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1 | /* |
2 | * Windows Media Audio Lossless decoder | |
3 | * Copyright (c) 2007 Baptiste Coudurier, Benjamin Larsson, Ulion | |
4 | * Copyright (c) 2008 - 2011 Sascha Sommer, Benjamin Larsson | |
5 | * Copyright (c) 2011 Andreas Ă–man | |
6 | * Copyright (c) 2011 - 2012 Mashiat Sarker Shakkhar | |
7 | * | |
8 | * This file is part of FFmpeg. | |
9 | * | |
10 | * FFmpeg is free software; you can redistribute it and/or | |
11 | * modify it under the terms of the GNU Lesser General Public | |
12 | * License as published by the Free Software Foundation; either | |
13 | * version 2.1 of the License, or (at your option) any later version. | |
14 | * | |
15 | * FFmpeg is distributed in the hope that it will be useful, | |
16 | * but WITHOUT ANY WARRANTY; without even the implied warranty of | |
17 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU | |
18 | * Lesser General Public License for more details. | |
19 | * | |
20 | * You should have received a copy of the GNU Lesser General Public | |
21 | * License along with FFmpeg; if not, write to the Free Software | |
22 | * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA | |
23 | */ | |
24 | ||
25 | #include <inttypes.h> | |
26 | ||
27 | #include "libavutil/attributes.h" | |
28 | #include "libavutil/avassert.h" | |
29 | ||
30 | #include "avcodec.h" | |
31 | #include "internal.h" | |
32 | #include "get_bits.h" | |
33 | #include "put_bits.h" | |
34 | #include "lossless_audiodsp.h" | |
35 | #include "wma.h" | |
36 | #include "wma_common.h" | |
37 | ||
38 | /** current decoder limitations */ | |
39 | #define WMALL_MAX_CHANNELS 8 ///< max number of handled channels | |
40 | #define MAX_SUBFRAMES 32 ///< max number of subframes per channel | |
41 | #define MAX_BANDS 29 ///< max number of scale factor bands | |
42 | #define MAX_FRAMESIZE 32768 ///< maximum compressed frame size | |
43 | #define MAX_ORDER 256 | |
44 | ||
45 | #define WMALL_BLOCK_MIN_BITS 6 ///< log2 of min block size | |
46 | #define WMALL_BLOCK_MAX_BITS 14 ///< log2 of max block size | |
47 | #define WMALL_BLOCK_MAX_SIZE (1 << WMALL_BLOCK_MAX_BITS) ///< maximum block size | |
48 | #define WMALL_BLOCK_SIZES (WMALL_BLOCK_MAX_BITS - WMALL_BLOCK_MIN_BITS + 1) ///< possible block sizes | |
49 | ||
50 | #define WMALL_COEFF_PAD_SIZE 16 ///< pad coef buffers with 0 for use with SIMD | |
51 | ||
52 | /** | |
53 | * @brief frame-specific decoder context for a single channel | |
54 | */ | |
55 | typedef struct { | |
56 | int16_t prev_block_len; ///< length of the previous block | |
57 | uint8_t transmit_coefs; | |
58 | uint8_t num_subframes; | |
59 | uint16_t subframe_len[MAX_SUBFRAMES]; ///< subframe length in samples | |
60 | uint16_t subframe_offsets[MAX_SUBFRAMES]; ///< subframe positions in the current frame | |
61 | uint8_t cur_subframe; ///< current subframe number | |
62 | uint16_t decoded_samples; ///< number of already processed samples | |
63 | int quant_step; ///< quantization step for the current subframe | |
64 | int transient_counter; ///< number of transient samples from the beginning of the transient zone | |
65 | } WmallChannelCtx; | |
66 | ||
67 | /** | |
68 | * @brief main decoder context | |
69 | */ | |
70 | typedef struct WmallDecodeCtx { | |
71 | /* generic decoder variables */ | |
72 | AVCodecContext *avctx; | |
73 | AVFrame *frame; | |
74 | LLAudDSPContext dsp; ///< accelerated DSP functions | |
75 | uint8_t frame_data[MAX_FRAMESIZE + FF_INPUT_BUFFER_PADDING_SIZE]; ///< compressed frame data | |
76 | PutBitContext pb; ///< context for filling the frame_data buffer | |
77 | ||
78 | /* frame size dependent frame information (set during initialization) */ | |
79 | uint32_t decode_flags; ///< used compression features | |
80 | int len_prefix; ///< frame is prefixed with its length | |
81 | int dynamic_range_compression; ///< frame contains DRC data | |
82 | uint8_t bits_per_sample; ///< integer audio sample size for the unscaled IMDCT output (used to scale to [-1.0, 1.0]) | |
83 | uint16_t samples_per_frame; ///< number of samples to output | |
84 | uint16_t log2_frame_size; | |
85 | int8_t num_channels; ///< number of channels in the stream (same as AVCodecContext.num_channels) | |
86 | int8_t lfe_channel; ///< lfe channel index | |
87 | uint8_t max_num_subframes; | |
88 | uint8_t subframe_len_bits; ///< number of bits used for the subframe length | |
89 | uint8_t max_subframe_len_bit; ///< flag indicating that the subframe is of maximum size when the first subframe length bit is 1 | |
90 | uint16_t min_samples_per_subframe; | |
91 | ||
92 | /* packet decode state */ | |
93 | GetBitContext pgb; ///< bitstream reader context for the packet | |
94 | int next_packet_start; ///< start offset of the next WMA packet in the demuxer packet | |
95 | uint8_t packet_offset; ///< offset to the frame in the packet | |
96 | uint8_t packet_sequence_number; ///< current packet number | |
97 | int num_saved_bits; ///< saved number of bits | |
98 | int frame_offset; ///< frame offset in the bit reservoir | |
99 | int subframe_offset; ///< subframe offset in the bit reservoir | |
100 | uint8_t packet_loss; ///< set in case of bitstream error | |
101 | uint8_t packet_done; ///< set when a packet is fully decoded | |
102 | ||
103 | /* frame decode state */ | |
104 | uint32_t frame_num; ///< current frame number (not used for decoding) | |
105 | GetBitContext gb; ///< bitstream reader context | |
106 | int buf_bit_size; ///< buffer size in bits | |
107 | int16_t *samples_16[WMALL_MAX_CHANNELS]; ///< current samplebuffer pointer (16-bit) | |
108 | int32_t *samples_32[WMALL_MAX_CHANNELS]; ///< current samplebuffer pointer (24-bit) | |
109 | uint8_t drc_gain; ///< gain for the DRC tool | |
110 | int8_t skip_frame; ///< skip output step | |
111 | int8_t parsed_all_subframes; ///< all subframes decoded? | |
112 | ||
113 | /* subframe/block decode state */ | |
114 | int16_t subframe_len; ///< current subframe length | |
115 | int8_t channels_for_cur_subframe; ///< number of channels that contain the subframe | |
116 | int8_t channel_indexes_for_cur_subframe[WMALL_MAX_CHANNELS]; | |
117 | ||
118 | WmallChannelCtx channel[WMALL_MAX_CHANNELS]; ///< per channel data | |
119 | ||
120 | // WMA Lossless-specific | |
121 | ||
122 | uint8_t do_arith_coding; | |
123 | uint8_t do_ac_filter; | |
124 | uint8_t do_inter_ch_decorr; | |
125 | uint8_t do_mclms; | |
126 | uint8_t do_lpc; | |
127 | ||
128 | int8_t acfilter_order; | |
129 | int8_t acfilter_scaling; | |
130 | int64_t acfilter_coeffs[16]; | |
131 | int acfilter_prevvalues[WMALL_MAX_CHANNELS][16]; | |
132 | ||
133 | int8_t mclms_order; | |
134 | int8_t mclms_scaling; | |
135 | int16_t mclms_coeffs[WMALL_MAX_CHANNELS * WMALL_MAX_CHANNELS * 32]; | |
136 | int16_t mclms_coeffs_cur[WMALL_MAX_CHANNELS * WMALL_MAX_CHANNELS]; | |
137 | int16_t mclms_prevvalues[WMALL_MAX_CHANNELS * 2 * 32]; | |
138 | int16_t mclms_updates[WMALL_MAX_CHANNELS * 2 * 32]; | |
139 | int mclms_recent; | |
140 | ||
141 | int movave_scaling; | |
142 | int quant_stepsize; | |
143 | ||
144 | struct { | |
145 | int order; | |
146 | int scaling; | |
147 | int coefsend; | |
148 | int bitsend; | |
149 | DECLARE_ALIGNED(16, int16_t, coefs)[MAX_ORDER + WMALL_COEFF_PAD_SIZE/sizeof(int16_t)]; | |
150 | DECLARE_ALIGNED(16, int16_t, lms_prevvalues)[MAX_ORDER * 2]; | |
151 | DECLARE_ALIGNED(16, int16_t, lms_updates)[MAX_ORDER * 2]; | |
152 | int recent; | |
153 | } cdlms[WMALL_MAX_CHANNELS][9]; | |
154 | ||
155 | int cdlms_ttl[WMALL_MAX_CHANNELS]; | |
156 | ||
157 | int bV3RTM; | |
158 | ||
159 | int is_channel_coded[WMALL_MAX_CHANNELS]; | |
160 | int update_speed[WMALL_MAX_CHANNELS]; | |
161 | ||
162 | int transient[WMALL_MAX_CHANNELS]; | |
163 | int transient_pos[WMALL_MAX_CHANNELS]; | |
164 | int seekable_tile; | |
165 | ||
166 | int ave_sum[WMALL_MAX_CHANNELS]; | |
167 | ||
168 | int channel_residues[WMALL_MAX_CHANNELS][WMALL_BLOCK_MAX_SIZE]; | |
169 | ||
170 | int lpc_coefs[WMALL_MAX_CHANNELS][40]; | |
171 | int lpc_order; | |
172 | int lpc_scaling; | |
173 | int lpc_intbits; | |
174 | ||
175 | int channel_coeffs[WMALL_MAX_CHANNELS][WMALL_BLOCK_MAX_SIZE]; | |
176 | } WmallDecodeCtx; | |
177 | ||
178 | ||
179 | static av_cold int decode_init(AVCodecContext *avctx) | |
180 | { | |
181 | WmallDecodeCtx *s = avctx->priv_data; | |
182 | uint8_t *edata_ptr = avctx->extradata; | |
183 | unsigned int channel_mask; | |
184 | int i, log2_max_num_subframes; | |
185 | ||
186 | if (!avctx->block_align) { | |
187 | av_log(avctx, AV_LOG_ERROR, "block_align is not set\n"); | |
188 | return AVERROR(EINVAL); | |
189 | } | |
190 | ||
191 | s->avctx = avctx; | |
192 | ff_llauddsp_init(&s->dsp); | |
193 | init_put_bits(&s->pb, s->frame_data, MAX_FRAMESIZE); | |
194 | ||
195 | if (avctx->extradata_size >= 18) { | |
196 | s->decode_flags = AV_RL16(edata_ptr + 14); | |
197 | channel_mask = AV_RL32(edata_ptr + 2); | |
198 | s->bits_per_sample = AV_RL16(edata_ptr); | |
199 | if (s->bits_per_sample == 16) | |
200 | avctx->sample_fmt = AV_SAMPLE_FMT_S16P; | |
201 | else if (s->bits_per_sample == 24) { | |
202 | avctx->sample_fmt = AV_SAMPLE_FMT_S32P; | |
f6fa7814 | 203 | avctx->bits_per_raw_sample = 24; |
2ba45a60 DM |
204 | } else { |
205 | av_log(avctx, AV_LOG_ERROR, "Unknown bit-depth: %"PRIu8"\n", | |
206 | s->bits_per_sample); | |
207 | return AVERROR_INVALIDDATA; | |
208 | } | |
209 | /* dump the extradata */ | |
210 | for (i = 0; i < avctx->extradata_size; i++) | |
211 | av_dlog(avctx, "[%x] ", avctx->extradata[i]); | |
212 | av_dlog(avctx, "\n"); | |
213 | ||
214 | } else { | |
215 | avpriv_request_sample(avctx, "Unsupported extradata size"); | |
216 | return AVERROR_PATCHWELCOME; | |
217 | } | |
218 | ||
219 | /* generic init */ | |
220 | s->log2_frame_size = av_log2(avctx->block_align) + 4; | |
221 | ||
222 | /* frame info */ | |
223 | s->skip_frame = 1; /* skip first frame */ | |
224 | s->packet_loss = 1; | |
225 | s->len_prefix = s->decode_flags & 0x40; | |
226 | ||
227 | /* get frame len */ | |
228 | s->samples_per_frame = 1 << ff_wma_get_frame_len_bits(avctx->sample_rate, | |
229 | 3, s->decode_flags); | |
230 | av_assert0(s->samples_per_frame <= WMALL_BLOCK_MAX_SIZE); | |
231 | ||
232 | /* init previous block len */ | |
233 | for (i = 0; i < avctx->channels; i++) | |
234 | s->channel[i].prev_block_len = s->samples_per_frame; | |
235 | ||
236 | /* subframe info */ | |
237 | log2_max_num_subframes = (s->decode_flags & 0x38) >> 3; | |
238 | s->max_num_subframes = 1 << log2_max_num_subframes; | |
239 | s->max_subframe_len_bit = 0; | |
240 | s->subframe_len_bits = av_log2(log2_max_num_subframes) + 1; | |
241 | ||
242 | s->min_samples_per_subframe = s->samples_per_frame / s->max_num_subframes; | |
243 | s->dynamic_range_compression = s->decode_flags & 0x80; | |
244 | s->bV3RTM = s->decode_flags & 0x100; | |
245 | ||
246 | if (s->max_num_subframes > MAX_SUBFRAMES) { | |
247 | av_log(avctx, AV_LOG_ERROR, "invalid number of subframes %"PRIu8"\n", | |
248 | s->max_num_subframes); | |
249 | return AVERROR_INVALIDDATA; | |
250 | } | |
251 | ||
252 | s->num_channels = avctx->channels; | |
253 | ||
254 | /* extract lfe channel position */ | |
255 | s->lfe_channel = -1; | |
256 | ||
257 | if (channel_mask & 8) { | |
258 | unsigned int mask; | |
259 | for (mask = 1; mask < 16; mask <<= 1) | |
260 | if (channel_mask & mask) | |
261 | ++s->lfe_channel; | |
262 | } | |
263 | ||
264 | if (s->num_channels < 0) { | |
265 | av_log(avctx, AV_LOG_ERROR, "invalid number of channels %"PRId8"\n", | |
266 | s->num_channels); | |
267 | return AVERROR_INVALIDDATA; | |
268 | } else if (s->num_channels > WMALL_MAX_CHANNELS) { | |
269 | avpriv_request_sample(avctx, | |
270 | "More than %d channels", WMALL_MAX_CHANNELS); | |
271 | return AVERROR_PATCHWELCOME; | |
272 | } | |
273 | ||
274 | s->frame = av_frame_alloc(); | |
275 | if (!s->frame) | |
276 | return AVERROR(ENOMEM); | |
277 | ||
278 | avctx->channel_layout = channel_mask; | |
279 | return 0; | |
280 | } | |
281 | ||
282 | /** | |
283 | * @brief Decode the subframe length. | |
284 | * @param s context | |
285 | * @param offset sample offset in the frame | |
286 | * @return decoded subframe length on success, < 0 in case of an error | |
287 | */ | |
288 | static int decode_subframe_length(WmallDecodeCtx *s, int offset) | |
289 | { | |
290 | int frame_len_ratio, subframe_len, len; | |
291 | ||
292 | /* no need to read from the bitstream when only one length is possible */ | |
293 | if (offset == s->samples_per_frame - s->min_samples_per_subframe) | |
294 | return s->min_samples_per_subframe; | |
295 | ||
296 | len = av_log2(s->max_num_subframes - 1) + 1; | |
297 | frame_len_ratio = get_bits(&s->gb, len); | |
298 | subframe_len = s->min_samples_per_subframe * (frame_len_ratio + 1); | |
299 | ||
300 | /* sanity check the length */ | |
301 | if (subframe_len < s->min_samples_per_subframe || | |
302 | subframe_len > s->samples_per_frame) { | |
303 | av_log(s->avctx, AV_LOG_ERROR, "broken frame: subframe_len %i\n", | |
304 | subframe_len); | |
305 | return AVERROR_INVALIDDATA; | |
306 | } | |
307 | return subframe_len; | |
308 | } | |
309 | ||
310 | /** | |
311 | * @brief Decode how the data in the frame is split into subframes. | |
312 | * Every WMA frame contains the encoded data for a fixed number of | |
313 | * samples per channel. The data for every channel might be split | |
314 | * into several subframes. This function will reconstruct the list of | |
315 | * subframes for every channel. | |
316 | * | |
317 | * If the subframes are not evenly split, the algorithm estimates the | |
318 | * channels with the lowest number of total samples. | |
319 | * Afterwards, for each of these channels a bit is read from the | |
320 | * bitstream that indicates if the channel contains a subframe with the | |
321 | * next subframe size that is going to be read from the bitstream or not. | |
322 | * If a channel contains such a subframe, the subframe size gets added to | |
323 | * the channel's subframe list. | |
324 | * The algorithm repeats these steps until the frame is properly divided | |
325 | * between the individual channels. | |
326 | * | |
327 | * @param s context | |
328 | * @return 0 on success, < 0 in case of an error | |
329 | */ | |
330 | static int decode_tilehdr(WmallDecodeCtx *s) | |
331 | { | |
332 | uint16_t num_samples[WMALL_MAX_CHANNELS] = { 0 }; /* sum of samples for all currently known subframes of a channel */ | |
333 | uint8_t contains_subframe[WMALL_MAX_CHANNELS]; /* flag indicating if a channel contains the current subframe */ | |
334 | int channels_for_cur_subframe = s->num_channels; /* number of channels that contain the current subframe */ | |
335 | int fixed_channel_layout = 0; /* flag indicating that all channels use the same subfra2me offsets and sizes */ | |
336 | int min_channel_len = 0; /* smallest sum of samples (channels with this length will be processed first) */ | |
337 | int c, tile_aligned; | |
338 | ||
339 | /* reset tiling information */ | |
340 | for (c = 0; c < s->num_channels; c++) | |
341 | s->channel[c].num_subframes = 0; | |
342 | ||
343 | tile_aligned = get_bits1(&s->gb); | |
344 | if (s->max_num_subframes == 1 || tile_aligned) | |
345 | fixed_channel_layout = 1; | |
346 | ||
347 | /* loop until the frame data is split between the subframes */ | |
348 | do { | |
349 | int subframe_len, in_use = 0; | |
350 | ||
351 | /* check which channels contain the subframe */ | |
352 | for (c = 0; c < s->num_channels; c++) { | |
353 | if (num_samples[c] == min_channel_len) { | |
354 | if (fixed_channel_layout || channels_for_cur_subframe == 1 || | |
355 | (min_channel_len == s->samples_per_frame - s->min_samples_per_subframe)) { | |
356 | contains_subframe[c] = 1; | |
357 | } else { | |
358 | contains_subframe[c] = get_bits1(&s->gb); | |
359 | } | |
360 | in_use |= contains_subframe[c]; | |
361 | } else | |
362 | contains_subframe[c] = 0; | |
363 | } | |
364 | ||
365 | if (!in_use) { | |
366 | av_log(s->avctx, AV_LOG_ERROR, | |
367 | "Found empty subframe\n"); | |
368 | return AVERROR_INVALIDDATA; | |
369 | } | |
370 | ||
371 | /* get subframe length, subframe_len == 0 is not allowed */ | |
372 | if ((subframe_len = decode_subframe_length(s, min_channel_len)) <= 0) | |
373 | return AVERROR_INVALIDDATA; | |
374 | /* add subframes to the individual channels and find new min_channel_len */ | |
375 | min_channel_len += subframe_len; | |
376 | for (c = 0; c < s->num_channels; c++) { | |
377 | WmallChannelCtx *chan = &s->channel[c]; | |
378 | ||
379 | if (contains_subframe[c]) { | |
380 | if (chan->num_subframes >= MAX_SUBFRAMES) { | |
381 | av_log(s->avctx, AV_LOG_ERROR, | |
382 | "broken frame: num subframes > 31\n"); | |
383 | return AVERROR_INVALIDDATA; | |
384 | } | |
385 | chan->subframe_len[chan->num_subframes] = subframe_len; | |
386 | num_samples[c] += subframe_len; | |
387 | ++chan->num_subframes; | |
388 | if (num_samples[c] > s->samples_per_frame) { | |
389 | av_log(s->avctx, AV_LOG_ERROR, "broken frame: " | |
390 | "channel len(%"PRIu16") > samples_per_frame(%"PRIu16")\n", | |
391 | num_samples[c], s->samples_per_frame); | |
392 | return AVERROR_INVALIDDATA; | |
393 | } | |
394 | } else if (num_samples[c] <= min_channel_len) { | |
395 | if (num_samples[c] < min_channel_len) { | |
396 | channels_for_cur_subframe = 0; | |
397 | min_channel_len = num_samples[c]; | |
398 | } | |
399 | ++channels_for_cur_subframe; | |
400 | } | |
401 | } | |
402 | } while (min_channel_len < s->samples_per_frame); | |
403 | ||
404 | for (c = 0; c < s->num_channels; c++) { | |
405 | int i, offset = 0; | |
406 | for (i = 0; i < s->channel[c].num_subframes; i++) { | |
407 | s->channel[c].subframe_offsets[i] = offset; | |
408 | offset += s->channel[c].subframe_len[i]; | |
409 | } | |
410 | } | |
411 | ||
412 | return 0; | |
413 | } | |
414 | ||
415 | static void decode_ac_filter(WmallDecodeCtx *s) | |
416 | { | |
417 | int i; | |
418 | s->acfilter_order = get_bits(&s->gb, 4) + 1; | |
419 | s->acfilter_scaling = get_bits(&s->gb, 4); | |
420 | ||
421 | for (i = 0; i < s->acfilter_order; i++) | |
422 | s->acfilter_coeffs[i] = (s->acfilter_scaling ? | |
423 | get_bits(&s->gb, s->acfilter_scaling) : 0) + 1; | |
424 | } | |
425 | ||
426 | static void decode_mclms(WmallDecodeCtx *s) | |
427 | { | |
428 | s->mclms_order = (get_bits(&s->gb, 4) + 1) * 2; | |
429 | s->mclms_scaling = get_bits(&s->gb, 4); | |
430 | if (get_bits1(&s->gb)) { | |
431 | int i, send_coef_bits; | |
432 | int cbits = av_log2(s->mclms_scaling + 1); | |
433 | if (1 << cbits < s->mclms_scaling + 1) | |
434 | cbits++; | |
435 | ||
436 | send_coef_bits = (cbits ? get_bits(&s->gb, cbits) : 0) + 2; | |
437 | ||
438 | for (i = 0; i < s->mclms_order * s->num_channels * s->num_channels; i++) | |
439 | s->mclms_coeffs[i] = get_bits(&s->gb, send_coef_bits); | |
440 | ||
441 | for (i = 0; i < s->num_channels; i++) { | |
442 | int c; | |
443 | for (c = 0; c < i; c++) | |
444 | s->mclms_coeffs_cur[i * s->num_channels + c] = get_bits(&s->gb, send_coef_bits); | |
445 | } | |
446 | } | |
447 | } | |
448 | ||
449 | static int decode_cdlms(WmallDecodeCtx *s) | |
450 | { | |
451 | int c, i; | |
452 | int cdlms_send_coef = get_bits1(&s->gb); | |
453 | ||
454 | for (c = 0; c < s->num_channels; c++) { | |
455 | s->cdlms_ttl[c] = get_bits(&s->gb, 3) + 1; | |
456 | for (i = 0; i < s->cdlms_ttl[c]; i++) { | |
457 | s->cdlms[c][i].order = (get_bits(&s->gb, 7) + 1) * 8; | |
458 | if (s->cdlms[c][i].order > MAX_ORDER) { | |
459 | av_log(s->avctx, AV_LOG_ERROR, | |
460 | "Order[%d][%d] %d > max (%d), not supported\n", | |
461 | c, i, s->cdlms[c][i].order, MAX_ORDER); | |
462 | s->cdlms[0][0].order = 0; | |
463 | return AVERROR_INVALIDDATA; | |
464 | } | |
465 | if(s->cdlms[c][i].order & 8) { | |
466 | static int warned; | |
467 | if(!warned) | |
468 | avpriv_request_sample(s->avctx, "CDLMS of order %d", | |
469 | s->cdlms[c][i].order); | |
470 | warned = 1; | |
471 | } | |
472 | } | |
473 | ||
474 | for (i = 0; i < s->cdlms_ttl[c]; i++) | |
475 | s->cdlms[c][i].scaling = get_bits(&s->gb, 4); | |
476 | ||
477 | if (cdlms_send_coef) { | |
478 | for (i = 0; i < s->cdlms_ttl[c]; i++) { | |
479 | int cbits, shift_l, shift_r, j; | |
480 | cbits = av_log2(s->cdlms[c][i].order); | |
481 | if ((1 << cbits) < s->cdlms[c][i].order) | |
482 | cbits++; | |
483 | s->cdlms[c][i].coefsend = get_bits(&s->gb, cbits) + 1; | |
484 | ||
485 | cbits = av_log2(s->cdlms[c][i].scaling + 1); | |
486 | if ((1 << cbits) < s->cdlms[c][i].scaling + 1) | |
487 | cbits++; | |
488 | ||
489 | s->cdlms[c][i].bitsend = get_bits(&s->gb, cbits) + 2; | |
490 | shift_l = 32 - s->cdlms[c][i].bitsend; | |
491 | shift_r = 32 - s->cdlms[c][i].scaling - 2; | |
492 | for (j = 0; j < s->cdlms[c][i].coefsend; j++) | |
493 | s->cdlms[c][i].coefs[j] = | |
494 | (get_bits(&s->gb, s->cdlms[c][i].bitsend) << shift_l) >> shift_r; | |
495 | } | |
496 | } | |
497 | ||
498 | for (i = 0; i < s->cdlms_ttl[c]; i++) | |
499 | memset(s->cdlms[c][i].coefs + s->cdlms[c][i].order, | |
500 | 0, WMALL_COEFF_PAD_SIZE); | |
501 | } | |
502 | ||
503 | return 0; | |
504 | } | |
505 | ||
506 | static int decode_channel_residues(WmallDecodeCtx *s, int ch, int tile_size) | |
507 | { | |
508 | int i = 0; | |
509 | unsigned int ave_mean; | |
510 | s->transient[ch] = get_bits1(&s->gb); | |
511 | if (s->transient[ch]) { | |
512 | s->transient_pos[ch] = get_bits(&s->gb, av_log2(tile_size)); | |
513 | if (s->transient_pos[ch]) | |
514 | s->transient[ch] = 0; | |
515 | s->channel[ch].transient_counter = | |
516 | FFMAX(s->channel[ch].transient_counter, s->samples_per_frame / 2); | |
517 | } else if (s->channel[ch].transient_counter) | |
518 | s->transient[ch] = 1; | |
519 | ||
520 | if (s->seekable_tile) { | |
521 | ave_mean = get_bits(&s->gb, s->bits_per_sample); | |
522 | s->ave_sum[ch] = ave_mean << (s->movave_scaling + 1); | |
523 | } | |
524 | ||
525 | if (s->seekable_tile) { | |
526 | if (s->do_inter_ch_decorr) | |
527 | s->channel_residues[ch][0] = get_sbits_long(&s->gb, s->bits_per_sample + 1); | |
528 | else | |
529 | s->channel_residues[ch][0] = get_sbits_long(&s->gb, s->bits_per_sample); | |
530 | i++; | |
531 | } | |
532 | for (; i < tile_size; i++) { | |
533 | int quo = 0, rem, rem_bits, residue; | |
534 | while(get_bits1(&s->gb)) { | |
535 | quo++; | |
536 | if (get_bits_left(&s->gb) <= 0) | |
537 | return -1; | |
538 | } | |
539 | if (quo >= 32) | |
540 | quo += get_bits_long(&s->gb, get_bits(&s->gb, 5) + 1); | |
541 | ||
542 | ave_mean = (s->ave_sum[ch] + (1 << s->movave_scaling)) >> (s->movave_scaling + 1); | |
543 | if (ave_mean <= 1) | |
544 | residue = quo; | |
545 | else { | |
546 | rem_bits = av_ceil_log2(ave_mean); | |
547 | rem = get_bits_long(&s->gb, rem_bits); | |
548 | residue = (quo << rem_bits) + rem; | |
549 | } | |
550 | ||
551 | s->ave_sum[ch] = residue + s->ave_sum[ch] - | |
552 | (s->ave_sum[ch] >> s->movave_scaling); | |
553 | ||
554 | if (residue & 1) | |
555 | residue = -(residue >> 1) - 1; | |
556 | else | |
557 | residue = residue >> 1; | |
558 | s->channel_residues[ch][i] = residue; | |
559 | } | |
560 | ||
561 | return 0; | |
562 | ||
563 | } | |
564 | ||
565 | static void decode_lpc(WmallDecodeCtx *s) | |
566 | { | |
567 | int ch, i, cbits; | |
568 | s->lpc_order = get_bits(&s->gb, 5) + 1; | |
569 | s->lpc_scaling = get_bits(&s->gb, 4); | |
570 | s->lpc_intbits = get_bits(&s->gb, 3) + 1; | |
571 | cbits = s->lpc_scaling + s->lpc_intbits; | |
572 | for (ch = 0; ch < s->num_channels; ch++) | |
573 | for (i = 0; i < s->lpc_order; i++) | |
574 | s->lpc_coefs[ch][i] = get_sbits(&s->gb, cbits); | |
575 | } | |
576 | ||
577 | static void clear_codec_buffers(WmallDecodeCtx *s) | |
578 | { | |
579 | int ich, ilms; | |
580 | ||
581 | memset(s->acfilter_coeffs, 0, sizeof(s->acfilter_coeffs)); | |
582 | memset(s->acfilter_prevvalues, 0, sizeof(s->acfilter_prevvalues)); | |
583 | memset(s->lpc_coefs, 0, sizeof(s->lpc_coefs)); | |
584 | ||
585 | memset(s->mclms_coeffs, 0, sizeof(s->mclms_coeffs)); | |
586 | memset(s->mclms_coeffs_cur, 0, sizeof(s->mclms_coeffs_cur)); | |
587 | memset(s->mclms_prevvalues, 0, sizeof(s->mclms_prevvalues)); | |
588 | memset(s->mclms_updates, 0, sizeof(s->mclms_updates)); | |
589 | ||
590 | for (ich = 0; ich < s->num_channels; ich++) { | |
591 | for (ilms = 0; ilms < s->cdlms_ttl[ich]; ilms++) { | |
592 | memset(s->cdlms[ich][ilms].coefs, 0, | |
593 | sizeof(s->cdlms[ich][ilms].coefs)); | |
594 | memset(s->cdlms[ich][ilms].lms_prevvalues, 0, | |
595 | sizeof(s->cdlms[ich][ilms].lms_prevvalues)); | |
596 | memset(s->cdlms[ich][ilms].lms_updates, 0, | |
597 | sizeof(s->cdlms[ich][ilms].lms_updates)); | |
598 | } | |
599 | s->ave_sum[ich] = 0; | |
600 | } | |
601 | } | |
602 | ||
603 | /** | |
604 | * @brief Reset filter parameters and transient area at new seekable tile. | |
605 | */ | |
606 | static void reset_codec(WmallDecodeCtx *s) | |
607 | { | |
608 | int ich, ilms; | |
609 | s->mclms_recent = s->mclms_order * s->num_channels; | |
610 | for (ich = 0; ich < s->num_channels; ich++) { | |
611 | for (ilms = 0; ilms < s->cdlms_ttl[ich]; ilms++) | |
612 | s->cdlms[ich][ilms].recent = s->cdlms[ich][ilms].order; | |
613 | /* first sample of a seekable subframe is considered as the starting of | |
614 | a transient area which is samples_per_frame samples long */ | |
615 | s->channel[ich].transient_counter = s->samples_per_frame; | |
616 | s->transient[ich] = 1; | |
617 | s->transient_pos[ich] = 0; | |
618 | } | |
619 | } | |
620 | ||
621 | static void mclms_update(WmallDecodeCtx *s, int icoef, int *pred) | |
622 | { | |
623 | int i, j, ich, pred_error; | |
624 | int order = s->mclms_order; | |
625 | int num_channels = s->num_channels; | |
626 | int range = 1 << (s->bits_per_sample - 1); | |
627 | ||
628 | for (ich = 0; ich < num_channels; ich++) { | |
629 | pred_error = s->channel_residues[ich][icoef] - pred[ich]; | |
630 | if (pred_error > 0) { | |
631 | for (i = 0; i < order * num_channels; i++) | |
632 | s->mclms_coeffs[i + ich * order * num_channels] += | |
633 | s->mclms_updates[s->mclms_recent + i]; | |
634 | for (j = 0; j < ich; j++) { | |
635 | if (s->channel_residues[j][icoef] > 0) | |
636 | s->mclms_coeffs_cur[ich * num_channels + j] += 1; | |
637 | else if (s->channel_residues[j][icoef] < 0) | |
638 | s->mclms_coeffs_cur[ich * num_channels + j] -= 1; | |
639 | } | |
640 | } else if (pred_error < 0) { | |
641 | for (i = 0; i < order * num_channels; i++) | |
642 | s->mclms_coeffs[i + ich * order * num_channels] -= | |
643 | s->mclms_updates[s->mclms_recent + i]; | |
644 | for (j = 0; j < ich; j++) { | |
645 | if (s->channel_residues[j][icoef] > 0) | |
646 | s->mclms_coeffs_cur[ich * num_channels + j] -= 1; | |
647 | else if (s->channel_residues[j][icoef] < 0) | |
648 | s->mclms_coeffs_cur[ich * num_channels + j] += 1; | |
649 | } | |
650 | } | |
651 | } | |
652 | ||
653 | for (ich = num_channels - 1; ich >= 0; ich--) { | |
654 | s->mclms_recent--; | |
655 | s->mclms_prevvalues[s->mclms_recent] = s->channel_residues[ich][icoef]; | |
656 | if (s->channel_residues[ich][icoef] > range - 1) | |
657 | s->mclms_prevvalues[s->mclms_recent] = range - 1; | |
658 | else if (s->channel_residues[ich][icoef] < -range) | |
659 | s->mclms_prevvalues[s->mclms_recent] = -range; | |
660 | ||
661 | s->mclms_updates[s->mclms_recent] = 0; | |
662 | if (s->channel_residues[ich][icoef] > 0) | |
663 | s->mclms_updates[s->mclms_recent] = 1; | |
664 | else if (s->channel_residues[ich][icoef] < 0) | |
665 | s->mclms_updates[s->mclms_recent] = -1; | |
666 | } | |
667 | ||
668 | if (s->mclms_recent == 0) { | |
669 | memcpy(&s->mclms_prevvalues[order * num_channels], | |
670 | s->mclms_prevvalues, | |
671 | sizeof(int16_t) * order * num_channels); | |
672 | memcpy(&s->mclms_updates[order * num_channels], | |
673 | s->mclms_updates, | |
674 | sizeof(int16_t) * order * num_channels); | |
675 | s->mclms_recent = num_channels * order; | |
676 | } | |
677 | } | |
678 | ||
679 | static void mclms_predict(WmallDecodeCtx *s, int icoef, int *pred) | |
680 | { | |
681 | int ich, i; | |
682 | int order = s->mclms_order; | |
683 | int num_channels = s->num_channels; | |
684 | ||
685 | for (ich = 0; ich < num_channels; ich++) { | |
686 | pred[ich] = 0; | |
687 | if (!s->is_channel_coded[ich]) | |
688 | continue; | |
689 | for (i = 0; i < order * num_channels; i++) | |
690 | pred[ich] += s->mclms_prevvalues[i + s->mclms_recent] * | |
691 | s->mclms_coeffs[i + order * num_channels * ich]; | |
692 | for (i = 0; i < ich; i++) | |
693 | pred[ich] += s->channel_residues[i][icoef] * | |
694 | s->mclms_coeffs_cur[i + num_channels * ich]; | |
695 | pred[ich] += 1 << s->mclms_scaling - 1; | |
696 | pred[ich] >>= s->mclms_scaling; | |
697 | s->channel_residues[ich][icoef] += pred[ich]; | |
698 | } | |
699 | } | |
700 | ||
701 | static void revert_mclms(WmallDecodeCtx *s, int tile_size) | |
702 | { | |
703 | int icoef, pred[WMALL_MAX_CHANNELS] = { 0 }; | |
704 | for (icoef = 0; icoef < tile_size; icoef++) { | |
705 | mclms_predict(s, icoef, pred); | |
706 | mclms_update(s, icoef, pred); | |
707 | } | |
708 | } | |
709 | ||
710 | static void lms_update(WmallDecodeCtx *s, int ich, int ilms, int input) | |
711 | { | |
712 | int recent = s->cdlms[ich][ilms].recent; | |
713 | int range = 1 << s->bits_per_sample - 1; | |
714 | ||
715 | if (recent) | |
716 | recent--; | |
717 | else { | |
718 | memcpy(&s->cdlms[ich][ilms].lms_prevvalues[s->cdlms[ich][ilms].order], | |
719 | s->cdlms[ich][ilms].lms_prevvalues, | |
720 | 2 * s->cdlms[ich][ilms].order); | |
721 | memcpy(&s->cdlms[ich][ilms].lms_updates[s->cdlms[ich][ilms].order], | |
722 | s->cdlms[ich][ilms].lms_updates, | |
723 | 2 * s->cdlms[ich][ilms].order); | |
724 | recent = s->cdlms[ich][ilms].order - 1; | |
725 | } | |
726 | ||
727 | s->cdlms[ich][ilms].lms_prevvalues[recent] = av_clip(input, -range, range - 1); | |
728 | if (!input) | |
729 | s->cdlms[ich][ilms].lms_updates[recent] = 0; | |
730 | else if (input < 0) | |
731 | s->cdlms[ich][ilms].lms_updates[recent] = -s->update_speed[ich]; | |
732 | else | |
733 | s->cdlms[ich][ilms].lms_updates[recent] = s->update_speed[ich]; | |
734 | ||
735 | s->cdlms[ich][ilms].lms_updates[recent + (s->cdlms[ich][ilms].order >> 4)] >>= 2; | |
736 | s->cdlms[ich][ilms].lms_updates[recent + (s->cdlms[ich][ilms].order >> 3)] >>= 1; | |
737 | s->cdlms[ich][ilms].recent = recent; | |
738 | } | |
739 | ||
740 | static void use_high_update_speed(WmallDecodeCtx *s, int ich) | |
741 | { | |
742 | int ilms, recent, icoef; | |
743 | for (ilms = s->cdlms_ttl[ich] - 1; ilms >= 0; ilms--) { | |
744 | recent = s->cdlms[ich][ilms].recent; | |
745 | if (s->update_speed[ich] == 16) | |
746 | continue; | |
747 | if (s->bV3RTM) { | |
748 | for (icoef = 0; icoef < s->cdlms[ich][ilms].order; icoef++) | |
749 | s->cdlms[ich][ilms].lms_updates[icoef + recent] *= 2; | |
750 | } else { | |
751 | for (icoef = 0; icoef < s->cdlms[ich][ilms].order; icoef++) | |
752 | s->cdlms[ich][ilms].lms_updates[icoef] *= 2; | |
753 | } | |
754 | } | |
755 | s->update_speed[ich] = 16; | |
756 | } | |
757 | ||
758 | static void use_normal_update_speed(WmallDecodeCtx *s, int ich) | |
759 | { | |
760 | int ilms, recent, icoef; | |
761 | for (ilms = s->cdlms_ttl[ich] - 1; ilms >= 0; ilms--) { | |
762 | recent = s->cdlms[ich][ilms].recent; | |
763 | if (s->update_speed[ich] == 8) | |
764 | continue; | |
765 | if (s->bV3RTM) | |
766 | for (icoef = 0; icoef < s->cdlms[ich][ilms].order; icoef++) | |
767 | s->cdlms[ich][ilms].lms_updates[icoef + recent] /= 2; | |
768 | else | |
769 | for (icoef = 0; icoef < s->cdlms[ich][ilms].order; icoef++) | |
770 | s->cdlms[ich][ilms].lms_updates[icoef] /= 2; | |
771 | } | |
772 | s->update_speed[ich] = 8; | |
773 | } | |
774 | ||
775 | /** Get sign of integer (1 for positive, -1 for negative and 0 for zero) */ | |
776 | #define WMASIGN(x) ((x > 0) - (x < 0)) | |
777 | ||
778 | static void revert_cdlms(WmallDecodeCtx *s, int ch, | |
779 | int coef_begin, int coef_end) | |
780 | { | |
781 | int icoef, pred, ilms, num_lms, residue, input; | |
782 | ||
783 | num_lms = s->cdlms_ttl[ch]; | |
784 | for (ilms = num_lms - 1; ilms >= 0; ilms--) { | |
785 | for (icoef = coef_begin; icoef < coef_end; icoef++) { | |
786 | pred = 1 << (s->cdlms[ch][ilms].scaling - 1); | |
787 | residue = s->channel_residues[ch][icoef]; | |
788 | pred += s->dsp.scalarproduct_and_madd_int16(s->cdlms[ch][ilms].coefs, | |
789 | s->cdlms[ch][ilms].lms_prevvalues | |
790 | + s->cdlms[ch][ilms].recent, | |
791 | s->cdlms[ch][ilms].lms_updates | |
792 | + s->cdlms[ch][ilms].recent, | |
793 | s->cdlms[ch][ilms].order, | |
794 | WMASIGN(residue)); | |
795 | input = residue + (pred >> s->cdlms[ch][ilms].scaling); | |
796 | lms_update(s, ch, ilms, input); | |
797 | s->channel_residues[ch][icoef] = input; | |
798 | } | |
799 | } | |
800 | emms_c(); | |
801 | } | |
802 | ||
803 | static void revert_inter_ch_decorr(WmallDecodeCtx *s, int tile_size) | |
804 | { | |
805 | if (s->num_channels != 2) | |
806 | return; | |
807 | else if (s->is_channel_coded[0] || s->is_channel_coded[1]) { | |
808 | int icoef; | |
809 | for (icoef = 0; icoef < tile_size; icoef++) { | |
810 | s->channel_residues[0][icoef] -= s->channel_residues[1][icoef] >> 1; | |
811 | s->channel_residues[1][icoef] += s->channel_residues[0][icoef]; | |
812 | } | |
813 | } | |
814 | } | |
815 | ||
816 | static void revert_acfilter(WmallDecodeCtx *s, int tile_size) | |
817 | { | |
818 | int ich, pred, i, j; | |
819 | int64_t *filter_coeffs = s->acfilter_coeffs; | |
820 | int scaling = s->acfilter_scaling; | |
821 | int order = s->acfilter_order; | |
822 | ||
823 | for (ich = 0; ich < s->num_channels; ich++) { | |
824 | int *prevvalues = s->acfilter_prevvalues[ich]; | |
825 | for (i = 0; i < order; i++) { | |
826 | pred = 0; | |
827 | for (j = 0; j < order; j++) { | |
828 | if (i <= j) | |
829 | pred += filter_coeffs[j] * prevvalues[j - i]; | |
830 | else | |
831 | pred += s->channel_residues[ich][i - j - 1] * filter_coeffs[j]; | |
832 | } | |
833 | pred >>= scaling; | |
834 | s->channel_residues[ich][i] += pred; | |
835 | } | |
836 | for (i = order; i < tile_size; i++) { | |
837 | pred = 0; | |
838 | for (j = 0; j < order; j++) | |
839 | pred += s->channel_residues[ich][i - j - 1] * filter_coeffs[j]; | |
840 | pred >>= scaling; | |
841 | s->channel_residues[ich][i] += pred; | |
842 | } | |
843 | for (j = 0; j < order; j++) | |
844 | prevvalues[j] = s->channel_residues[ich][tile_size - j - 1]; | |
845 | } | |
846 | } | |
847 | ||
848 | static int decode_subframe(WmallDecodeCtx *s) | |
849 | { | |
850 | int offset = s->samples_per_frame; | |
851 | int subframe_len = s->samples_per_frame; | |
852 | int total_samples = s->samples_per_frame * s->num_channels; | |
853 | int i, j, rawpcm_tile, padding_zeroes, res; | |
854 | ||
855 | s->subframe_offset = get_bits_count(&s->gb); | |
856 | ||
857 | /* reset channel context and find the next block offset and size | |
858 | == the next block of the channel with the smallest number of | |
859 | decoded samples */ | |
860 | for (i = 0; i < s->num_channels; i++) { | |
861 | if (offset > s->channel[i].decoded_samples) { | |
862 | offset = s->channel[i].decoded_samples; | |
863 | subframe_len = | |
864 | s->channel[i].subframe_len[s->channel[i].cur_subframe]; | |
865 | } | |
866 | } | |
867 | ||
868 | /* get a list of all channels that contain the estimated block */ | |
869 | s->channels_for_cur_subframe = 0; | |
870 | for (i = 0; i < s->num_channels; i++) { | |
871 | const int cur_subframe = s->channel[i].cur_subframe; | |
872 | /* subtract already processed samples */ | |
873 | total_samples -= s->channel[i].decoded_samples; | |
874 | ||
875 | /* and count if there are multiple subframes that match our profile */ | |
876 | if (offset == s->channel[i].decoded_samples && | |
877 | subframe_len == s->channel[i].subframe_len[cur_subframe]) { | |
878 | total_samples -= s->channel[i].subframe_len[cur_subframe]; | |
879 | s->channel[i].decoded_samples += | |
880 | s->channel[i].subframe_len[cur_subframe]; | |
881 | s->channel_indexes_for_cur_subframe[s->channels_for_cur_subframe] = i; | |
882 | ++s->channels_for_cur_subframe; | |
883 | } | |
884 | } | |
885 | ||
886 | /* check if the frame will be complete after processing the | |
887 | estimated block */ | |
888 | if (!total_samples) | |
889 | s->parsed_all_subframes = 1; | |
890 | ||
891 | ||
892 | s->seekable_tile = get_bits1(&s->gb); | |
893 | if (s->seekable_tile) { | |
894 | clear_codec_buffers(s); | |
895 | ||
896 | s->do_arith_coding = get_bits1(&s->gb); | |
897 | if (s->do_arith_coding) { | |
898 | avpriv_request_sample(s->avctx, "Arithmetic coding"); | |
899 | return AVERROR_PATCHWELCOME; | |
900 | } | |
901 | s->do_ac_filter = get_bits1(&s->gb); | |
902 | s->do_inter_ch_decorr = get_bits1(&s->gb); | |
903 | s->do_mclms = get_bits1(&s->gb); | |
904 | ||
905 | if (s->do_ac_filter) | |
906 | decode_ac_filter(s); | |
907 | ||
908 | if (s->do_mclms) | |
909 | decode_mclms(s); | |
910 | ||
911 | if ((res = decode_cdlms(s)) < 0) | |
912 | return res; | |
913 | s->movave_scaling = get_bits(&s->gb, 3); | |
914 | s->quant_stepsize = get_bits(&s->gb, 8) + 1; | |
915 | ||
916 | reset_codec(s); | |
917 | } else if (!s->cdlms[0][0].order) { | |
918 | av_log(s->avctx, AV_LOG_DEBUG, | |
919 | "Waiting for seekable tile\n"); | |
920 | av_frame_unref(s->frame); | |
921 | return -1; | |
922 | } | |
923 | ||
924 | rawpcm_tile = get_bits1(&s->gb); | |
925 | ||
926 | for (i = 0; i < s->num_channels; i++) | |
927 | s->is_channel_coded[i] = 1; | |
928 | ||
929 | if (!rawpcm_tile) { | |
930 | for (i = 0; i < s->num_channels; i++) | |
931 | s->is_channel_coded[i] = get_bits1(&s->gb); | |
932 | ||
933 | if (s->bV3RTM) { | |
934 | // LPC | |
935 | s->do_lpc = get_bits1(&s->gb); | |
936 | if (s->do_lpc) { | |
937 | decode_lpc(s); | |
938 | avpriv_request_sample(s->avctx, "Expect wrong output since " | |
939 | "inverse LPC filter"); | |
940 | } | |
941 | } else | |
942 | s->do_lpc = 0; | |
943 | } | |
944 | ||
945 | ||
946 | if (get_bits1(&s->gb)) | |
947 | padding_zeroes = get_bits(&s->gb, 5); | |
948 | else | |
949 | padding_zeroes = 0; | |
950 | ||
951 | if (rawpcm_tile) { | |
952 | int bits = s->bits_per_sample - padding_zeroes; | |
953 | if (bits <= 0) { | |
954 | av_log(s->avctx, AV_LOG_ERROR, | |
955 | "Invalid number of padding bits in raw PCM tile\n"); | |
956 | return AVERROR_INVALIDDATA; | |
957 | } | |
958 | av_dlog(s->avctx, "RAWPCM %d bits per sample. " | |
959 | "total %d bits, remain=%d\n", bits, | |
960 | bits * s->num_channels * subframe_len, get_bits_count(&s->gb)); | |
961 | for (i = 0; i < s->num_channels; i++) | |
962 | for (j = 0; j < subframe_len; j++) | |
963 | s->channel_coeffs[i][j] = get_sbits_long(&s->gb, bits); | |
964 | } else { | |
965 | for (i = 0; i < s->num_channels; i++) | |
966 | if (s->is_channel_coded[i]) { | |
967 | decode_channel_residues(s, i, subframe_len); | |
968 | if (s->seekable_tile) | |
969 | use_high_update_speed(s, i); | |
970 | else | |
971 | use_normal_update_speed(s, i); | |
972 | revert_cdlms(s, i, 0, subframe_len); | |
973 | } else { | |
974 | memset(s->channel_residues[i], 0, sizeof(**s->channel_residues) * subframe_len); | |
975 | } | |
976 | } | |
977 | if (s->do_mclms) | |
978 | revert_mclms(s, subframe_len); | |
979 | if (s->do_inter_ch_decorr) | |
980 | revert_inter_ch_decorr(s, subframe_len); | |
981 | if (s->do_ac_filter) | |
982 | revert_acfilter(s, subframe_len); | |
983 | ||
984 | /* Dequantize */ | |
985 | if (s->quant_stepsize != 1) | |
986 | for (i = 0; i < s->num_channels; i++) | |
987 | for (j = 0; j < subframe_len; j++) | |
988 | s->channel_residues[i][j] *= s->quant_stepsize; | |
989 | ||
990 | /* Write to proper output buffer depending on bit-depth */ | |
991 | for (i = 0; i < s->channels_for_cur_subframe; i++) { | |
992 | int c = s->channel_indexes_for_cur_subframe[i]; | |
993 | int subframe_len = s->channel[c].subframe_len[s->channel[c].cur_subframe]; | |
994 | ||
995 | for (j = 0; j < subframe_len; j++) { | |
996 | if (s->bits_per_sample == 16) { | |
997 | *s->samples_16[c]++ = (int16_t) s->channel_residues[c][j] << padding_zeroes; | |
998 | } else { | |
f6fa7814 | 999 | *s->samples_32[c]++ = s->channel_residues[c][j] << (padding_zeroes + 8); |
2ba45a60 DM |
1000 | } |
1001 | } | |
1002 | } | |
1003 | ||
1004 | /* handled one subframe */ | |
1005 | for (i = 0; i < s->channels_for_cur_subframe; i++) { | |
1006 | int c = s->channel_indexes_for_cur_subframe[i]; | |
1007 | if (s->channel[c].cur_subframe >= s->channel[c].num_subframes) { | |
1008 | av_log(s->avctx, AV_LOG_ERROR, "broken subframe\n"); | |
1009 | return AVERROR_INVALIDDATA; | |
1010 | } | |
1011 | ++s->channel[c].cur_subframe; | |
1012 | } | |
1013 | return 0; | |
1014 | } | |
1015 | ||
1016 | /** | |
1017 | * @brief Decode one WMA frame. | |
1018 | * @param s codec context | |
1019 | * @return 0 if the trailer bit indicates that this is the last frame, | |
1020 | * 1 if there are additional frames | |
1021 | */ | |
1022 | static int decode_frame(WmallDecodeCtx *s) | |
1023 | { | |
1024 | GetBitContext* gb = &s->gb; | |
1025 | int more_frames = 0, len = 0, i, ret; | |
1026 | ||
1027 | s->frame->nb_samples = s->samples_per_frame; | |
1028 | if ((ret = ff_get_buffer(s->avctx, s->frame, 0)) < 0) { | |
1029 | /* return an error if no frame could be decoded at all */ | |
1030 | s->packet_loss = 1; | |
1031 | return ret; | |
1032 | } | |
1033 | for (i = 0; i < s->num_channels; i++) { | |
1034 | s->samples_16[i] = (int16_t *)s->frame->extended_data[i]; | |
1035 | s->samples_32[i] = (int32_t *)s->frame->extended_data[i]; | |
1036 | } | |
1037 | ||
1038 | /* get frame length */ | |
1039 | if (s->len_prefix) | |
1040 | len = get_bits(gb, s->log2_frame_size); | |
1041 | ||
1042 | /* decode tile information */ | |
1043 | if ((ret = decode_tilehdr(s))) { | |
1044 | s->packet_loss = 1; | |
1045 | av_frame_unref(s->frame); | |
1046 | return ret; | |
1047 | } | |
1048 | ||
1049 | /* read drc info */ | |
1050 | if (s->dynamic_range_compression) | |
1051 | s->drc_gain = get_bits(gb, 8); | |
1052 | ||
1053 | /* no idea what these are for, might be the number of samples | |
1054 | that need to be skipped at the beginning or end of a stream */ | |
1055 | if (get_bits1(gb)) { | |
1056 | int av_unused skip; | |
1057 | ||
1058 | /* usually true for the first frame */ | |
1059 | if (get_bits1(gb)) { | |
1060 | skip = get_bits(gb, av_log2(s->samples_per_frame * 2)); | |
1061 | av_dlog(s->avctx, "start skip: %i\n", skip); | |
1062 | } | |
1063 | ||
1064 | /* sometimes true for the last frame */ | |
1065 | if (get_bits1(gb)) { | |
1066 | skip = get_bits(gb, av_log2(s->samples_per_frame * 2)); | |
1067 | av_dlog(s->avctx, "end skip: %i\n", skip); | |
1068 | } | |
1069 | ||
1070 | } | |
1071 | ||
1072 | /* reset subframe states */ | |
1073 | s->parsed_all_subframes = 0; | |
1074 | for (i = 0; i < s->num_channels; i++) { | |
1075 | s->channel[i].decoded_samples = 0; | |
1076 | s->channel[i].cur_subframe = 0; | |
1077 | } | |
1078 | ||
1079 | /* decode all subframes */ | |
1080 | while (!s->parsed_all_subframes) { | |
1081 | int decoded_samples = s->channel[0].decoded_samples; | |
1082 | if (decode_subframe(s) < 0) { | |
1083 | s->packet_loss = 1; | |
1084 | if (s->frame->nb_samples) | |
1085 | s->frame->nb_samples = decoded_samples; | |
1086 | return 0; | |
1087 | } | |
1088 | } | |
1089 | ||
1090 | av_dlog(s->avctx, "Frame done\n"); | |
1091 | ||
1092 | if (s->skip_frame) | |
1093 | s->skip_frame = 0; | |
1094 | ||
1095 | if (s->len_prefix) { | |
1096 | if (len != (get_bits_count(gb) - s->frame_offset) + 2) { | |
1097 | /* FIXME: not sure if this is always an error */ | |
1098 | av_log(s->avctx, AV_LOG_ERROR, | |
1099 | "frame[%"PRIu32"] would have to skip %i bits\n", | |
1100 | s->frame_num, | |
1101 | len - (get_bits_count(gb) - s->frame_offset) - 1); | |
1102 | s->packet_loss = 1; | |
1103 | return 0; | |
1104 | } | |
1105 | ||
1106 | /* skip the rest of the frame data */ | |
1107 | skip_bits_long(gb, len - (get_bits_count(gb) - s->frame_offset) - 1); | |
1108 | } | |
1109 | ||
1110 | /* decode trailer bit */ | |
1111 | more_frames = get_bits1(gb); | |
1112 | ++s->frame_num; | |
1113 | return more_frames; | |
1114 | } | |
1115 | ||
1116 | /** | |
1117 | * @brief Calculate remaining input buffer length. | |
1118 | * @param s codec context | |
1119 | * @param gb bitstream reader context | |
1120 | * @return remaining size in bits | |
1121 | */ | |
1122 | static int remaining_bits(WmallDecodeCtx *s, GetBitContext *gb) | |
1123 | { | |
1124 | return s->buf_bit_size - get_bits_count(gb); | |
1125 | } | |
1126 | ||
1127 | /** | |
1128 | * @brief Fill the bit reservoir with a (partial) frame. | |
1129 | * @param s codec context | |
1130 | * @param gb bitstream reader context | |
1131 | * @param len length of the partial frame | |
1132 | * @param append decides whether to reset the buffer or not | |
1133 | */ | |
1134 | static void save_bits(WmallDecodeCtx *s, GetBitContext* gb, int len, | |
1135 | int append) | |
1136 | { | |
1137 | int buflen; | |
1138 | PutBitContext tmp; | |
1139 | ||
1140 | /* when the frame data does not need to be concatenated, the input buffer | |
1141 | is reset and additional bits from the previous frame are copied | |
1142 | and skipped later so that a fast byte copy is possible */ | |
1143 | ||
1144 | if (!append) { | |
1145 | s->frame_offset = get_bits_count(gb) & 7; | |
1146 | s->num_saved_bits = s->frame_offset; | |
1147 | init_put_bits(&s->pb, s->frame_data, MAX_FRAMESIZE); | |
1148 | } | |
1149 | ||
1150 | buflen = (s->num_saved_bits + len + 8) >> 3; | |
1151 | ||
1152 | if (len <= 0 || buflen > MAX_FRAMESIZE) { | |
1153 | avpriv_request_sample(s->avctx, "Too small input buffer"); | |
1154 | s->packet_loss = 1; | |
1155 | return; | |
1156 | } | |
1157 | ||
1158 | s->num_saved_bits += len; | |
1159 | if (!append) { | |
1160 | avpriv_copy_bits(&s->pb, gb->buffer + (get_bits_count(gb) >> 3), | |
1161 | s->num_saved_bits); | |
1162 | } else { | |
1163 | int align = 8 - (get_bits_count(gb) & 7); | |
1164 | align = FFMIN(align, len); | |
1165 | put_bits(&s->pb, align, get_bits(gb, align)); | |
1166 | len -= align; | |
1167 | avpriv_copy_bits(&s->pb, gb->buffer + (get_bits_count(gb) >> 3), len); | |
1168 | } | |
1169 | skip_bits_long(gb, len); | |
1170 | ||
1171 | tmp = s->pb; | |
1172 | flush_put_bits(&tmp); | |
1173 | ||
1174 | init_get_bits(&s->gb, s->frame_data, s->num_saved_bits); | |
1175 | skip_bits(&s->gb, s->frame_offset); | |
1176 | } | |
1177 | ||
1178 | static int decode_packet(AVCodecContext *avctx, void *data, int *got_frame_ptr, | |
1179 | AVPacket* avpkt) | |
1180 | { | |
1181 | WmallDecodeCtx *s = avctx->priv_data; | |
1182 | GetBitContext* gb = &s->pgb; | |
1183 | const uint8_t* buf = avpkt->data; | |
1184 | int buf_size = avpkt->size; | |
1185 | int num_bits_prev_frame, packet_sequence_number, spliced_packet; | |
1186 | ||
1187 | s->frame->nb_samples = 0; | |
1188 | ||
1189 | if (s->packet_done || s->packet_loss) { | |
1190 | s->packet_done = 0; | |
1191 | ||
1192 | if (!buf_size) | |
1193 | return 0; | |
1194 | /* sanity check for the buffer length */ | |
1195 | if (buf_size < avctx->block_align) { | |
1196 | av_log(avctx, AV_LOG_ERROR, "buf size %d invalid\n", buf_size); | |
1197 | return AVERROR_INVALIDDATA; | |
1198 | } | |
1199 | ||
1200 | s->next_packet_start = buf_size - avctx->block_align; | |
1201 | buf_size = avctx->block_align; | |
1202 | s->buf_bit_size = buf_size << 3; | |
1203 | ||
1204 | /* parse packet header */ | |
1205 | init_get_bits(gb, buf, s->buf_bit_size); | |
1206 | packet_sequence_number = get_bits(gb, 4); | |
1207 | skip_bits(gb, 1); // Skip seekable_frame_in_packet, currently ununused | |
1208 | spliced_packet = get_bits1(gb); | |
1209 | if (spliced_packet) | |
1210 | avpriv_request_sample(avctx, "Bitstream splicing"); | |
1211 | ||
1212 | /* get number of bits that need to be added to the previous frame */ | |
1213 | num_bits_prev_frame = get_bits(gb, s->log2_frame_size); | |
1214 | ||
1215 | /* check for packet loss */ | |
1216 | if (!s->packet_loss && | |
1217 | ((s->packet_sequence_number + 1) & 0xF) != packet_sequence_number) { | |
1218 | s->packet_loss = 1; | |
1219 | av_log(avctx, AV_LOG_ERROR, | |
1220 | "Packet loss detected! seq %"PRIx8" vs %x\n", | |
1221 | s->packet_sequence_number, packet_sequence_number); | |
1222 | } | |
1223 | s->packet_sequence_number = packet_sequence_number; | |
1224 | ||
1225 | if (num_bits_prev_frame > 0) { | |
1226 | int remaining_packet_bits = s->buf_bit_size - get_bits_count(gb); | |
1227 | if (num_bits_prev_frame >= remaining_packet_bits) { | |
1228 | num_bits_prev_frame = remaining_packet_bits; | |
1229 | s->packet_done = 1; | |
1230 | } | |
1231 | ||
1232 | /* Append the previous frame data to the remaining data from the | |
1233 | * previous packet to create a full frame. */ | |
1234 | save_bits(s, gb, num_bits_prev_frame, 1); | |
1235 | ||
1236 | /* decode the cross packet frame if it is valid */ | |
1237 | if (num_bits_prev_frame < remaining_packet_bits && !s->packet_loss) | |
1238 | decode_frame(s); | |
1239 | } else if (s->num_saved_bits - s->frame_offset) { | |
1240 | av_dlog(avctx, "ignoring %x previously saved bits\n", | |
1241 | s->num_saved_bits - s->frame_offset); | |
1242 | } | |
1243 | ||
1244 | if (s->packet_loss) { | |
1245 | /* Reset number of saved bits so that the decoder does not start | |
1246 | * to decode incomplete frames in the s->len_prefix == 0 case. */ | |
1247 | s->num_saved_bits = 0; | |
1248 | s->packet_loss = 0; | |
1249 | init_put_bits(&s->pb, s->frame_data, MAX_FRAMESIZE); | |
1250 | } | |
1251 | ||
1252 | } else { | |
1253 | int frame_size; | |
1254 | ||
1255 | s->buf_bit_size = (avpkt->size - s->next_packet_start) << 3; | |
1256 | init_get_bits(gb, avpkt->data, s->buf_bit_size); | |
1257 | skip_bits(gb, s->packet_offset); | |
1258 | ||
1259 | if (s->len_prefix && remaining_bits(s, gb) > s->log2_frame_size && | |
1260 | (frame_size = show_bits(gb, s->log2_frame_size)) && | |
1261 | frame_size <= remaining_bits(s, gb)) { | |
1262 | save_bits(s, gb, frame_size, 0); | |
1263 | s->packet_done = !decode_frame(s); | |
1264 | } else if (!s->len_prefix | |
1265 | && s->num_saved_bits > get_bits_count(&s->gb)) { | |
1266 | /* when the frames do not have a length prefix, we don't know the | |
1267 | * compressed length of the individual frames however, we know what | |
1268 | * part of a new packet belongs to the previous frame therefore we | |
1269 | * save the incoming packet first, then we append the "previous | |
1270 | * frame" data from the next packet so that we get a buffer that | |
1271 | * only contains full frames */ | |
1272 | s->packet_done = !decode_frame(s); | |
1273 | } else { | |
1274 | s->packet_done = 1; | |
1275 | } | |
1276 | } | |
1277 | ||
1278 | if (s->packet_done && !s->packet_loss && | |
1279 | remaining_bits(s, gb) > 0) { | |
1280 | /* save the rest of the data so that it can be decoded | |
1281 | * with the next packet */ | |
1282 | save_bits(s, gb, remaining_bits(s, gb), 0); | |
1283 | } | |
1284 | ||
1285 | *got_frame_ptr = s->frame->nb_samples > 0; | |
1286 | av_frame_move_ref(data, s->frame); | |
1287 | ||
1288 | s->packet_offset = get_bits_count(gb) & 7; | |
1289 | ||
1290 | return (s->packet_loss) ? AVERROR_INVALIDDATA : get_bits_count(gb) >> 3; | |
1291 | } | |
1292 | ||
1293 | static void flush(AVCodecContext *avctx) | |
1294 | { | |
1295 | WmallDecodeCtx *s = avctx->priv_data; | |
1296 | s->packet_loss = 1; | |
1297 | s->packet_done = 0; | |
1298 | s->num_saved_bits = 0; | |
1299 | s->frame_offset = 0; | |
1300 | s->next_packet_start = 0; | |
1301 | s->cdlms[0][0].order = 0; | |
1302 | s->frame->nb_samples = 0; | |
1303 | init_put_bits(&s->pb, s->frame_data, MAX_FRAMESIZE); | |
1304 | } | |
1305 | ||
1306 | static av_cold int decode_close(AVCodecContext *avctx) | |
1307 | { | |
1308 | WmallDecodeCtx *s = avctx->priv_data; | |
1309 | ||
1310 | av_frame_free(&s->frame); | |
1311 | ||
1312 | return 0; | |
1313 | } | |
1314 | ||
1315 | AVCodec ff_wmalossless_decoder = { | |
1316 | .name = "wmalossless", | |
1317 | .long_name = NULL_IF_CONFIG_SMALL("Windows Media Audio Lossless"), | |
1318 | .type = AVMEDIA_TYPE_AUDIO, | |
1319 | .id = AV_CODEC_ID_WMALOSSLESS, | |
1320 | .priv_data_size = sizeof(WmallDecodeCtx), | |
1321 | .init = decode_init, | |
1322 | .close = decode_close, | |
1323 | .decode = decode_packet, | |
1324 | .flush = flush, | |
1325 | .capabilities = CODEC_CAP_SUBFRAMES | CODEC_CAP_DR1 | CODEC_CAP_DELAY, | |
1326 | .sample_fmts = (const enum AVSampleFormat[]) { AV_SAMPLE_FMT_S16P, | |
1327 | AV_SAMPLE_FMT_S32P, | |
1328 | AV_SAMPLE_FMT_NONE }, | |
1329 | }; |