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aacenc_is: add a flag to use pure coefficients instead
This commit adds a flag to use the pure coefficients instead of the processed ones (sce->coeffs). This is needed because IS will apply the changes to the coefficients immediately before the adjust_common_prediction function and it doesn't make sense to measure stereo channel coefficient difference when one of the channels coefficients are all zero. Therefore add a flag to use pure coefficients in that case. TNS is the only thing touching the coefficients before IS so common window prediction will not take that into account but the effect of the TNS filter per coefficient can be small (a few percent) so to some approximation it's fine to just ignore that. Also fixed a small error which doesn't alter the results that much. pow(sqrt(number), 3.0/4.0) == pow(number, 3.0/8.0) != pow(number, 3.0/4.0). Signed-off-by: Rostislav Pehlivanov <atomnuker@gmail.com>
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@ -32,39 +32,39 @@
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struct AACISError ff_aac_is_encoding_err(AACEncContext *s, ChannelElement *cpe,
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int start, int w, int g, float ener0,
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float ener1, float ener01, int phase)
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float ener1, float ener01,
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int use_pcoeffs, int phase)
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{
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int i, w2;
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SingleChannelElement *sce0 = &cpe->ch[0];
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SingleChannelElement *sce1 = &cpe->ch[1];
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float *L = use_pcoeffs ? sce0->pcoeffs : sce0->coeffs;
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float *R = use_pcoeffs ? sce1->pcoeffs : sce1->coeffs;
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float *L34 = &s->scoefs[256*0], *R34 = &s->scoefs[256*1];
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float *IS = &s->scoefs[256*2], *I34 = &s->scoefs[256*3];
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float dist1 = 0.0f, dist2 = 0.0f;
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struct AACISError is_error = {0};
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SingleChannelElement *sce0 = &cpe->ch[0];
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SingleChannelElement *sce1 = &cpe->ch[1];
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for (w2 = 0; w2 < sce0->ics.group_len[w]; w2++) {
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FFPsyBand *band0 = &s->psy.ch[s->cur_channel+0].psy_bands[(w+w2)*16+g];
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FFPsyBand *band1 = &s->psy.ch[s->cur_channel+1].psy_bands[(w+w2)*16+g];
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int is_band_type, is_sf_idx = FFMAX(1, sce0->sf_idx[(w+w2)*16+g]-4);
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float e01_34 = phase*pow(sqrt(ener1/ener0), 3.0/4.0);
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float e01_34 = phase*pow(ener1/ener0, 3.0/4.0);
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float maxval, dist_spec_err = 0.0f;
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float minthr = FFMIN(band0->threshold, band1->threshold);
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for (i = 0; i < sce0->ics.swb_sizes[g]; i++) {
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IS[i] = (sce0->pcoeffs[start+(w+w2)*128+i]+
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phase*sce1->pcoeffs[start+(w+w2)*128+i])*
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sqrt(ener0/ener01);
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}
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abs_pow34_v(L34, &sce0->coeffs[start+(w+w2)*128], sce0->ics.swb_sizes[g]);
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abs_pow34_v(R34, &sce1->coeffs[start+(w+w2)*128], sce0->ics.swb_sizes[g]);
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abs_pow34_v(I34, IS, sce0->ics.swb_sizes[g]);
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for (i = 0; i < sce0->ics.swb_sizes[g]; i++)
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IS[i] = (L[start+(w+w2)*128+i] + phase*R[start+(w+w2)*128+i])*sqrt(ener0/ener01);
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abs_pow34_v(L34, &L[start+(w+w2)*128], sce0->ics.swb_sizes[g]);
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abs_pow34_v(R34, &R[start+(w+w2)*128], sce0->ics.swb_sizes[g]);
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abs_pow34_v(I34, IS, sce0->ics.swb_sizes[g]);
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maxval = find_max_val(1, sce0->ics.swb_sizes[g], I34);
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is_band_type = find_min_book(maxval, is_sf_idx);
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dist1 += quantize_band_cost(s, &sce0->coeffs[start + (w+w2)*128], L34,
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dist1 += quantize_band_cost(s, &L[start + (w+w2)*128], L34,
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sce0->ics.swb_sizes[g],
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sce0->sf_idx[(w+w2)*16+g],
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sce0->band_type[(w+w2)*16+g],
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s->lambda / band0->threshold, INFINITY, NULL, 0);
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dist1 += quantize_band_cost(s, &sce1->coeffs[start + (w+w2)*128], R34,
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dist1 += quantize_band_cost(s, &R[start + (w+w2)*128], R34,
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sce1->ics.swb_sizes[g],
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sce1->sf_idx[(w+w2)*16+g],
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sce1->band_type[(w+w2)*16+g],
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@ -111,15 +111,15 @@ void ff_aac_search_for_is(AACEncContext *s, AVCodecContext *avctx, ChannelElemen
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for (i = 0; i < sce0->ics.swb_sizes[g]; i++) {
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float coef0 = sce0->pcoeffs[start+(w+w2)*128+i];
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float coef1 = sce1->pcoeffs[start+(w+w2)*128+i];
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ener0 += coef0*coef0;
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ener1 += coef1*coef1;
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ener0 += coef0*coef0;
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ener1 += coef1*coef1;
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ener01 += (coef0 + coef1)*(coef0 + coef1);
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}
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}
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ph_err1 = ff_aac_is_encoding_err(s, cpe, start, w, g,
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ener0, ener1, ener01, -1);
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ener0, ener1, ener01, 0, -1);
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ph_err2 = ff_aac_is_encoding_err(s, cpe, start, w, g,
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ener0, ener1, ener01, +1);
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ener0, ener1, ener01, 0, +1);
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erf = ph_err1.error < ph_err2.error ? &ph_err1 : &ph_err2;
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if (erf->pass) {
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cpe->is_mask[w*16+g] = 1;
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@ -43,7 +43,8 @@ struct AACISError {
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struct AACISError ff_aac_is_encoding_err(AACEncContext *s, ChannelElement *cpe,
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int start, int w, int g, float ener0,
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float ener1, float ener01, int phase);
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float ener1, float ener01,
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int use_pcoeffs, int phase);
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void ff_aac_search_for_is(AACEncContext *s, AVCodecContext *avctx, ChannelElement *cpe);
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#endif /* AVCODEC_AACENC_IS_H */
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@ -179,15 +179,15 @@ void ff_aac_adjust_common_prediction(AACEncContext *s, ChannelElement *cpe)
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for (i = 0; i < sce0->ics.swb_sizes[g]; i++) {
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float coef0 = sce0->pcoeffs[start+(w+w2)*128+i];
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float coef1 = sce1->pcoeffs[start+(w+w2)*128+i];
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ener0 += coef0*coef0;
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ener1 += coef1*coef1;
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ener0 += coef0*coef0;
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ener1 += coef1*coef1;
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ener01 += (coef0 + coef1)*(coef0 + coef1);
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}
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}
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ph_err1 = ff_aac_is_encoding_err(s, cpe, start, w, g,
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ener0, ener1, ener01, -1);
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ener0, ener1, ener01, 1, -1);
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ph_err2 = ff_aac_is_encoding_err(s, cpe, start, w, g,
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ener0, ener1, ener01, +1);
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ener0, ener1, ener01, 1, +1);
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erf = ph_err1.error < ph_err2.error ? &ph_err1 : &ph_err2;
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if (erf->pass) {
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sce0->ics.prediction_used[sfb] = 1;
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