27 #include "config_components.h"
68 5, 6, 7, 8, 9, 10, 11, 12, 14, 16
92 3.162275, 2.818382, 2.511886, 2.238719, 1.995261, 1.778278, 1.584893,
93 1.412536, 1.258924, 1.122018, 1.000000, 0.891251, 0.794328, 0.707946,
94 0.630957, 0.562341, 0.501187, 0.446683, 0.398107, 0.354813, 0.316227,
95 0.281838, 0.251188, 0.223872, 0.199526, 0.177828, 0.158489, 0.141253,
96 0.125892, 0.112201, 0.100000, 0.089125
104 { { 2, 7 }, { 7, 2 }, },
106 { { 2, 7 }, { 7, 2 }, },
107 { { 2, 7 }, { 5, 5 }, { 7, 2 }, },
108 { { 2, 7 }, { 7, 2 }, { 6, 6 }, },
109 { { 2, 7 }, { 5, 5 }, { 7, 2 }, { 8, 8 }, },
110 { { 2, 7 }, { 7, 2 }, { 6, 7 }, { 7, 6 }, },
111 { { 2, 7 }, { 5, 5 }, { 7, 2 }, { 6, 7 }, { 7, 6 }, },
122 return ((
code - (levels >> 1)) * (1 << 24)) / levels;
134 for (
i = 0;
i < 128;
i++) {
142 for (
i = 0;
i < 32;
i++) {
148 for (
i = 0;
i < 128;
i++) {
160 for (
i = 0;
i < 7;
i++) {
164 for (
i = 0;
i < 15;
i++) {
172 for (
i = 0;
i < 256;
i++) {
173 int v = (
i >> 5) - ((
i >> 7) << 3) - 5;
179 for (
i = 0;
i < 256;
i++) {
180 int v = (
i >> 4) - ((
i >> 7) << 4) - 4;
212 const float scale = 1.0f;
246 s->xcfptr[
i] =
s->transform_coeffs[
i];
247 s->dlyptr[
i] =
s->delay[
i];
266 i = !
s->channel_mode;
268 s->dialog_normalization[(!
s->channel_mode)-
i] = -
get_bits(gbc, 5);
269 if (
s->dialog_normalization[(!
s->channel_mode)-
i] == 0) {
270 s->dialog_normalization[(!
s->channel_mode)-
i] = -31;
272 if (
s->target_level != 0) {
273 s->level_gain[(!
s->channel_mode)-
i] =
powf(2.0
f,
274 (
float)(
s->target_level -
275 s->dialog_normalization[(!
s->channel_mode)-
i])/6.0f);
277 if (
s->compression_exists[(!
s->channel_mode)-
i] =
get_bits1(gbc)) {
278 s->heavy_dynamic_range[(!
s->channel_mode)-
i] =
290 if (
s->bitstream_id != 6) {
298 s->center_mix_level_ltrt =
get_bits(gbc, 3);
304 s->dolby_surround_ex_mode =
get_bits(gbc, 2);
305 s->dolby_headphone_mode =
get_bits(gbc, 2);
334 s->bit_alloc_params.sr_code = hdr.
sr_code;
339 s->bit_alloc_params.sr_shift = hdr.
sr_shift;
343 s->fbw_channels =
s->channels -
s->lfe_on;
344 s->lfe_ch =
s->fbw_channels + 1;
349 s->center_mix_level_ltrt = 4;
351 s->surround_mix_level_ltrt = 4;
352 s->lfe_mix_level_exists = 0;
361 s->start_freq[
s->lfe_ch] = 0;
362 s->end_freq[
s->lfe_ch] = 7;
363 s->num_exp_groups[
s->lfe_ch] = 2;
364 s->channel_in_cpl[
s->lfe_ch] = 0;
367 if (
s->bitstream_id <= 10) {
369 s->snr_offset_strategy = 2;
370 s->block_switch_syntax = 1;
371 s->dither_flag_syntax = 1;
372 s->bit_allocation_syntax = 1;
373 s->fast_gain_syntax = 0;
374 s->first_cpl_leak = 0;
377 memset(
s->channel_uses_aht, 0,
sizeof(
s->channel_uses_aht));
379 }
else if (CONFIG_EAC3_DECODER) {
400 if (!
s->downmix_coeffs[0]) {
402 sizeof(**
s->downmix_coeffs));
403 if (!
s->downmix_coeffs[0])
408 for (
i = 0;
i <
s->fbw_channels;
i++) {
412 if (
s->channel_mode > 1 &&
s->channel_mode & 1) {
413 downmix_coeffs[0][1] = downmix_coeffs[1][1] = cmix;
416 int nf =
s->channel_mode - 2;
417 downmix_coeffs[0][nf] = downmix_coeffs[1][nf] = smix *
LEVEL_MINUS_3DB;
420 int nf =
s->channel_mode - 4;
421 downmix_coeffs[0][nf] = downmix_coeffs[1][nf+1] = smix;
426 for (
i = 0;
i <
s->fbw_channels;
i++) {
427 norm0 += downmix_coeffs[0][
i];
428 norm1 += downmix_coeffs[1][
i];
430 norm0 = 1.0f / norm0;
431 norm1 = 1.0f / norm1;
432 for (
i = 0;
i <
s->fbw_channels;
i++) {
433 downmix_coeffs[0][
i] *= norm0;
434 downmix_coeffs[1][
i] *= norm1;
438 for (
i = 0;
i <
s->fbw_channels;
i++)
439 downmix_coeffs[0][
i] = (downmix_coeffs[0][
i] +
442 for (
i = 0;
i <
s->fbw_channels;
i++) {
443 s->downmix_coeffs[0][
i] =
FIXR12(downmix_coeffs[0][
i]);
444 s->downmix_coeffs[1][
i] =
FIXR12(downmix_coeffs[1][
i]);
456 uint8_t absexp, int8_t *dexps)
458 int i, j, grp, group_size;
463 group_size = exp_strategy + (exp_strategy ==
EXP_D45);
464 for (grp = 0,
i = 0; grp < ngrps; grp++) {
477 for (
i = 0, j = 0;
i < ngrps * 3;
i++) {
478 prevexp += dexp[
i] - 2;
483 switch (group_size) {
484 case 4: dexps[j++] = prevexp;
485 dexps[j++] = prevexp;
486 case 2: dexps[j++] = prevexp;
487 case 1: dexps[j++] = prevexp;
503 for (band = 0; band <
s->num_cpl_bands; band++) {
504 int band_start = bin;
505 int band_end = bin +
s->cpl_band_sizes[band];
506 for (ch = 1; ch <=
s->fbw_channels; ch++) {
507 if (
s->channel_in_cpl[ch]) {
508 int cpl_coord =
s->cpl_coords[ch][band] << 5;
509 for (bin = band_start; bin < band_end; bin++) {
510 s->fixed_coeffs[ch][bin] =
511 MULH(
s->fixed_coeffs[
CPL_CH][bin] * (1 << 4), cpl_coord);
513 if (ch == 2 &&
s->phase_flags[band]) {
514 for (bin = band_start; bin < band_end; bin++)
515 s->fixed_coeffs[2][bin] = -
s->fixed_coeffs[2][bin];
541 int start_freq =
s->start_freq[ch_index];
542 int end_freq =
s->end_freq[ch_index];
543 uint8_t *baps =
s->bap[ch_index];
544 int8_t *exps =
s->dexps[ch_index];
545 int32_t *coeffs =
s->fixed_coeffs[ch_index];
546 int dither = (ch_index ==
CPL_CH) ||
s->dither_flag[ch_index];
550 for (freq = start_freq; freq < end_freq; freq++) {
551 int bap = baps[freq];
557 mantissa = (((
av_lfg_get(&
s->dith_state)>>8)*181)>>8) - 5931008;
611 coeffs[freq] = mantissa >> exps[freq];
623 for (ch = 1; ch <=
s->fbw_channels; ch++) {
624 if (!
s->dither_flag[ch] &&
s->channel_in_cpl[ch]) {
627 s->fixed_coeffs[ch][
i] = 0;
636 if (!
s->channel_uses_aht[ch]) {
642 if (CONFIG_EAC3_DECODER && !
blk)
644 for (bin =
s->start_freq[ch]; bin < s->end_freq[ch]; bin++) {
645 s->fixed_coeffs[ch][bin] =
s->pre_mantissa[ch][bin][
blk] >>
s->dexps[ch][bin];
661 for (ch = 1; ch <=
s->channels; ch++) {
666 if (
s->channel_in_cpl[ch]) {
674 end =
s->end_freq[ch];
677 s->fixed_coeffs[ch][end] = 0;
694 end =
FFMIN(
s->end_freq[1],
s->end_freq[2]);
696 for (bnd = 0; bnd <
s->num_rematrixing_bands; bnd++) {
697 if (
s->rematrixing_flags[bnd]) {
700 int tmp0 =
s->fixed_coeffs[1][
i];
701 s->fixed_coeffs[1][
i] +=
s->fixed_coeffs[2][
i];
702 s->fixed_coeffs[2][
i] = tmp0 -
s->fixed_coeffs[2][
i];
717 for (ch = 1; ch <=
channels; ch++) {
718 if (
s->block_switch[ch]) {
721 for (
i = 0;
i < 128;
i++)
722 x[
i] =
s->transform_coeffs[ch][2 *
i];
723 s->tx_fn_128(
s->tx_128,
s->tmp_output, x,
sizeof(
INTFLOAT));
725 s->fdsp->vector_fmul_window_scaled(
s->outptr[ch - 1],
s->delay[ch - 1 +
offset],
726 s->tmp_output,
s->window, 128, 8);
728 s->fdsp->vector_fmul_window(
s->outptr[ch - 1],
s->delay[ch - 1 +
offset],
729 s->tmp_output,
s->window, 128);
731 for (
i = 0;
i < 128;
i++)
732 x[
i] =
s->transform_coeffs[ch][2 *
i + 1];
735 s->tx_fn_256(
s->tx_256,
s->tmp_output,
s->transform_coeffs[ch],
sizeof(
INTFLOAT));
737 s->fdsp->vector_fmul_window_scaled(
s->outptr[ch - 1],
s->delay[ch - 1 +
offset],
738 s->tmp_output,
s->window, 128, 8);
740 s->fdsp->vector_fmul_window(
s->outptr[ch - 1],
s->delay[ch - 1 +
offset],
741 s->tmp_output,
s->window, 128);
743 memcpy(
s->delay[ch - 1 +
offset],
s->tmp_output + 128, 128 *
sizeof(
INTFLOAT));
753 int channel_data_size =
sizeof(
s->delay[0]);
754 switch (
s->channel_mode) {
758 memcpy(
s->delay[1],
s->delay[0], channel_data_size);
761 memset(
s->delay[3], 0, channel_data_size);
763 memset(
s->delay[2], 0, channel_data_size);
766 memset(
s->delay[4], 0, channel_data_size);
768 memset(
s->delay[3], 0, channel_data_size);
770 memcpy(
s->delay[2],
s->delay[1], channel_data_size);
771 memset(
s->delay[1], 0, channel_data_size);
794 int ecpl,
int start_subband,
int end_subband,
795 const uint8_t *default_band_struct,
796 int *num_bands, uint8_t *band_sizes,
797 uint8_t *band_struct,
int band_struct_size)
799 int subbnd, bnd, n_subbands, n_bands=0;
802 n_subbands = end_subband - start_subband;
805 memcpy(band_struct, default_band_struct, band_struct_size);
807 av_assert0(band_struct_size >= start_subband + n_subbands);
809 band_struct += start_subband + 1;
813 for (subbnd = 0; subbnd < n_subbands - 1; subbnd++) {
821 if (num_bands || band_sizes ) {
822 n_bands = n_subbands;
823 bnd_sz[0] = ecpl ? 6 : 12;
824 for (bnd = 0, subbnd = 1; subbnd < n_subbands; subbnd++) {
825 int subbnd_size = (ecpl && subbnd < 4) ? 6 : 12;
826 if (band_struct[subbnd - 1]) {
828 bnd_sz[bnd] += subbnd_size;
830 bnd_sz[++bnd] = subbnd_size;
837 *num_bands = n_bands;
839 memcpy(band_sizes, bnd_sz, n_bands);
845 int fbw_channels =
s->fbw_channels;
846 int dst_start_freq, dst_end_freq, src_start_freq,
847 start_subband, end_subband, ch;
851 s->channel_uses_spx[1] = 1;
853 for (ch = 1; ch <= fbw_channels; ch++)
860 start_subband =
get_bits(bc, 3) + 2;
861 if (start_subband > 7)
862 start_subband += start_subband - 7;
868 end_subband += end_subband - 7;
869 dst_start_freq = dst_start_freq * 12 + 25;
870 src_start_freq = start_subband * 12 + 25;
871 dst_end_freq = end_subband * 12 + 25;
874 if (start_subband >= end_subband) {
876 "range (%d >= %d)\n", start_subband, end_subband);
879 if (dst_start_freq >= src_start_freq) {
881 "copy start bin (%d >= %d)\n", dst_start_freq, src_start_freq);
885 s->spx_dst_start_freq = dst_start_freq;
886 s->spx_src_start_freq = src_start_freq;
888 s->spx_dst_end_freq = dst_end_freq;
891 start_subband, end_subband,
895 s->spx_band_struct,
sizeof(
s->spx_band_struct));
902 int fbw_channels =
s->fbw_channels;
905 for (ch = 1; ch <= fbw_channels; ch++) {
906 if (
s->channel_uses_spx[ch]) {
907 if (
s->first_spx_coords[ch] ||
get_bits1(bc)) {
909 int bin, master_spx_coord;
911 s->first_spx_coords[ch] = 0;
913 master_spx_coord =
get_bits(bc, 2) * 3;
915 bin =
s->spx_src_start_freq;
916 for (bnd = 0; bnd <
s->num_spx_bands; bnd++) {
917 int bandsize =
s->spx_band_sizes[bnd];
918 int spx_coord_exp, spx_coord_mant;
922 int64_t accu = ((bin << 23) + (bandsize << 22))
924 nratio = (
int)(accu >> 32);
925 nratio -= spx_blend << 18;
930 }
else if (nratio > 0x7fffff) {
935 accu = (
int64_t)nblend * 1859775393;
936 nblend = (
int)((accu + (1<<29)) >> 30);
943 nratio = ((
float)((bin + (bandsize >> 1))) /
s->spx_dst_end_freq) - spx_blend;
945 nblend =
sqrtf(3.0
f * nratio);
947 sblend =
sqrtf(1.0
f - nratio);
954 if (spx_coord_exp == 15) spx_coord_mant <<= 1;
955 else spx_coord_mant += 4;
956 spx_coord_mant <<= (25 - spx_coord_exp - master_spx_coord);
960 accu = (
int64_t)nblend * spx_coord_mant;
961 s->spx_noise_blend[ch][bnd] = (
int)((accu + (1<<22)) >> 23);
962 accu = (
int64_t)sblend * spx_coord_mant;
963 s->spx_signal_blend[ch][bnd] = (
int)((accu + (1<<22)) >> 23);
965 spx_coord = spx_coord_mant * (1.0f / (1 << 23));
966 s->spx_noise_blend [ch][bnd] = nblend * spx_coord;
967 s->spx_signal_blend[ch][bnd] = sblend * spx_coord;
972 s->first_spx_coords[ch] = 1;
978 uint8_t *bit_alloc_stages)
981 int fbw_channels =
s->fbw_channels;
982 int channel_mode =
s->channel_mode;
988 if (
s->cpl_in_use[
blk]) {
990 int cpl_start_subband, cpl_end_subband;
1006 s->channel_in_cpl[1] = 1;
1007 s->channel_in_cpl[2] = 1;
1009 for (ch = 1; ch <= fbw_channels; ch++)
1018 cpl_start_subband =
get_bits(bc, 4);
1019 cpl_end_subband =
s->spx_in_use ? (
s->spx_src_start_freq - 37) / 12 :
1021 if (cpl_start_subband >= cpl_end_subband) {
1023 cpl_start_subband, cpl_end_subband);
1026 s->start_freq[
CPL_CH] = cpl_start_subband * 12 + 37;
1027 s->end_freq[
CPL_CH] = cpl_end_subband * 12 + 37;
1032 &
s->num_cpl_bands,
s->cpl_band_sizes,
1033 s->cpl_band_struct,
sizeof(
s->cpl_band_struct));
1036 for (ch = 1; ch <= fbw_channels; ch++) {
1037 s->channel_in_cpl[ch] = 0;
1038 s->first_cpl_coords[ch] = 1;
1040 s->first_cpl_leak =
s->eac3;
1041 s->phase_flags_in_use = 0;
1050 int fbw_channels =
s->fbw_channels;
1052 int cpl_coords_exist = 0;
1054 for (ch = 1; ch <= fbw_channels; ch++) {
1055 if (
s->channel_in_cpl[ch]) {
1056 if ((
s->eac3 &&
s->first_cpl_coords[ch]) ||
get_bits1(bc)) {
1057 int master_cpl_coord, cpl_coord_exp, cpl_coord_mant;
1058 s->first_cpl_coords[ch] = 0;
1059 cpl_coords_exist = 1;
1060 master_cpl_coord = 3 *
get_bits(bc, 2);
1061 for (bnd = 0; bnd <
s->num_cpl_bands; bnd++) {
1064 if (cpl_coord_exp == 15)
1065 s->cpl_coords[ch][bnd] = cpl_coord_mant << 22;
1067 s->cpl_coords[ch][bnd] = (cpl_coord_mant + 16) << 21;
1068 s->cpl_coords[ch][bnd] >>= (cpl_coord_exp + master_cpl_coord);
1072 "be present in block 0\n");
1077 s->first_cpl_coords[ch] = 1;
1082 for (bnd = 0; bnd <
s->num_cpl_bands; bnd++) {
1083 s->phase_flags[bnd] =
s->phase_flags_in_use ?
get_bits1(bc) : 0;
1095 int fbw_channels =
s->fbw_channels;
1096 int channel_mode =
s->channel_mode;
1097 int i, bnd, seg, ch,
ret;
1098 int different_transforms;
1105 different_transforms = 0;
1106 if (
s->block_switch_syntax) {
1107 for (ch = 1; ch <= fbw_channels; ch++) {
1109 if (ch > 1 &&
s->block_switch[ch] !=
s->block_switch[1])
1110 different_transforms = 1;
1115 if (
s->dither_flag_syntax) {
1116 for (ch = 1; ch <= fbw_channels; ch++) {
1122 i = !
s->channel_mode;
1129 if (range_bits <= 127 || s->drc_scale <= 1.0)
1133 }
else if (
blk == 0) {
1141 if (
s->spx_in_use) {
1146 if (!
s->eac3 || !
s->spx_in_use) {
1148 for (ch = 1; ch <= fbw_channels; ch++) {
1149 s->channel_uses_spx[ch] = 0;
1150 s->first_spx_coords[ch] = 1;
1162 }
else if (!
s->eac3) {
1165 "be present in block 0\n");
1168 s->cpl_in_use[
blk] =
s->cpl_in_use[
blk-1];
1171 cpl_in_use =
s->cpl_in_use[
blk];
1182 s->num_rematrixing_bands = 4;
1183 if (cpl_in_use &&
s->start_freq[
CPL_CH] <= 61) {
1184 s->num_rematrixing_bands -= 1 + (
s->start_freq[
CPL_CH] == 37);
1185 }
else if (
s->spx_in_use &&
s->spx_src_start_freq <= 61) {
1186 s->num_rematrixing_bands--;
1188 for (bnd = 0; bnd <
s->num_rematrixing_bands; bnd++)
1192 "new rematrixing strategy not present in block 0\n");
1193 s->num_rematrixing_bands = 0;
1198 for (ch = !cpl_in_use; ch <=
s->channels; ch++) {
1200 s->exp_strategy[
blk][ch] =
get_bits(gbc, 2 - (ch ==
s->lfe_ch));
1202 bit_alloc_stages[ch] = 3;
1206 for (ch = 1; ch <= fbw_channels; ch++) {
1207 s->start_freq[ch] = 0;
1210 int prev =
s->end_freq[ch];
1211 if (
s->channel_in_cpl[ch])
1212 s->end_freq[ch] =
s->start_freq[
CPL_CH];
1213 else if (
s->channel_uses_spx[ch])
1214 s->end_freq[ch] =
s->spx_src_start_freq;
1216 int bandwidth_code =
get_bits(gbc, 6);
1217 if (bandwidth_code > 60) {
1221 s->end_freq[ch] = bandwidth_code * 3 + 73;
1223 group_size = 3 << (
s->exp_strategy[
blk][ch] - 1);
1224 s->num_exp_groups[ch] = (
s->end_freq[ch] + group_size-4) / group_size;
1225 if (
blk > 0 &&
s->end_freq[ch] != prev)
1235 for (ch = !cpl_in_use; ch <=
s->channels; ch++) {
1237 s->dexps[ch][0] =
get_bits(gbc, 4) << !ch;
1239 s->num_exp_groups[ch],
s->dexps[ch][0],
1240 &
s->dexps[ch][
s->start_freq[ch]+!!ch])) {
1243 if (ch !=
CPL_CH && ch !=
s->lfe_ch)
1249 if (
s->bit_allocation_syntax) {
1256 for (ch = !cpl_in_use; ch <=
s->channels; ch++)
1257 bit_alloc_stages[ch] =
FFMAX(bit_alloc_stages[ch], 2);
1260 "be present in block 0\n");
1266 if (!
s->eac3 || !
blk) {
1267 if (
s->snr_offset_strategy &&
get_bits1(gbc)) {
1270 csnr = (
get_bits(gbc, 6) - 15) << 4;
1271 for (
i = ch = !cpl_in_use; ch <=
s->channels; ch++) {
1273 if (ch ==
i ||
s->snr_offset_strategy == 2)
1274 snr = (csnr +
get_bits(gbc, 4)) << 2;
1276 if (
blk &&
s->snr_offset[ch] != snr) {
1277 bit_alloc_stages[ch] =
FFMAX(bit_alloc_stages[ch], 1);
1279 s->snr_offset[ch] = snr;
1283 int prev =
s->fast_gain[ch];
1286 if (
blk && prev !=
s->fast_gain[ch])
1287 bit_alloc_stages[ch] =
FFMAX(bit_alloc_stages[ch], 2);
1290 }
else if (!
s->eac3 && !
blk) {
1298 for (ch = !cpl_in_use; ch <=
s->channels; ch++) {
1299 int prev =
s->fast_gain[ch];
1302 if (
blk && prev !=
s->fast_gain[ch])
1303 bit_alloc_stages[ch] =
FFMAX(bit_alloc_stages[ch], 2);
1305 }
else if (
s->eac3 && !
blk) {
1306 for (ch = !cpl_in_use; ch <=
s->channels; ch++)
1322 if (
blk && (fl !=
s->bit_alloc_params.cpl_fast_leak ||
1323 sl !=
s->bit_alloc_params.cpl_slow_leak)) {
1326 s->bit_alloc_params.cpl_fast_leak = fl;
1327 s->bit_alloc_params.cpl_slow_leak = sl;
1328 }
else if (!
s->eac3 && !
blk) {
1330 "be present in block 0\n");
1333 s->first_cpl_leak = 0;
1339 for (ch = !cpl_in_use; ch <= fbw_channels; ch++) {
1345 bit_alloc_stages[ch] =
FFMAX(bit_alloc_stages[ch], 2);
1348 for (ch = !cpl_in_use; ch <= fbw_channels; ch++) {
1350 s->dba_nsegs[ch] =
get_bits(gbc, 3) + 1;
1351 for (seg = 0; seg <
s->dba_nsegs[ch]; seg++) {
1352 s->dba_offsets[ch][seg] =
get_bits(gbc, 5);
1353 s->dba_lengths[ch][seg] =
get_bits(gbc, 4);
1354 s->dba_values[ch][seg] =
get_bits(gbc, 3);
1357 bit_alloc_stages[ch] =
FFMAX(bit_alloc_stages[ch], 2);
1360 }
else if (
blk == 0) {
1361 for (ch = 0; ch <=
s->channels; ch++) {
1367 for (ch = !cpl_in_use; ch <=
s->channels; ch++) {
1368 if (bit_alloc_stages[ch] > 2) {
1371 s->start_freq[ch],
s->end_freq[ch],
1372 s->psd[ch],
s->band_psd[ch]);
1374 if (bit_alloc_stages[ch] > 1) {
1378 s->start_freq[ch],
s->end_freq[ch],
1379 s->fast_gain[ch], (ch ==
s->lfe_ch),
1380 s->dba_mode[ch],
s->dba_nsegs[ch],
1381 s->dba_offsets[ch],
s->dba_lengths[ch],
1382 s->dba_values[ch],
s->mask[ch])) {
1387 if (bit_alloc_stages[ch] > 0) {
1389 const uint8_t *
bap_tab =
s->channel_uses_aht[ch] ?
1391 s->ac3dsp.bit_alloc_calc_bap(
s->mask[ch],
s->psd[ch],
1392 s->start_freq[ch],
s->end_freq[ch],
1394 s->bit_alloc_params.floor,
1416 for (ch = 1; ch <=
s->channels; ch++) {
1417 int audio_channel = 0;
1420 audio_channel = 2-ch;
1421 if (
s->heavy_compression &&
s->compression_exists[audio_channel])
1422 gain =
s->heavy_dynamic_range[audio_channel];
1424 gain =
s->dynamic_range[audio_channel];
1427 scale_coefs(
s->transform_coeffs[ch],
s->fixed_coeffs[ch], gain, 256);
1429 if (
s->target_level != 0)
1430 gain = gain *
s->level_gain[audio_channel];
1431 gain *= 1.0 / 4194304.0f;
1432 s->fmt_conv.int32_to_float_fmul_scalar(
s->transform_coeffs[ch],
1433 s->fixed_coeffs[ch], gain, 256);
1438 if (CONFIG_EAC3_DECODER &&
s->spx_in_use) {
1445 downmix_output =
s->channels !=
s->out_channels &&
1446 !((
s->output_mode & AC3_OUTPUT_LFEON) &&
1447 s->fbw_channels ==
s->out_channels);
1448 if (different_transforms) {
1458 if (downmix_output) {
1461 s->out_channels,
s->fbw_channels, 256);
1464 s->out_channels,
s->fbw_channels, 256);
1468 if (downmix_output) {
1470 s->out_channels,
s->fbw_channels, 256);
1473 if (downmix_output && !
s->downmixed) {
1476 s->out_channels,
s->fbw_channels, 128);
1489 int *got_frame_ptr,
AVPacket *avpkt)
1491 const uint8_t *buf = avpkt->
data;
1492 int buf_size, full_buf_size = avpkt->
size;
1496 int skip = 0, got_independent_frame = 0;
1504 s->superframe_size = 0;
1506 buf_size = full_buf_size;
1508 if (i < 0 || i > 10)
1515 if (buf_size >= 2 &&
AV_RB16(buf) == 0x770B) {
1517 int cnt =
FFMIN(buf_size, AC3_FRAME_BUFFER_SIZE) >> 1;
1518 s->bdsp.bswap16_buf((uint16_t *)
s->input_buffer,
1519 (
const uint16_t *) buf, cnt);
1521 memcpy(
s->input_buffer, buf,
FFMIN(buf_size, AC3_FRAME_BUFFER_SIZE));
1526 if (
s->consistent_noise_generation)
1529 buf =
s->input_buffer;
1555 if (
s->substreamid) {
1557 "unsupported substream %d: skipping frame\n",
1574 if (
s->frame_size > buf_size) {
1580 s->frame_size - 2)) {
1592 return FFMIN(full_buf_size,
s->frame_size);
1596 if (!err || (
s->channels &&
s->out_channels !=
s->channels)) {
1597 s->out_channels =
s->channels;
1598 s->output_mode =
s->channel_mode;
1600 s->output_mode |= AC3_OUTPUT_LFEON;
1601 if (
s->channels > 1 &&
1603 s->out_channels = 1;
1605 }
else if (
s->channels > 2 &&
1607 s->out_channels = 2;
1611 s->loro_center_mix_level =
gain_levels[
s-> center_mix_level];
1612 s->loro_surround_mix_level =
gain_levels[
s->surround_mix_level];
1616 if (
s->channels !=
s->out_channels && !((
s->output_mode & AC3_OUTPUT_LFEON) &&
1617 s->fbw_channels ==
s->out_channels)) {
1623 }
else if (!
s->channels) {
1629 if (
s->output_mode & AC3_OUTPUT_LFEON)
1637 if (
s->bitstream_mode == 0x7 &&
s->channels > 1)
1645 s->outptr[ch] =
s->output[ch +
offset];
1647 for (ch = 0; ch <
s->channels; ch++) {
1648 if (ch < s->out_channels)
1657 for (ch = 0; ch <
s->out_channels; ch++)
1659 for (ch = 0; ch <
s->out_channels; ch++)
1661 for (ch = 0; ch <
s->out_channels; ch++) {
1668 for (ch = 0; ch <
s->out_channels; ch++)
1672 if (buf_size >
s->frame_size) {
1676 if (buf_size -
s->frame_size <= 16) {
1677 skip = buf_size -
s->frame_size;
1692 buf +=
s->frame_size;
1693 buf_size -=
s->frame_size;
1694 s->prev_output_mode =
s->output_mode;
1695 s->prev_bit_rate =
s->bit_rate;
1696 got_independent_frame = 1;
1697 goto dependent_frame;
1708 avctx->
bit_rate =
s->bit_rate +
s->prev_bit_rate;
1718 extended_channel_map[ch] = ch;
1723 uint64_t channel_layout;
1726 if (
s->prev_output_mode & AC3_OUTPUT_LFEON)
1729 channel_layout = ich_layout;
1730 for (ch = 0; ch < 16; ch++) {
1751 if (extend >= channel_map_size)
1758 for (
i = 0;
i < 64;
i++) {
1763 if (extend >= channel_map_size)
1782 int map = extended_channel_map[ch];
1785 s->output_buffer[
map],
1797 s->channel_mode == (
s->output_mode & ~AC3_OUTPUT_LFEON)) {
1803 s->channel_mode == (
s->output_mode & ~AC3_OUTPUT_LFEON)) {
1804 switch (
s->dolby_surround_ex_mode) {
1820 switch (
s->preferred_downmix) {
1838 if (
s->lfe_mix_level_exists)
1847 if (!
s->superframe_size)
1848 return FFMIN(full_buf_size,
s->frame_size +
skip);
1850 return FFMIN(full_buf_size,
s->superframe_size +
skip);
1867 #define OFFSET(x) offsetof(AC3DecodeContext, x)
1868 #define PAR (AV_OPT_FLAG_DECODING_PARAM | AV_OPT_FLAG_AUDIO_PARAM)