1cabdff1aSopenharmony_ci/* 2cabdff1aSopenharmony_ci * AC-3 encoder float/fixed template 3cabdff1aSopenharmony_ci * Copyright (c) 2000 Fabrice Bellard 4cabdff1aSopenharmony_ci * Copyright (c) 2006-2011 Justin Ruggles <justin.ruggles@gmail.com> 5cabdff1aSopenharmony_ci * Copyright (c) 2006-2010 Prakash Punnoor <prakash@punnoor.de> 6cabdff1aSopenharmony_ci * 7cabdff1aSopenharmony_ci * This file is part of FFmpeg. 8cabdff1aSopenharmony_ci * 9cabdff1aSopenharmony_ci * FFmpeg is free software; you can redistribute it and/or 10cabdff1aSopenharmony_ci * modify it under the terms of the GNU Lesser General Public 11cabdff1aSopenharmony_ci * License as published by the Free Software Foundation; either 12cabdff1aSopenharmony_ci * version 2.1 of the License, or (at your option) any later version. 13cabdff1aSopenharmony_ci * 14cabdff1aSopenharmony_ci * FFmpeg is distributed in the hope that it will be useful, 15cabdff1aSopenharmony_ci * but WITHOUT ANY WARRANTY; without even the implied warranty of 16cabdff1aSopenharmony_ci * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU 17cabdff1aSopenharmony_ci * Lesser General Public License for more details. 18cabdff1aSopenharmony_ci * 19cabdff1aSopenharmony_ci * You should have received a copy of the GNU Lesser General Public 20cabdff1aSopenharmony_ci * License along with FFmpeg; if not, write to the Free Software 21cabdff1aSopenharmony_ci * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA 22cabdff1aSopenharmony_ci */ 23cabdff1aSopenharmony_ci 24cabdff1aSopenharmony_ci/** 25cabdff1aSopenharmony_ci * @file 26cabdff1aSopenharmony_ci * AC-3 encoder float/fixed template 27cabdff1aSopenharmony_ci */ 28cabdff1aSopenharmony_ci 29cabdff1aSopenharmony_ci#include "config_components.h" 30cabdff1aSopenharmony_ci 31cabdff1aSopenharmony_ci#include <stdint.h> 32cabdff1aSopenharmony_ci 33cabdff1aSopenharmony_ci#include "libavutil/attributes.h" 34cabdff1aSopenharmony_ci#include "libavutil/internal.h" 35cabdff1aSopenharmony_ci#include "libavutil/mem_internal.h" 36cabdff1aSopenharmony_ci 37cabdff1aSopenharmony_ci#include "audiodsp.h" 38cabdff1aSopenharmony_ci#include "ac3enc.h" 39cabdff1aSopenharmony_ci#include "eac3enc.h" 40cabdff1aSopenharmony_ci 41cabdff1aSopenharmony_ci 42cabdff1aSopenharmony_cistatic int allocate_sample_buffers(AC3EncodeContext *s) 43cabdff1aSopenharmony_ci{ 44cabdff1aSopenharmony_ci int ch; 45cabdff1aSopenharmony_ci 46cabdff1aSopenharmony_ci if (!FF_ALLOC_TYPED_ARRAY(s->windowed_samples, AC3_WINDOW_SIZE) || 47cabdff1aSopenharmony_ci !FF_ALLOCZ_TYPED_ARRAY(s->planar_samples, s->channels)) 48cabdff1aSopenharmony_ci return AVERROR(ENOMEM); 49cabdff1aSopenharmony_ci 50cabdff1aSopenharmony_ci for (ch = 0; ch < s->channels; ch++) { 51cabdff1aSopenharmony_ci if (!(s->planar_samples[ch] = av_mallocz((AC3_FRAME_SIZE + AC3_BLOCK_SIZE) * 52cabdff1aSopenharmony_ci sizeof(**s->planar_samples)))) 53cabdff1aSopenharmony_ci return AVERROR(ENOMEM); 54cabdff1aSopenharmony_ci } 55cabdff1aSopenharmony_ci return 0; 56cabdff1aSopenharmony_ci} 57cabdff1aSopenharmony_ci 58cabdff1aSopenharmony_ci 59cabdff1aSopenharmony_ci/* 60cabdff1aSopenharmony_ci * Copy input samples. 61cabdff1aSopenharmony_ci * Channels are reordered from FFmpeg's default order to AC-3 order. 62cabdff1aSopenharmony_ci */ 63cabdff1aSopenharmony_cistatic void copy_input_samples(AC3EncodeContext *s, SampleType **samples) 64cabdff1aSopenharmony_ci{ 65cabdff1aSopenharmony_ci int ch; 66cabdff1aSopenharmony_ci 67cabdff1aSopenharmony_ci /* copy and remap input samples */ 68cabdff1aSopenharmony_ci for (ch = 0; ch < s->channels; ch++) { 69cabdff1aSopenharmony_ci /* copy last 256 samples of previous frame to the start of the current frame */ 70cabdff1aSopenharmony_ci memcpy(&s->planar_samples[ch][0], &s->planar_samples[ch][AC3_BLOCK_SIZE * s->num_blocks], 71cabdff1aSopenharmony_ci AC3_BLOCK_SIZE * sizeof(s->planar_samples[0][0])); 72cabdff1aSopenharmony_ci 73cabdff1aSopenharmony_ci /* copy new samples for current frame */ 74cabdff1aSopenharmony_ci memcpy(&s->planar_samples[ch][AC3_BLOCK_SIZE], 75cabdff1aSopenharmony_ci samples[s->channel_map[ch]], 76cabdff1aSopenharmony_ci AC3_BLOCK_SIZE * s->num_blocks * sizeof(s->planar_samples[0][0])); 77cabdff1aSopenharmony_ci } 78cabdff1aSopenharmony_ci} 79cabdff1aSopenharmony_ci 80cabdff1aSopenharmony_ci 81cabdff1aSopenharmony_ci/* 82cabdff1aSopenharmony_ci * Apply the MDCT to input samples to generate frequency coefficients. 83cabdff1aSopenharmony_ci * This applies the KBD window and normalizes the input to reduce precision 84cabdff1aSopenharmony_ci * loss due to fixed-point calculations. 85cabdff1aSopenharmony_ci */ 86cabdff1aSopenharmony_cistatic void apply_mdct(AC3EncodeContext *s) 87cabdff1aSopenharmony_ci{ 88cabdff1aSopenharmony_ci int blk, ch; 89cabdff1aSopenharmony_ci 90cabdff1aSopenharmony_ci for (ch = 0; ch < s->channels; ch++) { 91cabdff1aSopenharmony_ci for (blk = 0; blk < s->num_blocks; blk++) { 92cabdff1aSopenharmony_ci AC3Block *block = &s->blocks[blk]; 93cabdff1aSopenharmony_ci const SampleType *input_samples = &s->planar_samples[ch][blk * AC3_BLOCK_SIZE]; 94cabdff1aSopenharmony_ci 95cabdff1aSopenharmony_ci s->fdsp->vector_fmul(s->windowed_samples, input_samples, 96cabdff1aSopenharmony_ci s->mdct_window, AC3_BLOCK_SIZE); 97cabdff1aSopenharmony_ci s->fdsp->vector_fmul_reverse(s->windowed_samples + AC3_BLOCK_SIZE, 98cabdff1aSopenharmony_ci &input_samples[AC3_BLOCK_SIZE], 99cabdff1aSopenharmony_ci s->mdct_window, AC3_BLOCK_SIZE); 100cabdff1aSopenharmony_ci 101cabdff1aSopenharmony_ci s->mdct.mdct_calc(&s->mdct, block->mdct_coef[ch+1], 102cabdff1aSopenharmony_ci s->windowed_samples); 103cabdff1aSopenharmony_ci } 104cabdff1aSopenharmony_ci } 105cabdff1aSopenharmony_ci} 106cabdff1aSopenharmony_ci 107cabdff1aSopenharmony_ci 108cabdff1aSopenharmony_ci/* 109cabdff1aSopenharmony_ci * Calculate coupling channel and coupling coordinates. 110cabdff1aSopenharmony_ci */ 111cabdff1aSopenharmony_cistatic void apply_channel_coupling(AC3EncodeContext *s) 112cabdff1aSopenharmony_ci{ 113cabdff1aSopenharmony_ci LOCAL_ALIGNED_16(CoefType, cpl_coords, [AC3_MAX_BLOCKS], [AC3_MAX_CHANNELS][16]); 114cabdff1aSopenharmony_ci#if AC3ENC_FLOAT 115cabdff1aSopenharmony_ci LOCAL_ALIGNED_16(int32_t, fixed_cpl_coords, [AC3_MAX_BLOCKS], [AC3_MAX_CHANNELS][16]); 116cabdff1aSopenharmony_ci#else 117cabdff1aSopenharmony_ci int32_t (*fixed_cpl_coords)[AC3_MAX_CHANNELS][16] = cpl_coords; 118cabdff1aSopenharmony_ci#endif 119cabdff1aSopenharmony_ci int av_uninit(blk), ch, bnd, i, j; 120cabdff1aSopenharmony_ci CoefSumType energy[AC3_MAX_BLOCKS][AC3_MAX_CHANNELS][16] = {{{0}}}; 121cabdff1aSopenharmony_ci int cpl_start, num_cpl_coefs; 122cabdff1aSopenharmony_ci 123cabdff1aSopenharmony_ci memset(cpl_coords, 0, AC3_MAX_BLOCKS * sizeof(*cpl_coords)); 124cabdff1aSopenharmony_ci#if AC3ENC_FLOAT 125cabdff1aSopenharmony_ci memset(fixed_cpl_coords, 0, AC3_MAX_BLOCKS * sizeof(*cpl_coords)); 126cabdff1aSopenharmony_ci#endif 127cabdff1aSopenharmony_ci 128cabdff1aSopenharmony_ci /* align start to 16-byte boundary. align length to multiple of 32. 129cabdff1aSopenharmony_ci note: coupling start bin % 4 will always be 1 */ 130cabdff1aSopenharmony_ci cpl_start = s->start_freq[CPL_CH] - 1; 131cabdff1aSopenharmony_ci num_cpl_coefs = FFALIGN(s->num_cpl_subbands * 12 + 1, 32); 132cabdff1aSopenharmony_ci cpl_start = FFMIN(256, cpl_start + num_cpl_coefs) - num_cpl_coefs; 133cabdff1aSopenharmony_ci 134cabdff1aSopenharmony_ci /* calculate coupling channel from fbw channels */ 135cabdff1aSopenharmony_ci for (blk = 0; blk < s->num_blocks; blk++) { 136cabdff1aSopenharmony_ci AC3Block *block = &s->blocks[blk]; 137cabdff1aSopenharmony_ci CoefType *cpl_coef = &block->mdct_coef[CPL_CH][cpl_start]; 138cabdff1aSopenharmony_ci if (!block->cpl_in_use) 139cabdff1aSopenharmony_ci continue; 140cabdff1aSopenharmony_ci memset(cpl_coef, 0, num_cpl_coefs * sizeof(*cpl_coef)); 141cabdff1aSopenharmony_ci for (ch = 1; ch <= s->fbw_channels; ch++) { 142cabdff1aSopenharmony_ci CoefType *ch_coef = &block->mdct_coef[ch][cpl_start]; 143cabdff1aSopenharmony_ci if (!block->channel_in_cpl[ch]) 144cabdff1aSopenharmony_ci continue; 145cabdff1aSopenharmony_ci for (i = 0; i < num_cpl_coefs; i++) 146cabdff1aSopenharmony_ci cpl_coef[i] += ch_coef[i]; 147cabdff1aSopenharmony_ci } 148cabdff1aSopenharmony_ci 149cabdff1aSopenharmony_ci /* coefficients must be clipped in order to be encoded */ 150cabdff1aSopenharmony_ci clip_coefficients(&s->adsp, cpl_coef, num_cpl_coefs); 151cabdff1aSopenharmony_ci } 152cabdff1aSopenharmony_ci 153cabdff1aSopenharmony_ci /* calculate energy in each band in coupling channel and each fbw channel */ 154cabdff1aSopenharmony_ci /* TODO: possibly use SIMD to speed up energy calculation */ 155cabdff1aSopenharmony_ci bnd = 0; 156cabdff1aSopenharmony_ci i = s->start_freq[CPL_CH]; 157cabdff1aSopenharmony_ci while (i < s->cpl_end_freq) { 158cabdff1aSopenharmony_ci int band_size = s->cpl_band_sizes[bnd]; 159cabdff1aSopenharmony_ci for (ch = CPL_CH; ch <= s->fbw_channels; ch++) { 160cabdff1aSopenharmony_ci for (blk = 0; blk < s->num_blocks; blk++) { 161cabdff1aSopenharmony_ci AC3Block *block = &s->blocks[blk]; 162cabdff1aSopenharmony_ci if (!block->cpl_in_use || (ch > CPL_CH && !block->channel_in_cpl[ch])) 163cabdff1aSopenharmony_ci continue; 164cabdff1aSopenharmony_ci for (j = 0; j < band_size; j++) { 165cabdff1aSopenharmony_ci CoefType v = block->mdct_coef[ch][i+j]; 166cabdff1aSopenharmony_ci MAC_COEF(energy[blk][ch][bnd], v, v); 167cabdff1aSopenharmony_ci } 168cabdff1aSopenharmony_ci } 169cabdff1aSopenharmony_ci } 170cabdff1aSopenharmony_ci i += band_size; 171cabdff1aSopenharmony_ci bnd++; 172cabdff1aSopenharmony_ci } 173cabdff1aSopenharmony_ci 174cabdff1aSopenharmony_ci /* calculate coupling coordinates for all blocks for all channels */ 175cabdff1aSopenharmony_ci for (blk = 0; blk < s->num_blocks; blk++) { 176cabdff1aSopenharmony_ci AC3Block *block = &s->blocks[blk]; 177cabdff1aSopenharmony_ci if (!block->cpl_in_use) 178cabdff1aSopenharmony_ci continue; 179cabdff1aSopenharmony_ci for (ch = 1; ch <= s->fbw_channels; ch++) { 180cabdff1aSopenharmony_ci if (!block->channel_in_cpl[ch]) 181cabdff1aSopenharmony_ci continue; 182cabdff1aSopenharmony_ci for (bnd = 0; bnd < s->num_cpl_bands; bnd++) { 183cabdff1aSopenharmony_ci cpl_coords[blk][ch][bnd] = calc_cpl_coord(energy[blk][ch][bnd], 184cabdff1aSopenharmony_ci energy[blk][CPL_CH][bnd]); 185cabdff1aSopenharmony_ci } 186cabdff1aSopenharmony_ci } 187cabdff1aSopenharmony_ci } 188cabdff1aSopenharmony_ci 189cabdff1aSopenharmony_ci /* determine which blocks to send new coupling coordinates for */ 190cabdff1aSopenharmony_ci for (blk = 0; blk < s->num_blocks; blk++) { 191cabdff1aSopenharmony_ci AC3Block *block = &s->blocks[blk]; 192cabdff1aSopenharmony_ci AC3Block *block0 = blk ? &s->blocks[blk-1] : NULL; 193cabdff1aSopenharmony_ci 194cabdff1aSopenharmony_ci memset(block->new_cpl_coords, 0, sizeof(block->new_cpl_coords)); 195cabdff1aSopenharmony_ci 196cabdff1aSopenharmony_ci if (block->cpl_in_use) { 197cabdff1aSopenharmony_ci /* send new coordinates if this is the first block, if previous 198cabdff1aSopenharmony_ci * block did not use coupling but this block does, the channels 199cabdff1aSopenharmony_ci * using coupling has changed from the previous block, or the 200cabdff1aSopenharmony_ci * coordinate difference from the last block for any channel is 201cabdff1aSopenharmony_ci * greater than a threshold value. */ 202cabdff1aSopenharmony_ci if (blk == 0 || !block0->cpl_in_use) { 203cabdff1aSopenharmony_ci for (ch = 1; ch <= s->fbw_channels; ch++) 204cabdff1aSopenharmony_ci block->new_cpl_coords[ch] = 1; 205cabdff1aSopenharmony_ci } else { 206cabdff1aSopenharmony_ci for (ch = 1; ch <= s->fbw_channels; ch++) { 207cabdff1aSopenharmony_ci if (!block->channel_in_cpl[ch]) 208cabdff1aSopenharmony_ci continue; 209cabdff1aSopenharmony_ci if (!block0->channel_in_cpl[ch]) { 210cabdff1aSopenharmony_ci block->new_cpl_coords[ch] = 1; 211cabdff1aSopenharmony_ci } else { 212cabdff1aSopenharmony_ci CoefSumType coord_diff = 0; 213cabdff1aSopenharmony_ci for (bnd = 0; bnd < s->num_cpl_bands; bnd++) { 214cabdff1aSopenharmony_ci coord_diff += FFABS(cpl_coords[blk-1][ch][bnd] - 215cabdff1aSopenharmony_ci cpl_coords[blk ][ch][bnd]); 216cabdff1aSopenharmony_ci } 217cabdff1aSopenharmony_ci coord_diff /= s->num_cpl_bands; 218cabdff1aSopenharmony_ci if (coord_diff > NEW_CPL_COORD_THRESHOLD) 219cabdff1aSopenharmony_ci block->new_cpl_coords[ch] = 1; 220cabdff1aSopenharmony_ci } 221cabdff1aSopenharmony_ci } 222cabdff1aSopenharmony_ci } 223cabdff1aSopenharmony_ci } 224cabdff1aSopenharmony_ci } 225cabdff1aSopenharmony_ci 226cabdff1aSopenharmony_ci /* calculate final coupling coordinates, taking into account reusing of 227cabdff1aSopenharmony_ci coordinates in successive blocks */ 228cabdff1aSopenharmony_ci for (bnd = 0; bnd < s->num_cpl_bands; bnd++) { 229cabdff1aSopenharmony_ci blk = 0; 230cabdff1aSopenharmony_ci while (blk < s->num_blocks) { 231cabdff1aSopenharmony_ci int av_uninit(blk1); 232cabdff1aSopenharmony_ci AC3Block *block = &s->blocks[blk]; 233cabdff1aSopenharmony_ci 234cabdff1aSopenharmony_ci if (!block->cpl_in_use) { 235cabdff1aSopenharmony_ci blk++; 236cabdff1aSopenharmony_ci continue; 237cabdff1aSopenharmony_ci } 238cabdff1aSopenharmony_ci 239cabdff1aSopenharmony_ci for (ch = 1; ch <= s->fbw_channels; ch++) { 240cabdff1aSopenharmony_ci CoefSumType energy_ch, energy_cpl; 241cabdff1aSopenharmony_ci if (!block->channel_in_cpl[ch]) 242cabdff1aSopenharmony_ci continue; 243cabdff1aSopenharmony_ci energy_cpl = energy[blk][CPL_CH][bnd]; 244cabdff1aSopenharmony_ci energy_ch = energy[blk][ch][bnd]; 245cabdff1aSopenharmony_ci blk1 = blk+1; 246cabdff1aSopenharmony_ci while (blk1 < s->num_blocks && !s->blocks[blk1].new_cpl_coords[ch]) { 247cabdff1aSopenharmony_ci if (s->blocks[blk1].cpl_in_use) { 248cabdff1aSopenharmony_ci energy_cpl += energy[blk1][CPL_CH][bnd]; 249cabdff1aSopenharmony_ci energy_ch += energy[blk1][ch][bnd]; 250cabdff1aSopenharmony_ci } 251cabdff1aSopenharmony_ci blk1++; 252cabdff1aSopenharmony_ci } 253cabdff1aSopenharmony_ci cpl_coords[blk][ch][bnd] = calc_cpl_coord(energy_ch, energy_cpl); 254cabdff1aSopenharmony_ci } 255cabdff1aSopenharmony_ci blk = blk1; 256cabdff1aSopenharmony_ci } 257cabdff1aSopenharmony_ci } 258cabdff1aSopenharmony_ci 259cabdff1aSopenharmony_ci /* calculate exponents/mantissas for coupling coordinates */ 260cabdff1aSopenharmony_ci for (blk = 0; blk < s->num_blocks; blk++) { 261cabdff1aSopenharmony_ci AC3Block *block = &s->blocks[blk]; 262cabdff1aSopenharmony_ci if (!block->cpl_in_use) 263cabdff1aSopenharmony_ci continue; 264cabdff1aSopenharmony_ci 265cabdff1aSopenharmony_ci#if AC3ENC_FLOAT 266cabdff1aSopenharmony_ci s->ac3dsp.float_to_fixed24(fixed_cpl_coords[blk][1], 267cabdff1aSopenharmony_ci cpl_coords[blk][1], 268cabdff1aSopenharmony_ci s->fbw_channels * 16); 269cabdff1aSopenharmony_ci#endif 270cabdff1aSopenharmony_ci s->ac3dsp.extract_exponents(block->cpl_coord_exp[1], 271cabdff1aSopenharmony_ci fixed_cpl_coords[blk][1], 272cabdff1aSopenharmony_ci s->fbw_channels * 16); 273cabdff1aSopenharmony_ci 274cabdff1aSopenharmony_ci for (ch = 1; ch <= s->fbw_channels; ch++) { 275cabdff1aSopenharmony_ci int bnd, min_exp, max_exp, master_exp; 276cabdff1aSopenharmony_ci 277cabdff1aSopenharmony_ci if (!block->new_cpl_coords[ch]) 278cabdff1aSopenharmony_ci continue; 279cabdff1aSopenharmony_ci 280cabdff1aSopenharmony_ci /* determine master exponent */ 281cabdff1aSopenharmony_ci min_exp = max_exp = block->cpl_coord_exp[ch][0]; 282cabdff1aSopenharmony_ci for (bnd = 1; bnd < s->num_cpl_bands; bnd++) { 283cabdff1aSopenharmony_ci int exp = block->cpl_coord_exp[ch][bnd]; 284cabdff1aSopenharmony_ci min_exp = FFMIN(exp, min_exp); 285cabdff1aSopenharmony_ci max_exp = FFMAX(exp, max_exp); 286cabdff1aSopenharmony_ci } 287cabdff1aSopenharmony_ci master_exp = ((max_exp - 15) + 2) / 3; 288cabdff1aSopenharmony_ci master_exp = FFMAX(master_exp, 0); 289cabdff1aSopenharmony_ci while (min_exp < master_exp * 3) 290cabdff1aSopenharmony_ci master_exp--; 291cabdff1aSopenharmony_ci for (bnd = 0; bnd < s->num_cpl_bands; bnd++) { 292cabdff1aSopenharmony_ci block->cpl_coord_exp[ch][bnd] = av_clip(block->cpl_coord_exp[ch][bnd] - 293cabdff1aSopenharmony_ci master_exp * 3, 0, 15); 294cabdff1aSopenharmony_ci } 295cabdff1aSopenharmony_ci block->cpl_master_exp[ch] = master_exp; 296cabdff1aSopenharmony_ci 297cabdff1aSopenharmony_ci /* quantize mantissas */ 298cabdff1aSopenharmony_ci for (bnd = 0; bnd < s->num_cpl_bands; bnd++) { 299cabdff1aSopenharmony_ci int cpl_exp = block->cpl_coord_exp[ch][bnd]; 300cabdff1aSopenharmony_ci int cpl_mant = (fixed_cpl_coords[blk][ch][bnd] << (5 + cpl_exp + master_exp * 3)) >> 24; 301cabdff1aSopenharmony_ci if (cpl_exp == 15) 302cabdff1aSopenharmony_ci cpl_mant >>= 1; 303cabdff1aSopenharmony_ci else 304cabdff1aSopenharmony_ci cpl_mant -= 16; 305cabdff1aSopenharmony_ci 306cabdff1aSopenharmony_ci block->cpl_coord_mant[ch][bnd] = cpl_mant; 307cabdff1aSopenharmony_ci } 308cabdff1aSopenharmony_ci } 309cabdff1aSopenharmony_ci } 310cabdff1aSopenharmony_ci 311cabdff1aSopenharmony_ci if (AC3ENC_FLOAT && CONFIG_EAC3_ENCODER && s->eac3) 312cabdff1aSopenharmony_ci ff_eac3_set_cpl_states(s); 313cabdff1aSopenharmony_ci} 314cabdff1aSopenharmony_ci 315cabdff1aSopenharmony_ci 316cabdff1aSopenharmony_ci/* 317cabdff1aSopenharmony_ci * Determine rematrixing flags for each block and band. 318cabdff1aSopenharmony_ci */ 319cabdff1aSopenharmony_cistatic void compute_rematrixing_strategy(AC3EncodeContext *s) 320cabdff1aSopenharmony_ci{ 321cabdff1aSopenharmony_ci int nb_coefs; 322cabdff1aSopenharmony_ci int blk, bnd; 323cabdff1aSopenharmony_ci AC3Block *block, *block0 = NULL; 324cabdff1aSopenharmony_ci 325cabdff1aSopenharmony_ci if (s->channel_mode != AC3_CHMODE_STEREO) 326cabdff1aSopenharmony_ci return; 327cabdff1aSopenharmony_ci 328cabdff1aSopenharmony_ci for (blk = 0; blk < s->num_blocks; blk++) { 329cabdff1aSopenharmony_ci block = &s->blocks[blk]; 330cabdff1aSopenharmony_ci block->new_rematrixing_strategy = !blk; 331cabdff1aSopenharmony_ci 332cabdff1aSopenharmony_ci block->num_rematrixing_bands = 4; 333cabdff1aSopenharmony_ci if (block->cpl_in_use) { 334cabdff1aSopenharmony_ci block->num_rematrixing_bands -= (s->start_freq[CPL_CH] <= 61); 335cabdff1aSopenharmony_ci block->num_rematrixing_bands -= (s->start_freq[CPL_CH] == 37); 336cabdff1aSopenharmony_ci if (blk && block->num_rematrixing_bands != block0->num_rematrixing_bands) 337cabdff1aSopenharmony_ci block->new_rematrixing_strategy = 1; 338cabdff1aSopenharmony_ci } 339cabdff1aSopenharmony_ci nb_coefs = FFMIN(block->end_freq[1], block->end_freq[2]); 340cabdff1aSopenharmony_ci 341cabdff1aSopenharmony_ci if (!s->rematrixing_enabled) { 342cabdff1aSopenharmony_ci block0 = block; 343cabdff1aSopenharmony_ci continue; 344cabdff1aSopenharmony_ci } 345cabdff1aSopenharmony_ci 346cabdff1aSopenharmony_ci for (bnd = 0; bnd < block->num_rematrixing_bands; bnd++) { 347cabdff1aSopenharmony_ci /* calculate sum of squared coeffs for one band in one block */ 348cabdff1aSopenharmony_ci int start = ff_ac3_rematrix_band_tab[bnd]; 349cabdff1aSopenharmony_ci int end = FFMIN(nb_coefs, ff_ac3_rematrix_band_tab[bnd+1]); 350cabdff1aSopenharmony_ci CoefSumType sum[4]; 351cabdff1aSopenharmony_ci sum_square_butterfly(s, sum, block->mdct_coef[1] + start, 352cabdff1aSopenharmony_ci block->mdct_coef[2] + start, end - start); 353cabdff1aSopenharmony_ci 354cabdff1aSopenharmony_ci /* compare sums to determine if rematrixing will be used for this band */ 355cabdff1aSopenharmony_ci if (FFMIN(sum[2], sum[3]) < FFMIN(sum[0], sum[1])) 356cabdff1aSopenharmony_ci block->rematrixing_flags[bnd] = 1; 357cabdff1aSopenharmony_ci else 358cabdff1aSopenharmony_ci block->rematrixing_flags[bnd] = 0; 359cabdff1aSopenharmony_ci 360cabdff1aSopenharmony_ci /* determine if new rematrixing flags will be sent */ 361cabdff1aSopenharmony_ci if (blk && 362cabdff1aSopenharmony_ci block->rematrixing_flags[bnd] != block0->rematrixing_flags[bnd]) { 363cabdff1aSopenharmony_ci block->new_rematrixing_strategy = 1; 364cabdff1aSopenharmony_ci } 365cabdff1aSopenharmony_ci } 366cabdff1aSopenharmony_ci block0 = block; 367cabdff1aSopenharmony_ci } 368cabdff1aSopenharmony_ci} 369cabdff1aSopenharmony_ci 370cabdff1aSopenharmony_ci 371cabdff1aSopenharmony_ciint AC3_NAME(encode_frame)(AVCodecContext *avctx, AVPacket *avpkt, 372cabdff1aSopenharmony_ci const AVFrame *frame, int *got_packet_ptr) 373cabdff1aSopenharmony_ci{ 374cabdff1aSopenharmony_ci AC3EncodeContext *s = avctx->priv_data; 375cabdff1aSopenharmony_ci int ret; 376cabdff1aSopenharmony_ci 377cabdff1aSopenharmony_ci if (s->options.allow_per_frame_metadata) { 378cabdff1aSopenharmony_ci ret = ff_ac3_validate_metadata(s); 379cabdff1aSopenharmony_ci if (ret) 380cabdff1aSopenharmony_ci return ret; 381cabdff1aSopenharmony_ci } 382cabdff1aSopenharmony_ci 383cabdff1aSopenharmony_ci if (s->bit_alloc.sr_code == 1 || (AC3ENC_FLOAT && s->eac3)) 384cabdff1aSopenharmony_ci ff_ac3_adjust_frame_size(s); 385cabdff1aSopenharmony_ci 386cabdff1aSopenharmony_ci copy_input_samples(s, (SampleType **)frame->extended_data); 387cabdff1aSopenharmony_ci 388cabdff1aSopenharmony_ci apply_mdct(s); 389cabdff1aSopenharmony_ci 390cabdff1aSopenharmony_ci s->cpl_on = s->cpl_enabled; 391cabdff1aSopenharmony_ci ff_ac3_compute_coupling_strategy(s); 392cabdff1aSopenharmony_ci 393cabdff1aSopenharmony_ci if (s->cpl_on) 394cabdff1aSopenharmony_ci apply_channel_coupling(s); 395cabdff1aSopenharmony_ci 396cabdff1aSopenharmony_ci compute_rematrixing_strategy(s); 397cabdff1aSopenharmony_ci 398cabdff1aSopenharmony_ci#if AC3ENC_FLOAT 399cabdff1aSopenharmony_ci scale_coefficients(s); 400cabdff1aSopenharmony_ci#endif 401cabdff1aSopenharmony_ci 402cabdff1aSopenharmony_ci return ff_ac3_encode_frame_common_end(avctx, avpkt, frame, got_packet_ptr); 403cabdff1aSopenharmony_ci} 404