* AAC encoder psychoacoustic model
*/
+#include "libavutil/libm.h"
+
#include "avcodec.h"
#include "aactab.h"
#include "psymodel.h"
coeff->spread_low[1] = pow(10.0, -bark_width * en_spread_low);
coeff->spread_hi [1] = pow(10.0, -bark_width * en_spread_hi);
pe_min = bark_pe * bark_width;
- minsnr = pow(2.0f, pe_min / band_sizes[g]) - 1.5f;
+ minsnr = exp2(pe_min / band_sizes[g]) - 1.5f;
coeff->min_snr = av_clipf(1.0f / minsnr, PSY_SNR_25DB, PSY_SNR_1DB);
}
start = 0;
{
float thr_avg, reduction;
- thr_avg = powf(2.0f, (a - pe) / (4.0f * active_lines));
- reduction = powf(2.0f, (a - desired_pe) / (4.0f * active_lines)) - thr_avg;
+ if(active_lines == 0.0)
+ return 0;
+
+ thr_avg = exp2f((a - pe) / (4.0f * active_lines));
+ reduction = exp2f((a - desired_pe) / (4.0f * active_lines)) - thr_avg;
return FFMAX(reduction, 0.0f);
}
form_factor += sqrtf(fabs(coefs[start+i]));
}
band->thr = band->energy * 0.001258925f;
- band->nz_lines = form_factor / powf(band->energy / band_sizes[g], 0.25f);
+ band->nz_lines = band->energy>0 ? form_factor / powf(band->energy / band_sizes[g], 0.25f) : 0;
start += band_sizes[g];
}
float delta_sfb_pe = band->norm_fac * norm_fac * delta_pe;
float thr = band->thr;
- thr *= powf(2.0f, delta_sfb_pe / band->active_lines);
+ thr *= exp2f(delta_sfb_pe / band->active_lines);
if (thr > coeffs[g].min_snr * band->energy && band->avoid_holes == PSY_3GPP_AH_INACTIVE)
thr = FFMAX(band->thr, coeffs[g].min_snr * band->energy);
band->thr = thr;