GCC Code Coverage Report
Directory: ../../../ffmpeg/ Exec Total Coverage
File: src/libavcodec/aacenc_is.c Lines: 93 93 100.0 %
Date: 2019-11-22 03:34:36 Branches: 53 56 94.6 %

Line Branch Exec Source
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/*
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 * AAC encoder intensity stereo
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 * Copyright (C) 2015 Rostislav Pehlivanov
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 *
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 * This file is part of FFmpeg.
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 *
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 * FFmpeg is free software; you can redistribute it and/or
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 * modify it under the terms of the GNU Lesser General Public
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 * License as published by the Free Software Foundation; either
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 * version 2.1 of the License, or (at your option) any later version.
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 *
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 * FFmpeg is distributed in the hope that it will be useful,
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 * but WITHOUT ANY WARRANTY; without even the implied warranty of
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 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
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 * Lesser General Public License for more details.
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 *
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 * You should have received a copy of the GNU Lesser General Public
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 * License along with FFmpeg; if not, write to the Free Software
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 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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 */
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/**
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 * @file
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 * AAC encoder Intensity Stereo
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 * @author Rostislav Pehlivanov ( atomnuker gmail com )
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 */
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#include "aacenc.h"
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#include "aacenc_utils.h"
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#include "aacenc_is.h"
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#include "aacenc_quantization.h"
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20392
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,
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                                         int use_pcoeffs, int phase)
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{
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    int i, w2;
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20392
    SingleChannelElement *sce0 = &cpe->ch[0];
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20392
    SingleChannelElement *sce1 = &cpe->ch[1];
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20392
    float *L = use_pcoeffs ? sce0->pcoeffs : sce0->coeffs;
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20392
    float *R = use_pcoeffs ? sce1->pcoeffs : sce1->coeffs;
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20392
    float *L34 = &s->scoefs[256*0], *R34 = &s->scoefs[256*1];
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20392
    float *IS  = &s->scoefs[256*2], *I34 = &s->scoefs[256*3];
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20392
    float dist1 = 0.0f, dist2 = 0.0f;
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20392
    struct AACISError is_error = {0};
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20392
    if (ener01 <= 0 || ener0 <= 0) {
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        is_error.pass = 0;
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        return is_error;
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    }
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    for (w2 = 0; w2 < sce0->ics.group_len[w]; w2++) {
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20476
        FFPsyBand *band0 = &s->psy.ch[s->cur_channel+0].psy_bands[(w+w2)*16+g];
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20476
        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*16+g]-4);
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20476
        float e01_34 = phase*pos_pow34(ener1/ener0);
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20476
        float maxval, dist_spec_err = 0.0f;
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20476
        float minthr = FFMIN(band0->threshold, band1->threshold);
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671048
        for (i = 0; i < sce0->ics.swb_sizes[g]; i++)
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650572
            IS[i] = (L[start+(w+w2)*128+i] + phase*R[start+(w+w2)*128+i])*sqrt(ener0/ener01);
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20476
        s->abs_pow34(L34, &L[start+(w+w2)*128], sce0->ics.swb_sizes[g]);
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20476
        s->abs_pow34(R34, &R[start+(w+w2)*128], sce0->ics.swb_sizes[g]);
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        s->abs_pow34(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, &L[start + (w+w2)*128], L34,
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                                    sce0->ics.swb_sizes[g],
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20476
                                    sce0->sf_idx[w*16+g],
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                                    sce0->band_type[w*16+g],
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                                    s->lambda / band0->threshold, INFINITY, NULL, NULL, 0);
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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*16+g],
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                                    sce1->band_type[w*16+g],
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                                    s->lambda / band1->threshold, INFINITY, NULL, NULL, 0);
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40952
        dist2 += quantize_band_cost(s, IS, I34, sce0->ics.swb_sizes[g],
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                                    is_sf_idx, is_band_type,
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                                    s->lambda / minthr, INFINITY, NULL, NULL, 0);
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        for (i = 0; i < sce0->ics.swb_sizes[g]; i++) {
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650572
            dist_spec_err += (L34[i] - I34[i])*(L34[i] - I34[i]);
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650572
            dist_spec_err += (R34[i] - I34[i]*e01_34)*(R34[i] - I34[i]*e01_34);
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        }
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20476
        dist_spec_err *= s->lambda / minthr;
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        dist2 += dist_spec_err;
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    }
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    is_error.pass = dist2 <= dist1;
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    is_error.phase = phase;
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    is_error.error = dist2 - dist1;
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    is_error.dist1 = dist1;
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    is_error.dist2 = dist2;
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    is_error.ener01 = ener01;
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    return is_error;
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}
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void ff_aac_search_for_is(AACEncContext *s, AVCodecContext *avctx, ChannelElement *cpe)
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{
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    SingleChannelElement *sce0 = &cpe->ch[0];
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    SingleChannelElement *sce1 = &cpe->ch[1];
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    int start = 0, count = 0, w, w2, g, i, prev_sf1 = -1, prev_bt = -1, prev_is = 0;
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    const float freq_mult = avctx->sample_rate/(1024.0f/sce0->ics.num_windows)/2.0f;
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    uint8_t nextband1[128];
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    if (!cpe->common_window)
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        return;
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    /** Scout out next nonzero bands */
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    ff_init_nextband_map(sce1, nextband1);
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    for (w = 0; w < sce0->ics.num_windows; w += sce0->ics.group_len[w]) {
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        start = 0;
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        for (g = 0;  g < sce0->ics.num_swb; g++) {
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            if (start*freq_mult > INT_STEREO_LOW_LIMIT*(s->lambda/170.0f) &&
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                cpe->ch[0].band_type[w*16+g] != NOISE_BT && !cpe->ch[0].zeroes[w*16+g] &&
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16340
                cpe->ch[1].band_type[w*16+g] != NOISE_BT && !cpe->ch[1].zeroes[w*16+g] &&
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8169
                ff_sfdelta_can_remove_band(sce1, nextband1, prev_sf1, w*16+g)) {
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8169
                float ener0 = 0.0f, ener1 = 0.0f, ener01 = 0.0f, ener01p = 0.0f;
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                struct AACISError ph_err1, ph_err2, *best;
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                for (w2 = 0; w2 < sce0->ics.group_len[w]; w2++) {
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                    for (i = 0; i < sce0->ics.swb_sizes[g]; i++) {
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283884
                        float coef0 = sce0->coeffs[start+(w+w2)*128+i];
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283884
                        float coef1 = sce1->coeffs[start+(w+w2)*128+i];
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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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                        ener01p += (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, ener01p, 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, 0, +1);
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                best = (ph_err1.pass && ph_err1.error < ph_err2.error) ? &ph_err1 : &ph_err2;
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                if (best->pass) {
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8132
                    cpe->is_mask[w*16+g] = 1;
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                    cpe->ms_mask[w*16+g] = 0;
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                    cpe->ch[0].is_ener[w*16+g] = sqrt(ener0 / best->ener01);
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                    cpe->ch[1].is_ener[w*16+g] = ener0/ener1;
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                    cpe->ch[1].band_type[w*16+g] = (best->phase > 0) ? INTENSITY_BT : INTENSITY_BT2;
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8132
                    if (prev_is && prev_bt != cpe->ch[1].band_type[w*16+g]) {
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                        /** Flip M/S mask and pick the other CB, since it encodes more efficiently */
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                        cpe->ms_mask[w*16+g] = 1;
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                        cpe->ch[1].band_type[w*16+g] = (best->phase > 0) ? INTENSITY_BT2 : INTENSITY_BT;
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                    }
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8132
                    prev_bt = cpe->ch[1].band_type[w*16+g];
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8132
                    count++;
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                }
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            }
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54754
            if (!sce1->zeroes[w*16+g] && sce1->band_type[w*16+g] < RESERVED_BT)
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28176
                prev_sf1 = sce1->sf_idx[w*16+g];
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54754
            prev_is = cpe->is_mask[w*16+g];
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            start += sce0->ics.swb_sizes[g];
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        }
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    }
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    cpe->is_mode = !!count;
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}