
av_assert0 ( ! s - > in_ch_layout ) ;
av_log ( s , AV_LOG_ERROR , " Input channel count and layout are unset \n " ) ;
return - 1 ;
}
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if ( ( ! s - > out_ch_layout | | ! s - > in_ch_layout ) & & s - > used_ch_count ! = s - > out . ch_count & & ! s - > rematrix_custom ) {
av_log ( s , AV_LOG_ERROR , " Rematrix is needed but there is not enough information to do it \n " ) ;
return - 1 ;
}
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av_assert0 ( s - > used_ch_count ) ;
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av_assert0 ( s - > out . ch_count ) ;
s - > resample_first = RSC * s - > out . ch_count / s - > in . ch_count - RSC < s - > out_sample_rate / ( float ) s - > in_sample_rate - 1.0 ;
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s - > in_buffer = s - > in ;
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if ( ! s - > resample & & ! s - > rematrix & & ! s - > channel_map & & ! s - > dither_method ) {
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s - > full_convert = swri_audio_convert_alloc ( s - > out_sample_fmt ,
s - > in_sample_fmt , s - > in . ch_count , NULL , 0 ) ;
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return 0 ;
}
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s - > in_convert = swri_audio_convert_alloc ( s - > int_sample_fmt ,
s - > in_sample_fmt , s - > used_ch_count , s - > channel_map , 0 ) ;
s - > out_convert = swri_audio_convert_alloc ( s - > out_sample_fmt ,
s - > int_sample_fmt , s - > out . ch_count , NULL , 0 ) ;
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s - > postin = s - > in ;
s - > preout = s - > out ;
s - > midbuf = s - > in ;
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if ( s - > channel_map ) {
s - > postin . ch_count =
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s - > midbuf . ch_count = s - > used_ch_count ;
if ( s - > resample )
s - > in_buffer . ch_count = s - > used_ch_count ;
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}
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if ( ! s - > resample_first ) {
s - > midbuf . ch_count = s - > out . ch_count ;
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if ( s - > resample )
s - > in_buffer . ch_count = s - > out . ch_count ;
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}
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set_audiodata_fmt ( & s - > postin , s - > int_sample_fmt ) ;
set_audiodata_fmt ( & s - > midbuf , s - > int_sample_fmt ) ;
set_audiodata_fmt ( & s - > preout , s - > int_sample_fmt ) ;
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if ( s - > resample ) {
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set_audiodata_fmt ( & s - > in_buffer , s - > int_sample_fmt ) ;
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}
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s - > dither = s - > preout ;
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if ( s - > rematrix | | s - > dither_method )
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return swri_rematrix_init ( s ) ;
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return 0 ;
}
static int realloc_audio ( AudioData * a , int count ) {
int i , countb ;
AudioData old ;
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if ( count < 0 | | count > INT_MAX / 2 / a - > bps / a - > ch_count )
return AVERROR ( EINVAL ) ;
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if ( a - > count > = count )
return 0 ;
count * = 2 ;
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countb = FFALIGN ( count * a - > bps , ALIGN ) ;
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old = * a ;
av_assert0 ( a - > bps ) ;
av_assert0 ( a - > ch_count ) ;
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a - > data = av_mallocz ( countb * a - > ch_count ) ;
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if ( ! a - > data )
return AVERROR ( ENOMEM ) ;
for ( i = 0 ; i < a - > ch_count ; i + + ) {
a - > ch [ i ] = a - > data + i * ( a - > planar ? countb : a - > bps ) ;
if ( a - > planar ) memcpy ( a - > ch [ i ] , old . ch [ i ] , a - > count * a - > bps ) ;
}
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if ( ! a - > planar ) memcpy ( a - > ch [ 0 ] , old . ch [ 0 ] , a - > count * a - > ch_count * a - > bps ) ;
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av_free ( old . data ) ;
a - > count = count ;
return 1 ;
}
static void copy ( AudioData * out , AudioData * in ,
int count ) {
av_assert0 ( out - > planar = = in - > planar ) ;
av_assert0 ( out - > bps = = in - > bps ) ;
av_assert0 ( out - > ch_count = = in - > ch_count ) ;
if ( out - > planar ) {
int ch ;
for ( ch = 0 ; ch < out - > ch_count ; ch + + )
memcpy ( out - > ch [ ch ] , in - > ch [ ch ] , count * out - > bps ) ;
} else
memcpy ( out - > ch [ 0 ] , in - > ch [ 0 ] , count * out - > ch_count * out - > bps ) ;
}
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static void fill_audiodata ( AudioData * out , uint8_t * in_arg [ SWR_CH_MAX ] ) {
int i ;
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if ( ! in_arg ) {
memset ( out - > ch , 0 , sizeof ( out - > ch ) ) ;
} else if ( out - > planar ) {
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for ( i = 0 ; i < out - > ch_count ; i + + )
out - > ch [ i ] = in_arg [ i ] ;
} else {
for ( i = 0 ; i < out - > ch_count ; i + + )
out - > ch [ i ] = in_arg [ 0 ] + i * out - > bps ;
}
}
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static void reversefill_audiodata ( AudioData * out , uint8_t * in_arg [ SWR_CH_MAX ] ) {
int i ;
if ( out - > planar ) {
for ( i = 0 ; i < out - > ch_count ; i + + )
in_arg [ i ] = out - > ch [ i ] ;
} else {
in_arg [ 0 ] = out - > ch [ 0 ] ;
}
}
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/**
*
* out may be equal in .
*/
static void buf_set ( AudioData * out , AudioData * in , int count ) {
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int ch ;
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if ( in - > planar ) {
for ( ch = 0 ; ch < out - > ch_count ; ch + + )
out - > ch [ ch ] = in - > ch [ ch ] + count * out - > bps ;
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} else {
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for ( ch = out - > ch_count - 1 ; ch > = 0 ; ch - - )
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out - > ch [ ch ] = in - > ch [ 0 ] + ( ch + count * out - > ch_count ) * out - > bps ;
}
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}
/**
*
* @ return number of samples output per channel
*/
static int resample ( SwrContext * s , AudioData * out_param , int out_count ,
const AudioData * in_param , int in_count ) {
AudioData in , out , tmp ;
int ret_sum = 0 ;
int border = 0 ;
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av_assert1 ( s - > in_buffer . ch_count = = in_param - > ch_count ) ;
av_assert1 ( s - > in_buffer . planar = = in_param - > planar ) ;
av_assert1 ( s - > in_buffer . fmt = = in_param - > fmt ) ;
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tmp = out = * out_param ;
in = * in_param ;
do {
int ret , size , consumed ;
if ( ! s - > resample_in_constraint & & s - > in_buffer_count ) {
buf_set ( & tmp , & s - > in_buffer , s - > in_buffer_index ) ;
ret = swri_multiple_resample ( s - > resample , & out , out_count , & tmp , s - > in_buffer_count , & consumed ) ;
out_count - = ret ;
ret_sum + = ret ;
buf_set ( & out , & out , ret ) ;
s - > in_buffer_count - = consumed ;
s - > in_buffer_index + = consumed ;
if ( ! in_count )
break ;
if ( s - > in_buffer_count < = border ) {
buf_set ( & in , & in , - s - > in_buffer_count ) ;
in_count + = s - > in_buffer_count ;
s - > in_buffer_count = 0 ;
s - > in_buffer_index = 0 ;
border = 0 ;
}
}
if ( in_count & & ! s - > in_buffer_count ) {
s - > in_buffer_index = 0 ;
ret = swri_multiple_resample ( s - > resample , & out , out_count , & in , in_count , & consumed ) ;
out_count - = ret ;
ret_sum + = ret ;
buf_set ( & out , & out , ret ) ;
in_count - = consumed ;
buf_set ( & in , & in , consumed ) ;
}
//TODO is this check sane considering the advanced copy avoidance below
size = s - > in_buffer_index + s - > in_buffer_count + in_count ;
if ( size > s - > in_buffer . count
& & s - > in_buffer_count + in_count < = s - > in_buffer_index ) {
buf_set ( & tmp , & s - > in_buffer , s - > in_buffer_index ) ;
copy ( & s - > in_buffer , & tmp , s - > in_buffer_count ) ;
s - > in_buffer_index = 0 ;
} else
if ( ( ret = realloc_audio ( & s - > in_buffer , size ) ) < 0 )
return ret ;
if ( in_count ) {
int count = in_count ;
if ( s - > in_buffer_count & & s - > in_buffer_count + 2 < count & & out_count ) count = s - > in_buffer_count + 2 ;
buf_set ( & tmp , & s - > in_buffer , s - > in_buffer_index + s - > in_buffer_count ) ;
copy ( & tmp , & in , /*in_*/ count ) ;
s - > in_buffer_count + = count ;
in_count - = count ;
border + = count ;
buf_set ( & in , & in , count ) ;
s - > resample_in_constraint = 0 ;
if ( s - > in_buffer_count ! = count | | in_count )
continue ;
}
break ;
} while ( 1 ) ;
s - > resample_in_constraint = ! ! out_count ;
return ret_sum ;
}
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static int swr_convert_internal ( struct SwrContext * s , AudioData * out , int out_count ,
AudioData * in , int in_count ) {
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AudioData * postin , * midbuf , * preout ;
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int ret /*, in_max*/ ;
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AudioData preout_tmp , midbuf_tmp ;
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if ( s - > full_convert ) {
av_assert0 ( ! s - > resample ) ;
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swri_audio_convert ( s - > full_convert , out , in , in_count ) ;
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return out_count ;
}
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// in_max= out_count*(int64_t)s->in_sample_rate / s->out_sample_rate + resample_filter_taps;
// in_count= FFMIN(in_count, in_in + 2 - s->hist_buffer_count);
if ( ( ret = realloc_audio ( & s - > postin , in_count ) ) < 0 )
return ret ;
if ( s - > resample_first ) {
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av_assert0 ( s - > midbuf . ch_count = = s - > used_ch_count ) ;
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if ( ( ret = realloc_audio ( & s - > midbuf , out_count ) ) < 0 )
return ret ;
} else {
av_assert0 ( s - > midbuf . ch_count = = s - > out . ch_count ) ;
if ( ( ret = realloc_audio ( & s - > midbuf , in_count ) ) < 0 )
return ret ;
}
if ( ( ret = realloc_audio ( & s - > preout , out_count ) ) < 0 )
return ret ;
postin = & s - > postin ;
midbuf_tmp = s - > midbuf ;
midbuf = & midbuf_tmp ;
preout_tmp = s - > preout ;
preout = & preout_tmp ;
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if ( s - > int_sample_fmt = = s - > in_sample_fmt & & s - > in . planar & & ! s - > channel_map )
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postin = in ;
if ( s - > resample_first ? ! s - > resample : ! s - > rematrix )
midbuf = postin ;
if ( s - > resample_first ? ! s - > rematrix : ! s - > resample )
preout = midbuf ;
if ( s - > int_sample_fmt = = s - > out_sample_fmt & & s - > out . planar ) {
if ( preout = = in ) {
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out_count = FFMIN ( out_count , in_count ) ; //TODO check at the end if this is needed or redundant
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av_assert0 ( s - > in . planar ) ; //we only support planar internally so it has to be, we support copying non planar though
copy ( out , in , out_count ) ;
return out_count ;
}
else if ( preout = = postin ) preout = midbuf = postin = out ;
else if ( preout = = midbuf ) preout = midbuf = out ;
else preout = out ;
}
if ( in ! = postin ) {
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swri_audio_convert ( s - > in_convert , postin , in , in_count ) ;
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}
if ( s - > resample_first ) {
if ( postin ! = midbuf )
out_count = resample ( s , midbuf , out_count , postin , in_count ) ;
if ( midbuf ! = preout )
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swri_rematrix ( s , preout , midbuf , out_count , preout = = out ) ;
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} else {
if ( postin ! = midbuf )
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swri_rematrix ( s , midbuf , postin , in_count , midbuf = = out ) ;
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if ( midbuf ! = preout )
out_count = resample ( s , preout , out_count , midbuf , in_count ) ;
}
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if ( preout ! = out & & out_count ) {
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if ( s - > dither_method ) {
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int ch ;
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int dither_count = FFMAX ( out_count , 1 < < 16 ) ;
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av_assert0 ( preout ! = in ) ;
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if ( ( ret = realloc_audio ( & s - > dither , dither_count ) ) < 0 )
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return ret ;
if ( ret )
for ( ch = 0 ; ch < s - > dither . ch_count ; ch + + )
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swri_get_dither ( s , s - > dither . ch [ ch ] , s - > dither . count , 12345678913579 < < ch , s - > out_sample_fmt , s - > int_sample_fmt ) ;
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av_assert0 ( s - > dither . ch_count = = preout - > ch_count ) ;
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if ( s - > dither_pos + out_count > s - > dither . count )
s - > dither_pos = 0 ;
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for ( ch = 0 ; ch < preout - > ch_count ; ch + + )
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s - > mix_2_1_f ( preout - > ch [ ch ] , preout - > ch [ ch ] , s - > dither . ch [ ch ] + s - > dither . bps * s - > dither_pos , s - > native_one , 0 , 0 , out_count ) ;
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s - > dither_pos + = out_count ;
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}
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//FIXME packed doesnt need more than 1 chan here!
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swri_audio_convert ( s - > out_convert , out , preout , out_count ) ;
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}
return out_count ;
}
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int swr_convert ( struct SwrContext * s , uint8_t * out_arg [ SWR_CH_MAX ] , int out_count ,
const uint8_t * in_arg [ SWR_CH_MAX ] , int in_count ) {
AudioData * in = & s - > in ;
AudioData * out = & s - > out ;
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if ( s - > drop_output > 0 ) {
int ret ;
AudioData tmp = s - > out ;
uint8_t * tmp_arg [ SWR_CH_MAX ] ;
tmp . count = 0 ;
tmp . data = NULL ;
if ( ( ret = realloc_audio ( & tmp , s - > drop_output ) ) < 0 )
return ret ;
reversefill_audiodata ( & tmp , tmp_arg ) ;
s - > drop_output * = - 1 ; //FIXME find a less hackish solution
ret = swr_convert ( s , tmp_arg , - s - > drop_output , in_arg , in_count ) ; //FIXME optimize but this is as good as never called so maybe it doesnt matter
s - > drop_output * = - 1 ;
if ( ret > 0 )
s - > drop_output - = ret ;
av_freep ( & tmp . data ) ;
if ( s - > drop_output | | ! out_arg )
return 0 ;
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in_count = 0 ;
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}
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if ( ! in_arg ) {
if ( s - > in_buffer_count ) {
if ( s - > resample & & ! s - > flushed ) {
AudioData * a = & s - > in_buffer ;
int i , j , ret ;
if ( ( ret = realloc_audio ( a , s - > in_buffer_index + 2 * s - > in_buffer_count ) ) < 0 )
return ret ;
av_assert0 ( a - > planar ) ;
for ( i = 0 ; i < a - > ch_count ; i + + ) {
for ( j = 0 ; j < s - > in_buffer_count ; j + + ) {
memcpy ( a - > ch [ i ] + ( s - > in_buffer_index + s - > in_buffer_count + j ) * a - > bps ,
a - > ch [ i ] + ( s - > in_buffer_index + s - > in_buffer_count - j - 1 ) * a - > bps , a - > bps ) ;
}
}
s - > in_buffer_count + = ( s - > in_buffer_count + 1 ) / 2 ;
s - > resample_in_constraint = 0 ;
s - > flushed = 1 ;
}
} else {
return 0 ;
}
} else
fill_audiodata ( in , ( void * ) in_arg ) ;
fill_audiodata ( out , out_arg ) ;
if ( s - > resample ) {
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int ret = swr_convert_internal ( s , out , out_count , in , in_count ) ;
if ( ret > 0 & & ! s - > drop_output )
s - > outpts + = ret * ( int64_t ) s - > in_sample_rate ;
return ret ;
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} else {
AudioData tmp = * in ;
int ret2 = 0 ;
int ret , size ;
size = FFMIN ( out_count , s - > in_buffer_count ) ;
if ( size ) {
buf_set ( & tmp , & s - > in_buffer , s - > in_buffer_index ) ;
ret = swr_convert_internal ( s , out , size , & tmp , size ) ;
if ( ret < 0 )
return ret ;
ret2 = ret ;
s - > in_buffer_count - = ret ;
s - > in_buffer_index + = ret ;
buf_set ( out , out , ret ) ;
out_count - = ret ;
if ( ! s - > in_buffer_count )
s - > in_buffer_index = 0 ;
}
if ( in_count ) {
size = s - > in_buffer_index + s - > in_buffer_count + in_count - out_count ;
if ( in_count > out_count ) { //FIXME move after swr_convert_internal
if ( size > s - > in_buffer . count
& & s - > in_buffer_count + in_count - out_count < = s - > in_buffer_index ) {
buf_set ( & tmp , & s - > in_buffer , s - > in_buffer_index ) ;
copy ( & s - > in_buffer , & tmp , s - > in_buffer_count ) ;
s - > in_buffer_index = 0 ;
} else
if ( ( ret = realloc_audio ( & s - > in_buffer , size ) ) < 0 )
return ret ;
}
if ( out_count ) {
size = FFMIN ( in_count , out_count ) ;
ret = swr_convert_internal ( s , out , size , in , size ) ;
if ( ret < 0 )
return ret ;
buf_set ( in , in , ret ) ;
in_count - = ret ;
ret2 + = ret ;
}
if ( in_count ) {
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buf_set ( & tmp , & s - > in_buffer , s - > in_buffer_index + s - > in_buffer_count ) ;
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copy ( & tmp , in , in_count ) ;
s - > in_buffer_count + = in_count ;
}
}
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if ( ret2 > 0 & & ! s - > drop_output )
s - > outpts + = ret2 * ( int64_t ) s - > in_sample_rate ;
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return ret2 ;
}
}
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int swr_drop_output ( struct SwrContext * s , int count ) {
s - > drop_output + = count ;
if ( s - > drop_output < = 0 )
return 0 ;
av_log ( s , AV_LOG_VERBOSE , " discarding %d audio samples \n " , count ) ;
return swr_convert ( s , NULL , s - > drop_output , NULL , 0 ) ;
}
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int swr_inject_silence ( struct SwrContext * s , int count ) {
int ret , i ;
AudioData silence = s - > out ;
uint8_t * tmp_arg [ SWR_CH_MAX ] ;
if ( count < = 0 )
return 0 ;
silence . count = 0 ;
silence . data = NULL ;
if ( ( ret = realloc_audio ( & silence , count ) ) < 0 )
return ret ;
if ( silence . planar ) for ( i = 0 ; i < silence . ch_count ; i + + ) {
memset ( silence . ch [ i ] , silence . bps = = 1 ? 0x80 : 0 , count * silence . bps ) ;
} else
memset ( silence . ch [ 0 ] , silence . bps = = 1 ? 0x80 : 0 , count * silence . bps * silence . ch_count ) ;
reversefill_audiodata ( & silence , tmp_arg ) ;
av_log ( s , AV_LOG_VERBOSE , " adding %d audio samples of silence \n " , count ) ;
ret = swr_convert ( s , NULL , 0 , ( const uint8_t * * ) tmp_arg , count ) ;
av_freep ( & silence . data ) ;
return ret ;
}
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int64_t swr_next_pts ( struct SwrContext * s , int64_t pts ) {
if ( pts = = INT64_MIN )
return s - > outpts ;
if ( s - > min_compensation > = FLT_MAX ) {
return ( s - > outpts = pts - swr_get_delay ( s , s - > in_sample_rate * ( int64_t ) s - > out_sample_rate ) ) ;
} else {
int64_t delta = pts - swr_get_delay ( s , s - > in_sample_rate * ( int64_t ) s - > out_sample_rate ) - s - > outpts ;
double fdelta = delta / ( double ) ( s - > in_sample_rate * ( int64_t ) s - > out_sample_rate ) ;
if ( fabs ( fdelta ) > s - > min_compensation ) {
if ( ! s - > outpts | | fabs ( fdelta ) > s - > min_hard_compensation ) {
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int ret ;
if ( delta > 0 ) ret = swr_inject_silence ( s , delta / s - > out_sample_rate ) ;
else ret = swr_drop_output ( s , - delta / s - > in_sample_rate ) ;
if ( ret < 0 ) {
av_log ( s , AV_LOG_ERROR , " Failed to compensate for timestamp delta of %f \n " , fdelta ) ;
}
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} else if ( s - > soft_compensation_duration & & s - > max_soft_compensation ) {
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int duration = s - > out_sample_rate * s - > soft_compensation_duration ;
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double max_soft_compensation = s - > max_soft_compensation / ( s - > max_soft_compensation < 0 ? - s - > in_sample_rate : 1 ) ;
int comp = av_clipf ( fdelta , - max_soft_compensation , max_soft_compensation ) * duration ;
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av_log ( s , AV_LOG_VERBOSE , " compensating audio timestamp drift:%f compensation:%d in:%d \n " , fdelta , comp , duration ) ;
swr_set_compensation ( s , comp , duration ) ;
}
}
return s - > outpts ;
}
}