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vlc-1.1
Commit 928bf10a authored by Derk-Jan Hartman's avatar Derk-Jan Hartman
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bandlimited: Add an audio-filter2 bridge to this audio-filter. 

Primary work by Christophe Massiot, Cleaned up and tested by myself.

This should fix #1630 and is the first part of #1835
parent e584675c
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Showing with 231 additions and 69 deletions
modules/audio_filter/resampler/bandlimited.c
View file @ 928bf10a
......@@ -40,6 +40,8 @@
#include <vlc_common.h>
#include <vlc_plugin.h>
#include <vlc_aout.h>
#include <vlc_filter.h>
#include <vlc_block.h>
#include "bandlimited.h"
......@@ -51,6 +53,12 @@ static void Close ( vlc_object_t * );
static void DoWork ( aout_instance_t *, aout_filter_t *, aout_buffer_t *,
aout_buffer_t * );
/* audio filter2 */
static int OpenFilter ( vlc_object_t * );
static void CloseFilter( vlc_object_t * );
static block_t *Resample( filter_t *, block_t * );
static void FilterFloatUP( const float Imp[], const float ImpD[], uint16_t Nwing,
float *f_in, float *f_out, uint32_t ui_remainder,
uint32_t ui_output_rate, int16_t Inc,
......@@ -64,7 +72,7 @@ static void FilterFloatUD( const float Imp[], const float ImpD[], uint16_t Nwing
/*****************************************************************************
* Local structures
*****************************************************************************/
struct aout_filter_sys_t
struct filter_sys_t
{
int32_t *p_buf; /* this filter introduces a delay */
int i_buf_size;
......@@ -76,6 +84,9 @@ struct aout_filter_sys_t
unsigned int i_remainder; /* remainder of previous sample */
audio_date_t end_date;
bool b_first;
bool b_filter2;
};
/*****************************************************************************
......@@ -87,6 +98,11 @@ vlc_module_begin();
set_description( N_("Audio filter for band-limited interpolation resampling") );
set_capability( "audio filter", 20 );
set_callbacks( Create, Close );
add_submodule();
set_description( _("Audio filter for band-limited interpolation resampling") );
set_capability( "audio filter2", 20 );
set_callbacks( OpenFilter, CloseFilter );
vlc_module_end();
/*****************************************************************************
......@@ -95,6 +111,7 @@ vlc_module_end();
static int Create( vlc_object_t *p_this )
{
aout_filter_t * p_filter = (aout_filter_t *)p_this;
struct filter_sys_t * p_sys;
double d_factor;
int i_filter_wing;
......@@ -117,8 +134,9 @@ static int Create( vlc_object_t *p_this )
#endif
/* Allocate the memory needed to store the module's structure */
p_filter->p_sys = malloc( sizeof(struct aout_filter_sys_t) );
if( p_filter->p_sys == NULL )
p_sys = malloc( sizeof(filter_sys_t) );
p_filter->p_sys = (struct aout_filter_sys_t *)p_sys;
if( p_sys == NULL )
return VLC_ENOMEM;
/* Calculate worst case for the length of the filter wing */
......@@ -126,15 +144,18 @@ static int Create( vlc_object_t *p_this )
/ p_filter->input.i_rate / AOUT_MAX_INPUT_RATE;
i_filter_wing = ((SMALL_FILTER_NMULT + 1)/2.0)
* __MAX(1.0, 1.0/d_factor) + 10;
p_filter->p_sys->i_buf_size = aout_FormatNbChannels( &p_filter->input ) *
p_sys->i_buf_size = aout_FormatNbChannels( &p_filter->input ) *
sizeof(int32_t) * 2 * i_filter_wing;
/* Allocate enough memory to buffer previous samples */
p_filter->p_sys->p_buf = malloc( p_filter->p_sys->i_buf_size );
if( p_filter->p_sys->p_buf == NULL )
p_sys->p_buf = malloc( p_sys->i_buf_size );
if( p_sys->p_buf == NULL )
{
free( p_sys );
return VLC_ENOMEM;
}
p_filter->p_sys->i_old_wing = 0;
p_sys->i_old_wing = 0;
p_filter->pf_do_work = DoWork;
/* We don't want a new buffer to be created because we're not sure we'll
......@@ -150,8 +171,9 @@ static int Create( vlc_object_t *p_this )
static void Close( vlc_object_t * p_this )
{
aout_filter_t * p_filter = (aout_filter_t *)p_this;
free( p_filter->p_sys->p_buf );
free( p_filter->p_sys );
filter_sys_t *p_sys = (filter_sys_t *)p_filter->p_sys;
free( p_sys->p_buf );
free( p_sys );
}
/*****************************************************************************
......@@ -160,48 +182,52 @@ static void Close( vlc_object_t * p_this )
static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
aout_buffer_t * p_in_buf, aout_buffer_t * p_out_buf )
{
filter_sys_t *p_sys = (filter_sys_t *)p_filter->p_sys;
float *p_in, *p_in_orig, *p_out = (float *)p_out_buf->p_buffer;
int i_nb_channels = aout_FormatNbChannels( &p_filter->input );
int i_in_nb = p_in_buf->i_nb_samples;
int i_in, i_out = 0;
unsigned int i_out_rate;
double d_factor, d_scale_factor, d_old_scale_factor;
int i_filter_wing;
#if 0
int i;
#endif
if( p_sys->b_filter2 )
i_out_rate = p_filter->output.i_rate;
else
i_out_rate = p_aout->mixer.mixer.i_rate;
/* Check if we really need to run the resampler */
if( p_aout->mixer.mixer.i_rate == p_filter->input.i_rate )
if( i_out_rate == p_filter->input.i_rate )
{
if( /*p_filter->b_continuity && /--* What difference does it make ? :) */
p_filter->p_sys->i_old_wing &&
p_sys->i_old_wing &&
p_in_buf->i_size >=
p_in_buf->i_nb_bytes + p_filter->p_sys->i_old_wing *
p_in_buf->i_nb_bytes + p_sys->i_old_wing *
p_filter->input.i_bytes_per_frame )
{
/* output the whole thing with the samples from last time */
memmove( ((float *)(p_in_buf->p_buffer)) +
i_nb_channels * p_filter->p_sys->i_old_wing,
i_nb_channels * p_sys->i_old_wing,
p_in_buf->p_buffer, p_in_buf->i_nb_bytes );
memcpy( p_in_buf->p_buffer, p_filter->p_sys->p_buf +
i_nb_channels * p_filter->p_sys->i_old_wing,
p_filter->p_sys->i_old_wing *
memcpy( p_in_buf->p_buffer, p_sys->p_buf +
i_nb_channels * p_sys->i_old_wing,
p_sys->i_old_wing *
p_filter->input.i_bytes_per_frame );
p_out_buf->i_nb_samples = p_in_buf->i_nb_samples +
p_filter->p_sys->i_old_wing;
p_sys->i_old_wing;
p_out_buf->start_date = aout_DateGet( &p_filter->p_sys->end_date );
p_out_buf->start_date = aout_DateGet( &p_sys->end_date );
p_out_buf->end_date =
aout_DateIncrement( &p_filter->p_sys->end_date,
aout_DateIncrement( &p_sys->end_date,
p_out_buf->i_nb_samples );
p_out_buf->i_nb_bytes = p_out_buf->i_nb_samples *
p_filter->input.i_bytes_per_frame;
}
p_filter->b_continuity = false;
p_filter->p_sys->i_old_wing = 0;
p_sys->i_old_wing = 0;
return;
}
......@@ -210,22 +236,22 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
/* Continuity in sound samples has been broken, we'd better reset
* everything. */
p_filter->b_continuity = true;
p_filter->p_sys->i_remainder = 0;
aout_DateInit( &p_filter->p_sys->end_date, p_filter->output.i_rate );
aout_DateSet( &p_filter->p_sys->end_date, p_in_buf->start_date );
p_filter->p_sys->i_old_rate = p_filter->input.i_rate;
p_filter->p_sys->d_old_factor = 1;
p_filter->p_sys->i_old_wing = 0;
p_sys->i_remainder = 0;
aout_DateInit( &p_sys->end_date, i_out_rate );
aout_DateSet( &p_sys->end_date, p_in_buf->start_date );
p_sys->i_old_rate = p_filter->input.i_rate;
p_sys->d_old_factor = 1;
p_sys->i_old_wing = 0;
}
#if 0
msg_Err( p_filter, "old rate: %i, old factor: %f, old wing: %i, i_in: %i",
p_filter->p_sys->i_old_rate, p_filter->p_sys->d_old_factor,
p_filter->p_sys->i_old_wing, i_in_nb );
p_sys->i_old_rate, p_sys->d_old_factor,
p_sys->i_old_wing, i_in_nb );
#endif
/* Prepare the source buffer */
i_in_nb += (p_filter->p_sys->i_old_wing * 2);
i_in_nb += (p_sys->i_old_wing * 2);
#ifdef HAVE_ALLOCA
p_in = p_in_orig = (float *)alloca( i_in_nb *
p_filter->input.i_bytes_per_frame );
......@@ -239,13 +265,13 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
}
/* Copy all our samples in p_in */
if( p_filter->p_sys->i_old_wing )
if( p_sys->i_old_wing )
{
vlc_memcpy( p_in, p_filter->p_sys->p_buf,
p_filter->p_sys->i_old_wing * 2 *
vlc_memcpy( p_in, p_sys->p_buf,
p_sys->i_old_wing * 2 *
p_filter->input.i_bytes_per_frame );
}
vlc_memcpy( p_in + p_filter->p_sys->i_old_wing * 2 * i_nb_channels,
vlc_memcpy( p_in + p_sys->i_old_wing * 2 * i_nb_channels,
p_in_buf->p_buffer,
p_in_buf->i_nb_samples * p_filter->input.i_bytes_per_frame );
......@@ -253,21 +279,21 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
memset( p_out, 0, p_out_buf->i_size );
/* Calculate the new length of the filter wing */
d_factor = (double)p_aout->mixer.mixer.i_rate / p_filter->input.i_rate;
d_factor = (double)i_out_rate / p_filter->input.i_rate;
i_filter_wing = ((SMALL_FILTER_NMULT+1)/2.0) * __MAX(1.0,1.0/d_factor) + 1;
/* Account for increased filter gain when using factors less than 1 */
d_old_scale_factor = SMALL_FILTER_SCALE *
p_filter->p_sys->d_old_factor + 0.5;
p_sys->d_old_factor + 0.5;
d_scale_factor = SMALL_FILTER_SCALE * d_factor + 0.5;
/* Apply the old rate until we have enough samples for the new one */
i_in = p_filter->p_sys->i_old_wing;
p_in += p_filter->p_sys->i_old_wing * i_nb_channels;
i_in = p_sys->i_old_wing;
p_in += p_sys->i_old_wing * i_nb_channels;
for( ; i_in < i_filter_wing &&
(i_in + p_filter->p_sys->i_old_wing) < i_in_nb; i_in++ )
(i_in + p_sys->i_old_wing) < i_in_nb; i_in++ )
{
if( p_filter->p_sys->d_old_factor == 1 )
if( p_sys->d_old_factor == 1 )
{
/* Just copy the samples */
memcpy( p_out, p_in,
......@@ -278,24 +304,24 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
continue;
}
while( p_filter->p_sys->i_remainder < p_filter->output.i_rate )
while( p_sys->i_remainder < p_filter->output.i_rate )
{
if( p_filter->p_sys->d_old_factor >= 1 )
if( p_sys->d_old_factor >= 1 )
{
/* FilterFloatUP() is faster if we can use it */
/* Perform left-wing inner product */
FilterFloatUP( SMALL_FILTER_FLOAT_IMP, SMALL_FILTER_FLOAT_IMPD,
SMALL_FILTER_NWING, p_in, p_out,
p_filter->p_sys->i_remainder,
p_sys->i_remainder,
p_filter->output.i_rate,
-1, i_nb_channels );
/* Perform right-wing inner product */
FilterFloatUP( SMALL_FILTER_FLOAT_IMP, SMALL_FILTER_FLOAT_IMPD,
SMALL_FILTER_NWING, p_in + i_nb_channels, p_out,
p_filter->output.i_rate -
p_filter->p_sys->i_remainder,
p_sys->i_remainder,
p_filter->output.i_rate,
1, i_nb_channels );
......@@ -313,7 +339,7 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
{
p_out += i_nb_channels;
i_out++;
p_filter->p_sys->i_remainder += p_filter->input.i_rate;
p_sys->i_remainder += p_filter->input.i_rate;
break;
}
}
......@@ -322,14 +348,14 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
/* Perform left-wing inner product */
FilterFloatUD( SMALL_FILTER_FLOAT_IMP, SMALL_FILTER_FLOAT_IMPD,
SMALL_FILTER_NWING, p_in, p_out,
p_filter->p_sys->i_remainder,
p_sys->i_remainder,
p_filter->output.i_rate, p_filter->input.i_rate,
-1, i_nb_channels );
/* Perform right-wing inner product */
FilterFloatUD( SMALL_FILTER_FLOAT_IMP, SMALL_FILTER_FLOAT_IMPD,
SMALL_FILTER_NWING, p_in + i_nb_channels, p_out,
p_filter->output.i_rate -
p_filter->p_sys->i_remainder,
p_sys->i_remainder,
p_filter->output.i_rate, p_filter->input.i_rate,
1, i_nb_channels );
}
......@@ -337,23 +363,23 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
p_out += i_nb_channels;
i_out++;
p_filter->p_sys->i_remainder += p_filter->input.i_rate;
p_sys->i_remainder += p_filter->input.i_rate;
}
p_in += i_nb_channels;
p_filter->p_sys->i_remainder -= p_filter->output.i_rate;
p_sys->i_remainder -= p_filter->output.i_rate;
}
/* Apply the new rate for the rest of the samples */
if( i_in < i_in_nb - i_filter_wing )
{
p_filter->p_sys->i_old_rate = p_filter->input.i_rate;
p_filter->p_sys->d_old_factor = d_factor;
p_filter->p_sys->i_old_wing = i_filter_wing;
p_sys->i_old_rate = p_filter->input.i_rate;
p_sys->d_old_factor = d_factor;
p_sys->i_old_wing = i_filter_wing;
}
for( ; i_in < i_in_nb - i_filter_wing; i_in++ )
{
while( p_filter->p_sys->i_remainder < p_filter->output.i_rate )
while( p_sys->i_remainder < p_filter->output.i_rate )
{
if( d_factor >= 1 )
......@@ -363,7 +389,7 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
/* Perform left-wing inner product */
FilterFloatUP( SMALL_FILTER_FLOAT_IMP, SMALL_FILTER_FLOAT_IMPD,
SMALL_FILTER_NWING, p_in, p_out,
p_filter->p_sys->i_remainder,
p_sys->i_remainder,
p_filter->output.i_rate,
-1, i_nb_channels );
......@@ -371,13 +397,13 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
FilterFloatUP( SMALL_FILTER_FLOAT_IMP, SMALL_FILTER_FLOAT_IMPD,
SMALL_FILTER_NWING, p_in + i_nb_channels, p_out,
p_filter->output.i_rate -
p_filter->p_sys->i_remainder,
p_sys->i_remainder,
p_filter->output.i_rate,
1, i_nb_channels );
#if 0
/* Normalize for unity filter gain */
for( i = 0; i < i_nb_channels; i++ )
for( int i = 0; i < i_nb_channels; i++ )
{
*(p_out+i) *= d_old_scale_factor;
}
......@@ -388,7 +414,7 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
{
p_out += i_nb_channels;
i_out++;
p_filter->p_sys->i_remainder += p_filter->input.i_rate;
p_sys->i_remainder += p_filter->input.i_rate;
break;
}
}
......@@ -397,14 +423,14 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
/* Perform left-wing inner product */
FilterFloatUD( SMALL_FILTER_FLOAT_IMP, SMALL_FILTER_FLOAT_IMPD,
SMALL_FILTER_NWING, p_in, p_out,
p_filter->p_sys->i_remainder,
p_sys->i_remainder,
p_filter->output.i_rate, p_filter->input.i_rate,
-1, i_nb_channels );
/* Perform right-wing inner product */
FilterFloatUD( SMALL_FILTER_FLOAT_IMP, SMALL_FILTER_FLOAT_IMPD,
SMALL_FILTER_NWING, p_in + i_nb_channels, p_out,
p_filter->output.i_rate -
p_filter->p_sys->i_remainder,
p_sys->i_remainder,
p_filter->output.i_rate, p_filter->input.i_rate,
1, i_nb_channels );
}
......@@ -412,19 +438,19 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
p_out += i_nb_channels;
i_out++;
p_filter->p_sys->i_remainder += p_filter->input.i_rate;
p_sys->i_remainder += p_filter->input.i_rate;
}
p_in += i_nb_channels;
p_filter->p_sys->i_remainder -= p_filter->output.i_rate;
p_sys->i_remainder -= p_filter->output.i_rate;
}
/* Buffer i_filter_wing * 2 samples for next time */
if( p_filter->p_sys->i_old_wing )
if( p_sys->i_old_wing )
{
memcpy( p_filter->p_sys->p_buf,
p_in_orig + (i_in_nb - 2 * p_filter->p_sys->i_old_wing) *
i_nb_channels, (2 * p_filter->p_sys->i_old_wing) *
memcpy( p_sys->p_buf,
p_in_orig + (i_in_nb - 2 * p_sys->i_old_wing) *
i_nb_channels, (2 * p_sys->i_old_wing) *
p_filter->input.i_bytes_per_frame );
}
......@@ -440,8 +466,8 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
/* Finalize aout buffer */
p_out_buf->i_nb_samples = i_out;
p_out_buf->start_date = aout_DateGet( &p_filter->p_sys->end_date );
p_out_buf->end_date = aout_DateIncrement( &p_filter->p_sys->end_date,
p_out_buf->start_date = aout_DateGet( &p_sys->end_date );
p_out_buf->end_date = aout_DateIncrement( &p_sys->end_date,
p_out_buf->i_nb_samples );
p_out_buf->i_nb_bytes = p_out_buf->i_nb_samples *
......@@ -449,6 +475,142 @@ static void DoWork( aout_instance_t * p_aout, aout_filter_t * p_filter,
}
/*****************************************************************************
* OpenFilter:
*****************************************************************************/
static int OpenFilter( vlc_object_t *p_this )
{
filter_t *p_filter = (filter_t *)p_this;
filter_sys_t *p_sys;
unsigned int i_out_rate = p_filter->fmt_out.audio.i_rate;
double d_factor;
int i_filter_wing;
if( p_filter->fmt_in.audio.i_rate == p_filter->fmt_out.audio.i_rate ||
p_filter->fmt_in.i_codec != VLC_FOURCC('f','l','3','2') )
{
return VLC_EGENERIC;
}
#if !defined( SYS_DARWIN )
if( !config_GetInt( p_this, "hq-resampling" ) )
{
return VLC_EGENERIC;
}
#endif
/* Allocate the memory needed to store the module's structure */
p_filter->p_sys = p_sys = malloc( sizeof(struct filter_sys_t) );
if( p_sys == NULL )
return VLC_ENOMEM;
/* Calculate worst case for the length of the filter wing */
d_factor = (double)i_out_rate / p_filter->fmt_in.audio.i_rate;
i_filter_wing = ((SMALL_FILTER_NMULT + 1)/2.0)
* __MAX(1.0, 1.0/d_factor) + 10;
p_filter->p_sys->i_buf_size = p_filter->fmt_in.audio.i_channels *
sizeof(int32_t) * 2 * i_filter_wing;
/* Allocate enough memory to buffer previous samples */
p_filter->p_sys->p_buf = malloc( p_filter->p_sys->i_buf_size );
if( p_filter->p_sys->p_buf == NULL )
{
free( p_sys );
return VLC_ENOMEM;
}
p_filter->p_sys->i_old_wing = 0;
p_sys->b_first = true;
p_sys->b_filter2 = true;
p_filter->pf_audio_filter = Resample;
msg_Dbg( p_this, "%4.4s/%iKHz/%i->%4.4s/%iKHz/%i",
(char *)&p_filter->fmt_in.i_codec,
p_filter->fmt_in.audio.i_rate,
p_filter->fmt_in.audio.i_channels,
(char *)&p_filter->fmt_out.i_codec,
p_filter->fmt_out.audio.i_rate,
p_filter->fmt_out.audio.i_channels);
p_filter->fmt_out = p_filter->fmt_in;
p_filter->fmt_out.audio.i_rate = i_out_rate;
return 0;
}
/*****************************************************************************
* CloseFilter : deallocate data structures
*****************************************************************************/
static void CloseFilter( vlc_object_t *p_this )
{
filter_t *p_filter = (filter_t *)p_this;
free( p_filter->p_sys->p_buf );
free( p_filter->p_sys );
}
/*****************************************************************************
* Resample
*****************************************************************************/
static block_t *Resample( filter_t *p_filter, block_t *p_block )
{
aout_filter_t aout_filter;
aout_buffer_t in_buf, out_buf;
block_t *p_out;
int i_out_size;
int i_bytes_per_frame;
if( !p_block || !p_block->i_samples )
{
if( p_block ) p_block->pf_release( p_block );
return NULL;
}
i_bytes_per_frame = p_filter->fmt_out.audio.i_channels *
p_filter->fmt_out.audio.i_bitspersample / 8;
i_out_size = i_bytes_per_frame * ( 1 + (p_block->i_samples *
p_filter->fmt_out.audio.i_rate / p_filter->fmt_in.audio.i_rate));
p_out = p_filter->pf_audio_buffer_new( p_filter, i_out_size );
if( !p_out )
{
msg_Warn( p_filter, "can't get output buffer" );
p_block->pf_release( p_block );
return NULL;
}
p_out->i_samples = i_out_size / i_bytes_per_frame;
p_out->i_dts = p_block->i_dts;
p_out->i_pts = p_block->i_pts;
p_out->i_length = p_block->i_length;
aout_filter.p_sys = (struct aout_filter_sys_t *)p_filter->p_sys;
aout_filter.input = p_filter->fmt_in.audio;
aout_filter.input.i_bytes_per_frame = p_filter->fmt_in.audio.i_channels *
p_filter->fmt_in.audio.i_bitspersample / 8;
aout_filter.output = p_filter->fmt_out.audio;
aout_filter.output.i_bytes_per_frame = p_filter->fmt_out.audio.i_channels *
p_filter->fmt_out.audio.i_bitspersample / 8;
aout_filter.b_continuity = !p_filter->p_sys->b_first;
p_filter->p_sys->b_first = false;
in_buf.p_buffer = p_block->p_buffer;
in_buf.i_nb_bytes = in_buf.i_size = p_block->i_buffer;
in_buf.i_nb_samples = p_block->i_samples;
out_buf.p_buffer = p_out->p_buffer;
out_buf.i_nb_bytes = out_buf.i_size = p_out->i_buffer;
out_buf.i_nb_samples = p_out->i_samples;
DoWork( (aout_instance_t *)p_filter, &aout_filter, &in_buf, &out_buf );
p_block->pf_release( p_block );
p_out->i_buffer = out_buf.i_nb_bytes;
p_out->i_samples = out_buf.i_nb_samples;
return p_out;
}
void FilterFloatUP( const float Imp[], const float ImpD[], uint16_t Nwing, float *p_in,
float *p_out, uint32_t ui_remainder,
uint32_t ui_output_rate, int16_t Inc, int i_nb_channels )
......
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