mirror of
https://github.com/FFmpeg/FFmpeg.git
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390 lines
12 KiB
C
390 lines
12 KiB
C
/*
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* AC-3 DSP functions
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* Copyright (c) 2011 Justin Ruggles
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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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#include "libavutil/mem_internal.h"
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#include "avcodec.h"
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#include "ac3.h"
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#include "ac3dsp.h"
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#include "mathops.h"
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static void ac3_exponent_min_c(uint8_t *exp, int num_reuse_blocks, int nb_coefs)
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{
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int blk, i;
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if (!num_reuse_blocks)
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return;
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for (i = 0; i < nb_coefs; i++) {
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uint8_t min_exp = *exp;
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uint8_t *exp1 = exp + 256;
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for (blk = 0; blk < num_reuse_blocks; blk++) {
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uint8_t next_exp = *exp1;
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if (next_exp < min_exp)
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min_exp = next_exp;
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exp1 += 256;
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}
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*exp++ = min_exp;
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}
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}
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static void float_to_fixed24_c(int32_t *dst, const float *src, unsigned int len)
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{
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const float scale = 1 << 24;
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do {
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*dst++ = lrintf(*src++ * scale);
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*dst++ = lrintf(*src++ * scale);
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*dst++ = lrintf(*src++ * scale);
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*dst++ = lrintf(*src++ * scale);
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*dst++ = lrintf(*src++ * scale);
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*dst++ = lrintf(*src++ * scale);
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*dst++ = lrintf(*src++ * scale);
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*dst++ = lrintf(*src++ * scale);
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len -= 8;
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} while (len > 0);
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}
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static void ac3_bit_alloc_calc_bap_c(int16_t *mask, int16_t *psd,
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int start, int end,
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int snr_offset, int floor,
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const uint8_t *bap_tab, uint8_t *bap)
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{
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int bin, band, band_end;
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/* special case, if snr offset is -960, set all bap's to zero */
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if (snr_offset == -960) {
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memset(bap, 0, AC3_MAX_COEFS);
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return;
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}
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bin = start;
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band = ff_ac3_bin_to_band_tab[start];
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do {
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int m = (FFMAX(mask[band] - snr_offset - floor, 0) & 0x1FE0) + floor;
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band_end = ff_ac3_band_start_tab[++band];
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band_end = FFMIN(band_end, end);
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for (; bin < band_end; bin++) {
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int address = av_clip_uintp2((psd[bin] - m) >> 5, 6);
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bap[bin] = bap_tab[address];
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}
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} while (end > band_end);
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}
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static void ac3_update_bap_counts_c(uint16_t mant_cnt[16], uint8_t *bap,
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int len)
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{
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while (len-- > 0)
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mant_cnt[bap[len]]++;
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}
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DECLARE_ALIGNED(16, const uint16_t, ff_ac3_bap_bits)[16] = {
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0, 0, 0, 3, 0, 4, 5, 6, 7, 8, 9, 10, 11, 12, 14, 16
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};
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static int ac3_compute_mantissa_size_c(uint16_t mant_cnt[6][16])
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{
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int blk, bap;
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int bits = 0;
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for (blk = 0; blk < AC3_MAX_BLOCKS; blk++) {
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// bap=1 : 3 mantissas in 5 bits
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bits += (mant_cnt[blk][1] / 3) * 5;
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// bap=2 : 3 mantissas in 7 bits
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// bap=4 : 2 mantissas in 7 bits
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bits += ((mant_cnt[blk][2] / 3) + (mant_cnt[blk][4] >> 1)) * 7;
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// bap=3 : 1 mantissa in 3 bits
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bits += mant_cnt[blk][3] * 3;
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// bap=5 to 15 : get bits per mantissa from table
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for (bap = 5; bap < 16; bap++)
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bits += mant_cnt[blk][bap] * ff_ac3_bap_bits[bap];
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}
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return bits;
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}
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static void ac3_extract_exponents_c(uint8_t *exp, int32_t *coef, int nb_coefs)
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{
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int i;
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for (i = 0; i < nb_coefs; i++) {
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int v = abs(coef[i]);
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exp[i] = v ? 23 - av_log2(v) : 24;
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}
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}
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static void ac3_sum_square_butterfly_int32_c(int64_t sum[4],
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const int32_t *coef0,
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const int32_t *coef1,
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int len)
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{
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int i;
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sum[0] = sum[1] = sum[2] = sum[3] = 0;
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for (i = 0; i < len; i++) {
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int lt = coef0[i];
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int rt = coef1[i];
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int md = lt + rt;
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int sd = lt - rt;
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MAC64(sum[0], lt, lt);
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MAC64(sum[1], rt, rt);
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MAC64(sum[2], md, md);
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MAC64(sum[3], sd, sd);
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}
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}
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static void ac3_sum_square_butterfly_float_c(float sum[4],
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const float *coef0,
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const float *coef1,
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int len)
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{
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int i;
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sum[0] = sum[1] = sum[2] = sum[3] = 0;
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for (i = 0; i < len; i++) {
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float lt = coef0[i];
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float rt = coef1[i];
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float md = lt + rt;
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float sd = lt - rt;
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sum[0] += lt * lt;
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sum[1] += rt * rt;
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sum[2] += md * md;
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sum[3] += sd * sd;
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}
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}
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static void ac3_downmix_5_to_2_symmetric_c(float **samples, float **matrix,
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int len)
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{
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int i;
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float v0, v1;
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float front_mix = matrix[0][0];
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float center_mix = matrix[0][1];
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float surround_mix = matrix[0][3];
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for (i = 0; i < len; i++) {
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v0 = samples[0][i] * front_mix +
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samples[1][i] * center_mix +
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samples[3][i] * surround_mix;
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v1 = samples[1][i] * center_mix +
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samples[2][i] * front_mix +
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samples[4][i] * surround_mix;
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samples[0][i] = v0;
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samples[1][i] = v1;
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}
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}
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static void ac3_downmix_5_to_1_symmetric_c(float **samples, float **matrix,
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int len)
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{
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int i;
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float front_mix = matrix[0][0];
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float center_mix = matrix[0][1];
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float surround_mix = matrix[0][3];
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for (i = 0; i < len; i++) {
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samples[0][i] = samples[0][i] * front_mix +
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samples[1][i] * center_mix +
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samples[2][i] * front_mix +
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samples[3][i] * surround_mix +
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samples[4][i] * surround_mix;
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}
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}
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static void ac3_downmix_c(float **samples, float **matrix,
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int out_ch, int in_ch, int len)
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{
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int i, j;
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float v0, v1;
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if (out_ch == 2) {
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for (i = 0; i < len; i++) {
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v0 = v1 = 0.0f;
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for (j = 0; j < in_ch; j++) {
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v0 += samples[j][i] * matrix[0][j];
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v1 += samples[j][i] * matrix[1][j];
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}
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samples[0][i] = v0;
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samples[1][i] = v1;
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}
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} else if (out_ch == 1) {
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for (i = 0; i < len; i++) {
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v0 = 0.0f;
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for (j = 0; j < in_ch; j++)
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v0 += samples[j][i] * matrix[0][j];
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samples[0][i] = v0;
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}
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}
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}
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static void ac3_downmix_5_to_2_symmetric_c_fixed(int32_t **samples, int16_t **matrix,
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int len)
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{
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int i;
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int64_t v0, v1;
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int16_t front_mix = matrix[0][0];
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int16_t center_mix = matrix[0][1];
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int16_t surround_mix = matrix[0][3];
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for (i = 0; i < len; i++) {
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v0 = (int64_t)samples[0][i] * front_mix +
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(int64_t)samples[1][i] * center_mix +
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(int64_t)samples[3][i] * surround_mix;
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v1 = (int64_t)samples[1][i] * center_mix +
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(int64_t)samples[2][i] * front_mix +
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(int64_t)samples[4][i] * surround_mix;
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samples[0][i] = (v0+2048)>>12;
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samples[1][i] = (v1+2048)>>12;
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}
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}
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static void ac3_downmix_5_to_1_symmetric_c_fixed(int32_t **samples, int16_t **matrix,
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int len)
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{
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int i;
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int64_t v0;
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int16_t front_mix = matrix[0][0];
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int16_t center_mix = matrix[0][1];
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int16_t surround_mix = matrix[0][3];
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for (i = 0; i < len; i++) {
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v0 = (int64_t)samples[0][i] * front_mix +
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(int64_t)samples[1][i] * center_mix +
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(int64_t)samples[2][i] * front_mix +
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(int64_t)samples[3][i] * surround_mix +
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(int64_t)samples[4][i] * surround_mix;
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samples[0][i] = (v0+2048)>>12;
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}
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}
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static void ac3_downmix_c_fixed(int32_t **samples, int16_t **matrix,
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int out_ch, int in_ch, int len)
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{
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int i, j;
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int64_t v0, v1;
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if (out_ch == 2) {
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for (i = 0; i < len; i++) {
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v0 = v1 = 0;
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for (j = 0; j < in_ch; j++) {
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v0 += (int64_t)samples[j][i] * matrix[0][j];
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v1 += (int64_t)samples[j][i] * matrix[1][j];
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}
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samples[0][i] = (v0+2048)>>12;
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samples[1][i] = (v1+2048)>>12;
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}
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} else if (out_ch == 1) {
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for (i = 0; i < len; i++) {
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v0 = 0;
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for (j = 0; j < in_ch; j++)
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v0 += (int64_t)samples[j][i] * matrix[0][j];
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samples[0][i] = (v0+2048)>>12;
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}
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}
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}
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void ff_ac3dsp_downmix_fixed(AC3DSPContext *c, int32_t **samples, int16_t **matrix,
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int out_ch, int in_ch, int len)
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{
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if (c->in_channels != in_ch || c->out_channels != out_ch) {
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c->in_channels = in_ch;
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c->out_channels = out_ch;
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c->downmix_fixed = NULL;
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if (in_ch == 5 && out_ch == 2 &&
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!(matrix[1][0] | matrix[0][2] |
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matrix[1][3] | matrix[0][4] |
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(matrix[0][1] ^ matrix[1][1]) |
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(matrix[0][0] ^ matrix[1][2]))) {
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c->downmix_fixed = ac3_downmix_5_to_2_symmetric_c_fixed;
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} else if (in_ch == 5 && out_ch == 1 &&
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matrix[0][0] == matrix[0][2] &&
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matrix[0][3] == matrix[0][4]) {
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c->downmix_fixed = ac3_downmix_5_to_1_symmetric_c_fixed;
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}
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}
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if (c->downmix_fixed)
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c->downmix_fixed(samples, matrix, len);
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else
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ac3_downmix_c_fixed(samples, matrix, out_ch, in_ch, len);
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}
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void ff_ac3dsp_downmix(AC3DSPContext *c, float **samples, float **matrix,
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int out_ch, int in_ch, int len)
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{
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if (c->in_channels != in_ch || c->out_channels != out_ch) {
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int **matrix_cmp = (int **)matrix;
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c->in_channels = in_ch;
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c->out_channels = out_ch;
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c->downmix = NULL;
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if (in_ch == 5 && out_ch == 2 &&
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!(matrix_cmp[1][0] | matrix_cmp[0][2] |
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matrix_cmp[1][3] | matrix_cmp[0][4] |
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(matrix_cmp[0][1] ^ matrix_cmp[1][1]) |
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(matrix_cmp[0][0] ^ matrix_cmp[1][2]))) {
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c->downmix = ac3_downmix_5_to_2_symmetric_c;
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} else if (in_ch == 5 && out_ch == 1 &&
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matrix_cmp[0][0] == matrix_cmp[0][2] &&
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matrix_cmp[0][3] == matrix_cmp[0][4]) {
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c->downmix = ac3_downmix_5_to_1_symmetric_c;
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}
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if (ARCH_X86)
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ff_ac3dsp_set_downmix_x86(c);
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}
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if (c->downmix)
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c->downmix(samples, matrix, len);
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else
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ac3_downmix_c(samples, matrix, out_ch, in_ch, len);
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}
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av_cold void ff_ac3dsp_init(AC3DSPContext *c, int bit_exact)
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{
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c->ac3_exponent_min = ac3_exponent_min_c;
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c->float_to_fixed24 = float_to_fixed24_c;
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c->bit_alloc_calc_bap = ac3_bit_alloc_calc_bap_c;
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c->update_bap_counts = ac3_update_bap_counts_c;
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c->compute_mantissa_size = ac3_compute_mantissa_size_c;
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c->extract_exponents = ac3_extract_exponents_c;
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c->sum_square_butterfly_int32 = ac3_sum_square_butterfly_int32_c;
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c->sum_square_butterfly_float = ac3_sum_square_butterfly_float_c;
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c->in_channels = 0;
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c->out_channels = 0;
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c->downmix = NULL;
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c->downmix_fixed = NULL;
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if (ARCH_ARM)
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ff_ac3dsp_init_arm(c, bit_exact);
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if (ARCH_X86)
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ff_ac3dsp_init_x86(c, bit_exact);
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if (ARCH_MIPS)
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ff_ac3dsp_init_mips(c, bit_exact);
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}
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