audio.c
/*****************************************************************************
* libvlc_audio.c: New libvlc audio control API
*****************************************************************************
* Copyright (C) 2006 VLC authors and VideoLAN
* $Id$
*
* Authors: Filippo Carone <filippo@carone.org>
* Jean-Paul Saman <jpsaman _at_ m2x _dot_ nl>
*
* This program 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.
*
* This program 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 this program; if not, write to the Free Software Foundation,
* Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
*****************************************************************************/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#include <assert.h>
#include <math.h>
#include <vlc/libvlc.h>
#include <vlc/libvlc_media.h>
#include <vlc/libvlc_media_player.h>
#include <vlc_common.h>
#include <vlc_input.h>
#include <vlc_aout.h>
#include <vlc_modules.h>
#include "libvlc_internal.h"
#include "media_player_internal.h"
/*
* Remember to release the returned audio_output_t since it is locked at
* the end of this function.
*/
static audio_output_t *GetAOut( libvlc_media_player_t *mp )
{
assert( mp != NULL );
audio_output_t *p_aout = input_resource_HoldAout( mp->input.p_resource );
if( p_aout == NULL )
libvlc_printerr( "No active audio output" );
return p_aout;
}
/*****************************************
* Get the list of available audio outputs
*****************************************/
libvlc_audio_output_t *
libvlc_audio_output_list_get( libvlc_instance_t *p_instance )
{
size_t count;
module_t **module_list = module_list_get( &count );
libvlc_audio_output_t *list = NULL;
for (size_t i = 0; i < count; i++)
{
module_t *module = module_list[i];
if( !module_provides( module, "audio output" ) )
continue;
libvlc_audio_output_t *item = malloc( sizeof( *item ) );
if( unlikely(item == NULL) )
{
error:
libvlc_printerr( "Not enough memory" );
libvlc_audio_output_list_release( list );
list = NULL;
break;
}
item->psz_name = strdup( module_get_object( module ) );
item->psz_description = strdup( module_get_name( module, true ) );
if( unlikely(item->psz_name == NULL || item->psz_description == NULL) )
{
free( item->psz_name );
free( item->psz_description );
free( item );
goto error;
}
item->p_next = list;
list = item;
}
module_list_free( module_list );
VLC_UNUSED( p_instance );
return list;
}
/********************************************
* Free the list of available audio outputs
***********************************************/
void libvlc_audio_output_list_release( libvlc_audio_output_t *list )
{
while( list != NULL )
{
libvlc_audio_output_t *next = list->p_next;
free( list->psz_name );
free( list->psz_description );
free( list );
list = next;
}
}
/***********************
* Set the audio output.
***********************/
int libvlc_audio_output_set( libvlc_media_player_t *mp, const char *psz_name )
{
char *value;
if( !module_exists( psz_name )
|| asprintf( &value, "%s,none", psz_name ) == -1 )
return -1;
var_SetString( mp, "aout", value );
free( value );
/* Forget the existing audio output */
input_resource_ResetAout(mp->input.p_resource);
/* Create a new audio output */
audio_output_t *aout = input_resource_GetAout(mp->input.p_resource);
if( aout != NULL )
input_resource_PutAout(mp->input.p_resource, aout);
return 0;
}
libvlc_audio_output_device_t *
libvlc_audio_output_device_enum( libvlc_media_player_t *mp )
{
audio_output_t *aout = GetAOut( mp );
if( aout == NULL )
return NULL;
libvlc_audio_output_device_t *list, **pp = &list;
char **values, **texts;
int n = aout_DevicesList( aout, &values, &texts );
vlc_object_release( aout );
if( n < 0 )
goto err;
for (int i = 0; i < n; i++)
{
libvlc_audio_output_device_t *item = malloc( sizeof(*item) );
if( unlikely(item == NULL) )
{
free( texts[i] );
free( values[i] );
continue;
}
*pp = item;
pp = &item->p_next;
item->psz_device = values[i];
item->psz_description = texts[i];
}
free( texts );
free( values );
err:
*pp = NULL;
return list;
}
libvlc_audio_output_device_t *
libvlc_audio_output_device_list_get( libvlc_instance_t *p_instance,
const char *aout )
{
char varname[32];
if( (size_t)snprintf( varname, sizeof(varname), "%s-audio-device", aout )
>= sizeof(varname) )
return NULL;
libvlc_audio_output_device_t *list = NULL, **pp = &list;
char **values, **texts;
ssize_t count = config_GetPszChoices( VLC_OBJECT(p_instance->p_libvlc_int),
varname, &values, &texts );
for( ssize_t i = 0; i < count; i++ )
{
libvlc_audio_output_device_t *item = malloc( sizeof(*item) );
if( unlikely(item == NULL) )
break;
*pp = item;
pp = &item->p_next;
item->psz_device = values[i];
item->psz_description = texts[i];
}
*pp = NULL;
free( texts );
free( values );
(void) p_instance;
return list;
}
void libvlc_audio_output_device_list_release( libvlc_audio_output_device_t *l )
{
while( l != NULL )
{
libvlc_audio_output_device_t *next = l->p_next;
free( l->psz_description );
free( l->psz_device );
free( l );
l = next;
}
}
int libvlc_audio_output_device_count( libvlc_instance_t *p_instance,
const char *psz_audio_output )
{
(void) p_instance; (void) psz_audio_output;
return 0;
}
char *libvlc_audio_output_device_longname( libvlc_instance_t *p_instance,
const char *psz_audio_output,
int i_device )
{
(void) p_instance; (void) psz_audio_output; (void) i_device;
return NULL;
}
char *libvlc_audio_output_device_id( libvlc_instance_t *p_instance,
const char *psz_audio_output,
int i_device )
{
(void) p_instance; (void) psz_audio_output; (void) i_device;
return NULL;
}
/*****************************
* Set device for using
*****************************/
void libvlc_audio_output_device_set( libvlc_media_player_t *mp,
const char *module, const char *devid )
{
if( devid == NULL )
return;
if( module != NULL )
{
char *cfg_name;
if( asprintf( &cfg_name, "%s-audio-device", module ) == -1 )
return;
if( !var_Type( mp, cfg_name ) )
/* Don't recreate the same variable over and over and over... */
var_Create( mp, cfg_name, VLC_VAR_STRING );
var_SetString( mp, cfg_name, devid );
free( cfg_name );
return;
}
audio_output_t *aout = GetAOut( mp );
if( aout == NULL )
return;
aout_DeviceSet( aout, devid );
vlc_object_release( aout );
}
char *libvlc_audio_output_device_get( libvlc_media_player_t *mp )
{
audio_output_t *aout = GetAOut( mp );
if( aout == NULL )
return NULL;
char *devid = aout_DeviceGet( aout );
vlc_object_release( aout );
return devid;
}
int libvlc_audio_output_get_device_type( libvlc_media_player_t *mp )
{
(void) mp;
return libvlc_AudioOutputDevice_Error;
}
void libvlc_audio_output_set_device_type( libvlc_media_player_t *mp,
int device_type )
{
(void) mp; (void) device_type;
}
void libvlc_audio_toggle_mute( libvlc_media_player_t *mp )
{
int mute = libvlc_audio_get_mute( mp );
if( mute != -1 )
libvlc_audio_set_mute( mp, !mute );
}
int libvlc_audio_get_mute( libvlc_media_player_t *mp )
{
int mute = -1;
audio_output_t *aout = GetAOut( mp );
if( aout != NULL )
{
mute = aout_MuteGet( aout );
vlc_object_release( aout );
}
return mute;
}
void libvlc_audio_set_mute( libvlc_media_player_t *mp, int mute )
{
audio_output_t *aout = GetAOut( mp );
if( aout != NULL )
{
mute = aout_MuteSet( aout, mute );
vlc_object_release( aout );
}
}
int libvlc_audio_get_volume( libvlc_media_player_t *mp )
{
int volume = -1;
audio_output_t *aout = GetAOut( mp );
if( aout != NULL )
{
float vol = aout_VolumeGet( aout );
vlc_object_release( aout );
volume = lroundf( vol * 100.f );
}
return volume;
}
int libvlc_audio_set_volume( libvlc_media_player_t *mp, int volume )
{
float vol = volume / 100.f;
if (!isgreaterequal(vol, 0.f))
{
libvlc_printerr( "Volume out of range" );
return -1;
}
int ret = -1;
audio_output_t *aout = GetAOut( mp );
if( aout != NULL )
{
ret = aout_VolumeSet( aout, vol );
vlc_object_release( aout );
}
return ret;
}
/*****************************************************************************
* libvlc_audio_get_track_count : Get the number of available audio tracks
*****************************************************************************/
int libvlc_audio_get_track_count( libvlc_media_player_t *p_mi )
{
input_thread_t *p_input_thread = libvlc_get_input_thread( p_mi );
int i_track_count;
if( !p_input_thread )
return -1;
i_track_count = var_CountChoices( p_input_thread, "audio-es" );
vlc_object_release( p_input_thread );
return i_track_count;
}
/*****************************************************************************
* libvlc_audio_get_track_description : Get the description of available audio tracks
*****************************************************************************/
libvlc_track_description_t *
libvlc_audio_get_track_description( libvlc_media_player_t *p_mi )
{
return libvlc_get_track_description( p_mi, "audio-es" );
}
/*****************************************************************************
* libvlc_audio_get_track : Get the current audio track
*****************************************************************************/
int libvlc_audio_get_track( libvlc_media_player_t *p_mi )
{
input_thread_t *p_input_thread = libvlc_get_input_thread( p_mi );
if( !p_input_thread )
return -1;
int id = var_GetInteger( p_input_thread, "audio-es" );
vlc_object_release( p_input_thread );
return id;
}
/*****************************************************************************
* libvlc_audio_set_track : Set the current audio track
*****************************************************************************/
int libvlc_audio_set_track( libvlc_media_player_t *p_mi, int i_track )
{
input_thread_t *p_input_thread = libvlc_get_input_thread( p_mi );
vlc_value_t val_list;
int i_ret = -1;
if( !p_input_thread )
return -1;
var_Change( p_input_thread, "audio-es", VLC_VAR_GETCHOICES, &val_list, NULL );
for( int i = 0; i < val_list.p_list->i_count; i++ )
{
if( i_track == val_list.p_list->p_values[i].i_int )
{
if( var_SetInteger( p_input_thread, "audio-es", i_track ) < 0 )
break;
i_ret = 0;
goto end;
}
}
libvlc_printerr( "Track identifier not found" );
end:
var_FreeList( &val_list, NULL );
vlc_object_release( p_input_thread );
return i_ret;
}
/*****************************************************************************
* libvlc_audio_get_channel : Get the current audio channel
*****************************************************************************/
int libvlc_audio_get_channel( libvlc_media_player_t *mp )
{
audio_output_t *p_aout = GetAOut( mp );
if( !p_aout )
return 0;
int val = var_GetInteger( p_aout, "stereo-mode" );
vlc_object_release( p_aout );
return val;
}
/*****************************************************************************
* libvlc_audio_set_channel : Set the current audio channel
*****************************************************************************/
int libvlc_audio_set_channel( libvlc_media_player_t *mp, int channel )
{
audio_output_t *p_aout = GetAOut( mp );
int ret = 0;
if( !p_aout )
return -1;
if( var_SetInteger( p_aout, "stereo-mode", channel ) < 0 )
{
libvlc_printerr( "Audio channel out of range" );
ret = -1;
}
vlc_object_release( p_aout );
return ret;
}
/*****************************************************************************
* libvlc_audio_get_delay : Get the current audio delay
*****************************************************************************/
int64_t libvlc_audio_get_delay( libvlc_media_player_t *p_mi )
{
input_thread_t *p_input_thread = libvlc_get_input_thread ( p_mi );
int64_t val = 0;
if( p_input_thread != NULL )
{
val = var_GetInteger( p_input_thread, "audio-delay" );
vlc_object_release( p_input_thread );
}
return val;
}
/*****************************************************************************
* libvlc_audio_set_delay : Set the current audio delay
*****************************************************************************/
int libvlc_audio_set_delay( libvlc_media_player_t *p_mi, int64_t i_delay )
{
input_thread_t *p_input_thread = libvlc_get_input_thread ( p_mi );
int ret = 0;
if( p_input_thread != NULL )
{
var_SetInteger( p_input_thread, "audio-delay", i_delay );
vlc_object_release( p_input_thread );
}
else
{
ret = -1;
}
return ret;
}
/*****************************************************************************
* libvlc_audio_equalizer_get_preset_count : Get the number of equalizer presets
*****************************************************************************/
unsigned libvlc_audio_equalizer_get_preset_count( void )
{
return NB_PRESETS;
}
/*****************************************************************************
* libvlc_audio_equalizer_get_preset_name : Get the name for a preset
*****************************************************************************/
const char *libvlc_audio_equalizer_get_preset_name( unsigned u_index )
{
if ( u_index >= NB_PRESETS )
return NULL;
return preset_list_text[ u_index ];
}
/*****************************************************************************
* libvlc_audio_equalizer_get_band_count : Get the number of equalizer frequency bands
*****************************************************************************/
unsigned libvlc_audio_equalizer_get_band_count( void )
{
return EQZ_BANDS_MAX;
}
/*****************************************************************************
* libvlc_audio_equalizer_get_band_frequency : Get the frequency for a band
*****************************************************************************/
float libvlc_audio_equalizer_get_band_frequency( unsigned u_index )
{
if ( u_index >= EQZ_BANDS_MAX )
return -1.f;
return f_iso_frequency_table_10b[ u_index ];
}
/*****************************************************************************
* libvlc_audio_equalizer_new : Create a new audio equalizer with zeroed values
*****************************************************************************/
libvlc_equalizer_t *libvlc_audio_equalizer_new( void )
{
libvlc_equalizer_t *p_equalizer;
p_equalizer = malloc( sizeof( *p_equalizer ) );
if ( unlikely( p_equalizer == NULL ) )
return NULL;
p_equalizer->f_preamp = 0.f;
for ( unsigned i = 0; i < EQZ_BANDS_MAX; i++ )
p_equalizer->f_amp[ i ] = 0.f;
return p_equalizer;
}
/*****************************************************************************
* libvlc_audio_equalizer_new_from_preset : Create a new audio equalizer based on a preset
*****************************************************************************/
libvlc_equalizer_t *libvlc_audio_equalizer_new_from_preset( unsigned u_index )
{
libvlc_equalizer_t *p_equalizer;
if ( u_index >= NB_PRESETS )
return NULL;
p_equalizer = malloc( sizeof( *p_equalizer ) );
if ( unlikely( p_equalizer == NULL ) )
return NULL;
p_equalizer->f_preamp = eqz_preset_10b[ u_index ].f_preamp;
for ( unsigned i = 0; i < EQZ_BANDS_MAX; i++ )
p_equalizer->f_amp[ i ] = eqz_preset_10b[ u_index ].f_amp[ i ];
return p_equalizer;
}
/*****************************************************************************
* libvlc_audio_equalizer_release : Release a previously created equalizer
*****************************************************************************/
void libvlc_audio_equalizer_release( libvlc_equalizer_t *p_equalizer )
{
free( p_equalizer );
}
/*****************************************************************************
* libvlc_audio_equalizer_set_preamp : Set the preamp value for an equalizer
*****************************************************************************/
int libvlc_audio_equalizer_set_preamp( libvlc_equalizer_t *p_equalizer, float f_preamp )
{
if( isnan(f_preamp) )
return -1;
if( f_preamp < -20.f )
f_preamp = -20.f;
else if( f_preamp > 20.f )
f_preamp = 20.f;
p_equalizer->f_preamp = f_preamp;
return 0;
}
/*****************************************************************************
* libvlc_audio_equalizer_get_preamp : Get the preamp value for an equalizer
*****************************************************************************/
float libvlc_audio_equalizer_get_preamp( libvlc_equalizer_t *p_equalizer )
{
return p_equalizer->f_preamp;
}
/*****************************************************************************
* libvlc_audio_equalizer_set_amp_at_index : Set the amplification value for an equalizer band
*****************************************************************************/
int libvlc_audio_equalizer_set_amp_at_index( libvlc_equalizer_t *p_equalizer, float f_amp, unsigned u_band )
{
if( u_band >= EQZ_BANDS_MAX || isnan(f_amp) )
return -1;
if( f_amp < -20.f )
f_amp = -20.f;
else if( f_amp > 20.f )
f_amp = 20.f;
p_equalizer->f_amp[ u_band ] = f_amp;
return 0;
}
/*****************************************************************************
* libvlc_audio_equalizer_get_amp_at_index : Get the amplification value for an equalizer band
*****************************************************************************/
float libvlc_audio_equalizer_get_amp_at_index( libvlc_equalizer_t *p_equalizer, unsigned u_band )
{
if ( u_band >= EQZ_BANDS_MAX )
return nanf("");
return p_equalizer->f_amp[ u_band ];
}
