@ -51,9 +51,6 @@
/** Frequency in Hz for lower limit of noise substitution **/
/** Frequency in Hz for lower limit of noise substitution **/
# define NOISE_LOW_LIMIT 4000
# define NOISE_LOW_LIMIT 4000
/** Pointless to substitute very high short lived inaudiable frequencies **/
# define NOISE_HIGH_LIMIT 18120
/* Parameter of f(x) = a*(lambda/100), defines the maximum fourier spread
/* Parameter of f(x) = a*(lambda/100), defines the maximum fourier spread
* beyond which no PNS is used ( since the SFBs contain tone rather than noise ) */
* beyond which no PNS is used ( since the SFBs contain tone rather than noise ) */
# define NOISE_SPREAD_THRESHOLD 0.5073f
# define NOISE_SPREAD_THRESHOLD 0.5073f
@ -886,7 +883,7 @@ static void search_for_pns(AACEncContext *s, AVCodecContext *avctx, SingleChanne
const int start = sce - > ics . swb_offset [ w * 16 + g ] ;
const int start = sce - > ics . swb_offset [ w * 16 + g ] ;
const float freq = start * freq_mult ;
const float freq = start * freq_mult ;
const float freq_boost = FFMAX ( 0.88f * freq / NOISE_LOW_LIMIT , 1.0f ) ;
const float freq_boost = FFMAX ( 0.88f * freq / NOISE_LOW_LIMIT , 1.0f ) ;
if ( freq < NOISE_LOW_LIMIT )
if ( freq < NOISE_LOW_LIMIT | | avctx - > cutoff & & freq > = avctx - > cutoff )
continue ;
continue ;
for ( w2 = 0 ; w2 < sce - > ics . group_len [ w ] ; w2 + + ) {
for ( w2 = 0 ; w2 < sce - > ics . group_len [ w ] ; w2 + + ) {
band = & s - > psy . ch [ s - > cur_channel ] . psy_bands [ ( w + w2 ) * 16 + g ] ;
band = & s - > psy . ch [ s - > cur_channel ] . psy_bands [ ( w + w2 ) * 16 + g ] ;
@ -899,7 +896,7 @@ static void search_for_pns(AACEncContext *s, AVCodecContext *avctx, SingleChanne
dist_thresh = FFMIN ( 2.5f * NOISE_LOW_LIMIT / freq , 1.27f ) ;
dist_thresh = FFMIN ( 2.5f * NOISE_LOW_LIMIT / freq , 1.27f ) ;
if ( sce - > zeroes [ w * 16 + g ] | | spread < spread_threshold | |
if ( sce - > zeroes [ w * 16 + g ] | | spread < spread_threshold | |
sfb_energy > threshold * thr_mult * freq_boost | | ! sfb_energy ) {
sfb_energy > threshold * thr_mult * freq_boost ) {
sce - > pns_ener [ w * 16 + g ] = sfb_energy ;
sce - > pns_ener [ w * 16 + g ] = sfb_energy ;
continue ;
continue ;
}
}