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annotate ffmpeg/libavcodec/aacdec.c @ 13:844d341cf643 tip

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Back up before ISMIR
author Yading Song <yading.song@eecs.qmul.ac.uk>
date Thu, 31 Oct 2013 13:17:06 +0000
parents 6840f77b83aa
children
rev   line source
yading@10 1 /*
yading@10 2 * AAC decoder
yading@10 3 * Copyright (c) 2005-2006 Oded Shimon ( ods15 ods15 dyndns org )
yading@10 4 * Copyright (c) 2006-2007 Maxim Gavrilov ( maxim.gavrilov gmail com )
yading@10 5 *
yading@10 6 * AAC LATM decoder
yading@10 7 * Copyright (c) 2008-2010 Paul Kendall <paul@kcbbs.gen.nz>
yading@10 8 * Copyright (c) 2010 Janne Grunau <janne-libav@jannau.net>
yading@10 9 *
yading@10 10 * This file is part of FFmpeg.
yading@10 11 *
yading@10 12 * FFmpeg is free software; you can redistribute it and/or
yading@10 13 * modify it under the terms of the GNU Lesser General Public
yading@10 14 * License as published by the Free Software Foundation; either
yading@10 15 * version 2.1 of the License, or (at your option) any later version.
yading@10 16 *
yading@10 17 * FFmpeg is distributed in the hope that it will be useful,
yading@10 18 * but WITHOUT ANY WARRANTY; without even the implied warranty of
yading@10 19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
yading@10 20 * Lesser General Public License for more details.
yading@10 21 *
yading@10 22 * You should have received a copy of the GNU Lesser General Public
yading@10 23 * License along with FFmpeg; if not, write to the Free Software
yading@10 24 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
yading@10 25 */
yading@10 26
yading@10 27 /**
yading@10 28 * @file
yading@10 29 * AAC decoder
yading@10 30 * @author Oded Shimon ( ods15 ods15 dyndns org )
yading@10 31 * @author Maxim Gavrilov ( maxim.gavrilov gmail com )
yading@10 32 */
yading@10 33
yading@10 34 /*
yading@10 35 * supported tools
yading@10 36 *
yading@10 37 * Support? Name
yading@10 38 * N (code in SoC repo) gain control
yading@10 39 * Y block switching
yading@10 40 * Y window shapes - standard
yading@10 41 * N window shapes - Low Delay
yading@10 42 * Y filterbank - standard
yading@10 43 * N (code in SoC repo) filterbank - Scalable Sample Rate
yading@10 44 * Y Temporal Noise Shaping
yading@10 45 * Y Long Term Prediction
yading@10 46 * Y intensity stereo
yading@10 47 * Y channel coupling
yading@10 48 * Y frequency domain prediction
yading@10 49 * Y Perceptual Noise Substitution
yading@10 50 * Y Mid/Side stereo
yading@10 51 * N Scalable Inverse AAC Quantization
yading@10 52 * N Frequency Selective Switch
yading@10 53 * N upsampling filter
yading@10 54 * Y quantization & coding - AAC
yading@10 55 * N quantization & coding - TwinVQ
yading@10 56 * N quantization & coding - BSAC
yading@10 57 * N AAC Error Resilience tools
yading@10 58 * N Error Resilience payload syntax
yading@10 59 * N Error Protection tool
yading@10 60 * N CELP
yading@10 61 * N Silence Compression
yading@10 62 * N HVXC
yading@10 63 * N HVXC 4kbits/s VR
yading@10 64 * N Structured Audio tools
yading@10 65 * N Structured Audio Sample Bank Format
yading@10 66 * N MIDI
yading@10 67 * N Harmonic and Individual Lines plus Noise
yading@10 68 * N Text-To-Speech Interface
yading@10 69 * Y Spectral Band Replication
yading@10 70 * Y (not in this code) Layer-1
yading@10 71 * Y (not in this code) Layer-2
yading@10 72 * Y (not in this code) Layer-3
yading@10 73 * N SinuSoidal Coding (Transient, Sinusoid, Noise)
yading@10 74 * Y Parametric Stereo
yading@10 75 * N Direct Stream Transfer
yading@10 76 *
yading@10 77 * Note: - HE AAC v1 comprises LC AAC with Spectral Band Replication.
yading@10 78 * - HE AAC v2 comprises LC AAC with Spectral Band Replication and
yading@10 79 Parametric Stereo.
yading@10 80 */
yading@10 81
yading@10 82 #include "libavutil/float_dsp.h"
yading@10 83 #include "libavutil/opt.h"
yading@10 84 #include "avcodec.h"
yading@10 85 #include "internal.h"
yading@10 86 #include "get_bits.h"
yading@10 87 #include "fft.h"
yading@10 88 #include "fmtconvert.h"
yading@10 89 #include "lpc.h"
yading@10 90 #include "kbdwin.h"
yading@10 91 #include "sinewin.h"
yading@10 92
yading@10 93 #include "aac.h"
yading@10 94 #include "aactab.h"
yading@10 95 #include "aacdectab.h"
yading@10 96 #include "cbrt_tablegen.h"
yading@10 97 #include "sbr.h"
yading@10 98 #include "aacsbr.h"
yading@10 99 #include "mpeg4audio.h"
yading@10 100 #include "aacadtsdec.h"
yading@10 101 #include "libavutil/intfloat.h"
yading@10 102
yading@10 103 #include <assert.h>
yading@10 104 #include <errno.h>
yading@10 105 #include <math.h>
yading@10 106 #include <string.h>
yading@10 107
yading@10 108 #if ARCH_ARM
yading@10 109 # include "arm/aac.h"
yading@10 110 #elif ARCH_MIPS
yading@10 111 # include "mips/aacdec_mips.h"
yading@10 112 #endif
yading@10 113
yading@10 114 static VLC vlc_scalefactors;
yading@10 115 static VLC vlc_spectral[11];
yading@10 116
yading@10 117 static int output_configure(AACContext *ac,
yading@10 118 uint8_t layout_map[MAX_ELEM_ID*4][3], int tags,
yading@10 119 enum OCStatus oc_type, int get_new_frame);
yading@10 120
yading@10 121 #define overread_err "Input buffer exhausted before END element found\n"
yading@10 122
yading@10 123 static int count_channels(uint8_t (*layout)[3], int tags)
yading@10 124 {
yading@10 125 int i, sum = 0;
yading@10 126 for (i = 0; i < tags; i++) {
yading@10 127 int syn_ele = layout[i][0];
yading@10 128 int pos = layout[i][2];
yading@10 129 sum += (1 + (syn_ele == TYPE_CPE)) *
yading@10 130 (pos != AAC_CHANNEL_OFF && pos != AAC_CHANNEL_CC);
yading@10 131 }
yading@10 132 return sum;
yading@10 133 }
yading@10 134
yading@10 135 /**
yading@10 136 * Check for the channel element in the current channel position configuration.
yading@10 137 * If it exists, make sure the appropriate element is allocated and map the
yading@10 138 * channel order to match the internal FFmpeg channel layout.
yading@10 139 *
yading@10 140 * @param che_pos current channel position configuration
yading@10 141 * @param type channel element type
yading@10 142 * @param id channel element id
yading@10 143 * @param channels count of the number of channels in the configuration
yading@10 144 *
yading@10 145 * @return Returns error status. 0 - OK, !0 - error
yading@10 146 */
yading@10 147 static av_cold int che_configure(AACContext *ac,
yading@10 148 enum ChannelPosition che_pos,
yading@10 149 int type, int id, int *channels)
yading@10 150 {
yading@10 151 if (che_pos) {
yading@10 152 if (!ac->che[type][id]) {
yading@10 153 if (!(ac->che[type][id] = av_mallocz(sizeof(ChannelElement))))
yading@10 154 return AVERROR(ENOMEM);
yading@10 155 ff_aac_sbr_ctx_init(ac, &ac->che[type][id]->sbr);
yading@10 156 }
yading@10 157 if (type != TYPE_CCE) {
yading@10 158 if (*channels >= MAX_CHANNELS - (type == TYPE_CPE || (type == TYPE_SCE && ac->oc[1].m4ac.ps == 1))) {
yading@10 159 av_log(ac->avctx, AV_LOG_ERROR, "Too many channels\n");
yading@10 160 return AVERROR_INVALIDDATA;
yading@10 161 }
yading@10 162 ac->output_element[(*channels)++] = &ac->che[type][id]->ch[0];
yading@10 163 if (type == TYPE_CPE ||
yading@10 164 (type == TYPE_SCE && ac->oc[1].m4ac.ps == 1)) {
yading@10 165 ac->output_element[(*channels)++] = &ac->che[type][id]->ch[1];
yading@10 166 }
yading@10 167 }
yading@10 168 } else {
yading@10 169 if (ac->che[type][id])
yading@10 170 ff_aac_sbr_ctx_close(&ac->che[type][id]->sbr);
yading@10 171 av_freep(&ac->che[type][id]);
yading@10 172 }
yading@10 173 return 0;
yading@10 174 }
yading@10 175
yading@10 176 static int frame_configure_elements(AVCodecContext *avctx)
yading@10 177 {
yading@10 178 AACContext *ac = avctx->priv_data;
yading@10 179 int type, id, ch, ret;
yading@10 180
yading@10 181 /* set channel pointers to internal buffers by default */
yading@10 182 for (type = 0; type < 4; type++) {
yading@10 183 for (id = 0; id < MAX_ELEM_ID; id++) {
yading@10 184 ChannelElement *che = ac->che[type][id];
yading@10 185 if (che) {
yading@10 186 che->ch[0].ret = che->ch[0].ret_buf;
yading@10 187 che->ch[1].ret = che->ch[1].ret_buf;
yading@10 188 }
yading@10 189 }
yading@10 190 }
yading@10 191
yading@10 192 /* get output buffer */
yading@10 193 av_frame_unref(ac->frame);
yading@10 194 ac->frame->nb_samples = 2048;
yading@10 195 if ((ret = ff_get_buffer(avctx, ac->frame, 0)) < 0)
yading@10 196 return ret;
yading@10 197
yading@10 198 /* map output channel pointers to AVFrame data */
yading@10 199 for (ch = 0; ch < avctx->channels; ch++) {
yading@10 200 if (ac->output_element[ch])
yading@10 201 ac->output_element[ch]->ret = (float *)ac->frame->extended_data[ch];
yading@10 202 }
yading@10 203
yading@10 204 return 0;
yading@10 205 }
yading@10 206
yading@10 207 struct elem_to_channel {
yading@10 208 uint64_t av_position;
yading@10 209 uint8_t syn_ele;
yading@10 210 uint8_t elem_id;
yading@10 211 uint8_t aac_position;
yading@10 212 };
yading@10 213
yading@10 214 static int assign_pair(struct elem_to_channel e2c_vec[MAX_ELEM_ID],
yading@10 215 uint8_t (*layout_map)[3], int offset, uint64_t left,
yading@10 216 uint64_t right, int pos)
yading@10 217 {
yading@10 218 if (layout_map[offset][0] == TYPE_CPE) {
yading@10 219 e2c_vec[offset] = (struct elem_to_channel) {
yading@10 220 .av_position = left | right, .syn_ele = TYPE_CPE,
yading@10 221 .elem_id = layout_map[offset ][1], .aac_position = pos };
yading@10 222 return 1;
yading@10 223 } else {
yading@10 224 e2c_vec[offset] = (struct elem_to_channel) {
yading@10 225 .av_position = left, .syn_ele = TYPE_SCE,
yading@10 226 .elem_id = layout_map[offset ][1], .aac_position = pos };
yading@10 227 e2c_vec[offset + 1] = (struct elem_to_channel) {
yading@10 228 .av_position = right, .syn_ele = TYPE_SCE,
yading@10 229 .elem_id = layout_map[offset + 1][1], .aac_position = pos };
yading@10 230 return 2;
yading@10 231 }
yading@10 232 }
yading@10 233
yading@10 234 static int count_paired_channels(uint8_t (*layout_map)[3], int tags, int pos, int *current) {
yading@10 235 int num_pos_channels = 0;
yading@10 236 int first_cpe = 0;
yading@10 237 int sce_parity = 0;
yading@10 238 int i;
yading@10 239 for (i = *current; i < tags; i++) {
yading@10 240 if (layout_map[i][2] != pos)
yading@10 241 break;
yading@10 242 if (layout_map[i][0] == TYPE_CPE) {
yading@10 243 if (sce_parity) {
yading@10 244 if (pos == AAC_CHANNEL_FRONT && !first_cpe) {
yading@10 245 sce_parity = 0;
yading@10 246 } else {
yading@10 247 return -1;
yading@10 248 }
yading@10 249 }
yading@10 250 num_pos_channels += 2;
yading@10 251 first_cpe = 1;
yading@10 252 } else {
yading@10 253 num_pos_channels++;
yading@10 254 sce_parity ^= 1;
yading@10 255 }
yading@10 256 }
yading@10 257 if (sce_parity &&
yading@10 258 ((pos == AAC_CHANNEL_FRONT && first_cpe) || pos == AAC_CHANNEL_SIDE))
yading@10 259 return -1;
yading@10 260 *current = i;
yading@10 261 return num_pos_channels;
yading@10 262 }
yading@10 263
yading@10 264 static uint64_t sniff_channel_order(uint8_t (*layout_map)[3], int tags)
yading@10 265 {
yading@10 266 int i, n, total_non_cc_elements;
yading@10 267 struct elem_to_channel e2c_vec[4*MAX_ELEM_ID] = {{ 0 }};
yading@10 268 int num_front_channels, num_side_channels, num_back_channels;
yading@10 269 uint64_t layout;
yading@10 270
yading@10 271 if (FF_ARRAY_ELEMS(e2c_vec) < tags)
yading@10 272 return 0;
yading@10 273
yading@10 274 i = 0;
yading@10 275 num_front_channels =
yading@10 276 count_paired_channels(layout_map, tags, AAC_CHANNEL_FRONT, &i);
yading@10 277 if (num_front_channels < 0)
yading@10 278 return 0;
yading@10 279 num_side_channels =
yading@10 280 count_paired_channels(layout_map, tags, AAC_CHANNEL_SIDE, &i);
yading@10 281 if (num_side_channels < 0)
yading@10 282 return 0;
yading@10 283 num_back_channels =
yading@10 284 count_paired_channels(layout_map, tags, AAC_CHANNEL_BACK, &i);
yading@10 285 if (num_back_channels < 0)
yading@10 286 return 0;
yading@10 287
yading@10 288 i = 0;
yading@10 289 if (num_front_channels & 1) {
yading@10 290 e2c_vec[i] = (struct elem_to_channel) {
yading@10 291 .av_position = AV_CH_FRONT_CENTER, .syn_ele = TYPE_SCE,
yading@10 292 .elem_id = layout_map[i][1], .aac_position = AAC_CHANNEL_FRONT };
yading@10 293 i++;
yading@10 294 num_front_channels--;
yading@10 295 }
yading@10 296 if (num_front_channels >= 4) {
yading@10 297 i += assign_pair(e2c_vec, layout_map, i,
yading@10 298 AV_CH_FRONT_LEFT_OF_CENTER,
yading@10 299 AV_CH_FRONT_RIGHT_OF_CENTER,
yading@10 300 AAC_CHANNEL_FRONT);
yading@10 301 num_front_channels -= 2;
yading@10 302 }
yading@10 303 if (num_front_channels >= 2) {
yading@10 304 i += assign_pair(e2c_vec, layout_map, i,
yading@10 305 AV_CH_FRONT_LEFT,
yading@10 306 AV_CH_FRONT_RIGHT,
yading@10 307 AAC_CHANNEL_FRONT);
yading@10 308 num_front_channels -= 2;
yading@10 309 }
yading@10 310 while (num_front_channels >= 2) {
yading@10 311 i += assign_pair(e2c_vec, layout_map, i,
yading@10 312 UINT64_MAX,
yading@10 313 UINT64_MAX,
yading@10 314 AAC_CHANNEL_FRONT);
yading@10 315 num_front_channels -= 2;
yading@10 316 }
yading@10 317
yading@10 318 if (num_side_channels >= 2) {
yading@10 319 i += assign_pair(e2c_vec, layout_map, i,
yading@10 320 AV_CH_SIDE_LEFT,
yading@10 321 AV_CH_SIDE_RIGHT,
yading@10 322 AAC_CHANNEL_FRONT);
yading@10 323 num_side_channels -= 2;
yading@10 324 }
yading@10 325 while (num_side_channels >= 2) {
yading@10 326 i += assign_pair(e2c_vec, layout_map, i,
yading@10 327 UINT64_MAX,
yading@10 328 UINT64_MAX,
yading@10 329 AAC_CHANNEL_SIDE);
yading@10 330 num_side_channels -= 2;
yading@10 331 }
yading@10 332
yading@10 333 while (num_back_channels >= 4) {
yading@10 334 i += assign_pair(e2c_vec, layout_map, i,
yading@10 335 UINT64_MAX,
yading@10 336 UINT64_MAX,
yading@10 337 AAC_CHANNEL_BACK);
yading@10 338 num_back_channels -= 2;
yading@10 339 }
yading@10 340 if (num_back_channels >= 2) {
yading@10 341 i += assign_pair(e2c_vec, layout_map, i,
yading@10 342 AV_CH_BACK_LEFT,
yading@10 343 AV_CH_BACK_RIGHT,
yading@10 344 AAC_CHANNEL_BACK);
yading@10 345 num_back_channels -= 2;
yading@10 346 }
yading@10 347 if (num_back_channels) {
yading@10 348 e2c_vec[i] = (struct elem_to_channel) {
yading@10 349 .av_position = AV_CH_BACK_CENTER, .syn_ele = TYPE_SCE,
yading@10 350 .elem_id = layout_map[i][1], .aac_position = AAC_CHANNEL_BACK };
yading@10 351 i++;
yading@10 352 num_back_channels--;
yading@10 353 }
yading@10 354
yading@10 355 if (i < tags && layout_map[i][2] == AAC_CHANNEL_LFE) {
yading@10 356 e2c_vec[i] = (struct elem_to_channel) {
yading@10 357 .av_position = AV_CH_LOW_FREQUENCY, .syn_ele = TYPE_LFE,
yading@10 358 .elem_id = layout_map[i][1], .aac_position = AAC_CHANNEL_LFE };
yading@10 359 i++;
yading@10 360 }
yading@10 361 while (i < tags && layout_map[i][2] == AAC_CHANNEL_LFE) {
yading@10 362 e2c_vec[i] = (struct elem_to_channel) {
yading@10 363 .av_position = UINT64_MAX, .syn_ele = TYPE_LFE,
yading@10 364 .elem_id = layout_map[i][1], .aac_position = AAC_CHANNEL_LFE };
yading@10 365 i++;
yading@10 366 }
yading@10 367
yading@10 368 // Must choose a stable sort
yading@10 369 total_non_cc_elements = n = i;
yading@10 370 do {
yading@10 371 int next_n = 0;
yading@10 372 for (i = 1; i < n; i++) {
yading@10 373 if (e2c_vec[i-1].av_position > e2c_vec[i].av_position) {
yading@10 374 FFSWAP(struct elem_to_channel, e2c_vec[i-1], e2c_vec[i]);
yading@10 375 next_n = i;
yading@10 376 }
yading@10 377 }
yading@10 378 n = next_n;
yading@10 379 } while (n > 0);
yading@10 380
yading@10 381 layout = 0;
yading@10 382 for (i = 0; i < total_non_cc_elements; i++) {
yading@10 383 layout_map[i][0] = e2c_vec[i].syn_ele;
yading@10 384 layout_map[i][1] = e2c_vec[i].elem_id;
yading@10 385 layout_map[i][2] = e2c_vec[i].aac_position;
yading@10 386 if (e2c_vec[i].av_position != UINT64_MAX) {
yading@10 387 layout |= e2c_vec[i].av_position;
yading@10 388 }
yading@10 389 }
yading@10 390
yading@10 391 return layout;
yading@10 392 }
yading@10 393
yading@10 394 /**
yading@10 395 * Save current output configuration if and only if it has been locked.
yading@10 396 */
yading@10 397 static void push_output_configuration(AACContext *ac) {
yading@10 398 if (ac->oc[1].status == OC_LOCKED) {
yading@10 399 ac->oc[0] = ac->oc[1];
yading@10 400 }
yading@10 401 ac->oc[1].status = OC_NONE;
yading@10 402 }
yading@10 403
yading@10 404 /**
yading@10 405 * Restore the previous output configuration if and only if the current
yading@10 406 * configuration is unlocked.
yading@10 407 */
yading@10 408 static void pop_output_configuration(AACContext *ac) {
yading@10 409 if (ac->oc[1].status != OC_LOCKED && ac->oc[0].status != OC_NONE) {
yading@10 410 ac->oc[1] = ac->oc[0];
yading@10 411 ac->avctx->channels = ac->oc[1].channels;
yading@10 412 ac->avctx->channel_layout = ac->oc[1].channel_layout;
yading@10 413 output_configure(ac, ac->oc[1].layout_map, ac->oc[1].layout_map_tags,
yading@10 414 ac->oc[1].status, 0);
yading@10 415 }
yading@10 416 }
yading@10 417
yading@10 418 /**
yading@10 419 * Configure output channel order based on the current program configuration element.
yading@10 420 *
yading@10 421 * @return Returns error status. 0 - OK, !0 - error
yading@10 422 */
yading@10 423 static int output_configure(AACContext *ac,
yading@10 424 uint8_t layout_map[MAX_ELEM_ID*4][3], int tags,
yading@10 425 enum OCStatus oc_type, int get_new_frame)
yading@10 426 {
yading@10 427 AVCodecContext *avctx = ac->avctx;
yading@10 428 int i, channels = 0, ret;
yading@10 429 uint64_t layout = 0;
yading@10 430
yading@10 431 if (ac->oc[1].layout_map != layout_map) {
yading@10 432 memcpy(ac->oc[1].layout_map, layout_map, tags * sizeof(layout_map[0]));
yading@10 433 ac->oc[1].layout_map_tags = tags;
yading@10 434 }
yading@10 435
yading@10 436 // Try to sniff a reasonable channel order, otherwise output the
yading@10 437 // channels in the order the PCE declared them.
yading@10 438 if (avctx->request_channel_layout != AV_CH_LAYOUT_NATIVE)
yading@10 439 layout = sniff_channel_order(layout_map, tags);
yading@10 440 for (i = 0; i < tags; i++) {
yading@10 441 int type = layout_map[i][0];
yading@10 442 int id = layout_map[i][1];
yading@10 443 int position = layout_map[i][2];
yading@10 444 // Allocate or free elements depending on if they are in the
yading@10 445 // current program configuration.
yading@10 446 ret = che_configure(ac, position, type, id, &channels);
yading@10 447 if (ret < 0)
yading@10 448 return ret;
yading@10 449 }
yading@10 450 if (ac->oc[1].m4ac.ps == 1 && channels == 2) {
yading@10 451 if (layout == AV_CH_FRONT_CENTER) {
yading@10 452 layout = AV_CH_FRONT_LEFT|AV_CH_FRONT_RIGHT;
yading@10 453 } else {
yading@10 454 layout = 0;
yading@10 455 }
yading@10 456 }
yading@10 457
yading@10 458 memcpy(ac->tag_che_map, ac->che, 4 * MAX_ELEM_ID * sizeof(ac->che[0][0]));
yading@10 459 if (layout) avctx->channel_layout = layout;
yading@10 460 ac->oc[1].channel_layout = layout;
yading@10 461 avctx->channels = ac->oc[1].channels = channels;
yading@10 462 ac->oc[1].status = oc_type;
yading@10 463
yading@10 464 if (get_new_frame) {
yading@10 465 if ((ret = frame_configure_elements(ac->avctx)) < 0)
yading@10 466 return ret;
yading@10 467 }
yading@10 468
yading@10 469 return 0;
yading@10 470 }
yading@10 471
yading@10 472 static void flush(AVCodecContext *avctx)
yading@10 473 {
yading@10 474 AACContext *ac= avctx->priv_data;
yading@10 475 int type, i, j;
yading@10 476
yading@10 477 for (type = 3; type >= 0; type--) {
yading@10 478 for (i = 0; i < MAX_ELEM_ID; i++) {
yading@10 479 ChannelElement *che = ac->che[type][i];
yading@10 480 if (che) {
yading@10 481 for (j = 0; j <= 1; j++) {
yading@10 482 memset(che->ch[j].saved, 0, sizeof(che->ch[j].saved));
yading@10 483 }
yading@10 484 }
yading@10 485 }
yading@10 486 }
yading@10 487 }
yading@10 488
yading@10 489 /**
yading@10 490 * Set up channel positions based on a default channel configuration
yading@10 491 * as specified in table 1.17.
yading@10 492 *
yading@10 493 * @return Returns error status. 0 - OK, !0 - error
yading@10 494 */
yading@10 495 static int set_default_channel_config(AVCodecContext *avctx,
yading@10 496 uint8_t (*layout_map)[3],
yading@10 497 int *tags,
yading@10 498 int channel_config)
yading@10 499 {
yading@10 500 if (channel_config < 1 || channel_config > 7) {
yading@10 501 av_log(avctx, AV_LOG_ERROR, "invalid default channel configuration (%d)\n",
yading@10 502 channel_config);
yading@10 503 return -1;
yading@10 504 }
yading@10 505 *tags = tags_per_config[channel_config];
yading@10 506 memcpy(layout_map, aac_channel_layout_map[channel_config-1], *tags * sizeof(*layout_map));
yading@10 507 return 0;
yading@10 508 }
yading@10 509
yading@10 510 static ChannelElement *get_che(AACContext *ac, int type, int elem_id)
yading@10 511 {
yading@10 512 // For PCE based channel configurations map the channels solely based on tags.
yading@10 513 if (!ac->oc[1].m4ac.chan_config) {
yading@10 514 return ac->tag_che_map[type][elem_id];
yading@10 515 }
yading@10 516 // Allow single CPE stereo files to be signalled with mono configuration.
yading@10 517 if (!ac->tags_mapped && type == TYPE_CPE && ac->oc[1].m4ac.chan_config == 1) {
yading@10 518 uint8_t layout_map[MAX_ELEM_ID*4][3];
yading@10 519 int layout_map_tags;
yading@10 520 push_output_configuration(ac);
yading@10 521
yading@10 522 av_log(ac->avctx, AV_LOG_DEBUG, "mono with CPE\n");
yading@10 523
yading@10 524 if (set_default_channel_config(ac->avctx, layout_map, &layout_map_tags,
yading@10 525 2) < 0)
yading@10 526 return NULL;
yading@10 527 if (output_configure(ac, layout_map, layout_map_tags,
yading@10 528 OC_TRIAL_FRAME, 1) < 0)
yading@10 529 return NULL;
yading@10 530
yading@10 531 ac->oc[1].m4ac.chan_config = 2;
yading@10 532 ac->oc[1].m4ac.ps = 0;
yading@10 533 }
yading@10 534 // And vice-versa
yading@10 535 if (!ac->tags_mapped && type == TYPE_SCE && ac->oc[1].m4ac.chan_config == 2) {
yading@10 536 uint8_t layout_map[MAX_ELEM_ID*4][3];
yading@10 537 int layout_map_tags;
yading@10 538 push_output_configuration(ac);
yading@10 539
yading@10 540 av_log(ac->avctx, AV_LOG_DEBUG, "stereo with SCE\n");
yading@10 541
yading@10 542 if (set_default_channel_config(ac->avctx, layout_map, &layout_map_tags,
yading@10 543 1) < 0)
yading@10 544 return NULL;
yading@10 545 if (output_configure(ac, layout_map, layout_map_tags,
yading@10 546 OC_TRIAL_FRAME, 1) < 0)
yading@10 547 return NULL;
yading@10 548
yading@10 549 ac->oc[1].m4ac.chan_config = 1;
yading@10 550 if (ac->oc[1].m4ac.sbr)
yading@10 551 ac->oc[1].m4ac.ps = -1;
yading@10 552 }
yading@10 553 // For indexed channel configurations map the channels solely based on position.
yading@10 554 switch (ac->oc[1].m4ac.chan_config) {
yading@10 555 case 7:
yading@10 556 if (ac->tags_mapped == 3 && type == TYPE_CPE) {
yading@10 557 ac->tags_mapped++;
yading@10 558 return ac->tag_che_map[TYPE_CPE][elem_id] = ac->che[TYPE_CPE][2];
yading@10 559 }
yading@10 560 case 6:
yading@10 561 /* Some streams incorrectly code 5.1 audio as SCE[0] CPE[0] CPE[1] SCE[1]
yading@10 562 instead of SCE[0] CPE[0] CPE[1] LFE[0]. If we seem to have
yading@10 563 encountered such a stream, transfer the LFE[0] element to the SCE[1]'s mapping */
yading@10 564 if (ac->tags_mapped == tags_per_config[ac->oc[1].m4ac.chan_config] - 1 && (type == TYPE_LFE || type == TYPE_SCE)) {
yading@10 565 ac->tags_mapped++;
yading@10 566 return ac->tag_che_map[type][elem_id] = ac->che[TYPE_LFE][0];
yading@10 567 }
yading@10 568 case 5:
yading@10 569 if (ac->tags_mapped == 2 && type == TYPE_CPE) {
yading@10 570 ac->tags_mapped++;
yading@10 571 return ac->tag_che_map[TYPE_CPE][elem_id] = ac->che[TYPE_CPE][1];
yading@10 572 }
yading@10 573 case 4:
yading@10 574 if (ac->tags_mapped == 2 && ac->oc[1].m4ac.chan_config == 4 && type == TYPE_SCE) {
yading@10 575 ac->tags_mapped++;
yading@10 576 return ac->tag_che_map[TYPE_SCE][elem_id] = ac->che[TYPE_SCE][1];
yading@10 577 }
yading@10 578 case 3:
yading@10 579 case 2:
yading@10 580 if (ac->tags_mapped == (ac->oc[1].m4ac.chan_config != 2) && type == TYPE_CPE) {
yading@10 581 ac->tags_mapped++;
yading@10 582 return ac->tag_che_map[TYPE_CPE][elem_id] = ac->che[TYPE_CPE][0];
yading@10 583 } else if (ac->oc[1].m4ac.chan_config == 2) {
yading@10 584 return NULL;
yading@10 585 }
yading@10 586 case 1:
yading@10 587 if (!ac->tags_mapped && type == TYPE_SCE) {
yading@10 588 ac->tags_mapped++;
yading@10 589 return ac->tag_che_map[TYPE_SCE][elem_id] = ac->che[TYPE_SCE][0];
yading@10 590 }
yading@10 591 default:
yading@10 592 return NULL;
yading@10 593 }
yading@10 594 }
yading@10 595
yading@10 596 /**
yading@10 597 * Decode an array of 4 bit element IDs, optionally interleaved with a stereo/mono switching bit.
yading@10 598 *
yading@10 599 * @param type speaker type/position for these channels
yading@10 600 */
yading@10 601 static void decode_channel_map(uint8_t layout_map[][3],
yading@10 602 enum ChannelPosition type,
yading@10 603 GetBitContext *gb, int n)
yading@10 604 {
yading@10 605 while (n--) {
yading@10 606 enum RawDataBlockType syn_ele;
yading@10 607 switch (type) {
yading@10 608 case AAC_CHANNEL_FRONT:
yading@10 609 case AAC_CHANNEL_BACK:
yading@10 610 case AAC_CHANNEL_SIDE:
yading@10 611 syn_ele = get_bits1(gb);
yading@10 612 break;
yading@10 613 case AAC_CHANNEL_CC:
yading@10 614 skip_bits1(gb);
yading@10 615 syn_ele = TYPE_CCE;
yading@10 616 break;
yading@10 617 case AAC_CHANNEL_LFE:
yading@10 618 syn_ele = TYPE_LFE;
yading@10 619 break;
yading@10 620 default:
yading@10 621 av_assert0(0);
yading@10 622 }
yading@10 623 layout_map[0][0] = syn_ele;
yading@10 624 layout_map[0][1] = get_bits(gb, 4);
yading@10 625 layout_map[0][2] = type;
yading@10 626 layout_map++;
yading@10 627 }
yading@10 628 }
yading@10 629
yading@10 630 /**
yading@10 631 * Decode program configuration element; reference: table 4.2.
yading@10 632 *
yading@10 633 * @return Returns error status. 0 - OK, !0 - error
yading@10 634 */
yading@10 635 static int decode_pce(AVCodecContext *avctx, MPEG4AudioConfig *m4ac,
yading@10 636 uint8_t (*layout_map)[3],
yading@10 637 GetBitContext *gb)
yading@10 638 {
yading@10 639 int num_front, num_side, num_back, num_lfe, num_assoc_data, num_cc, sampling_index;
yading@10 640 int comment_len;
yading@10 641 int tags;
yading@10 642
yading@10 643 skip_bits(gb, 2); // object_type
yading@10 644
yading@10 645 sampling_index = get_bits(gb, 4);
yading@10 646 if (m4ac->sampling_index != sampling_index)
yading@10 647 av_log(avctx, AV_LOG_WARNING, "Sample rate index in program config element does not match the sample rate index configured by the container.\n");
yading@10 648
yading@10 649 num_front = get_bits(gb, 4);
yading@10 650 num_side = get_bits(gb, 4);
yading@10 651 num_back = get_bits(gb, 4);
yading@10 652 num_lfe = get_bits(gb, 2);
yading@10 653 num_assoc_data = get_bits(gb, 3);
yading@10 654 num_cc = get_bits(gb, 4);
yading@10 655
yading@10 656 if (get_bits1(gb))
yading@10 657 skip_bits(gb, 4); // mono_mixdown_tag
yading@10 658 if (get_bits1(gb))
yading@10 659 skip_bits(gb, 4); // stereo_mixdown_tag
yading@10 660
yading@10 661 if (get_bits1(gb))
yading@10 662 skip_bits(gb, 3); // mixdown_coeff_index and pseudo_surround
yading@10 663
yading@10 664 if (get_bits_left(gb) < 4 * (num_front + num_side + num_back + num_lfe + num_assoc_data + num_cc)) {
yading@10 665 av_log(avctx, AV_LOG_ERROR, "decode_pce: " overread_err);
yading@10 666 return -1;
yading@10 667 }
yading@10 668 decode_channel_map(layout_map , AAC_CHANNEL_FRONT, gb, num_front);
yading@10 669 tags = num_front;
yading@10 670 decode_channel_map(layout_map + tags, AAC_CHANNEL_SIDE, gb, num_side);
yading@10 671 tags += num_side;
yading@10 672 decode_channel_map(layout_map + tags, AAC_CHANNEL_BACK, gb, num_back);
yading@10 673 tags += num_back;
yading@10 674 decode_channel_map(layout_map + tags, AAC_CHANNEL_LFE, gb, num_lfe);
yading@10 675 tags += num_lfe;
yading@10 676
yading@10 677 skip_bits_long(gb, 4 * num_assoc_data);
yading@10 678
yading@10 679 decode_channel_map(layout_map + tags, AAC_CHANNEL_CC, gb, num_cc);
yading@10 680 tags += num_cc;
yading@10 681
yading@10 682 align_get_bits(gb);
yading@10 683
yading@10 684 /* comment field, first byte is length */
yading@10 685 comment_len = get_bits(gb, 8) * 8;
yading@10 686 if (get_bits_left(gb) < comment_len) {
yading@10 687 av_log(avctx, AV_LOG_ERROR, "decode_pce: " overread_err);
yading@10 688 return -1;
yading@10 689 }
yading@10 690 skip_bits_long(gb, comment_len);
yading@10 691 return tags;
yading@10 692 }
yading@10 693
yading@10 694 /**
yading@10 695 * Decode GA "General Audio" specific configuration; reference: table 4.1.
yading@10 696 *
yading@10 697 * @param ac pointer to AACContext, may be null
yading@10 698 * @param avctx pointer to AVCCodecContext, used for logging
yading@10 699 *
yading@10 700 * @return Returns error status. 0 - OK, !0 - error
yading@10 701 */
yading@10 702 static int decode_ga_specific_config(AACContext *ac, AVCodecContext *avctx,
yading@10 703 GetBitContext *gb,
yading@10 704 MPEG4AudioConfig *m4ac,
yading@10 705 int channel_config)
yading@10 706 {
yading@10 707 int extension_flag, ret;
yading@10 708 uint8_t layout_map[MAX_ELEM_ID*4][3];
yading@10 709 int tags = 0;
yading@10 710
yading@10 711 if (get_bits1(gb)) { // frameLengthFlag
yading@10 712 avpriv_request_sample(avctx, "960/120 MDCT window");
yading@10 713 return AVERROR_PATCHWELCOME;
yading@10 714 }
yading@10 715
yading@10 716 if (get_bits1(gb)) // dependsOnCoreCoder
yading@10 717 skip_bits(gb, 14); // coreCoderDelay
yading@10 718 extension_flag = get_bits1(gb);
yading@10 719
yading@10 720 if (m4ac->object_type == AOT_AAC_SCALABLE ||
yading@10 721 m4ac->object_type == AOT_ER_AAC_SCALABLE)
yading@10 722 skip_bits(gb, 3); // layerNr
yading@10 723
yading@10 724 if (channel_config == 0) {
yading@10 725 skip_bits(gb, 4); // element_instance_tag
yading@10 726 tags = decode_pce(avctx, m4ac, layout_map, gb);
yading@10 727 if (tags < 0)
yading@10 728 return tags;
yading@10 729 } else {
yading@10 730 if ((ret = set_default_channel_config(avctx, layout_map, &tags, channel_config)))
yading@10 731 return ret;
yading@10 732 }
yading@10 733
yading@10 734 if (count_channels(layout_map, tags) > 1) {
yading@10 735 m4ac->ps = 0;
yading@10 736 } else if (m4ac->sbr == 1 && m4ac->ps == -1)
yading@10 737 m4ac->ps = 1;
yading@10 738
yading@10 739 if (ac && (ret = output_configure(ac, layout_map, tags, OC_GLOBAL_HDR, 0)))
yading@10 740 return ret;
yading@10 741
yading@10 742 if (extension_flag) {
yading@10 743 switch (m4ac->object_type) {
yading@10 744 case AOT_ER_BSAC:
yading@10 745 skip_bits(gb, 5); // numOfSubFrame
yading@10 746 skip_bits(gb, 11); // layer_length
yading@10 747 break;
yading@10 748 case AOT_ER_AAC_LC:
yading@10 749 case AOT_ER_AAC_LTP:
yading@10 750 case AOT_ER_AAC_SCALABLE:
yading@10 751 case AOT_ER_AAC_LD:
yading@10 752 skip_bits(gb, 3); /* aacSectionDataResilienceFlag
yading@10 753 * aacScalefactorDataResilienceFlag
yading@10 754 * aacSpectralDataResilienceFlag
yading@10 755 */
yading@10 756 break;
yading@10 757 }
yading@10 758 skip_bits1(gb); // extensionFlag3 (TBD in version 3)
yading@10 759 }
yading@10 760 return 0;
yading@10 761 }
yading@10 762
yading@10 763 /**
yading@10 764 * Decode audio specific configuration; reference: table 1.13.
yading@10 765 *
yading@10 766 * @param ac pointer to AACContext, may be null
yading@10 767 * @param avctx pointer to AVCCodecContext, used for logging
yading@10 768 * @param m4ac pointer to MPEG4AudioConfig, used for parsing
yading@10 769 * @param data pointer to buffer holding an audio specific config
yading@10 770 * @param bit_size size of audio specific config or data in bits
yading@10 771 * @param sync_extension look for an appended sync extension
yading@10 772 *
yading@10 773 * @return Returns error status or number of consumed bits. <0 - error
yading@10 774 */
yading@10 775 static int decode_audio_specific_config(AACContext *ac,
yading@10 776 AVCodecContext *avctx,
yading@10 777 MPEG4AudioConfig *m4ac,
yading@10 778 const uint8_t *data, int bit_size,
yading@10 779 int sync_extension)
yading@10 780 {
yading@10 781 GetBitContext gb;
yading@10 782 int i;
yading@10 783 int ret;
yading@10 784
yading@10 785 av_dlog(avctx, "audio specific config size %d\n", bit_size >> 3);
yading@10 786 for (i = 0; i < bit_size >> 3; i++)
yading@10 787 av_dlog(avctx, "%02x ", data[i]);
yading@10 788 av_dlog(avctx, "\n");
yading@10 789
yading@10 790 if ((ret = init_get_bits(&gb, data, bit_size)) < 0)
yading@10 791 return ret;
yading@10 792
yading@10 793 if ((i = avpriv_mpeg4audio_get_config(m4ac, data, bit_size, sync_extension)) < 0)
yading@10 794 return -1;
yading@10 795 if (m4ac->sampling_index > 12) {
yading@10 796 av_log(avctx, AV_LOG_ERROR, "invalid sampling rate index %d\n", m4ac->sampling_index);
yading@10 797 return -1;
yading@10 798 }
yading@10 799
yading@10 800 skip_bits_long(&gb, i);
yading@10 801
yading@10 802 switch (m4ac->object_type) {
yading@10 803 case AOT_AAC_MAIN:
yading@10 804 case AOT_AAC_LC:
yading@10 805 case AOT_AAC_LTP:
yading@10 806 if (decode_ga_specific_config(ac, avctx, &gb, m4ac, m4ac->chan_config))
yading@10 807 return -1;
yading@10 808 break;
yading@10 809 default:
yading@10 810 av_log(avctx, AV_LOG_ERROR, "Audio object type %s%d is not supported.\n",
yading@10 811 m4ac->sbr == 1? "SBR+" : "", m4ac->object_type);
yading@10 812 return -1;
yading@10 813 }
yading@10 814
yading@10 815 av_dlog(avctx, "AOT %d chan config %d sampling index %d (%d) SBR %d PS %d\n",
yading@10 816 m4ac->object_type, m4ac->chan_config, m4ac->sampling_index,
yading@10 817 m4ac->sample_rate, m4ac->sbr, m4ac->ps);
yading@10 818
yading@10 819 return get_bits_count(&gb);
yading@10 820 }
yading@10 821
yading@10 822 /**
yading@10 823 * linear congruential pseudorandom number generator
yading@10 824 *
yading@10 825 * @param previous_val pointer to the current state of the generator
yading@10 826 *
yading@10 827 * @return Returns a 32-bit pseudorandom integer
yading@10 828 */
yading@10 829 static av_always_inline int lcg_random(unsigned previous_val)
yading@10 830 {
yading@10 831 union { unsigned u; int s; } v = { previous_val * 1664525u + 1013904223 };
yading@10 832 return v.s;
yading@10 833 }
yading@10 834
yading@10 835 static av_always_inline void reset_predict_state(PredictorState *ps)
yading@10 836 {
yading@10 837 ps->r0 = 0.0f;
yading@10 838 ps->r1 = 0.0f;
yading@10 839 ps->cor0 = 0.0f;
yading@10 840 ps->cor1 = 0.0f;
yading@10 841 ps->var0 = 1.0f;
yading@10 842 ps->var1 = 1.0f;
yading@10 843 }
yading@10 844
yading@10 845 static void reset_all_predictors(PredictorState *ps)
yading@10 846 {
yading@10 847 int i;
yading@10 848 for (i = 0; i < MAX_PREDICTORS; i++)
yading@10 849 reset_predict_state(&ps[i]);
yading@10 850 }
yading@10 851
yading@10 852 static int sample_rate_idx (int rate)
yading@10 853 {
yading@10 854 if (92017 <= rate) return 0;
yading@10 855 else if (75132 <= rate) return 1;
yading@10 856 else if (55426 <= rate) return 2;
yading@10 857 else if (46009 <= rate) return 3;
yading@10 858 else if (37566 <= rate) return 4;
yading@10 859 else if (27713 <= rate) return 5;
yading@10 860 else if (23004 <= rate) return 6;
yading@10 861 else if (18783 <= rate) return 7;
yading@10 862 else if (13856 <= rate) return 8;
yading@10 863 else if (11502 <= rate) return 9;
yading@10 864 else if (9391 <= rate) return 10;
yading@10 865 else return 11;
yading@10 866 }
yading@10 867
yading@10 868 static void reset_predictor_group(PredictorState *ps, int group_num)
yading@10 869 {
yading@10 870 int i;
yading@10 871 for (i = group_num - 1; i < MAX_PREDICTORS; i += 30)
yading@10 872 reset_predict_state(&ps[i]);
yading@10 873 }
yading@10 874
yading@10 875 #define AAC_INIT_VLC_STATIC(num, size) \
yading@10 876 INIT_VLC_STATIC(&vlc_spectral[num], 8, ff_aac_spectral_sizes[num], \
yading@10 877 ff_aac_spectral_bits[num], sizeof( ff_aac_spectral_bits[num][0]), sizeof( ff_aac_spectral_bits[num][0]), \
yading@10 878 ff_aac_spectral_codes[num], sizeof(ff_aac_spectral_codes[num][0]), sizeof(ff_aac_spectral_codes[num][0]), \
yading@10 879 size);
yading@10 880
yading@10 881 static void aacdec_init(AACContext *ac);
yading@10 882
yading@10 883 static av_cold int aac_decode_init(AVCodecContext *avctx)
yading@10 884 {
yading@10 885 AACContext *ac = avctx->priv_data;
yading@10 886
yading@10 887 ac->avctx = avctx;
yading@10 888 ac->oc[1].m4ac.sample_rate = avctx->sample_rate;
yading@10 889
yading@10 890 aacdec_init(ac);
yading@10 891
yading@10 892 avctx->sample_fmt = AV_SAMPLE_FMT_FLTP;
yading@10 893
yading@10 894 if (avctx->extradata_size > 0) {
yading@10 895 if (decode_audio_specific_config(ac, ac->avctx, &ac->oc[1].m4ac,
yading@10 896 avctx->extradata,
yading@10 897 avctx->extradata_size*8, 1) < 0)
yading@10 898 return -1;
yading@10 899 } else {
yading@10 900 int sr, i;
yading@10 901 uint8_t layout_map[MAX_ELEM_ID*4][3];
yading@10 902 int layout_map_tags;
yading@10 903
yading@10 904 sr = sample_rate_idx(avctx->sample_rate);
yading@10 905 ac->oc[1].m4ac.sampling_index = sr;
yading@10 906 ac->oc[1].m4ac.channels = avctx->channels;
yading@10 907 ac->oc[1].m4ac.sbr = -1;
yading@10 908 ac->oc[1].m4ac.ps = -1;
yading@10 909
yading@10 910 for (i = 0; i < FF_ARRAY_ELEMS(ff_mpeg4audio_channels); i++)
yading@10 911 if (ff_mpeg4audio_channels[i] == avctx->channels)
yading@10 912 break;
yading@10 913 if (i == FF_ARRAY_ELEMS(ff_mpeg4audio_channels)) {
yading@10 914 i = 0;
yading@10 915 }
yading@10 916 ac->oc[1].m4ac.chan_config = i;
yading@10 917
yading@10 918 if (ac->oc[1].m4ac.chan_config) {
yading@10 919 int ret = set_default_channel_config(avctx, layout_map,
yading@10 920 &layout_map_tags, ac->oc[1].m4ac.chan_config);
yading@10 921 if (!ret)
yading@10 922 output_configure(ac, layout_map, layout_map_tags,
yading@10 923 OC_GLOBAL_HDR, 0);
yading@10 924 else if (avctx->err_recognition & AV_EF_EXPLODE)
yading@10 925 return AVERROR_INVALIDDATA;
yading@10 926 }
yading@10 927 }
yading@10 928
yading@10 929 if (avctx->channels > MAX_CHANNELS) {
yading@10 930 av_log(avctx, AV_LOG_ERROR, "Too many channels\n");
yading@10 931 return AVERROR_INVALIDDATA;
yading@10 932 }
yading@10 933
yading@10 934 AAC_INIT_VLC_STATIC( 0, 304);
yading@10 935 AAC_INIT_VLC_STATIC( 1, 270);
yading@10 936 AAC_INIT_VLC_STATIC( 2, 550);
yading@10 937 AAC_INIT_VLC_STATIC( 3, 300);
yading@10 938 AAC_INIT_VLC_STATIC( 4, 328);
yading@10 939 AAC_INIT_VLC_STATIC( 5, 294);
yading@10 940 AAC_INIT_VLC_STATIC( 6, 306);
yading@10 941 AAC_INIT_VLC_STATIC( 7, 268);
yading@10 942 AAC_INIT_VLC_STATIC( 8, 510);
yading@10 943 AAC_INIT_VLC_STATIC( 9, 366);
yading@10 944 AAC_INIT_VLC_STATIC(10, 462);
yading@10 945
yading@10 946 ff_aac_sbr_init();
yading@10 947
yading@10 948 ff_fmt_convert_init(&ac->fmt_conv, avctx);
yading@10 949 avpriv_float_dsp_init(&ac->fdsp, avctx->flags & CODEC_FLAG_BITEXACT);
yading@10 950
yading@10 951 ac->random_state = 0x1f2e3d4c;
yading@10 952
yading@10 953 ff_aac_tableinit();
yading@10 954
yading@10 955 INIT_VLC_STATIC(&vlc_scalefactors,7,FF_ARRAY_ELEMS(ff_aac_scalefactor_code),
yading@10 956 ff_aac_scalefactor_bits, sizeof(ff_aac_scalefactor_bits[0]), sizeof(ff_aac_scalefactor_bits[0]),
yading@10 957 ff_aac_scalefactor_code, sizeof(ff_aac_scalefactor_code[0]), sizeof(ff_aac_scalefactor_code[0]),
yading@10 958 352);
yading@10 959
yading@10 960 ff_mdct_init(&ac->mdct, 11, 1, 1.0 / (32768.0 * 1024.0));
yading@10 961 ff_mdct_init(&ac->mdct_small, 8, 1, 1.0 / (32768.0 * 128.0));
yading@10 962 ff_mdct_init(&ac->mdct_ltp, 11, 0, -2.0 * 32768.0);
yading@10 963 // window initialization
yading@10 964 ff_kbd_window_init(ff_aac_kbd_long_1024, 4.0, 1024);
yading@10 965 ff_kbd_window_init(ff_aac_kbd_short_128, 6.0, 128);
yading@10 966 ff_init_ff_sine_windows(10);
yading@10 967 ff_init_ff_sine_windows( 7);
yading@10 968
yading@10 969 cbrt_tableinit();
yading@10 970
yading@10 971 return 0;
yading@10 972 }
yading@10 973
yading@10 974 /**
yading@10 975 * Skip data_stream_element; reference: table 4.10.
yading@10 976 */
yading@10 977 static int skip_data_stream_element(AACContext *ac, GetBitContext *gb)
yading@10 978 {
yading@10 979 int byte_align = get_bits1(gb);
yading@10 980 int count = get_bits(gb, 8);
yading@10 981 if (count == 255)
yading@10 982 count += get_bits(gb, 8);
yading@10 983 if (byte_align)
yading@10 984 align_get_bits(gb);
yading@10 985
yading@10 986 if (get_bits_left(gb) < 8 * count) {
yading@10 987 av_log(ac->avctx, AV_LOG_ERROR, "skip_data_stream_element: "overread_err);
yading@10 988 return -1;
yading@10 989 }
yading@10 990 skip_bits_long(gb, 8 * count);
yading@10 991 return 0;
yading@10 992 }
yading@10 993
yading@10 994 static int decode_prediction(AACContext *ac, IndividualChannelStream *ics,
yading@10 995 GetBitContext *gb)
yading@10 996 {
yading@10 997 int sfb;
yading@10 998 if (get_bits1(gb)) {
yading@10 999 ics->predictor_reset_group = get_bits(gb, 5);
yading@10 1000 if (ics->predictor_reset_group == 0 || ics->predictor_reset_group > 30) {
yading@10 1001 av_log(ac->avctx, AV_LOG_ERROR, "Invalid Predictor Reset Group.\n");
yading@10 1002 return -1;
yading@10 1003 }
yading@10 1004 }
yading@10 1005 for (sfb = 0; sfb < FFMIN(ics->max_sfb, ff_aac_pred_sfb_max[ac->oc[1].m4ac.sampling_index]); sfb++) {
yading@10 1006 ics->prediction_used[sfb] = get_bits1(gb);
yading@10 1007 }
yading@10 1008 return 0;
yading@10 1009 }
yading@10 1010
yading@10 1011 /**
yading@10 1012 * Decode Long Term Prediction data; reference: table 4.xx.
yading@10 1013 */
yading@10 1014 static void decode_ltp(LongTermPrediction *ltp,
yading@10 1015 GetBitContext *gb, uint8_t max_sfb)
yading@10 1016 {
yading@10 1017 int sfb;
yading@10 1018
yading@10 1019 ltp->lag = get_bits(gb, 11);
yading@10 1020 ltp->coef = ltp_coef[get_bits(gb, 3)];
yading@10 1021 for (sfb = 0; sfb < FFMIN(max_sfb, MAX_LTP_LONG_SFB); sfb++)
yading@10 1022 ltp->used[sfb] = get_bits1(gb);
yading@10 1023 }
yading@10 1024
yading@10 1025 /**
yading@10 1026 * Decode Individual Channel Stream info; reference: table 4.6.
yading@10 1027 */
yading@10 1028 static int decode_ics_info(AACContext *ac, IndividualChannelStream *ics,
yading@10 1029 GetBitContext *gb)
yading@10 1030 {
yading@10 1031 if (get_bits1(gb)) {
yading@10 1032 av_log(ac->avctx, AV_LOG_ERROR, "Reserved bit set.\n");
yading@10 1033 return AVERROR_INVALIDDATA;
yading@10 1034 }
yading@10 1035 ics->window_sequence[1] = ics->window_sequence[0];
yading@10 1036 ics->window_sequence[0] = get_bits(gb, 2);
yading@10 1037 ics->use_kb_window[1] = ics->use_kb_window[0];
yading@10 1038 ics->use_kb_window[0] = get_bits1(gb);
yading@10 1039 ics->num_window_groups = 1;
yading@10 1040 ics->group_len[0] = 1;
yading@10 1041 if (ics->window_sequence[0] == EIGHT_SHORT_SEQUENCE) {
yading@10 1042 int i;
yading@10 1043 ics->max_sfb = get_bits(gb, 4);
yading@10 1044 for (i = 0; i < 7; i++) {
yading@10 1045 if (get_bits1(gb)) {
yading@10 1046 ics->group_len[ics->num_window_groups - 1]++;
yading@10 1047 } else {
yading@10 1048 ics->num_window_groups++;
yading@10 1049 ics->group_len[ics->num_window_groups - 1] = 1;
yading@10 1050 }
yading@10 1051 }
yading@10 1052 ics->num_windows = 8;
yading@10 1053 ics->swb_offset = ff_swb_offset_128[ac->oc[1].m4ac.sampling_index];
yading@10 1054 ics->num_swb = ff_aac_num_swb_128[ac->oc[1].m4ac.sampling_index];
yading@10 1055 ics->tns_max_bands = ff_tns_max_bands_128[ac->oc[1].m4ac.sampling_index];
yading@10 1056 ics->predictor_present = 0;
yading@10 1057 } else {
yading@10 1058 ics->max_sfb = get_bits(gb, 6);
yading@10 1059 ics->num_windows = 1;
yading@10 1060 ics->swb_offset = ff_swb_offset_1024[ac->oc[1].m4ac.sampling_index];
yading@10 1061 ics->num_swb = ff_aac_num_swb_1024[ac->oc[1].m4ac.sampling_index];
yading@10 1062 ics->tns_max_bands = ff_tns_max_bands_1024[ac->oc[1].m4ac.sampling_index];
yading@10 1063 ics->predictor_present = get_bits1(gb);
yading@10 1064 ics->predictor_reset_group = 0;
yading@10 1065 if (ics->predictor_present) {
yading@10 1066 if (ac->oc[1].m4ac.object_type == AOT_AAC_MAIN) {
yading@10 1067 if (decode_prediction(ac, ics, gb)) {
yading@10 1068 goto fail;
yading@10 1069 }
yading@10 1070 } else if (ac->oc[1].m4ac.object_type == AOT_AAC_LC) {
yading@10 1071 av_log(ac->avctx, AV_LOG_ERROR, "Prediction is not allowed in AAC-LC.\n");
yading@10 1072 goto fail;
yading@10 1073 } else {
yading@10 1074 if ((ics->ltp.present = get_bits(gb, 1)))
yading@10 1075 decode_ltp(&ics->ltp, gb, ics->max_sfb);
yading@10 1076 }
yading@10 1077 }
yading@10 1078 }
yading@10 1079
yading@10 1080 if (ics->max_sfb > ics->num_swb) {
yading@10 1081 av_log(ac->avctx, AV_LOG_ERROR,
yading@10 1082 "Number of scalefactor bands in group (%d) exceeds limit (%d).\n",
yading@10 1083 ics->max_sfb, ics->num_swb);
yading@10 1084 goto fail;
yading@10 1085 }
yading@10 1086
yading@10 1087 return 0;
yading@10 1088 fail:
yading@10 1089 ics->max_sfb = 0;
yading@10 1090 return AVERROR_INVALIDDATA;
yading@10 1091 }
yading@10 1092
yading@10 1093 /**
yading@10 1094 * Decode band types (section_data payload); reference: table 4.46.
yading@10 1095 *
yading@10 1096 * @param band_type array of the used band type
yading@10 1097 * @param band_type_run_end array of the last scalefactor band of a band type run
yading@10 1098 *
yading@10 1099 * @return Returns error status. 0 - OK, !0 - error
yading@10 1100 */
yading@10 1101 static int decode_band_types(AACContext *ac, enum BandType band_type[120],
yading@10 1102 int band_type_run_end[120], GetBitContext *gb,
yading@10 1103 IndividualChannelStream *ics)
yading@10 1104 {
yading@10 1105 int g, idx = 0;
yading@10 1106 const int bits = (ics->window_sequence[0] == EIGHT_SHORT_SEQUENCE) ? 3 : 5;
yading@10 1107 for (g = 0; g < ics->num_window_groups; g++) {
yading@10 1108 int k = 0;
yading@10 1109 while (k < ics->max_sfb) {
yading@10 1110 uint8_t sect_end = k;
yading@10 1111 int sect_len_incr;
yading@10 1112 int sect_band_type = get_bits(gb, 4);
yading@10 1113 if (sect_band_type == 12) {
yading@10 1114 av_log(ac->avctx, AV_LOG_ERROR, "invalid band type\n");
yading@10 1115 return -1;
yading@10 1116 }
yading@10 1117 do {
yading@10 1118 sect_len_incr = get_bits(gb, bits);
yading@10 1119 sect_end += sect_len_incr;
yading@10 1120 if (get_bits_left(gb) < 0) {
yading@10 1121 av_log(ac->avctx, AV_LOG_ERROR, "decode_band_types: "overread_err);
yading@10 1122 return -1;
yading@10 1123 }
yading@10 1124 if (sect_end > ics->max_sfb) {
yading@10 1125 av_log(ac->avctx, AV_LOG_ERROR,
yading@10 1126 "Number of bands (%d) exceeds limit (%d).\n",
yading@10 1127 sect_end, ics->max_sfb);
yading@10 1128 return -1;
yading@10 1129 }
yading@10 1130 } while (sect_len_incr == (1 << bits) - 1);
yading@10 1131 for (; k < sect_end; k++) {
yading@10 1132 band_type [idx] = sect_band_type;
yading@10 1133 band_type_run_end[idx++] = sect_end;
yading@10 1134 }
yading@10 1135 }
yading@10 1136 }
yading@10 1137 return 0;
yading@10 1138 }
yading@10 1139
yading@10 1140 /**
yading@10 1141 * Decode scalefactors; reference: table 4.47.
yading@10 1142 *
yading@10 1143 * @param global_gain first scalefactor value as scalefactors are differentially coded
yading@10 1144 * @param band_type array of the used band type
yading@10 1145 * @param band_type_run_end array of the last scalefactor band of a band type run
yading@10 1146 * @param sf array of scalefactors or intensity stereo positions
yading@10 1147 *
yading@10 1148 * @return Returns error status. 0 - OK, !0 - error
yading@10 1149 */
yading@10 1150 static int decode_scalefactors(AACContext *ac, float sf[120], GetBitContext *gb,
yading@10 1151 unsigned int global_gain,
yading@10 1152 IndividualChannelStream *ics,
yading@10 1153 enum BandType band_type[120],
yading@10 1154 int band_type_run_end[120])
yading@10 1155 {
yading@10 1156 int g, i, idx = 0;
yading@10 1157 int offset[3] = { global_gain, global_gain - 90, 0 };
yading@10 1158 int clipped_offset;
yading@10 1159 int noise_flag = 1;
yading@10 1160 for (g = 0; g < ics->num_window_groups; g++) {
yading@10 1161 for (i = 0; i < ics->max_sfb;) {
yading@10 1162 int run_end = band_type_run_end[idx];
yading@10 1163 if (band_type[idx] == ZERO_BT) {
yading@10 1164 for (; i < run_end; i++, idx++)
yading@10 1165 sf[idx] = 0.;
yading@10 1166 } else if ((band_type[idx] == INTENSITY_BT) || (band_type[idx] == INTENSITY_BT2)) {
yading@10 1167 for (; i < run_end; i++, idx++) {
yading@10 1168 offset[2] += get_vlc2(gb, vlc_scalefactors.table, 7, 3) - 60;
yading@10 1169 clipped_offset = av_clip(offset[2], -155, 100);
yading@10 1170 if (offset[2] != clipped_offset) {
yading@10 1171 avpriv_request_sample(ac->avctx,
yading@10 1172 "If you heard an audible artifact, there may be a bug in the decoder. "
yading@10 1173 "Clipped intensity stereo position (%d -> %d)",
yading@10 1174 offset[2], clipped_offset);
yading@10 1175 }
yading@10 1176 sf[idx] = ff_aac_pow2sf_tab[-clipped_offset + POW_SF2_ZERO];
yading@10 1177 }
yading@10 1178 } else if (band_type[idx] == NOISE_BT) {
yading@10 1179 for (; i < run_end; i++, idx++) {
yading@10 1180 if (noise_flag-- > 0)
yading@10 1181 offset[1] += get_bits(gb, 9) - 256;
yading@10 1182 else
yading@10 1183 offset[1] += get_vlc2(gb, vlc_scalefactors.table, 7, 3) - 60;
yading@10 1184 clipped_offset = av_clip(offset[1], -100, 155);
yading@10 1185 if (offset[1] != clipped_offset) {
yading@10 1186 avpriv_request_sample(ac->avctx,
yading@10 1187 "If you heard an audible artifact, there may be a bug in the decoder. "
yading@10 1188 "Clipped noise gain (%d -> %d)",
yading@10 1189 offset[1], clipped_offset);
yading@10 1190 }
yading@10 1191 sf[idx] = -ff_aac_pow2sf_tab[clipped_offset + POW_SF2_ZERO];
yading@10 1192 }
yading@10 1193 } else {
yading@10 1194 for (; i < run_end; i++, idx++) {
yading@10 1195 offset[0] += get_vlc2(gb, vlc_scalefactors.table, 7, 3) - 60;
yading@10 1196 if (offset[0] > 255U) {
yading@10 1197 av_log(ac->avctx, AV_LOG_ERROR,
yading@10 1198 "Scalefactor (%d) out of range.\n", offset[0]);
yading@10 1199 return -1;
yading@10 1200 }
yading@10 1201 sf[idx] = -ff_aac_pow2sf_tab[offset[0] - 100 + POW_SF2_ZERO];
yading@10 1202 }
yading@10 1203 }
yading@10 1204 }
yading@10 1205 }
yading@10 1206 return 0;
yading@10 1207 }
yading@10 1208
yading@10 1209 /**
yading@10 1210 * Decode pulse data; reference: table 4.7.
yading@10 1211 */
yading@10 1212 static int decode_pulses(Pulse *pulse, GetBitContext *gb,
yading@10 1213 const uint16_t *swb_offset, int num_swb)
yading@10 1214 {
yading@10 1215 int i, pulse_swb;
yading@10 1216 pulse->num_pulse = get_bits(gb, 2) + 1;
yading@10 1217 pulse_swb = get_bits(gb, 6);
yading@10 1218 if (pulse_swb >= num_swb)
yading@10 1219 return -1;
yading@10 1220 pulse->pos[0] = swb_offset[pulse_swb];
yading@10 1221 pulse->pos[0] += get_bits(gb, 5);
yading@10 1222 if (pulse->pos[0] > 1023)
yading@10 1223 return -1;
yading@10 1224 pulse->amp[0] = get_bits(gb, 4);
yading@10 1225 for (i = 1; i < pulse->num_pulse; i++) {
yading@10 1226 pulse->pos[i] = get_bits(gb, 5) + pulse->pos[i - 1];
yading@10 1227 if (pulse->pos[i] > 1023)
yading@10 1228 return -1;
yading@10 1229 pulse->amp[i] = get_bits(gb, 4);
yading@10 1230 }
yading@10 1231 return 0;
yading@10 1232 }
yading@10 1233
yading@10 1234 /**
yading@10 1235 * Decode Temporal Noise Shaping data; reference: table 4.48.
yading@10 1236 *
yading@10 1237 * @return Returns error status. 0 - OK, !0 - error
yading@10 1238 */
yading@10 1239 static int decode_tns(AACContext *ac, TemporalNoiseShaping *tns,
yading@10 1240 GetBitContext *gb, const IndividualChannelStream *ics)
yading@10 1241 {
yading@10 1242 int w, filt, i, coef_len, coef_res, coef_compress;
yading@10 1243 const int is8 = ics->window_sequence[0] == EIGHT_SHORT_SEQUENCE;
yading@10 1244 const int tns_max_order = is8 ? 7 : ac->oc[1].m4ac.object_type == AOT_AAC_MAIN ? 20 : 12;
yading@10 1245 for (w = 0; w < ics->num_windows; w++) {
yading@10 1246 if ((tns->n_filt[w] = get_bits(gb, 2 - is8))) {
yading@10 1247 coef_res = get_bits1(gb);
yading@10 1248
yading@10 1249 for (filt = 0; filt < tns->n_filt[w]; filt++) {
yading@10 1250 int tmp2_idx;
yading@10 1251 tns->length[w][filt] = get_bits(gb, 6 - 2 * is8);
yading@10 1252
yading@10 1253 if ((tns->order[w][filt] = get_bits(gb, 5 - 2 * is8)) > tns_max_order) {
yading@10 1254 av_log(ac->avctx, AV_LOG_ERROR, "TNS filter order %d is greater than maximum %d.\n",
yading@10 1255 tns->order[w][filt], tns_max_order);
yading@10 1256 tns->order[w][filt] = 0;
yading@10 1257 return -1;
yading@10 1258 }
yading@10 1259 if (tns->order[w][filt]) {
yading@10 1260 tns->direction[w][filt] = get_bits1(gb);
yading@10 1261 coef_compress = get_bits1(gb);
yading@10 1262 coef_len = coef_res + 3 - coef_compress;
yading@10 1263 tmp2_idx = 2 * coef_compress + coef_res;
yading@10 1264
yading@10 1265 for (i = 0; i < tns->order[w][filt]; i++)
yading@10 1266 tns->coef[w][filt][i] = tns_tmp2_map[tmp2_idx][get_bits(gb, coef_len)];
yading@10 1267 }
yading@10 1268 }
yading@10 1269 }
yading@10 1270 }
yading@10 1271 return 0;
yading@10 1272 }
yading@10 1273
yading@10 1274 /**
yading@10 1275 * Decode Mid/Side data; reference: table 4.54.
yading@10 1276 *
yading@10 1277 * @param ms_present Indicates mid/side stereo presence. [0] mask is all 0s;
yading@10 1278 * [1] mask is decoded from bitstream; [2] mask is all 1s;
yading@10 1279 * [3] reserved for scalable AAC
yading@10 1280 */
yading@10 1281 static void decode_mid_side_stereo(ChannelElement *cpe, GetBitContext *gb,
yading@10 1282 int ms_present)
yading@10 1283 {
yading@10 1284 int idx;
yading@10 1285 if (ms_present == 1) {
yading@10 1286 for (idx = 0; idx < cpe->ch[0].ics.num_window_groups * cpe->ch[0].ics.max_sfb; idx++)
yading@10 1287 cpe->ms_mask[idx] = get_bits1(gb);
yading@10 1288 } else if (ms_present == 2) {
yading@10 1289 memset(cpe->ms_mask, 1, sizeof(cpe->ms_mask[0]) * cpe->ch[0].ics.num_window_groups * cpe->ch[0].ics.max_sfb);
yading@10 1290 }
yading@10 1291 }
yading@10 1292
yading@10 1293 #ifndef VMUL2
yading@10 1294 static inline float *VMUL2(float *dst, const float *v, unsigned idx,
yading@10 1295 const float *scale)
yading@10 1296 {
yading@10 1297 float s = *scale;
yading@10 1298 *dst++ = v[idx & 15] * s;
yading@10 1299 *dst++ = v[idx>>4 & 15] * s;
yading@10 1300 return dst;
yading@10 1301 }
yading@10 1302 #endif
yading@10 1303
yading@10 1304 #ifndef VMUL4
yading@10 1305 static inline float *VMUL4(float *dst, const float *v, unsigned idx,
yading@10 1306 const float *scale)
yading@10 1307 {
yading@10 1308 float s = *scale;
yading@10 1309 *dst++ = v[idx & 3] * s;
yading@10 1310 *dst++ = v[idx>>2 & 3] * s;
yading@10 1311 *dst++ = v[idx>>4 & 3] * s;
yading@10 1312 *dst++ = v[idx>>6 & 3] * s;
yading@10 1313 return dst;
yading@10 1314 }
yading@10 1315 #endif
yading@10 1316
yading@10 1317 #ifndef VMUL2S
yading@10 1318 static inline float *VMUL2S(float *dst, const float *v, unsigned idx,
yading@10 1319 unsigned sign, const float *scale)
yading@10 1320 {
yading@10 1321 union av_intfloat32 s0, s1;
yading@10 1322
yading@10 1323 s0.f = s1.f = *scale;
yading@10 1324 s0.i ^= sign >> 1 << 31;
yading@10 1325 s1.i ^= sign << 31;
yading@10 1326
yading@10 1327 *dst++ = v[idx & 15] * s0.f;
yading@10 1328 *dst++ = v[idx>>4 & 15] * s1.f;
yading@10 1329
yading@10 1330 return dst;
yading@10 1331 }
yading@10 1332 #endif
yading@10 1333
yading@10 1334 #ifndef VMUL4S
yading@10 1335 static inline float *VMUL4S(float *dst, const float *v, unsigned idx,
yading@10 1336 unsigned sign, const float *scale)
yading@10 1337 {
yading@10 1338 unsigned nz = idx >> 12;
yading@10 1339 union av_intfloat32 s = { .f = *scale };
yading@10 1340 union av_intfloat32 t;
yading@10 1341
yading@10 1342 t.i = s.i ^ (sign & 1U<<31);
yading@10 1343 *dst++ = v[idx & 3] * t.f;
yading@10 1344
yading@10 1345 sign <<= nz & 1; nz >>= 1;
yading@10 1346 t.i = s.i ^ (sign & 1U<<31);
yading@10 1347 *dst++ = v[idx>>2 & 3] * t.f;
yading@10 1348
yading@10 1349 sign <<= nz & 1; nz >>= 1;
yading@10 1350 t.i = s.i ^ (sign & 1U<<31);
yading@10 1351 *dst++ = v[idx>>4 & 3] * t.f;
yading@10 1352
yading@10 1353 sign <<= nz & 1;
yading@10 1354 t.i = s.i ^ (sign & 1U<<31);
yading@10 1355 *dst++ = v[idx>>6 & 3] * t.f;
yading@10 1356
yading@10 1357 return dst;
yading@10 1358 }
yading@10 1359 #endif
yading@10 1360
yading@10 1361 /**
yading@10 1362 * Decode spectral data; reference: table 4.50.
yading@10 1363 * Dequantize and scale spectral data; reference: 4.6.3.3.
yading@10 1364 *
yading@10 1365 * @param coef array of dequantized, scaled spectral data
yading@10 1366 * @param sf array of scalefactors or intensity stereo positions
yading@10 1367 * @param pulse_present set if pulses are present
yading@10 1368 * @param pulse pointer to pulse data struct
yading@10 1369 * @param band_type array of the used band type
yading@10 1370 *
yading@10 1371 * @return Returns error status. 0 - OK, !0 - error
yading@10 1372 */
yading@10 1373 static int decode_spectrum_and_dequant(AACContext *ac, float coef[1024],
yading@10 1374 GetBitContext *gb, const float sf[120],
yading@10 1375 int pulse_present, const Pulse *pulse,
yading@10 1376 const IndividualChannelStream *ics,
yading@10 1377 enum BandType band_type[120])
yading@10 1378 {
yading@10 1379 int i, k, g, idx = 0;
yading@10 1380 const int c = 1024 / ics->num_windows;
yading@10 1381 const uint16_t *offsets = ics->swb_offset;
yading@10 1382 float *coef_base = coef;
yading@10 1383
yading@10 1384 for (g = 0; g < ics->num_windows; g++)
yading@10 1385 memset(coef + g * 128 + offsets[ics->max_sfb], 0, sizeof(float) * (c - offsets[ics->max_sfb]));
yading@10 1386
yading@10 1387 for (g = 0; g < ics->num_window_groups; g++) {
yading@10 1388 unsigned g_len = ics->group_len[g];
yading@10 1389
yading@10 1390 for (i = 0; i < ics->max_sfb; i++, idx++) {
yading@10 1391 const unsigned cbt_m1 = band_type[idx] - 1;
yading@10 1392 float *cfo = coef + offsets[i];
yading@10 1393 int off_len = offsets[i + 1] - offsets[i];
yading@10 1394 int group;
yading@10 1395
yading@10 1396 if (cbt_m1 >= INTENSITY_BT2 - 1) {
yading@10 1397 for (group = 0; group < g_len; group++, cfo+=128) {
yading@10 1398 memset(cfo, 0, off_len * sizeof(float));
yading@10 1399 }
yading@10 1400 } else if (cbt_m1 == NOISE_BT - 1) {
yading@10 1401 for (group = 0; group < g_len; group++, cfo+=128) {
yading@10 1402 float scale;
yading@10 1403 float band_energy;
yading@10 1404
yading@10 1405 for (k = 0; k < off_len; k++) {
yading@10 1406 ac->random_state = lcg_random(ac->random_state);
yading@10 1407 cfo[k] = ac->random_state;
yading@10 1408 }
yading@10 1409
yading@10 1410 band_energy = ac->fdsp.scalarproduct_float(cfo, cfo, off_len);
yading@10 1411 scale = sf[idx] / sqrtf(band_energy);
yading@10 1412 ac->fdsp.vector_fmul_scalar(cfo, cfo, scale, off_len);
yading@10 1413 }
yading@10 1414 } else {
yading@10 1415 const float *vq = ff_aac_codebook_vector_vals[cbt_m1];
yading@10 1416 const uint16_t *cb_vector_idx = ff_aac_codebook_vector_idx[cbt_m1];
yading@10 1417 VLC_TYPE (*vlc_tab)[2] = vlc_spectral[cbt_m1].table;
yading@10 1418 OPEN_READER(re, gb);
yading@10 1419
yading@10 1420 switch (cbt_m1 >> 1) {
yading@10 1421 case 0:
yading@10 1422 for (group = 0; group < g_len; group++, cfo+=128) {
yading@10 1423 float *cf = cfo;
yading@10 1424 int len = off_len;
yading@10 1425
yading@10 1426 do {
yading@10 1427 int code;
yading@10 1428 unsigned cb_idx;
yading@10 1429
yading@10 1430 UPDATE_CACHE(re, gb);
yading@10 1431 GET_VLC(code, re, gb, vlc_tab, 8, 2);
yading@10 1432 cb_idx = cb_vector_idx[code];
yading@10 1433 cf = VMUL4(cf, vq, cb_idx, sf + idx);
yading@10 1434 } while (len -= 4);
yading@10 1435 }
yading@10 1436 break;
yading@10 1437
yading@10 1438 case 1:
yading@10 1439 for (group = 0; group < g_len; group++, cfo+=128) {
yading@10 1440 float *cf = cfo;
yading@10 1441 int len = off_len;
yading@10 1442
yading@10 1443 do {
yading@10 1444 int code;
yading@10 1445 unsigned nnz;
yading@10 1446 unsigned cb_idx;
yading@10 1447 uint32_t bits;
yading@10 1448
yading@10 1449 UPDATE_CACHE(re, gb);
yading@10 1450 GET_VLC(code, re, gb, vlc_tab, 8, 2);
yading@10 1451 cb_idx = cb_vector_idx[code];
yading@10 1452 nnz = cb_idx >> 8 & 15;
yading@10 1453 bits = nnz ? GET_CACHE(re, gb) : 0;
yading@10 1454 LAST_SKIP_BITS(re, gb, nnz);
yading@10 1455 cf = VMUL4S(cf, vq, cb_idx, bits, sf + idx);
yading@10 1456 } while (len -= 4);
yading@10 1457 }
yading@10 1458 break;
yading@10 1459
yading@10 1460 case 2:
yading@10 1461 for (group = 0; group < g_len; group++, cfo+=128) {
yading@10 1462 float *cf = cfo;
yading@10 1463 int len = off_len;
yading@10 1464
yading@10 1465 do {
yading@10 1466 int code;
yading@10 1467 unsigned cb_idx;
yading@10 1468
yading@10 1469 UPDATE_CACHE(re, gb);
yading@10 1470 GET_VLC(code, re, gb, vlc_tab, 8, 2);
yading@10 1471 cb_idx = cb_vector_idx[code];
yading@10 1472 cf = VMUL2(cf, vq, cb_idx, sf + idx);
yading@10 1473 } while (len -= 2);
yading@10 1474 }
yading@10 1475 break;
yading@10 1476
yading@10 1477 case 3:
yading@10 1478 case 4:
yading@10 1479 for (group = 0; group < g_len; group++, cfo+=128) {
yading@10 1480 float *cf = cfo;
yading@10 1481 int len = off_len;
yading@10 1482
yading@10 1483 do {
yading@10 1484 int code;
yading@10 1485 unsigned nnz;
yading@10 1486 unsigned cb_idx;
yading@10 1487 unsigned sign;
yading@10 1488
yading@10 1489 UPDATE_CACHE(re, gb);
yading@10 1490 GET_VLC(code, re, gb, vlc_tab, 8, 2);
yading@10 1491 cb_idx = cb_vector_idx[code];
yading@10 1492 nnz = cb_idx >> 8 & 15;
yading@10 1493 sign = nnz ? SHOW_UBITS(re, gb, nnz) << (cb_idx >> 12) : 0;
yading@10 1494 LAST_SKIP_BITS(re, gb, nnz);
yading@10 1495 cf = VMUL2S(cf, vq, cb_idx, sign, sf + idx);
yading@10 1496 } while (len -= 2);
yading@10 1497 }
yading@10 1498 break;
yading@10 1499
yading@10 1500 default:
yading@10 1501 for (group = 0; group < g_len; group++, cfo+=128) {
yading@10 1502 float *cf = cfo;
yading@10 1503 uint32_t *icf = (uint32_t *) cf;
yading@10 1504 int len = off_len;
yading@10 1505
yading@10 1506 do {
yading@10 1507 int code;
yading@10 1508 unsigned nzt, nnz;
yading@10 1509 unsigned cb_idx;
yading@10 1510 uint32_t bits;
yading@10 1511 int j;
yading@10 1512
yading@10 1513 UPDATE_CACHE(re, gb);
yading@10 1514 GET_VLC(code, re, gb, vlc_tab, 8, 2);
yading@10 1515
yading@10 1516 if (!code) {
yading@10 1517 *icf++ = 0;
yading@10 1518 *icf++ = 0;
yading@10 1519 continue;
yading@10 1520 }
yading@10 1521
yading@10 1522 cb_idx = cb_vector_idx[code];
yading@10 1523 nnz = cb_idx >> 12;
yading@10 1524 nzt = cb_idx >> 8;
yading@10 1525 bits = SHOW_UBITS(re, gb, nnz) << (32-nnz);
yading@10 1526 LAST_SKIP_BITS(re, gb, nnz);
yading@10 1527
yading@10 1528 for (j = 0; j < 2; j++) {
yading@10 1529 if (nzt & 1<<j) {
yading@10 1530 uint32_t b;
yading@10 1531 int n;
yading@10 1532 /* The total length of escape_sequence must be < 22 bits according
yading@10 1533 to the specification (i.e. max is 111111110xxxxxxxxxxxx). */
yading@10 1534 UPDATE_CACHE(re, gb);
yading@10 1535 b = GET_CACHE(re, gb);
yading@10 1536 b = 31 - av_log2(~b);
yading@10 1537
yading@10 1538 if (b > 8) {
yading@10 1539 av_log(ac->avctx, AV_LOG_ERROR, "error in spectral data, ESC overflow\n");
yading@10 1540 return -1;
yading@10 1541 }
yading@10 1542
yading@10 1543 SKIP_BITS(re, gb, b + 1);
yading@10 1544 b += 4;
yading@10 1545 n = (1 << b) + SHOW_UBITS(re, gb, b);
yading@10 1546 LAST_SKIP_BITS(re, gb, b);
yading@10 1547 *icf++ = cbrt_tab[n] | (bits & 1U<<31);
yading@10 1548 bits <<= 1;
yading@10 1549 } else {
yading@10 1550 unsigned v = ((const uint32_t*)vq)[cb_idx & 15];
yading@10 1551 *icf++ = (bits & 1U<<31) | v;
yading@10 1552 bits <<= !!v;
yading@10 1553 }
yading@10 1554 cb_idx >>= 4;
yading@10 1555 }
yading@10 1556 } while (len -= 2);
yading@10 1557
yading@10 1558 ac->fdsp.vector_fmul_scalar(cfo, cfo, sf[idx], off_len);
yading@10 1559 }
yading@10 1560 }
yading@10 1561
yading@10 1562 CLOSE_READER(re, gb);
yading@10 1563 }
yading@10 1564 }
yading@10 1565 coef += g_len << 7;
yading@10 1566 }
yading@10 1567
yading@10 1568 if (pulse_present) {
yading@10 1569 idx = 0;
yading@10 1570 for (i = 0; i < pulse->num_pulse; i++) {
yading@10 1571 float co = coef_base[ pulse->pos[i] ];
yading@10 1572 while (offsets[idx + 1] <= pulse->pos[i])
yading@10 1573 idx++;
yading@10 1574 if (band_type[idx] != NOISE_BT && sf[idx]) {
yading@10 1575 float ico = -pulse->amp[i];
yading@10 1576 if (co) {
yading@10 1577 co /= sf[idx];
yading@10 1578 ico = co / sqrtf(sqrtf(fabsf(co))) + (co > 0 ? -ico : ico);
yading@10 1579 }
yading@10 1580 coef_base[ pulse->pos[i] ] = cbrtf(fabsf(ico)) * ico * sf[idx];
yading@10 1581 }
yading@10 1582 }
yading@10 1583 }
yading@10 1584 return 0;
yading@10 1585 }
yading@10 1586
yading@10 1587 static av_always_inline float flt16_round(float pf)
yading@10 1588 {
yading@10 1589 union av_intfloat32 tmp;
yading@10 1590 tmp.f = pf;
yading@10 1591 tmp.i = (tmp.i + 0x00008000U) & 0xFFFF0000U;
yading@10 1592 return tmp.f;
yading@10 1593 }
yading@10 1594
yading@10 1595 static av_always_inline float flt16_even(float pf)
yading@10 1596 {
yading@10 1597 union av_intfloat32 tmp;
yading@10 1598 tmp.f = pf;
yading@10 1599 tmp.i = (tmp.i + 0x00007FFFU + (tmp.i & 0x00010000U >> 16)) & 0xFFFF0000U;
yading@10 1600 return tmp.f;
yading@10 1601 }
yading@10 1602
yading@10 1603 static av_always_inline float flt16_trunc(float pf)
yading@10 1604 {
yading@10 1605 union av_intfloat32 pun;
yading@10 1606 pun.f = pf;
yading@10 1607 pun.i &= 0xFFFF0000U;
yading@10 1608 return pun.f;
yading@10 1609 }
yading@10 1610
yading@10 1611 static av_always_inline void predict(PredictorState *ps, float *coef,
yading@10 1612 int output_enable)
yading@10 1613 {
yading@10 1614 const float a = 0.953125; // 61.0 / 64
yading@10 1615 const float alpha = 0.90625; // 29.0 / 32
yading@10 1616 float e0, e1;
yading@10 1617 float pv;
yading@10 1618 float k1, k2;
yading@10 1619 float r0 = ps->r0, r1 = ps->r1;
yading@10 1620 float cor0 = ps->cor0, cor1 = ps->cor1;
yading@10 1621 float var0 = ps->var0, var1 = ps->var1;
yading@10 1622
yading@10 1623 k1 = var0 > 1 ? cor0 * flt16_even(a / var0) : 0;
yading@10 1624 k2 = var1 > 1 ? cor1 * flt16_even(a / var1) : 0;
yading@10 1625
yading@10 1626 pv = flt16_round(k1 * r0 + k2 * r1);
yading@10 1627 if (output_enable)
yading@10 1628 *coef += pv;
yading@10 1629
yading@10 1630 e0 = *coef;
yading@10 1631 e1 = e0 - k1 * r0;
yading@10 1632
yading@10 1633 ps->cor1 = flt16_trunc(alpha * cor1 + r1 * e1);
yading@10 1634 ps->var1 = flt16_trunc(alpha * var1 + 0.5f * (r1 * r1 + e1 * e1));
yading@10 1635 ps->cor0 = flt16_trunc(alpha * cor0 + r0 * e0);
yading@10 1636 ps->var0 = flt16_trunc(alpha * var0 + 0.5f * (r0 * r0 + e0 * e0));
yading@10 1637
yading@10 1638 ps->r1 = flt16_trunc(a * (r0 - k1 * e0));
yading@10 1639 ps->r0 = flt16_trunc(a * e0);
yading@10 1640 }
yading@10 1641
yading@10 1642 /**
yading@10 1643 * Apply AAC-Main style frequency domain prediction.
yading@10 1644 */
yading@10 1645 static void apply_prediction(AACContext *ac, SingleChannelElement *sce)
yading@10 1646 {
yading@10 1647 int sfb, k;
yading@10 1648
yading@10 1649 if (!sce->ics.predictor_initialized) {
yading@10 1650 reset_all_predictors(sce->predictor_state);
yading@10 1651 sce->ics.predictor_initialized = 1;
yading@10 1652 }
yading@10 1653
yading@10 1654 if (sce->ics.window_sequence[0] != EIGHT_SHORT_SEQUENCE) {
yading@10 1655 for (sfb = 0; sfb < ff_aac_pred_sfb_max[ac->oc[1].m4ac.sampling_index]; sfb++) {
yading@10 1656 for (k = sce->ics.swb_offset[sfb]; k < sce->ics.swb_offset[sfb + 1]; k++) {
yading@10 1657 predict(&sce->predictor_state[k], &sce->coeffs[k],
yading@10 1658 sce->ics.predictor_present && sce->ics.prediction_used[sfb]);
yading@10 1659 }
yading@10 1660 }
yading@10 1661 if (sce->ics.predictor_reset_group)
yading@10 1662 reset_predictor_group(sce->predictor_state, sce->ics.predictor_reset_group);
yading@10 1663 } else
yading@10 1664 reset_all_predictors(sce->predictor_state);
yading@10 1665 }
yading@10 1666
yading@10 1667 /**
yading@10 1668 * Decode an individual_channel_stream payload; reference: table 4.44.
yading@10 1669 *
yading@10 1670 * @param common_window Channels have independent [0], or shared [1], Individual Channel Stream information.
yading@10 1671 * @param scale_flag scalable [1] or non-scalable [0] AAC (Unused until scalable AAC is implemented.)
yading@10 1672 *
yading@10 1673 * @return Returns error status. 0 - OK, !0 - error
yading@10 1674 */
yading@10 1675 static int decode_ics(AACContext *ac, SingleChannelElement *sce,
yading@10 1676 GetBitContext *gb, int common_window, int scale_flag)
yading@10 1677 {
yading@10 1678 Pulse pulse;
yading@10 1679 TemporalNoiseShaping *tns = &sce->tns;
yading@10 1680 IndividualChannelStream *ics = &sce->ics;
yading@10 1681 float *out = sce->coeffs;
yading@10 1682 int global_gain, pulse_present = 0;
yading@10 1683
yading@10 1684 /* This assignment is to silence a GCC warning about the variable being used
yading@10 1685 * uninitialized when in fact it always is.
yading@10 1686 */
yading@10 1687 pulse.num_pulse = 0;
yading@10 1688
yading@10 1689 global_gain = get_bits(gb, 8);
yading@10 1690
yading@10 1691 if (!common_window && !scale_flag) {
yading@10 1692 if (decode_ics_info(ac, ics, gb) < 0)
yading@10 1693 return AVERROR_INVALIDDATA;
yading@10 1694 }
yading@10 1695
yading@10 1696 if (decode_band_types(ac, sce->band_type, sce->band_type_run_end, gb, ics) < 0)
yading@10 1697 return -1;
yading@10 1698 if (decode_scalefactors(ac, sce->sf, gb, global_gain, ics, sce->band_type, sce->band_type_run_end) < 0)
yading@10 1699 return -1;
yading@10 1700
yading@10 1701 pulse_present = 0;
yading@10 1702 if (!scale_flag) {
yading@10 1703 if ((pulse_present = get_bits1(gb))) {
yading@10 1704 if (ics->window_sequence[0] == EIGHT_SHORT_SEQUENCE) {
yading@10 1705 av_log(ac->avctx, AV_LOG_ERROR, "Pulse tool not allowed in eight short sequence.\n");
yading@10 1706 return -1;
yading@10 1707 }
yading@10 1708 if (decode_pulses(&pulse, gb, ics->swb_offset, ics->num_swb)) {
yading@10 1709 av_log(ac->avctx, AV_LOG_ERROR, "Pulse data corrupt or invalid.\n");
yading@10 1710 return -1;
yading@10 1711 }
yading@10 1712 }
yading@10 1713 if ((tns->present = get_bits1(gb)) && decode_tns(ac, tns, gb, ics))
yading@10 1714 return -1;
yading@10 1715 if (get_bits1(gb)) {
yading@10 1716 avpriv_request_sample(ac->avctx, "SSR");
yading@10 1717 return AVERROR_PATCHWELCOME;
yading@10 1718 }
yading@10 1719 }
yading@10 1720
yading@10 1721 if (decode_spectrum_and_dequant(ac, out, gb, sce->sf, pulse_present, &pulse, ics, sce->band_type) < 0)
yading@10 1722 return -1;
yading@10 1723
yading@10 1724 if (ac->oc[1].m4ac.object_type == AOT_AAC_MAIN && !common_window)
yading@10 1725 apply_prediction(ac, sce);
yading@10 1726
yading@10 1727 return 0;
yading@10 1728 }
yading@10 1729
yading@10 1730 /**
yading@10 1731 * Mid/Side stereo decoding; reference: 4.6.8.1.3.
yading@10 1732 */
yading@10 1733 static void apply_mid_side_stereo(AACContext *ac, ChannelElement *cpe)
yading@10 1734 {
yading@10 1735 const IndividualChannelStream *ics = &cpe->ch[0].ics;
yading@10 1736 float *ch0 = cpe->ch[0].coeffs;
yading@10 1737 float *ch1 = cpe->ch[1].coeffs;
yading@10 1738 int g, i, group, idx = 0;
yading@10 1739 const uint16_t *offsets = ics->swb_offset;
yading@10 1740 for (g = 0; g < ics->num_window_groups; g++) {
yading@10 1741 for (i = 0; i < ics->max_sfb; i++, idx++) {
yading@10 1742 if (cpe->ms_mask[idx] &&
yading@10 1743 cpe->ch[0].band_type[idx] < NOISE_BT && cpe->ch[1].band_type[idx] < NOISE_BT) {
yading@10 1744 for (group = 0; group < ics->group_len[g]; group++) {
yading@10 1745 ac->fdsp.butterflies_float(ch0 + group * 128 + offsets[i],
yading@10 1746 ch1 + group * 128 + offsets[i],
yading@10 1747 offsets[i+1] - offsets[i]);
yading@10 1748 }
yading@10 1749 }
yading@10 1750 }
yading@10 1751 ch0 += ics->group_len[g] * 128;
yading@10 1752 ch1 += ics->group_len[g] * 128;
yading@10 1753 }
yading@10 1754 }
yading@10 1755
yading@10 1756 /**
yading@10 1757 * intensity stereo decoding; reference: 4.6.8.2.3
yading@10 1758 *
yading@10 1759 * @param ms_present Indicates mid/side stereo presence. [0] mask is all 0s;
yading@10 1760 * [1] mask is decoded from bitstream; [2] mask is all 1s;
yading@10 1761 * [3] reserved for scalable AAC
yading@10 1762 */
yading@10 1763 static void apply_intensity_stereo(AACContext *ac, ChannelElement *cpe, int ms_present)
yading@10 1764 {
yading@10 1765 const IndividualChannelStream *ics = &cpe->ch[1].ics;
yading@10 1766 SingleChannelElement *sce1 = &cpe->ch[1];
yading@10 1767 float *coef0 = cpe->ch[0].coeffs, *coef1 = cpe->ch[1].coeffs;
yading@10 1768 const uint16_t *offsets = ics->swb_offset;
yading@10 1769 int g, group, i, idx = 0;
yading@10 1770 int c;
yading@10 1771 float scale;
yading@10 1772 for (g = 0; g < ics->num_window_groups; g++) {
yading@10 1773 for (i = 0; i < ics->max_sfb;) {
yading@10 1774 if (sce1->band_type[idx] == INTENSITY_BT || sce1->band_type[idx] == INTENSITY_BT2) {
yading@10 1775 const int bt_run_end = sce1->band_type_run_end[idx];
yading@10 1776 for (; i < bt_run_end; i++, idx++) {
yading@10 1777 c = -1 + 2 * (sce1->band_type[idx] - 14);
yading@10 1778 if (ms_present)
yading@10 1779 c *= 1 - 2 * cpe->ms_mask[idx];
yading@10 1780 scale = c * sce1->sf[idx];
yading@10 1781 for (group = 0; group < ics->group_len[g]; group++)
yading@10 1782 ac->fdsp.vector_fmul_scalar(coef1 + group * 128 + offsets[i],
yading@10 1783 coef0 + group * 128 + offsets[i],
yading@10 1784 scale,
yading@10 1785 offsets[i + 1] - offsets[i]);
yading@10 1786 }
yading@10 1787 } else {
yading@10 1788 int bt_run_end = sce1->band_type_run_end[idx];
yading@10 1789 idx += bt_run_end - i;
yading@10 1790 i = bt_run_end;
yading@10 1791 }
yading@10 1792 }
yading@10 1793 coef0 += ics->group_len[g] * 128;
yading@10 1794 coef1 += ics->group_len[g] * 128;
yading@10 1795 }
yading@10 1796 }
yading@10 1797
yading@10 1798 /**
yading@10 1799 * Decode a channel_pair_element; reference: table 4.4.
yading@10 1800 *
yading@10 1801 * @return Returns error status. 0 - OK, !0 - error
yading@10 1802 */
yading@10 1803 static int decode_cpe(AACContext *ac, GetBitContext *gb, ChannelElement *cpe)
yading@10 1804 {
yading@10 1805 int i, ret, common_window, ms_present = 0;
yading@10 1806
yading@10 1807 common_window = get_bits1(gb);
yading@10 1808 if (common_window) {
yading@10 1809 if (decode_ics_info(ac, &cpe->ch[0].ics, gb))
yading@10 1810 return AVERROR_INVALIDDATA;
yading@10 1811 i = cpe->ch[1].ics.use_kb_window[0];
yading@10 1812 cpe->ch[1].ics = cpe->ch[0].ics;
yading@10 1813 cpe->ch[1].ics.use_kb_window[1] = i;
yading@10 1814 if (cpe->ch[1].ics.predictor_present && (ac->oc[1].m4ac.object_type != AOT_AAC_MAIN))
yading@10 1815 if ((cpe->ch[1].ics.ltp.present = get_bits(gb, 1)))
yading@10 1816 decode_ltp(&cpe->ch[1].ics.ltp, gb, cpe->ch[1].ics.max_sfb);
yading@10 1817 ms_present = get_bits(gb, 2);
yading@10 1818 if (ms_present == 3) {
yading@10 1819 av_log(ac->avctx, AV_LOG_ERROR, "ms_present = 3 is reserved.\n");
yading@10 1820 return -1;
yading@10 1821 } else if (ms_present)
yading@10 1822 decode_mid_side_stereo(cpe, gb, ms_present);
yading@10 1823 }
yading@10 1824 if ((ret = decode_ics(ac, &cpe->ch[0], gb, common_window, 0)))
yading@10 1825 return ret;
yading@10 1826 if ((ret = decode_ics(ac, &cpe->ch[1], gb, common_window, 0)))
yading@10 1827 return ret;
yading@10 1828
yading@10 1829 if (common_window) {
yading@10 1830 if (ms_present)
yading@10 1831 apply_mid_side_stereo(ac, cpe);
yading@10 1832 if (ac->oc[1].m4ac.object_type == AOT_AAC_MAIN) {
yading@10 1833 apply_prediction(ac, &cpe->ch[0]);
yading@10 1834 apply_prediction(ac, &cpe->ch[1]);
yading@10 1835 }
yading@10 1836 }
yading@10 1837
yading@10 1838 apply_intensity_stereo(ac, cpe, ms_present);
yading@10 1839 return 0;
yading@10 1840 }
yading@10 1841
yading@10 1842 static const float cce_scale[] = {
yading@10 1843 1.09050773266525765921, //2^(1/8)
yading@10 1844 1.18920711500272106672, //2^(1/4)
yading@10 1845 M_SQRT2,
yading@10 1846 2,
yading@10 1847 };
yading@10 1848
yading@10 1849 /**
yading@10 1850 * Decode coupling_channel_element; reference: table 4.8.
yading@10 1851 *
yading@10 1852 * @return Returns error status. 0 - OK, !0 - error
yading@10 1853 */
yading@10 1854 static int decode_cce(AACContext *ac, GetBitContext *gb, ChannelElement *che)
yading@10 1855 {
yading@10 1856 int num_gain = 0;
yading@10 1857 int c, g, sfb, ret;
yading@10 1858 int sign;
yading@10 1859 float scale;
yading@10 1860 SingleChannelElement *sce = &che->ch[0];
yading@10 1861 ChannelCoupling *coup = &che->coup;
yading@10 1862
yading@10 1863 coup->coupling_point = 2 * get_bits1(gb);
yading@10 1864 coup->num_coupled = get_bits(gb, 3);
yading@10 1865 for (c = 0; c <= coup->num_coupled; c++) {
yading@10 1866 num_gain++;
yading@10 1867 coup->type[c] = get_bits1(gb) ? TYPE_CPE : TYPE_SCE;
yading@10 1868 coup->id_select[c] = get_bits(gb, 4);
yading@10 1869 if (coup->type[c] == TYPE_CPE) {
yading@10 1870 coup->ch_select[c] = get_bits(gb, 2);
yading@10 1871 if (coup->ch_select[c] == 3)
yading@10 1872 num_gain++;
yading@10 1873 } else
yading@10 1874 coup->ch_select[c] = 2;
yading@10 1875 }
yading@10 1876 coup->coupling_point += get_bits1(gb) || (coup->coupling_point >> 1);
yading@10 1877
yading@10 1878 sign = get_bits(gb, 1);
yading@10 1879 scale = cce_scale[get_bits(gb, 2)];
yading@10 1880
yading@10 1881 if ((ret = decode_ics(ac, sce, gb, 0, 0)))
yading@10 1882 return ret;
yading@10 1883
yading@10 1884 for (c = 0; c < num_gain; c++) {
yading@10 1885 int idx = 0;
yading@10 1886 int cge = 1;
yading@10 1887 int gain = 0;
yading@10 1888 float gain_cache = 1.;
yading@10 1889 if (c) {
yading@10 1890 cge = coup->coupling_point == AFTER_IMDCT ? 1 : get_bits1(gb);
yading@10 1891 gain = cge ? get_vlc2(gb, vlc_scalefactors.table, 7, 3) - 60: 0;
yading@10 1892 gain_cache = powf(scale, -gain);
yading@10 1893 }
yading@10 1894 if (coup->coupling_point == AFTER_IMDCT) {
yading@10 1895 coup->gain[c][0] = gain_cache;
yading@10 1896 } else {
yading@10 1897 for (g = 0; g < sce->ics.num_window_groups; g++) {
yading@10 1898 for (sfb = 0; sfb < sce->ics.max_sfb; sfb++, idx++) {
yading@10 1899 if (sce->band_type[idx] != ZERO_BT) {
yading@10 1900 if (!cge) {
yading@10 1901 int t = get_vlc2(gb, vlc_scalefactors.table, 7, 3) - 60;
yading@10 1902 if (t) {
yading@10 1903 int s = 1;
yading@10 1904 t = gain += t;
yading@10 1905 if (sign) {
yading@10 1906 s -= 2 * (t & 0x1);
yading@10 1907 t >>= 1;
yading@10 1908 }
yading@10 1909 gain_cache = powf(scale, -t) * s;
yading@10 1910 }
yading@10 1911 }
yading@10 1912 coup->gain[c][idx] = gain_cache;
yading@10 1913 }
yading@10 1914 }
yading@10 1915 }
yading@10 1916 }
yading@10 1917 }
yading@10 1918 return 0;
yading@10 1919 }
yading@10 1920
yading@10 1921 /**
yading@10 1922 * Parse whether channels are to be excluded from Dynamic Range Compression; reference: table 4.53.
yading@10 1923 *
yading@10 1924 * @return Returns number of bytes consumed.
yading@10 1925 */
yading@10 1926 static int decode_drc_channel_exclusions(DynamicRangeControl *che_drc,
yading@10 1927 GetBitContext *gb)
yading@10 1928 {
yading@10 1929 int i;
yading@10 1930 int num_excl_chan = 0;
yading@10 1931
yading@10 1932 do {
yading@10 1933 for (i = 0; i < 7; i++)
yading@10 1934 che_drc->exclude_mask[num_excl_chan++] = get_bits1(gb);
yading@10 1935 } while (num_excl_chan < MAX_CHANNELS - 7 && get_bits1(gb));
yading@10 1936
yading@10 1937 return num_excl_chan / 7;
yading@10 1938 }
yading@10 1939
yading@10 1940 /**
yading@10 1941 * Decode dynamic range information; reference: table 4.52.
yading@10 1942 *
yading@10 1943 * @return Returns number of bytes consumed.
yading@10 1944 */
yading@10 1945 static int decode_dynamic_range(DynamicRangeControl *che_drc,
yading@10 1946 GetBitContext *gb)
yading@10 1947 {
yading@10 1948 int n = 1;
yading@10 1949 int drc_num_bands = 1;
yading@10 1950 int i;
yading@10 1951
yading@10 1952 /* pce_tag_present? */
yading@10 1953 if (get_bits1(gb)) {
yading@10 1954 che_drc->pce_instance_tag = get_bits(gb, 4);
yading@10 1955 skip_bits(gb, 4); // tag_reserved_bits
yading@10 1956 n++;
yading@10 1957 }
yading@10 1958
yading@10 1959 /* excluded_chns_present? */
yading@10 1960 if (get_bits1(gb)) {
yading@10 1961 n += decode_drc_channel_exclusions(che_drc, gb);
yading@10 1962 }
yading@10 1963
yading@10 1964 /* drc_bands_present? */
yading@10 1965 if (get_bits1(gb)) {
yading@10 1966 che_drc->band_incr = get_bits(gb, 4);
yading@10 1967 che_drc->interpolation_scheme = get_bits(gb, 4);
yading@10 1968 n++;
yading@10 1969 drc_num_bands += che_drc->band_incr;
yading@10 1970 for (i = 0; i < drc_num_bands; i++) {
yading@10 1971 che_drc->band_top[i] = get_bits(gb, 8);
yading@10 1972 n++;
yading@10 1973 }
yading@10 1974 }
yading@10 1975
yading@10 1976 /* prog_ref_level_present? */
yading@10 1977 if (get_bits1(gb)) {
yading@10 1978 che_drc->prog_ref_level = get_bits(gb, 7);
yading@10 1979 skip_bits1(gb); // prog_ref_level_reserved_bits
yading@10 1980 n++;
yading@10 1981 }
yading@10 1982
yading@10 1983 for (i = 0; i < drc_num_bands; i++) {
yading@10 1984 che_drc->dyn_rng_sgn[i] = get_bits1(gb);
yading@10 1985 che_drc->dyn_rng_ctl[i] = get_bits(gb, 7);
yading@10 1986 n++;
yading@10 1987 }
yading@10 1988
yading@10 1989 return n;
yading@10 1990 }
yading@10 1991
yading@10 1992 static int decode_fill(AACContext *ac, GetBitContext *gb, int len) {
yading@10 1993 uint8_t buf[256];
yading@10 1994 int i, major, minor;
yading@10 1995
yading@10 1996 if (len < 13+7*8)
yading@10 1997 goto unknown;
yading@10 1998
yading@10 1999 get_bits(gb, 13); len -= 13;
yading@10 2000
yading@10 2001 for(i=0; i+1<sizeof(buf) && len>=8; i++, len-=8)
yading@10 2002 buf[i] = get_bits(gb, 8);
yading@10 2003
yading@10 2004 buf[i] = 0;
yading@10 2005 if (ac->avctx->debug & FF_DEBUG_PICT_INFO)
yading@10 2006 av_log(ac->avctx, AV_LOG_DEBUG, "FILL:%s\n", buf);
yading@10 2007
yading@10 2008 if (sscanf(buf, "libfaac %d.%d", &major, &minor) == 2){
yading@10 2009 ac->avctx->internal->skip_samples = 1024;
yading@10 2010 }
yading@10 2011
yading@10 2012 unknown:
yading@10 2013 skip_bits_long(gb, len);
yading@10 2014
yading@10 2015 return 0;
yading@10 2016 }
yading@10 2017
yading@10 2018 /**
yading@10 2019 * Decode extension data (incomplete); reference: table 4.51.
yading@10 2020 *
yading@10 2021 * @param cnt length of TYPE_FIL syntactic element in bytes
yading@10 2022 *
yading@10 2023 * @return Returns number of bytes consumed
yading@10 2024 */
yading@10 2025 static int decode_extension_payload(AACContext *ac, GetBitContext *gb, int cnt,
yading@10 2026 ChannelElement *che, enum RawDataBlockType elem_type)
yading@10 2027 {
yading@10 2028 int crc_flag = 0;
yading@10 2029 int res = cnt;
yading@10 2030 switch (get_bits(gb, 4)) { // extension type
yading@10 2031 case EXT_SBR_DATA_CRC:
yading@10 2032 crc_flag++;
yading@10 2033 case EXT_SBR_DATA:
yading@10 2034 if (!che) {
yading@10 2035 av_log(ac->avctx, AV_LOG_ERROR, "SBR was found before the first channel element.\n");
yading@10 2036 return res;
yading@10 2037 } else if (!ac->oc[1].m4ac.sbr) {
yading@10 2038 av_log(ac->avctx, AV_LOG_ERROR, "SBR signaled to be not-present but was found in the bitstream.\n");
yading@10 2039 skip_bits_long(gb, 8 * cnt - 4);
yading@10 2040 return res;
yading@10 2041 } else if (ac->oc[1].m4ac.sbr == -1 && ac->oc[1].status == OC_LOCKED) {
yading@10 2042 av_log(ac->avctx, AV_LOG_ERROR, "Implicit SBR was found with a first occurrence after the first frame.\n");
yading@10 2043 skip_bits_long(gb, 8 * cnt - 4);
yading@10 2044 return res;
yading@10 2045 } else if (ac->oc[1].m4ac.ps == -1 && ac->oc[1].status < OC_LOCKED && ac->avctx->channels == 1) {
yading@10 2046 ac->oc[1].m4ac.sbr = 1;
yading@10 2047 ac->oc[1].m4ac.ps = 1;
yading@10 2048 output_configure(ac, ac->oc[1].layout_map, ac->oc[1].layout_map_tags,
yading@10 2049 ac->oc[1].status, 1);
yading@10 2050 } else {
yading@10 2051 ac->oc[1].m4ac.sbr = 1;
yading@10 2052 }
yading@10 2053 res = ff_decode_sbr_extension(ac, &che->sbr, gb, crc_flag, cnt, elem_type);
yading@10 2054 break;
yading@10 2055 case EXT_DYNAMIC_RANGE:
yading@10 2056 res = decode_dynamic_range(&ac->che_drc, gb);
yading@10 2057 break;
yading@10 2058 case EXT_FILL:
yading@10 2059 decode_fill(ac, gb, 8 * cnt - 4);
yading@10 2060 break;
yading@10 2061 case EXT_FILL_DATA:
yading@10 2062 case EXT_DATA_ELEMENT:
yading@10 2063 default:
yading@10 2064 skip_bits_long(gb, 8 * cnt - 4);
yading@10 2065 break;
yading@10 2066 };
yading@10 2067 return res;
yading@10 2068 }
yading@10 2069
yading@10 2070 /**
yading@10 2071 * Decode Temporal Noise Shaping filter coefficients and apply all-pole filters; reference: 4.6.9.3.
yading@10 2072 *
yading@10 2073 * @param decode 1 if tool is used normally, 0 if tool is used in LTP.
yading@10 2074 * @param coef spectral coefficients
yading@10 2075 */
yading@10 2076 static void apply_tns(float coef[1024], TemporalNoiseShaping *tns,
yading@10 2077 IndividualChannelStream *ics, int decode)
yading@10 2078 {
yading@10 2079 const int mmm = FFMIN(ics->tns_max_bands, ics->max_sfb);
yading@10 2080 int w, filt, m, i;
yading@10 2081 int bottom, top, order, start, end, size, inc;
yading@10 2082 float lpc[TNS_MAX_ORDER];
yading@10 2083 float tmp[TNS_MAX_ORDER+1];
yading@10 2084
yading@10 2085 for (w = 0; w < ics->num_windows; w++) {
yading@10 2086 bottom = ics->num_swb;
yading@10 2087 for (filt = 0; filt < tns->n_filt[w]; filt++) {
yading@10 2088 top = bottom;
yading@10 2089 bottom = FFMAX(0, top - tns->length[w][filt]);
yading@10 2090 order = tns->order[w][filt];
yading@10 2091 if (order == 0)
yading@10 2092 continue;
yading@10 2093
yading@10 2094 // tns_decode_coef
yading@10 2095 compute_lpc_coefs(tns->coef[w][filt], order, lpc, 0, 0, 0);
yading@10 2096
yading@10 2097 start = ics->swb_offset[FFMIN(bottom, mmm)];
yading@10 2098 end = ics->swb_offset[FFMIN( top, mmm)];
yading@10 2099 if ((size = end - start) <= 0)
yading@10 2100 continue;
yading@10 2101 if (tns->direction[w][filt]) {
yading@10 2102 inc = -1;
yading@10 2103 start = end - 1;
yading@10 2104 } else {
yading@10 2105 inc = 1;
yading@10 2106 }
yading@10 2107 start += w * 128;
yading@10 2108
yading@10 2109 if (decode) {
yading@10 2110 // ar filter
yading@10 2111 for (m = 0; m < size; m++, start += inc)
yading@10 2112 for (i = 1; i <= FFMIN(m, order); i++)
yading@10 2113 coef[start] -= coef[start - i * inc] * lpc[i - 1];
yading@10 2114 } else {
yading@10 2115 // ma filter
yading@10 2116 for (m = 0; m < size; m++, start += inc) {
yading@10 2117 tmp[0] = coef[start];
yading@10 2118 for (i = 1; i <= FFMIN(m, order); i++)
yading@10 2119 coef[start] += tmp[i] * lpc[i - 1];
yading@10 2120 for (i = order; i > 0; i--)
yading@10 2121 tmp[i] = tmp[i - 1];
yading@10 2122 }
yading@10 2123 }
yading@10 2124 }
yading@10 2125 }
yading@10 2126 }
yading@10 2127
yading@10 2128 /**
yading@10 2129 * Apply windowing and MDCT to obtain the spectral
yading@10 2130 * coefficient from the predicted sample by LTP.
yading@10 2131 */
yading@10 2132 static void windowing_and_mdct_ltp(AACContext *ac, float *out,
yading@10 2133 float *in, IndividualChannelStream *ics)
yading@10 2134 {
yading@10 2135 const float *lwindow = ics->use_kb_window[0] ? ff_aac_kbd_long_1024 : ff_sine_1024;
yading@10 2136 const float *swindow = ics->use_kb_window[0] ? ff_aac_kbd_short_128 : ff_sine_128;
yading@10 2137 const float *lwindow_prev = ics->use_kb_window[1] ? ff_aac_kbd_long_1024 : ff_sine_1024;
yading@10 2138 const float *swindow_prev = ics->use_kb_window[1] ? ff_aac_kbd_short_128 : ff_sine_128;
yading@10 2139
yading@10 2140 if (ics->window_sequence[0] != LONG_STOP_SEQUENCE) {
yading@10 2141 ac->fdsp.vector_fmul(in, in, lwindow_prev, 1024);
yading@10 2142 } else {
yading@10 2143 memset(in, 0, 448 * sizeof(float));
yading@10 2144 ac->fdsp.vector_fmul(in + 448, in + 448, swindow_prev, 128);
yading@10 2145 }
yading@10 2146 if (ics->window_sequence[0] != LONG_START_SEQUENCE) {
yading@10 2147 ac->fdsp.vector_fmul_reverse(in + 1024, in + 1024, lwindow, 1024);
yading@10 2148 } else {
yading@10 2149 ac->fdsp.vector_fmul_reverse(in + 1024 + 448, in + 1024 + 448, swindow, 128);
yading@10 2150 memset(in + 1024 + 576, 0, 448 * sizeof(float));
yading@10 2151 }
yading@10 2152 ac->mdct_ltp.mdct_calc(&ac->mdct_ltp, out, in);
yading@10 2153 }
yading@10 2154
yading@10 2155 /**
yading@10 2156 * Apply the long term prediction
yading@10 2157 */
yading@10 2158 static void apply_ltp(AACContext *ac, SingleChannelElement *sce)
yading@10 2159 {
yading@10 2160 const LongTermPrediction *ltp = &sce->ics.ltp;
yading@10 2161 const uint16_t *offsets = sce->ics.swb_offset;
yading@10 2162 int i, sfb;
yading@10 2163
yading@10 2164 if (sce->ics.window_sequence[0] != EIGHT_SHORT_SEQUENCE) {
yading@10 2165 float *predTime = sce->ret;
yading@10 2166 float *predFreq = ac->buf_mdct;
yading@10 2167 int16_t num_samples = 2048;
yading@10 2168
yading@10 2169 if (ltp->lag < 1024)
yading@10 2170 num_samples = ltp->lag + 1024;
yading@10 2171 for (i = 0; i < num_samples; i++)
yading@10 2172 predTime[i] = sce->ltp_state[i + 2048 - ltp->lag] * ltp->coef;
yading@10 2173 memset(&predTime[i], 0, (2048 - i) * sizeof(float));
yading@10 2174
yading@10 2175 ac->windowing_and_mdct_ltp(ac, predFreq, predTime, &sce->ics);
yading@10 2176
yading@10 2177 if (sce->tns.present)
yading@10 2178 ac->apply_tns(predFreq, &sce->tns, &sce->ics, 0);
yading@10 2179
yading@10 2180 for (sfb = 0; sfb < FFMIN(sce->ics.max_sfb, MAX_LTP_LONG_SFB); sfb++)
yading@10 2181 if (ltp->used[sfb])
yading@10 2182 for (i = offsets[sfb]; i < offsets[sfb + 1]; i++)
yading@10 2183 sce->coeffs[i] += predFreq[i];
yading@10 2184 }
yading@10 2185 }
yading@10 2186
yading@10 2187 /**
yading@10 2188 * Update the LTP buffer for next frame
yading@10 2189 */
yading@10 2190 static void update_ltp(AACContext *ac, SingleChannelElement *sce)
yading@10 2191 {
yading@10 2192 IndividualChannelStream *ics = &sce->ics;
yading@10 2193 float *saved = sce->saved;
yading@10 2194 float *saved_ltp = sce->coeffs;
yading@10 2195 const float *lwindow = ics->use_kb_window[0] ? ff_aac_kbd_long_1024 : ff_sine_1024;
yading@10 2196 const float *swindow = ics->use_kb_window[0] ? ff_aac_kbd_short_128 : ff_sine_128;
yading@10 2197 int i;
yading@10 2198
yading@10 2199 if (ics->window_sequence[0] == EIGHT_SHORT_SEQUENCE) {
yading@10 2200 memcpy(saved_ltp, saved, 512 * sizeof(float));
yading@10 2201 memset(saved_ltp + 576, 0, 448 * sizeof(float));
yading@10 2202 ac->fdsp.vector_fmul_reverse(saved_ltp + 448, ac->buf_mdct + 960, &swindow[64], 64);
yading@10 2203 for (i = 0; i < 64; i++)
yading@10 2204 saved_ltp[i + 512] = ac->buf_mdct[1023 - i] * swindow[63 - i];
yading@10 2205 } else if (ics->window_sequence[0] == LONG_START_SEQUENCE) {
yading@10 2206 memcpy(saved_ltp, ac->buf_mdct + 512, 448 * sizeof(float));
yading@10 2207 memset(saved_ltp + 576, 0, 448 * sizeof(float));
yading@10 2208 ac->fdsp.vector_fmul_reverse(saved_ltp + 448, ac->buf_mdct + 960, &swindow[64], 64);
yading@10 2209 for (i = 0; i < 64; i++)
yading@10 2210 saved_ltp[i + 512] = ac->buf_mdct[1023 - i] * swindow[63 - i];
yading@10 2211 } else { // LONG_STOP or ONLY_LONG
yading@10 2212 ac->fdsp.vector_fmul_reverse(saved_ltp, ac->buf_mdct + 512, &lwindow[512], 512);
yading@10 2213 for (i = 0; i < 512; i++)
yading@10 2214 saved_ltp[i + 512] = ac->buf_mdct[1023 - i] * lwindow[511 - i];
yading@10 2215 }
yading@10 2216
yading@10 2217 memcpy(sce->ltp_state, sce->ltp_state+1024, 1024 * sizeof(*sce->ltp_state));
yading@10 2218 memcpy(sce->ltp_state+1024, sce->ret, 1024 * sizeof(*sce->ltp_state));
yading@10 2219 memcpy(sce->ltp_state+2048, saved_ltp, 1024 * sizeof(*sce->ltp_state));
yading@10 2220 }
yading@10 2221
yading@10 2222 /**
yading@10 2223 * Conduct IMDCT and windowing.
yading@10 2224 */
yading@10 2225 static void imdct_and_windowing(AACContext *ac, SingleChannelElement *sce)
yading@10 2226 {
yading@10 2227 IndividualChannelStream *ics = &sce->ics;
yading@10 2228 float *in = sce->coeffs;
yading@10 2229 float *out = sce->ret;
yading@10 2230 float *saved = sce->saved;
yading@10 2231 const float *swindow = ics->use_kb_window[0] ? ff_aac_kbd_short_128 : ff_sine_128;
yading@10 2232 const float *lwindow_prev = ics->use_kb_window[1] ? ff_aac_kbd_long_1024 : ff_sine_1024;
yading@10 2233 const float *swindow_prev = ics->use_kb_window[1] ? ff_aac_kbd_short_128 : ff_sine_128;
yading@10 2234 float *buf = ac->buf_mdct;
yading@10 2235 float *temp = ac->temp;
yading@10 2236 int i;
yading@10 2237
yading@10 2238 // imdct
yading@10 2239 if (ics->window_sequence[0] == EIGHT_SHORT_SEQUENCE) {
yading@10 2240 for (i = 0; i < 1024; i += 128)
yading@10 2241 ac->mdct_small.imdct_half(&ac->mdct_small, buf + i, in + i);
yading@10 2242 } else
yading@10 2243 ac->mdct.imdct_half(&ac->mdct, buf, in);
yading@10 2244
yading@10 2245 /* window overlapping
yading@10 2246 * NOTE: To simplify the overlapping code, all 'meaningless' short to long
yading@10 2247 * and long to short transitions are considered to be short to short
yading@10 2248 * transitions. This leaves just two cases (long to long and short to short)
yading@10 2249 * with a little special sauce for EIGHT_SHORT_SEQUENCE.
yading@10 2250 */
yading@10 2251 if ((ics->window_sequence[1] == ONLY_LONG_SEQUENCE || ics->window_sequence[1] == LONG_STOP_SEQUENCE) &&
yading@10 2252 (ics->window_sequence[0] == ONLY_LONG_SEQUENCE || ics->window_sequence[0] == LONG_START_SEQUENCE)) {
yading@10 2253 ac->fdsp.vector_fmul_window( out, saved, buf, lwindow_prev, 512);
yading@10 2254 } else {
yading@10 2255 memcpy( out, saved, 448 * sizeof(float));
yading@10 2256
yading@10 2257 if (ics->window_sequence[0] == EIGHT_SHORT_SEQUENCE) {
yading@10 2258 ac->fdsp.vector_fmul_window(out + 448 + 0*128, saved + 448, buf + 0*128, swindow_prev, 64);
yading@10 2259 ac->fdsp.vector_fmul_window(out + 448 + 1*128, buf + 0*128 + 64, buf + 1*128, swindow, 64);
yading@10 2260 ac->fdsp.vector_fmul_window(out + 448 + 2*128, buf + 1*128 + 64, buf + 2*128, swindow, 64);
yading@10 2261 ac->fdsp.vector_fmul_window(out + 448 + 3*128, buf + 2*128 + 64, buf + 3*128, swindow, 64);
yading@10 2262 ac->fdsp.vector_fmul_window(temp, buf + 3*128 + 64, buf + 4*128, swindow, 64);
yading@10 2263 memcpy( out + 448 + 4*128, temp, 64 * sizeof(float));
yading@10 2264 } else {
yading@10 2265 ac->fdsp.vector_fmul_window(out + 448, saved + 448, buf, swindow_prev, 64);
yading@10 2266 memcpy( out + 576, buf + 64, 448 * sizeof(float));
yading@10 2267 }
yading@10 2268 }
yading@10 2269
yading@10 2270 // buffer update
yading@10 2271 if (ics->window_sequence[0] == EIGHT_SHORT_SEQUENCE) {
yading@10 2272 memcpy( saved, temp + 64, 64 * sizeof(float));
yading@10 2273 ac->fdsp.vector_fmul_window(saved + 64, buf + 4*128 + 64, buf + 5*128, swindow, 64);
yading@10 2274 ac->fdsp.vector_fmul_window(saved + 192, buf + 5*128 + 64, buf + 6*128, swindow, 64);
yading@10 2275 ac->fdsp.vector_fmul_window(saved + 320, buf + 6*128 + 64, buf + 7*128, swindow, 64);
yading@10 2276 memcpy( saved + 448, buf + 7*128 + 64, 64 * sizeof(float));
yading@10 2277 } else if (ics->window_sequence[0] == LONG_START_SEQUENCE) {
yading@10 2278 memcpy( saved, buf + 512, 448 * sizeof(float));
yading@10 2279 memcpy( saved + 448, buf + 7*128 + 64, 64 * sizeof(float));
yading@10 2280 } else { // LONG_STOP or ONLY_LONG
yading@10 2281 memcpy( saved, buf + 512, 512 * sizeof(float));
yading@10 2282 }
yading@10 2283 }
yading@10 2284
yading@10 2285 /**
yading@10 2286 * Apply dependent channel coupling (applied before IMDCT).
yading@10 2287 *
yading@10 2288 * @param index index into coupling gain array
yading@10 2289 */
yading@10 2290 static void apply_dependent_coupling(AACContext *ac,
yading@10 2291 SingleChannelElement *target,
yading@10 2292 ChannelElement *cce, int index)
yading@10 2293 {
yading@10 2294 IndividualChannelStream *ics = &cce->ch[0].ics;
yading@10 2295 const uint16_t *offsets = ics->swb_offset;
yading@10 2296 float *dest = target->coeffs;
yading@10 2297 const float *src = cce->ch[0].coeffs;
yading@10 2298 int g, i, group, k, idx = 0;
yading@10 2299 if (ac->oc[1].m4ac.object_type == AOT_AAC_LTP) {
yading@10 2300 av_log(ac->avctx, AV_LOG_ERROR,
yading@10 2301 "Dependent coupling is not supported together with LTP\n");
yading@10 2302 return;
yading@10 2303 }
yading@10 2304 for (g = 0; g < ics->num_window_groups; g++) {
yading@10 2305 for (i = 0; i < ics->max_sfb; i++, idx++) {
yading@10 2306 if (cce->ch[0].band_type[idx] != ZERO_BT) {
yading@10 2307 const float gain = cce->coup.gain[index][idx];
yading@10 2308 for (group = 0; group < ics->group_len[g]; group++) {
yading@10 2309 for (k = offsets[i]; k < offsets[i + 1]; k++) {
yading@10 2310 // XXX dsputil-ize
yading@10 2311 dest[group * 128 + k] += gain * src[group * 128 + k];
yading@10 2312 }
yading@10 2313 }
yading@10 2314 }
yading@10 2315 }
yading@10 2316 dest += ics->group_len[g] * 128;
yading@10 2317 src += ics->group_len[g] * 128;
yading@10 2318 }
yading@10 2319 }
yading@10 2320
yading@10 2321 /**
yading@10 2322 * Apply independent channel coupling (applied after IMDCT).
yading@10 2323 *
yading@10 2324 * @param index index into coupling gain array
yading@10 2325 */
yading@10 2326 static void apply_independent_coupling(AACContext *ac,
yading@10 2327 SingleChannelElement *target,
yading@10 2328 ChannelElement *cce, int index)
yading@10 2329 {
yading@10 2330 int i;
yading@10 2331 const float gain = cce->coup.gain[index][0];
yading@10 2332 const float *src = cce->ch[0].ret;
yading@10 2333 float *dest = target->ret;
yading@10 2334 const int len = 1024 << (ac->oc[1].m4ac.sbr == 1);
yading@10 2335
yading@10 2336 for (i = 0; i < len; i++)
yading@10 2337 dest[i] += gain * src[i];
yading@10 2338 }
yading@10 2339
yading@10 2340 /**
yading@10 2341 * channel coupling transformation interface
yading@10 2342 *
yading@10 2343 * @param apply_coupling_method pointer to (in)dependent coupling function
yading@10 2344 */
yading@10 2345 static void apply_channel_coupling(AACContext *ac, ChannelElement *cc,
yading@10 2346 enum RawDataBlockType type, int elem_id,
yading@10 2347 enum CouplingPoint coupling_point,
yading@10 2348 void (*apply_coupling_method)(AACContext *ac, SingleChannelElement *target, ChannelElement *cce, int index))
yading@10 2349 {
yading@10 2350 int i, c;
yading@10 2351
yading@10 2352 for (i = 0; i < MAX_ELEM_ID; i++) {
yading@10 2353 ChannelElement *cce = ac->che[TYPE_CCE][i];
yading@10 2354 int index = 0;
yading@10 2355
yading@10 2356 if (cce && cce->coup.coupling_point == coupling_point) {
yading@10 2357 ChannelCoupling *coup = &cce->coup;
yading@10 2358
yading@10 2359 for (c = 0; c <= coup->num_coupled; c++) {
yading@10 2360 if (coup->type[c] == type && coup->id_select[c] == elem_id) {
yading@10 2361 if (coup->ch_select[c] != 1) {
yading@10 2362 apply_coupling_method(ac, &cc->ch[0], cce, index);
yading@10 2363 if (coup->ch_select[c] != 0)
yading@10 2364 index++;
yading@10 2365 }
yading@10 2366 if (coup->ch_select[c] != 2)
yading@10 2367 apply_coupling_method(ac, &cc->ch[1], cce, index++);
yading@10 2368 } else
yading@10 2369 index += 1 + (coup->ch_select[c] == 3);
yading@10 2370 }
yading@10 2371 }
yading@10 2372 }
yading@10 2373 }
yading@10 2374
yading@10 2375 /**
yading@10 2376 * Convert spectral data to float samples, applying all supported tools as appropriate.
yading@10 2377 */
yading@10 2378 static void spectral_to_sample(AACContext *ac)
yading@10 2379 {
yading@10 2380 int i, type;
yading@10 2381 for (type = 3; type >= 0; type--) {
yading@10 2382 for (i = 0; i < MAX_ELEM_ID; i++) {
yading@10 2383 ChannelElement *che = ac->che[type][i];
yading@10 2384 if (che) {
yading@10 2385 if (type <= TYPE_CPE)
yading@10 2386 apply_channel_coupling(ac, che, type, i, BEFORE_TNS, apply_dependent_coupling);
yading@10 2387 if (ac->oc[1].m4ac.object_type == AOT_AAC_LTP) {
yading@10 2388 if (che->ch[0].ics.predictor_present) {
yading@10 2389 if (che->ch[0].ics.ltp.present)
yading@10 2390 ac->apply_ltp(ac, &che->ch[0]);
yading@10 2391 if (che->ch[1].ics.ltp.present && type == TYPE_CPE)
yading@10 2392 ac->apply_ltp(ac, &che->ch[1]);
yading@10 2393 }
yading@10 2394 }
yading@10 2395 if (che->ch[0].tns.present)
yading@10 2396 ac->apply_tns(che->ch[0].coeffs, &che->ch[0].tns, &che->ch[0].ics, 1);
yading@10 2397 if (che->ch[1].tns.present)
yading@10 2398 ac->apply_tns(che->ch[1].coeffs, &che->ch[1].tns, &che->ch[1].ics, 1);
yading@10 2399 if (type <= TYPE_CPE)
yading@10 2400 apply_channel_coupling(ac, che, type, i, BETWEEN_TNS_AND_IMDCT, apply_dependent_coupling);
yading@10 2401 if (type != TYPE_CCE || che->coup.coupling_point == AFTER_IMDCT) {
yading@10 2402 ac->imdct_and_windowing(ac, &che->ch[0]);
yading@10 2403 if (ac->oc[1].m4ac.object_type == AOT_AAC_LTP)
yading@10 2404 ac->update_ltp(ac, &che->ch[0]);
yading@10 2405 if (type == TYPE_CPE) {
yading@10 2406 ac->imdct_and_windowing(ac, &che->ch[1]);
yading@10 2407 if (ac->oc[1].m4ac.object_type == AOT_AAC_LTP)
yading@10 2408 ac->update_ltp(ac, &che->ch[1]);
yading@10 2409 }
yading@10 2410 if (ac->oc[1].m4ac.sbr > 0) {
yading@10 2411 ff_sbr_apply(ac, &che->sbr, type, che->ch[0].ret, che->ch[1].ret);
yading@10 2412 }
yading@10 2413 }
yading@10 2414 if (type <= TYPE_CCE)
yading@10 2415 apply_channel_coupling(ac, che, type, i, AFTER_IMDCT, apply_independent_coupling);
yading@10 2416 }
yading@10 2417 }
yading@10 2418 }
yading@10 2419 }
yading@10 2420
yading@10 2421 static int parse_adts_frame_header(AACContext *ac, GetBitContext *gb)
yading@10 2422 {
yading@10 2423 int size;
yading@10 2424 AACADTSHeaderInfo hdr_info;
yading@10 2425 uint8_t layout_map[MAX_ELEM_ID*4][3];
yading@10 2426 int layout_map_tags;
yading@10 2427
yading@10 2428 size = avpriv_aac_parse_header(gb, &hdr_info);
yading@10 2429 if (size > 0) {
yading@10 2430 if (!ac->warned_num_aac_frames && hdr_info.num_aac_frames != 1) {
yading@10 2431 // This is 2 for "VLB " audio in NSV files.
yading@10 2432 // See samples/nsv/vlb_audio.
yading@10 2433 avpriv_report_missing_feature(ac->avctx,
yading@10 2434 "More than one AAC RDB per ADTS frame");
yading@10 2435 ac->warned_num_aac_frames = 1;
yading@10 2436 }
yading@10 2437 push_output_configuration(ac);
yading@10 2438 if (hdr_info.chan_config) {
yading@10 2439 ac->oc[1].m4ac.chan_config = hdr_info.chan_config;
yading@10 2440 if (set_default_channel_config(ac->avctx, layout_map,
yading@10 2441 &layout_map_tags, hdr_info.chan_config))
yading@10 2442 return -7;
yading@10 2443 if (output_configure(ac, layout_map, layout_map_tags,
yading@10 2444 FFMAX(ac->oc[1].status, OC_TRIAL_FRAME), 0))
yading@10 2445 return -7;
yading@10 2446 } else {
yading@10 2447 ac->oc[1].m4ac.chan_config = 0;
yading@10 2448 /**
yading@10 2449 * dual mono frames in Japanese DTV can have chan_config 0
yading@10 2450 * WITHOUT specifying PCE.
yading@10 2451 * thus, set dual mono as default.
yading@10 2452 */
yading@10 2453 if (ac->dmono_mode && ac->oc[0].status == OC_NONE) {
yading@10 2454 layout_map_tags = 2;
yading@10 2455 layout_map[0][0] = layout_map[1][0] = TYPE_SCE;
yading@10 2456 layout_map[0][2] = layout_map[1][2] = AAC_CHANNEL_FRONT;
yading@10 2457 layout_map[0][1] = 0;
yading@10 2458 layout_map[1][1] = 1;
yading@10 2459 if (output_configure(ac, layout_map, layout_map_tags,
yading@10 2460 OC_TRIAL_FRAME, 0))
yading@10 2461 return -7;
yading@10 2462 }
yading@10 2463 }
yading@10 2464 ac->oc[1].m4ac.sample_rate = hdr_info.sample_rate;
yading@10 2465 ac->oc[1].m4ac.sampling_index = hdr_info.sampling_index;
yading@10 2466 ac->oc[1].m4ac.object_type = hdr_info.object_type;
yading@10 2467 if (ac->oc[0].status != OC_LOCKED ||
yading@10 2468 ac->oc[0].m4ac.chan_config != hdr_info.chan_config ||
yading@10 2469 ac->oc[0].m4ac.sample_rate != hdr_info.sample_rate) {
yading@10 2470 ac->oc[1].m4ac.sbr = -1;
yading@10 2471 ac->oc[1].m4ac.ps = -1;
yading@10 2472 }
yading@10 2473 if (!hdr_info.crc_absent)
yading@10 2474 skip_bits(gb, 16);
yading@10 2475 }
yading@10 2476 return size;
yading@10 2477 }
yading@10 2478
yading@10 2479 static int aac_decode_frame_int(AVCodecContext *avctx, void *data,
yading@10 2480 int *got_frame_ptr, GetBitContext *gb, AVPacket *avpkt)
yading@10 2481 {
yading@10 2482 AACContext *ac = avctx->priv_data;
yading@10 2483 ChannelElement *che = NULL, *che_prev = NULL;
yading@10 2484 enum RawDataBlockType elem_type, elem_type_prev = TYPE_END;
yading@10 2485 int err, elem_id;
yading@10 2486 int samples = 0, multiplier, audio_found = 0, pce_found = 0;
yading@10 2487 int is_dmono, sce_count = 0;
yading@10 2488
yading@10 2489 ac->frame = data;
yading@10 2490
yading@10 2491 if (show_bits(gb, 12) == 0xfff) {
yading@10 2492 if (parse_adts_frame_header(ac, gb) < 0) {
yading@10 2493 av_log(avctx, AV_LOG_ERROR, "Error decoding AAC frame header.\n");
yading@10 2494 err = -1;
yading@10 2495 goto fail;
yading@10 2496 }
yading@10 2497 if (ac->oc[1].m4ac.sampling_index > 12) {
yading@10 2498 av_log(ac->avctx, AV_LOG_ERROR, "invalid sampling rate index %d\n", ac->oc[1].m4ac.sampling_index);
yading@10 2499 err = -1;
yading@10 2500 goto fail;
yading@10 2501 }
yading@10 2502 }
yading@10 2503
yading@10 2504 if (frame_configure_elements(avctx) < 0) {
yading@10 2505 err = -1;
yading@10 2506 goto fail;
yading@10 2507 }
yading@10 2508
yading@10 2509 ac->tags_mapped = 0;
yading@10 2510 // parse
yading@10 2511 while ((elem_type = get_bits(gb, 3)) != TYPE_END) {
yading@10 2512 elem_id = get_bits(gb, 4);
yading@10 2513
yading@10 2514 if (elem_type < TYPE_DSE) {
yading@10 2515 if (!(che=get_che(ac, elem_type, elem_id))) {
yading@10 2516 av_log(ac->avctx, AV_LOG_ERROR, "channel element %d.%d is not allocated\n",
yading@10 2517 elem_type, elem_id);
yading@10 2518 err = -1;
yading@10 2519 goto fail;
yading@10 2520 }
yading@10 2521 samples = 1024;
yading@10 2522 }
yading@10 2523
yading@10 2524 switch (elem_type) {
yading@10 2525
yading@10 2526 case TYPE_SCE:
yading@10 2527 err = decode_ics(ac, &che->ch[0], gb, 0, 0);
yading@10 2528 audio_found = 1;
yading@10 2529 sce_count++;
yading@10 2530 break;
yading@10 2531
yading@10 2532 case TYPE_CPE:
yading@10 2533 err = decode_cpe(ac, gb, che);
yading@10 2534 audio_found = 1;
yading@10 2535 break;
yading@10 2536
yading@10 2537 case TYPE_CCE:
yading@10 2538 err = decode_cce(ac, gb, che);
yading@10 2539 break;
yading@10 2540
yading@10 2541 case TYPE_LFE:
yading@10 2542 err = decode_ics(ac, &che->ch[0], gb, 0, 0);
yading@10 2543 audio_found = 1;
yading@10 2544 break;
yading@10 2545
yading@10 2546 case TYPE_DSE:
yading@10 2547 err = skip_data_stream_element(ac, gb);
yading@10 2548 break;
yading@10 2549
yading@10 2550 case TYPE_PCE: {
yading@10 2551 uint8_t layout_map[MAX_ELEM_ID*4][3];
yading@10 2552 int tags;
yading@10 2553 push_output_configuration(ac);
yading@10 2554 tags = decode_pce(avctx, &ac->oc[1].m4ac, layout_map, gb);
yading@10 2555 if (tags < 0) {
yading@10 2556 err = tags;
yading@10 2557 break;
yading@10 2558 }
yading@10 2559 if (pce_found) {
yading@10 2560 av_log(avctx, AV_LOG_ERROR,
yading@10 2561 "Not evaluating a further program_config_element as this construct is dubious at best.\n");
yading@10 2562 } else {
yading@10 2563 err = output_configure(ac, layout_map, tags, OC_TRIAL_PCE, 1);
yading@10 2564 if (!err)
yading@10 2565 ac->oc[1].m4ac.chan_config = 0;
yading@10 2566 pce_found = 1;
yading@10 2567 }
yading@10 2568 break;
yading@10 2569 }
yading@10 2570
yading@10 2571 case TYPE_FIL:
yading@10 2572 if (elem_id == 15)
yading@10 2573 elem_id += get_bits(gb, 8) - 1;
yading@10 2574 if (get_bits_left(gb) < 8 * elem_id) {
yading@10 2575 av_log(avctx, AV_LOG_ERROR, "TYPE_FIL: "overread_err);
yading@10 2576 err = -1;
yading@10 2577 goto fail;
yading@10 2578 }
yading@10 2579 while (elem_id > 0)
yading@10 2580 elem_id -= decode_extension_payload(ac, gb, elem_id, che_prev, elem_type_prev);
yading@10 2581 err = 0; /* FIXME */
yading@10 2582 break;
yading@10 2583
yading@10 2584 default:
yading@10 2585 err = -1; /* should not happen, but keeps compiler happy */
yading@10 2586 break;
yading@10 2587 }
yading@10 2588
yading@10 2589 che_prev = che;
yading@10 2590 elem_type_prev = elem_type;
yading@10 2591
yading@10 2592 if (err)
yading@10 2593 goto fail;
yading@10 2594
yading@10 2595 if (get_bits_left(gb) < 3) {
yading@10 2596 av_log(avctx, AV_LOG_ERROR, overread_err);
yading@10 2597 err = -1;
yading@10 2598 goto fail;
yading@10 2599 }
yading@10 2600 }
yading@10 2601
yading@10 2602 spectral_to_sample(ac);
yading@10 2603
yading@10 2604 multiplier = (ac->oc[1].m4ac.sbr == 1) ? ac->oc[1].m4ac.ext_sample_rate > ac->oc[1].m4ac.sample_rate : 0;
yading@10 2605 samples <<= multiplier;
yading@10 2606 /* for dual-mono audio (SCE + SCE) */
yading@10 2607 is_dmono = ac->dmono_mode && sce_count == 2 &&
yading@10 2608 ac->oc[1].channel_layout == (AV_CH_FRONT_LEFT | AV_CH_FRONT_RIGHT);
yading@10 2609
yading@10 2610 if (samples)
yading@10 2611 ac->frame->nb_samples = samples;
yading@10 2612 *got_frame_ptr = !!samples;
yading@10 2613
yading@10 2614 if (is_dmono) {
yading@10 2615 if (ac->dmono_mode == 1)
yading@10 2616 ((AVFrame *)data)->data[1] =((AVFrame *)data)->data[0];
yading@10 2617 else if (ac->dmono_mode == 2)
yading@10 2618 ((AVFrame *)data)->data[0] =((AVFrame *)data)->data[1];
yading@10 2619 }
yading@10 2620
yading@10 2621 if (ac->oc[1].status && audio_found) {
yading@10 2622 avctx->sample_rate = ac->oc[1].m4ac.sample_rate << multiplier;
yading@10 2623 avctx->frame_size = samples;
yading@10 2624 ac->oc[1].status = OC_LOCKED;
yading@10 2625 }
yading@10 2626
yading@10 2627 if (multiplier) {
yading@10 2628 int side_size;
yading@10 2629 const uint8_t *side = av_packet_get_side_data(avpkt, AV_PKT_DATA_SKIP_SAMPLES, &side_size);
yading@10 2630 if (side && side_size>=4)
yading@10 2631 AV_WL32(side, 2*AV_RL32(side));
yading@10 2632 }
yading@10 2633 return 0;
yading@10 2634 fail:
yading@10 2635 pop_output_configuration(ac);
yading@10 2636 return err;
yading@10 2637 }
yading@10 2638
yading@10 2639 static int aac_decode_frame(AVCodecContext *avctx, void *data,
yading@10 2640 int *got_frame_ptr, AVPacket *avpkt)
yading@10 2641 {
yading@10 2642 AACContext *ac = avctx->priv_data;
yading@10 2643 const uint8_t *buf = avpkt->data;
yading@10 2644 int buf_size = avpkt->size;
yading@10 2645 GetBitContext gb;
yading@10 2646 int buf_consumed;
yading@10 2647 int buf_offset;
yading@10 2648 int err;
yading@10 2649 int new_extradata_size;
yading@10 2650 const uint8_t *new_extradata = av_packet_get_side_data(avpkt,
yading@10 2651 AV_PKT_DATA_NEW_EXTRADATA,
yading@10 2652 &new_extradata_size);
yading@10 2653 int jp_dualmono_size;
yading@10 2654 const uint8_t *jp_dualmono = av_packet_get_side_data(avpkt,
yading@10 2655 AV_PKT_DATA_JP_DUALMONO,
yading@10 2656 &jp_dualmono_size);
yading@10 2657
yading@10 2658 if (new_extradata && 0) {
yading@10 2659 av_free(avctx->extradata);
yading@10 2660 avctx->extradata = av_mallocz(new_extradata_size +
yading@10 2661 FF_INPUT_BUFFER_PADDING_SIZE);
yading@10 2662 if (!avctx->extradata)
yading@10 2663 return AVERROR(ENOMEM);
yading@10 2664 avctx->extradata_size = new_extradata_size;
yading@10 2665 memcpy(avctx->extradata, new_extradata, new_extradata_size);
yading@10 2666 push_output_configuration(ac);
yading@10 2667 if (decode_audio_specific_config(ac, ac->avctx, &ac->oc[1].m4ac,
yading@10 2668 avctx->extradata,
yading@10 2669 avctx->extradata_size*8, 1) < 0) {
yading@10 2670 pop_output_configuration(ac);
yading@10 2671 return AVERROR_INVALIDDATA;
yading@10 2672 }
yading@10 2673 }
yading@10 2674
yading@10 2675 ac->dmono_mode = 0;
yading@10 2676 if (jp_dualmono && jp_dualmono_size > 0)
yading@10 2677 ac->dmono_mode = 1 + *jp_dualmono;
yading@10 2678 if (ac->force_dmono_mode >= 0)
yading@10 2679 ac->dmono_mode = ac->force_dmono_mode;
yading@10 2680
yading@10 2681 if (INT_MAX / 8 <= buf_size)
yading@10 2682 return AVERROR_INVALIDDATA;
yading@10 2683
yading@10 2684 init_get_bits(&gb, buf, buf_size * 8);
yading@10 2685
yading@10 2686 if ((err = aac_decode_frame_int(avctx, data, got_frame_ptr, &gb, avpkt)) < 0)
yading@10 2687 return err;
yading@10 2688
yading@10 2689 buf_consumed = (get_bits_count(&gb) + 7) >> 3;
yading@10 2690 for (buf_offset = buf_consumed; buf_offset < buf_size; buf_offset++)
yading@10 2691 if (buf[buf_offset])
yading@10 2692 break;
yading@10 2693
yading@10 2694 return buf_size > buf_offset ? buf_consumed : buf_size;
yading@10 2695 }
yading@10 2696
yading@10 2697 static av_cold int aac_decode_close(AVCodecContext *avctx)
yading@10 2698 {
yading@10 2699 AACContext *ac = avctx->priv_data;
yading@10 2700 int i, type;
yading@10 2701
yading@10 2702 for (i = 0; i < MAX_ELEM_ID; i++) {
yading@10 2703 for (type = 0; type < 4; type++) {
yading@10 2704 if (ac->che[type][i])
yading@10 2705 ff_aac_sbr_ctx_close(&ac->che[type][i]->sbr);
yading@10 2706 av_freep(&ac->che[type][i]);
yading@10 2707 }
yading@10 2708 }
yading@10 2709
yading@10 2710 ff_mdct_end(&ac->mdct);
yading@10 2711 ff_mdct_end(&ac->mdct_small);
yading@10 2712 ff_mdct_end(&ac->mdct_ltp);
yading@10 2713 return 0;
yading@10 2714 }
yading@10 2715
yading@10 2716
yading@10 2717 #define LOAS_SYNC_WORD 0x2b7 ///< 11 bits LOAS sync word
yading@10 2718
yading@10 2719 struct LATMContext {
yading@10 2720 AACContext aac_ctx; ///< containing AACContext
yading@10 2721 int initialized; ///< initialized after a valid extradata was seen
yading@10 2722
yading@10 2723 // parser data
yading@10 2724 int audio_mux_version_A; ///< LATM syntax version
yading@10 2725 int frame_length_type; ///< 0/1 variable/fixed frame length
yading@10 2726 int frame_length; ///< frame length for fixed frame length
yading@10 2727 };
yading@10 2728
yading@10 2729 static inline uint32_t latm_get_value(GetBitContext *b)
yading@10 2730 {
yading@10 2731 int length = get_bits(b, 2);
yading@10 2732
yading@10 2733 return get_bits_long(b, (length+1)*8);
yading@10 2734 }
yading@10 2735
yading@10 2736 static int latm_decode_audio_specific_config(struct LATMContext *latmctx,
yading@10 2737 GetBitContext *gb, int asclen)
yading@10 2738 {
yading@10 2739 AACContext *ac = &latmctx->aac_ctx;
yading@10 2740 AVCodecContext *avctx = ac->avctx;
yading@10 2741 MPEG4AudioConfig m4ac = { 0 };
yading@10 2742 int config_start_bit = get_bits_count(gb);
yading@10 2743 int sync_extension = 0;
yading@10 2744 int bits_consumed, esize;
yading@10 2745
yading@10 2746 if (asclen) {
yading@10 2747 sync_extension = 1;
yading@10 2748 asclen = FFMIN(asclen, get_bits_left(gb));
yading@10 2749 } else
yading@10 2750 asclen = get_bits_left(gb);
yading@10 2751
yading@10 2752 if (config_start_bit % 8) {
yading@10 2753 avpriv_request_sample(latmctx->aac_ctx.avctx,
yading@10 2754 "Non-byte-aligned audio-specific config");
yading@10 2755 return AVERROR_PATCHWELCOME;
yading@10 2756 }
yading@10 2757 if (asclen <= 0)
yading@10 2758 return AVERROR_INVALIDDATA;
yading@10 2759 bits_consumed = decode_audio_specific_config(NULL, avctx, &m4ac,
yading@10 2760 gb->buffer + (config_start_bit / 8),
yading@10 2761 asclen, sync_extension);
yading@10 2762
yading@10 2763 if (bits_consumed < 0)
yading@10 2764 return AVERROR_INVALIDDATA;
yading@10 2765
yading@10 2766 if (!latmctx->initialized ||
yading@10 2767 ac->oc[1].m4ac.sample_rate != m4ac.sample_rate ||
yading@10 2768 ac->oc[1].m4ac.chan_config != m4ac.chan_config) {
yading@10 2769
yading@10 2770 if(latmctx->initialized) {
yading@10 2771 av_log(avctx, AV_LOG_INFO, "audio config changed\n");
yading@10 2772 } else {
yading@10 2773 av_log(avctx, AV_LOG_DEBUG, "initializing latmctx\n");
yading@10 2774 }
yading@10 2775 latmctx->initialized = 0;
yading@10 2776
yading@10 2777 esize = (bits_consumed+7) / 8;
yading@10 2778
yading@10 2779 if (avctx->extradata_size < esize) {
yading@10 2780 av_free(avctx->extradata);
yading@10 2781 avctx->extradata = av_malloc(esize + FF_INPUT_BUFFER_PADDING_SIZE);
yading@10 2782 if (!avctx->extradata)
yading@10 2783 return AVERROR(ENOMEM);
yading@10 2784 }
yading@10 2785
yading@10 2786 avctx->extradata_size = esize;
yading@10 2787 memcpy(avctx->extradata, gb->buffer + (config_start_bit/8), esize);
yading@10 2788 memset(avctx->extradata+esize, 0, FF_INPUT_BUFFER_PADDING_SIZE);
yading@10 2789 }
yading@10 2790 skip_bits_long(gb, bits_consumed);
yading@10 2791
yading@10 2792 return bits_consumed;
yading@10 2793 }
yading@10 2794
yading@10 2795 static int read_stream_mux_config(struct LATMContext *latmctx,
yading@10 2796 GetBitContext *gb)
yading@10 2797 {
yading@10 2798 int ret, audio_mux_version = get_bits(gb, 1);
yading@10 2799
yading@10 2800 latmctx->audio_mux_version_A = 0;
yading@10 2801 if (audio_mux_version)
yading@10 2802 latmctx->audio_mux_version_A = get_bits(gb, 1);
yading@10 2803
yading@10 2804 if (!latmctx->audio_mux_version_A) {
yading@10 2805
yading@10 2806 if (audio_mux_version)
yading@10 2807 latm_get_value(gb); // taraFullness
yading@10 2808
yading@10 2809 skip_bits(gb, 1); // allStreamSameTimeFraming
yading@10 2810 skip_bits(gb, 6); // numSubFrames
yading@10 2811 // numPrograms
yading@10 2812 if (get_bits(gb, 4)) { // numPrograms
yading@10 2813 avpriv_request_sample(latmctx->aac_ctx.avctx, "Multiple programs");
yading@10 2814 return AVERROR_PATCHWELCOME;
yading@10 2815 }
yading@10 2816
yading@10 2817 // for each program (which there is only one in DVB)
yading@10 2818
yading@10 2819 // for each layer (which there is only one in DVB)
yading@10 2820 if (get_bits(gb, 3)) { // numLayer
yading@10 2821 avpriv_request_sample(latmctx->aac_ctx.avctx, "Multiple layers");
yading@10 2822 return AVERROR_PATCHWELCOME;
yading@10 2823 }
yading@10 2824
yading@10 2825 // for all but first stream: use_same_config = get_bits(gb, 1);
yading@10 2826 if (!audio_mux_version) {
yading@10 2827 if ((ret = latm_decode_audio_specific_config(latmctx, gb, 0)) < 0)
yading@10 2828 return ret;
yading@10 2829 } else {
yading@10 2830 int ascLen = latm_get_value(gb);
yading@10 2831 if ((ret = latm_decode_audio_specific_config(latmctx, gb, ascLen)) < 0)
yading@10 2832 return ret;
yading@10 2833 ascLen -= ret;
yading@10 2834 skip_bits_long(gb, ascLen);
yading@10 2835 }
yading@10 2836
yading@10 2837 latmctx->frame_length_type = get_bits(gb, 3);
yading@10 2838 switch (latmctx->frame_length_type) {
yading@10 2839 case 0:
yading@10 2840 skip_bits(gb, 8); // latmBufferFullness
yading@10 2841 break;
yading@10 2842 case 1:
yading@10 2843 latmctx->frame_length = get_bits(gb, 9);
yading@10 2844 break;
yading@10 2845 case 3:
yading@10 2846 case 4:
yading@10 2847 case 5:
yading@10 2848 skip_bits(gb, 6); // CELP frame length table index
yading@10 2849 break;
yading@10 2850 case 6:
yading@10 2851 case 7:
yading@10 2852 skip_bits(gb, 1); // HVXC frame length table index
yading@10 2853 break;
yading@10 2854 }
yading@10 2855
yading@10 2856 if (get_bits(gb, 1)) { // other data
yading@10 2857 if (audio_mux_version) {
yading@10 2858 latm_get_value(gb); // other_data_bits
yading@10 2859 } else {
yading@10 2860 int esc;
yading@10 2861 do {
yading@10 2862 esc = get_bits(gb, 1);
yading@10 2863 skip_bits(gb, 8);
yading@10 2864 } while (esc);
yading@10 2865 }
yading@10 2866 }
yading@10 2867
yading@10 2868 if (get_bits(gb, 1)) // crc present
yading@10 2869 skip_bits(gb, 8); // config_crc
yading@10 2870 }
yading@10 2871
yading@10 2872 return 0;
yading@10 2873 }
yading@10 2874
yading@10 2875 static int read_payload_length_info(struct LATMContext *ctx, GetBitContext *gb)
yading@10 2876 {
yading@10 2877 uint8_t tmp;
yading@10 2878
yading@10 2879 if (ctx->frame_length_type == 0) {
yading@10 2880 int mux_slot_length = 0;
yading@10 2881 do {
yading@10 2882 tmp = get_bits(gb, 8);
yading@10 2883 mux_slot_length += tmp;
yading@10 2884 } while (tmp == 255);
yading@10 2885 return mux_slot_length;
yading@10 2886 } else if (ctx->frame_length_type == 1) {
yading@10 2887 return ctx->frame_length;
yading@10 2888 } else if (ctx->frame_length_type == 3 ||
yading@10 2889 ctx->frame_length_type == 5 ||
yading@10 2890 ctx->frame_length_type == 7) {
yading@10 2891 skip_bits(gb, 2); // mux_slot_length_coded
yading@10 2892 }
yading@10 2893 return 0;
yading@10 2894 }
yading@10 2895
yading@10 2896 static int read_audio_mux_element(struct LATMContext *latmctx,
yading@10 2897 GetBitContext *gb)
yading@10 2898 {
yading@10 2899 int err;
yading@10 2900 uint8_t use_same_mux = get_bits(gb, 1);
yading@10 2901 if (!use_same_mux) {
yading@10 2902 if ((err = read_stream_mux_config(latmctx, gb)) < 0)
yading@10 2903 return err;
yading@10 2904 } else if (!latmctx->aac_ctx.avctx->extradata) {
yading@10 2905 av_log(latmctx->aac_ctx.avctx, AV_LOG_DEBUG,
yading@10 2906 "no decoder config found\n");
yading@10 2907 return AVERROR(EAGAIN);
yading@10 2908 }
yading@10 2909 if (latmctx->audio_mux_version_A == 0) {
yading@10 2910 int mux_slot_length_bytes = read_payload_length_info(latmctx, gb);
yading@10 2911 if (mux_slot_length_bytes * 8 > get_bits_left(gb)) {
yading@10 2912 av_log(latmctx->aac_ctx.avctx, AV_LOG_ERROR, "incomplete frame\n");
yading@10 2913 return AVERROR_INVALIDDATA;
yading@10 2914 } else if (mux_slot_length_bytes * 8 + 256 < get_bits_left(gb)) {
yading@10 2915 av_log(latmctx->aac_ctx.avctx, AV_LOG_ERROR,
yading@10 2916 "frame length mismatch %d << %d\n",
yading@10 2917 mux_slot_length_bytes * 8, get_bits_left(gb));
yading@10 2918 return AVERROR_INVALIDDATA;
yading@10 2919 }
yading@10 2920 }
yading@10 2921 return 0;
yading@10 2922 }
yading@10 2923
yading@10 2924
yading@10 2925 static int latm_decode_frame(AVCodecContext *avctx, void *out,
yading@10 2926 int *got_frame_ptr, AVPacket *avpkt)
yading@10 2927 {
yading@10 2928 struct LATMContext *latmctx = avctx->priv_data;
yading@10 2929 int muxlength, err;
yading@10 2930 GetBitContext gb;
yading@10 2931
yading@10 2932 if ((err = init_get_bits8(&gb, avpkt->data, avpkt->size)) < 0)
yading@10 2933 return err;
yading@10 2934
yading@10 2935 // check for LOAS sync word
yading@10 2936 if (get_bits(&gb, 11) != LOAS_SYNC_WORD)
yading@10 2937 return AVERROR_INVALIDDATA;
yading@10 2938
yading@10 2939 muxlength = get_bits(&gb, 13) + 3;
yading@10 2940 // not enough data, the parser should have sorted this out
yading@10 2941 if (muxlength > avpkt->size)
yading@10 2942 return AVERROR_INVALIDDATA;
yading@10 2943
yading@10 2944 if ((err = read_audio_mux_element(latmctx, &gb)) < 0)
yading@10 2945 return err;
yading@10 2946
yading@10 2947 if (!latmctx->initialized) {
yading@10 2948 if (!avctx->extradata) {
yading@10 2949 *got_frame_ptr = 0;
yading@10 2950 return avpkt->size;
yading@10 2951 } else {
yading@10 2952 push_output_configuration(&latmctx->aac_ctx);
yading@10 2953 if ((err = decode_audio_specific_config(
yading@10 2954 &latmctx->aac_ctx, avctx, &latmctx->aac_ctx.oc[1].m4ac,
yading@10 2955 avctx->extradata, avctx->extradata_size*8, 1)) < 0) {
yading@10 2956 pop_output_configuration(&latmctx->aac_ctx);
yading@10 2957 return err;
yading@10 2958 }
yading@10 2959 latmctx->initialized = 1;
yading@10 2960 }
yading@10 2961 }
yading@10 2962
yading@10 2963 if (show_bits(&gb, 12) == 0xfff) {
yading@10 2964 av_log(latmctx->aac_ctx.avctx, AV_LOG_ERROR,
yading@10 2965 "ADTS header detected, probably as result of configuration "
yading@10 2966 "misparsing\n");
yading@10 2967 return AVERROR_INVALIDDATA;
yading@10 2968 }
yading@10 2969
yading@10 2970 if ((err = aac_decode_frame_int(avctx, out, got_frame_ptr, &gb, avpkt)) < 0)
yading@10 2971 return err;
yading@10 2972
yading@10 2973 return muxlength;
yading@10 2974 }
yading@10 2975
yading@10 2976 static av_cold int latm_decode_init(AVCodecContext *avctx)
yading@10 2977 {
yading@10 2978 struct LATMContext *latmctx = avctx->priv_data;
yading@10 2979 int ret = aac_decode_init(avctx);
yading@10 2980
yading@10 2981 if (avctx->extradata_size > 0)
yading@10 2982 latmctx->initialized = !ret;
yading@10 2983
yading@10 2984 return ret;
yading@10 2985 }
yading@10 2986
yading@10 2987 static void aacdec_init(AACContext *c)
yading@10 2988 {
yading@10 2989 c->imdct_and_windowing = imdct_and_windowing;
yading@10 2990 c->apply_ltp = apply_ltp;
yading@10 2991 c->apply_tns = apply_tns;
yading@10 2992 c->windowing_and_mdct_ltp = windowing_and_mdct_ltp;
yading@10 2993 c->update_ltp = update_ltp;
yading@10 2994
yading@10 2995 if(ARCH_MIPS)
yading@10 2996 ff_aacdec_init_mips(c);
yading@10 2997 }
yading@10 2998 /**
yading@10 2999 * AVOptions for Japanese DTV specific extensions (ADTS only)
yading@10 3000 */
yading@10 3001 #define AACDEC_FLAGS AV_OPT_FLAG_DECODING_PARAM | AV_OPT_FLAG_AUDIO_PARAM
yading@10 3002 static const AVOption options[] = {
yading@10 3003 {"dual_mono_mode", "Select the channel to decode for dual mono",
yading@10 3004 offsetof(AACContext, force_dmono_mode), AV_OPT_TYPE_INT, {.i64=-1}, -1, 2,
yading@10 3005 AACDEC_FLAGS, "dual_mono_mode"},
yading@10 3006
yading@10 3007 {"auto", "autoselection", 0, AV_OPT_TYPE_CONST, {.i64=-1}, INT_MIN, INT_MAX, AACDEC_FLAGS, "dual_mono_mode"},
yading@10 3008 {"main", "Select Main/Left channel", 0, AV_OPT_TYPE_CONST, {.i64= 1}, INT_MIN, INT_MAX, AACDEC_FLAGS, "dual_mono_mode"},
yading@10 3009 {"sub" , "Select Sub/Right channel", 0, AV_OPT_TYPE_CONST, {.i64= 2}, INT_MIN, INT_MAX, AACDEC_FLAGS, "dual_mono_mode"},
yading@10 3010 {"both", "Select both channels", 0, AV_OPT_TYPE_CONST, {.i64= 0}, INT_MIN, INT_MAX, AACDEC_FLAGS, "dual_mono_mode"},
yading@10 3011
yading@10 3012 {NULL},
yading@10 3013 };
yading@10 3014
yading@10 3015 static const AVClass aac_decoder_class = {
yading@10 3016 .class_name = "AAC decoder",
yading@10 3017 .item_name = av_default_item_name,
yading@10 3018 .option = options,
yading@10 3019 .version = LIBAVUTIL_VERSION_INT,
yading@10 3020 };
yading@10 3021
yading@10 3022 AVCodec ff_aac_decoder = {
yading@10 3023 .name = "aac",
yading@10 3024 .type = AVMEDIA_TYPE_AUDIO,
yading@10 3025 .id = AV_CODEC_ID_AAC,
yading@10 3026 .priv_data_size = sizeof(AACContext),
yading@10 3027 .init = aac_decode_init,
yading@10 3028 .close = aac_decode_close,
yading@10 3029 .decode = aac_decode_frame,
yading@10 3030 .long_name = NULL_IF_CONFIG_SMALL("AAC (Advanced Audio Coding)"),
yading@10 3031 .sample_fmts = (const enum AVSampleFormat[]) {
yading@10 3032 AV_SAMPLE_FMT_FLTP, AV_SAMPLE_FMT_NONE
yading@10 3033 },
yading@10 3034 .capabilities = CODEC_CAP_CHANNEL_CONF | CODEC_CAP_DR1,
yading@10 3035 .channel_layouts = aac_channel_layout,
yading@10 3036 .flush = flush,
yading@10 3037 .priv_class = &aac_decoder_class,
yading@10 3038 };
yading@10 3039
yading@10 3040 /*
yading@10 3041 Note: This decoder filter is intended to decode LATM streams transferred
yading@10 3042 in MPEG transport streams which only contain one program.
yading@10 3043 To do a more complex LATM demuxing a separate LATM demuxer should be used.
yading@10 3044 */
yading@10 3045 AVCodec ff_aac_latm_decoder = {
yading@10 3046 .name = "aac_latm",
yading@10 3047 .type = AVMEDIA_TYPE_AUDIO,
yading@10 3048 .id = AV_CODEC_ID_AAC_LATM,
yading@10 3049 .priv_data_size = sizeof(struct LATMContext),
yading@10 3050 .init = latm_decode_init,
yading@10 3051 .close = aac_decode_close,
yading@10 3052 .decode = latm_decode_frame,
yading@10 3053 .long_name = NULL_IF_CONFIG_SMALL("AAC LATM (Advanced Audio Coding LATM syntax)"),
yading@10 3054 .sample_fmts = (const enum AVSampleFormat[]) {
yading@10 3055 AV_SAMPLE_FMT_FLTP, AV_SAMPLE_FMT_NONE
yading@10 3056 },
yading@10 3057 .capabilities = CODEC_CAP_CHANNEL_CONF | CODEC_CAP_DR1,
yading@10 3058 .channel_layouts = aac_channel_layout,
yading@10 3059 .flush = flush,
yading@10 3060 };