static void DoWork( aout_instance_t *, aout_filter_t *,
aout_buffer_t *, aout_buffer_t * );
-vlc_module_begin();
- set_description( N_("Scale audio tempo in sync with playback rate") );
- set_shortname( N_("Scaletempo") );
- set_capability( "audio filter", 0 );
- set_category( CAT_AUDIO );
- set_subcategory( SUBCAT_AUDIO_AFILTER );
+vlc_module_begin ()
+ set_description( N_("Scale audio tempo in sync with playback rate") )
+ set_shortname( N_("Scaletempo") )
+ set_capability( "audio filter", 0 )
+ set_category( CAT_AUDIO )
+ set_subcategory( SUBCAT_AUDIO_AFILTER )
add_integer_with_range( "scaletempo-stride", 30, 1, 2000, NULL,
N_("Stride Length"), N_("Length in milliseconds to output each stride"), true );
add_integer_with_range( "scaletempo-search", 14, 0, 200, NULL,
N_("Search Length"), N_("Length in milliseconds to search for best overlap position"), true );
- set_callbacks( Open, Close );
-vlc_module_end();
+ set_callbacks( Open, Close )
+vlc_module_end ()
/*
* Scaletempo works by producing audio in constant sized chunks (a "stride") but
* frame: a single set of samples, one for each channel
* VLC uses these terms differently
*/
-typedef struct aout_filter_sys_t
+struct aout_filter_sys_t
{
/* Filter static config */
double scale;
/* for "audio filter" only, manage own buffers */
int i_buf;
uint8_t *p_buffers[2];
-} aout_filter_sys_t;
+};
/*****************************************************************************
* best_overlap_offset: calculate best offset for overlap
/* overlap */
unsigned frames_overlap = frames_stride * p->percent_overlap;
- if( frames_overlap < 1 ) { /* if no overlap */
+ if( frames_overlap < 1 )
+ { /* if no overlap */
p->bytes_overlap = 0;
p->bytes_standing = p->bytes_stride;
p->samples_standing = p->bytes_standing / p->bytes_per_sample;
p->output_overlap = NULL;
- } else {
+ }
+ else
+ {
unsigned prev_overlap = p->bytes_overlap;
p->bytes_overlap = frames_overlap * p->bytes_per_frame;
p->samples_overlap = frames_overlap * p->samples_per_frame;
p->samples_standing = p->bytes_standing / p->bytes_per_sample;
p->buf_overlap = malloc( p->bytes_overlap );
p->table_blend = malloc( p->samples_overlap * 4 ); /* sizeof (int32|float) */
- if( ! p->buf_overlap || ! p->table_blend ) {
+ if( !p->buf_overlap || !p->table_blend )
return VLC_ENOMEM;
- }
- if( p->bytes_overlap > prev_overlap ) {
+ if( p->bytes_overlap > prev_overlap )
memset( (uint8_t *)p->buf_overlap + prev_overlap, 0, p->bytes_overlap - prev_overlap );
- }
+
float *pb = p->table_blend;
float t = (float)frames_overlap;
- for( i = 0; i<frames_overlap; i++ ) {
+ for( i = 0; i<frames_overlap; i++ )
+ {
float v = i / t;
- for( j = 0; j < p->samples_per_frame; j++ ) {
+ for( j = 0; j < p->samples_per_frame; j++ )
*pb++ = v;
- }
}
p->output_overlap = output_overlap_float;
}
/* best overlap */
p->frames_search = ( frames_overlap <= 1 ) ? 0 : p->ms_search * p->sample_rate / 1000.0;
- if( p->frames_search < 1 ) { /* if no search */
+ if( p->frames_search < 1 )
+ { /* if no search */
p->best_overlap_offset = NULL;
- } else {
+ }
+ else
+ {
unsigned bytes_pre_corr = ( p->samples_overlap - p->samples_per_frame ) * 4; /* sizeof (int32|float) */
p->buf_pre_corr = malloc( bytes_pre_corr );
p->table_window = malloc( bytes_pre_corr );
- if( ! p->buf_pre_corr || ! p->table_window ) {
+ if( ! p->buf_pre_corr || ! p->table_window )
return VLC_ENOMEM;
- }
float *pw = p->table_window;
- for( i = 1; i<frames_overlap; i++ ) {
+ for( i = 1; i<frames_overlap; i++ )
+ {
float v = i * ( frames_overlap - i );
- for( j = 0; j < p->samples_per_frame; j++ ) {
+ for( j = 0; j < p->samples_per_frame; j++ )
*pw++ = v;
- }
}
p->best_overlap_offset = best_overlap_offset_float;
}
unsigned new_size = ( p->frames_search + frames_stride + frames_overlap ) * p->bytes_per_frame;
- if( p->bytes_queued > new_size ) {
- if( p->bytes_to_slide > p->bytes_queued ) {
+ if( p->bytes_queued > new_size )
+ {
+ if( p->bytes_to_slide > p->bytes_queued )
+ {
p->bytes_to_slide -= p->bytes_queued;
p->bytes_queued = 0;
- } else {
+ }
+ else
+ {
unsigned new_queued = __MIN( p->bytes_queued - p->bytes_to_slide, new_size );
memmove( p->buf_queue,
p->buf_queue + p->bytes_queued - new_queued,
}
p->bytes_queue_max = new_size;
p->buf_queue = malloc( p->bytes_queue_max );
- if( ! p->buf_queue ) {
+ if( ! p->buf_queue )
return VLC_ENOMEM;
- }
p->bytes_stride_scaled = p->bytes_stride * p->scale;
p->frames_stride_scaled = p->bytes_stride_scaled / p->bytes_per_frame;
}
if( ! b_fit )
- {
return VLC_EGENERIC;
- }
p_filter->pf_do_work = DoWork;
p_filter->b_in_place = false;
/* Allocate structure */
p_sys = p_filter->p_sys = malloc( sizeof(aout_filter_sys_t) );
if( ! p_sys )
- {
return VLC_ENOMEM;
- }
p_sys->scale = 1.0;
p_sys->sample_rate = p_filter->input.i_rate;
p_sys->bytes_queued = 0;
p_sys->bytes_to_slide = 0;
p_sys->frames_stride_error = 0;
- return reinit_buffers( p_filter );
+
+ if( reinit_buffers( p_filter ) != VLC_SUCCESS )
+ {
+ Close( p_this );
+ return VLC_EGENERIC;
+ }
+ return VLC_SUCCESS;
}
static void Close( vlc_object_t *p_this )