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sbgdec.c
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1 /*
2  * SBG (SBaGen) file format decoder
3  * Copyright (c) 2011 Nicolas George
4  *
5  * This file is part of FFmpeg.
6  *
7  * FFmpeg is free software; you can redistribute it and/or
8  * modify it under the terms of the GNU Lesser General Public
9  * License as published by the Free Software Foundation; either
10  * version 2.1 of the License, or (at your option) any later version.
11  *
12  * FFmpeg is distributed in the hope that it will be useful,
13  * but WITHOUT ANY WARRANTY; without even the implied warranty of
14  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
15  * Lesser General Public License for more details.
16  *
17  * You should have received a copy of the GNU Lesser General Public
18  * License along with FFmpeg; if not, write to the Free Software
19  * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
20  */
21 
22 #include <stdio.h>
23 #include <stdlib.h>
24 #include <time.h>
25 #include "libavutil/intreadwrite.h"
26 #include "libavutil/log.h"
27 #include "libavutil/opt.h"
29 #include "avformat.h"
30 #include "internal.h"
31 
32 #define SBG_SCALE (1 << 16)
33 #define DAY (24 * 60 * 60)
34 #define DAY_TS ((int64_t)DAY * AV_TIME_BASE)
35 
36 struct sbg_demuxer {
37  AVClass *class;
41 };
42 
43 struct sbg_string {
44  char *s;
45  char *e;
46 };
47 
52 };
53 
54 struct sbg_fade {
55  int8_t in, out, slide;
56 };
57 
65 };
66 
67 /* bell: freq constant, ampl decreases exponentially, can be approx lin */
68 
69 struct sbg_timestamp {
70  int64_t t;
71  char type; /* 0 for relative, 'N' for now, 'T' for absolute */
72 };
73 
75  char *name;
76  int name_len;
78  char type; /* 'S' or 'B' */
79 };
80 
82  int carrier;
83  int beat;
84  int vol;
86  struct {
87  int l, r;
88  } ref;
89 };
90 
92  struct sbg_timestamp ts;
93  char *name;
94  int name_len;
95  int lock;
96  struct sbg_fade fade;
97 };
98 
100  int64_t ts;
103  struct sbg_fade fade;
104 };
105 
106 struct sbg_script {
112  int nb_def;
113  int nb_tseq;
115  int nb_synth;
116  int64_t start_ts;
117  int64_t end_ts;
118  int64_t opt_fade_time;
119  int64_t opt_duration;
120  char *opt_mix;
124 };
125 
126 struct sbg_parser {
127  void *log;
128  char *script, *end;
129  char *cursor;
130  struct sbg_script scs;
134  int line_no;
135  char err_msg[128];
136 };
137 
139  WS_SINE = MKTAG('S','I','N','E'),
140  WS_NOISE = MKTAG('N','O','I','S'),
141 };
142 
143 struct ws_interval {
144  int64_t ts1, ts2;
145  enum ws_interval_type type;
146  uint32_t channels;
149  uint32_t phi;
150 };
151 
152 struct ws_intervals {
154  int nb_inter;
156 };
157 
158 static void *alloc_array_elem(void **array, size_t elsize,
159  int *size, int *max_size)
160 {
161  void *ret;
162 
163  if (*size == *max_size) {
164  int m = FFMAX(32, FFMIN(*max_size, INT_MAX / 2) * 2);
165  if (*size >= m)
166  return NULL;
167  *array = av_realloc_f(*array, m, elsize);
168  if (!*array)
169  return NULL;
170  *max_size = m;
171  }
172  ret = (char *)*array + elsize * *size;
173  memset(ret, 0, elsize);
174  (*size)++;
175  return ret;
176 }
177 
178 static int str_to_time(const char *str, int64_t *rtime)
179 {
180  const char *cur = str;
181  char *end;
182  int hours, minutes;
183  double seconds = 0;
184 
185  if (*cur < '0' || *cur > '9')
186  return 0;
187  hours = strtol(cur, &end, 10);
188  if (end == cur || *end != ':' || end[1] < '0' || end[1] > '9')
189  return 0;
190  cur = end + 1;
191  minutes = strtol(cur, &end, 10);
192  if (end == cur)
193  return 0;
194  cur = end;
195  if (*end == ':'){
196  seconds = strtod(cur + 1, &end);
197  if (end > cur + 1)
198  cur = end;
199  }
200  *rtime = (hours * 3600 + minutes * 60 + seconds) * AV_TIME_BASE;
201  return cur - str;
202 }
203 
204 static inline int is_space(char c)
205 {
206  return c == ' ' || c == '\t' || c == '\r';
207 }
208 
209 static inline int scale_double(void *log, double d, double m, int *r)
210 {
211  m *= d * SBG_SCALE;
212  if (m < INT_MIN || m >= INT_MAX) {
213  if (log)
214  av_log(log, AV_LOG_ERROR, "%g is too large\n", d);
215  return AVERROR(EDOM);
216  }
217  *r = m;
218  return 0;
219 }
220 
221 static int lex_space(struct sbg_parser *p)
222 {
223  char *c = p->cursor;
224 
225  while (p->cursor < p->end && is_space(*p->cursor))
226  p->cursor++;
227  return p->cursor > c;
228 }
229 
230 static int lex_char(struct sbg_parser *p, char c)
231 {
232  int r = p->cursor < p->end && *p->cursor == c;
233 
234  p->cursor += r;
235  return r;
236 }
237 
238 static int lex_double(struct sbg_parser *p, double *r)
239 {
240  double d;
241  char *end;
242 
243  if (p->cursor == p->end || is_space(*p->cursor) || *p->cursor == '\n')
244  return 0;
245  d = strtod(p->cursor, &end);
246  if (end > p->cursor) {
247  *r = d;
248  p->cursor = end;
249  return 1;
250  }
251  return 0;
252 }
253 
254 static int lex_fixed(struct sbg_parser *p, const char *t, int l)
255 {
256  if (p->end - p->cursor < l || memcmp(p->cursor, t, l))
257  return 0;
258  p->cursor += l;
259  return 1;
260 }
261 
262 static int lex_line_end(struct sbg_parser *p)
263 {
264  if (p->cursor < p->end && *p->cursor == '#') {
265  p->cursor++;
266  while (p->cursor < p->end && *p->cursor != '\n')
267  p->cursor++;
268  }
269  if (p->cursor == p->end)
270  /* simulate final LF for files lacking it */
271  return 1;
272  if (*p->cursor != '\n')
273  return 0;
274  p->cursor++;
275  p->line_no++;
276  lex_space(p);
277  return 1;
278 }
279 
280 static int lex_wsword(struct sbg_parser *p, struct sbg_string *rs)
281 {
282  char *s = p->cursor, *c = s;
283 
284  if (s == p->end || *s == '\n')
285  return 0;
286  while (c < p->end && *c != '\n' && !is_space(*c))
287  c++;
288  rs->s = s;
289  rs->e = p->cursor = c;
290  lex_space(p);
291  return 1;
292 }
293 
294 static int lex_name(struct sbg_parser *p, struct sbg_string *rs)
295 {
296  char *s = p->cursor, *c = s;
297 
298  while (c < p->end && ((*c >= 'a' && *c <= 'z') || (*c >= 'A' && *c <= 'Z')
299  || (*c >= '0' && *c <= '9') || *c == '_' || *c == '-'))
300  c++;
301  if (c == s)
302  return 0;
303  rs->s = s;
304  rs->e = p->cursor = c;
305  return 1;
306 }
307 
308 static int lex_time(struct sbg_parser *p, int64_t *rt)
309 {
310  int r = str_to_time(p->cursor, rt);
311  p->cursor += r;
312  return r > 0;
313 }
314 
315 #define FORWARD_ERROR(c) \
316  do { \
317  int errcode = c; \
318  if (errcode <= 0) \
319  return errcode ? errcode : AVERROR_INVALIDDATA; \
320  } while (0)
321 
322 static int parse_immediate(struct sbg_parser *p)
323 {
324  snprintf(p->err_msg, sizeof(p->err_msg),
325  "immediate sequences not yet implemented");
326  return AVERROR_PATCHWELCOME;
327 }
328 
329 static int parse_preprogrammed(struct sbg_parser *p)
330 {
331  snprintf(p->err_msg, sizeof(p->err_msg),
332  "preprogrammed sequences not yet implemented");
333  return AVERROR_PATCHWELCOME;
334 }
335 
336 static int parse_optarg(struct sbg_parser *p, char o, struct sbg_string *r)
337 {
338  if (!lex_wsword(p, r)) {
339  snprintf(p->err_msg, sizeof(p->err_msg),
340  "option '%c' requires an argument", o);
341  return AVERROR_INVALIDDATA;
342  }
343  return 1;
344 }
345 
346 static int parse_options(struct sbg_parser *p)
347 {
348  struct sbg_string ostr, oarg;
349  char mode = 0;
350  int r;
351  char *tptr;
352  double v;
353 
354  if (p->cursor == p->end || *p->cursor != '-')
355  return 0;
356  while (lex_char(p, '-') && lex_wsword(p, &ostr)) {
357  for (; ostr.s < ostr.e; ostr.s++) {
358  char opt = *ostr.s;
359  switch (opt) {
360  case 'S':
361  p->scs.opt_start_at_first = 1;
362  break;
363  case 'E':
364  p->scs.opt_end_at_last = 1;
365  break;
366  case 'i':
367  mode = 'i';
368  break;
369  case 'p':
370  mode = 'p';
371  break;
372  case 'F':
373  FORWARD_ERROR(parse_optarg(p, opt, &oarg));
374  v = strtod(oarg.s, &tptr);
375  if (oarg.e != tptr) {
376  snprintf(p->err_msg, sizeof(p->err_msg),
377  "syntax error for option -F");
378  return AVERROR_INVALIDDATA;
379  }
380  p->scs.opt_fade_time = v * AV_TIME_BASE / 1000;
381  break;
382  case 'L':
383  FORWARD_ERROR(parse_optarg(p, opt, &oarg));
384  r = str_to_time(oarg.s, &p->scs.opt_duration);
385  if (oarg.e != oarg.s + r) {
386  snprintf(p->err_msg, sizeof(p->err_msg),
387  "syntax error for option -L");
388  return AVERROR_INVALIDDATA;
389  }
390  break;
391  case 'T':
392  FORWARD_ERROR(parse_optarg(p, opt, &oarg));
393  r = str_to_time(oarg.s, &p->scs.start_ts);
394  if (oarg.e != oarg.s + r) {
395  snprintf(p->err_msg, sizeof(p->err_msg),
396  "syntax error for option -T");
397  return AVERROR_INVALIDDATA;
398  }
399  break;
400  case 'm':
401  FORWARD_ERROR(parse_optarg(p, opt, &oarg));
402  tptr = av_malloc(oarg.e - oarg.s + 1);
403  if (!tptr)
404  return AVERROR(ENOMEM);
405  memcpy(tptr, oarg.s, oarg.e - oarg.s);
406  tptr[oarg.e - oarg.s] = 0;
407  av_free(p->scs.opt_mix);
408  p->scs.opt_mix = tptr;
409  break;
410  case 'q':
411  FORWARD_ERROR(parse_optarg(p, opt, &oarg));
412  v = strtod(oarg.s, &tptr);
413  if (oarg.e != tptr) {
414  snprintf(p->err_msg, sizeof(p->err_msg),
415  "syntax error for option -q");
416  return AVERROR_INVALIDDATA;
417  }
418  if (v != 1) {
419  snprintf(p->err_msg, sizeof(p->err_msg),
420  "speed factor other than 1 not supported");
421  return AVERROR_PATCHWELCOME;
422  }
423  break;
424  case 'r':
425  FORWARD_ERROR(parse_optarg(p, opt, &oarg));
426  r = strtol(oarg.s, &tptr, 10);
427  if (oarg.e != tptr) {
428  snprintf(p->err_msg, sizeof(p->err_msg),
429  "syntax error for option -r");
430  return AVERROR_INVALIDDATA;
431  }
432  if (r < 40) {
433  snprintf(p->err_msg, sizeof(p->err_msg),
434  "invalid sample rate");
435  return AVERROR_PATCHWELCOME;
436  }
437  p->scs.sample_rate = r;
438  break;
439  default:
440  snprintf(p->err_msg, sizeof(p->err_msg),
441  "unknown option: '%c'", *ostr.s);
442  return AVERROR_INVALIDDATA;
443  }
444  }
445  }
446  switch (mode) {
447  case 'i':
448  return parse_immediate(p);
449  case 'p':
450  return parse_preprogrammed(p);
451  case 0:
452  if (!lex_line_end(p))
453  return AVERROR_INVALIDDATA;
454  return 1;
455  }
456  return AVERROR_BUG;
457 }
458 
459 static int parse_timestamp(struct sbg_parser *p,
460  struct sbg_timestamp *rts, int64_t *rrel)
461 {
462  int64_t abs = 0, rel = 0, dt;
463  char type = 0;
464  int r;
465 
466  if (lex_fixed(p, "NOW", 3)) {
467  type = 'N';
468  r = 1;
469  } else {
470  r = lex_time(p, &abs);
471  if (r)
472  type = 'T';
473  }
474  while (lex_char(p, '+')) {
475  if (!lex_time(p, &dt))
476  return AVERROR_INVALIDDATA;
477  rel += dt;
478  r = 1;
479  }
480  if (r) {
481  if (!lex_space(p))
482  return AVERROR_INVALIDDATA;
483  rts->type = type;
484  rts->t = abs;
485  *rrel = rel;
486  }
487  return r;
488 }
489 
490 static int parse_fade(struct sbg_parser *p, struct sbg_fade *fr)
491 {
492  struct sbg_fade f = {0};
493 
494  if (lex_char(p, '<'))
495  f.in = SBG_FADE_SILENCE;
496  else if (lex_char(p, '-'))
497  f.in = SBG_FADE_SAME;
498  else if (lex_char(p, '='))
499  f.in = SBG_FADE_ADAPT;
500  else
501  return 0;
502  if (lex_char(p, '>'))
503  f.out = SBG_FADE_SILENCE;
504  else if (lex_char(p, '-'))
505  f.out = SBG_FADE_SAME;
506  else if (lex_char(p, '='))
507  f.out = SBG_FADE_ADAPT;
508  else
509  return AVERROR_INVALIDDATA;
510  *fr = f;
511  return 1;
512 }
513 
514 static int parse_time_sequence(struct sbg_parser *p, int inblock)
515 {
516  struct sbg_timestamp ts;
517  int64_t rel_ts;
518  int r;
519  struct sbg_fade fade = { SBG_FADE_SAME, SBG_FADE_SAME, 0 };
520  struct sbg_string name;
521  struct sbg_script_tseq *tseq;
522 
523  r = parse_timestamp(p, &ts, &rel_ts);
524  if (!r)
525  return 0;
526  if (r < 0)
527  return r;
528  if (ts.type) {
529  if (inblock)
530  return AVERROR_INVALIDDATA;
531  p->current_time.type = ts.type;
532  p->current_time.t = ts.t;
533  } else if(!inblock && !p->current_time.type) {
534  snprintf(p->err_msg, sizeof(p->err_msg),
535  "relative time without previous absolute time");
536  return AVERROR_INVALIDDATA;
537  }
538  ts.type = p->current_time.type;
539  ts.t = p->current_time.t + rel_ts;
540  r = parse_fade(p, &fade);
541  if (r < 0)
542  return r;
543  lex_space(p);
544  if (!lex_name(p, &name))
545  return AVERROR_INVALIDDATA;
546  lex_space(p);
547  if (lex_fixed(p, "->", 2)) {
548  fade.slide = SBG_FADE_ADAPT;
549  lex_space(p);
550  }
551  if (!lex_line_end(p))
552  return AVERROR_INVALIDDATA;
553  tseq = inblock ?
554  alloc_array_elem((void **)&p->scs.block_tseq, sizeof(*tseq),
555  &p->nb_block_tseq, &p->nb_block_tseq_max) :
556  alloc_array_elem((void **)&p->scs.tseq, sizeof(*tseq),
557  &p->scs.nb_tseq, &p->nb_tseq_max);
558  if (!tseq)
559  return AVERROR(ENOMEM);
560  tseq->ts = ts;
561  tseq->name = name.s;
562  tseq->name_len = name.e - name.s;
563  tseq->fade = fade;
564  return 1;
565 }
566 
567 static int parse_wave_def(struct sbg_parser *p, int wavenum)
568 {
569  snprintf(p->err_msg, sizeof(p->err_msg),
570  "waveform definitions not yet implemented");
571  return AVERROR_PATCHWELCOME;
572 }
573 
574 static int parse_block_def(struct sbg_parser *p,
575  struct sbg_script_definition *def)
576 {
577  int r, tseq;
578 
579  lex_space(p);
580  if (!lex_line_end(p))
581  return AVERROR_INVALIDDATA;
582  tseq = p->nb_block_tseq;
583  while (1) {
584  r = parse_time_sequence(p, 1);
585  if (r < 0)
586  return r;
587  if (!r)
588  break;
589  }
590  if (!lex_char(p, '}'))
591  return AVERROR_INVALIDDATA;
592  lex_space(p);
593  if (!lex_line_end(p))
594  return AVERROR_INVALIDDATA;
595  def->type = 'B';
596  def->elements = tseq;
597  def->nb_elements = p->nb_block_tseq - tseq;
598  if (!def->nb_elements)
599  return AVERROR_INVALIDDATA;
600  return 1;
601 }
602 
603 static int parse_volume(struct sbg_parser *p, int *vol)
604 {
605  double v;
606 
607  if (!lex_char(p, '/'))
608  return 0;
609  if (!lex_double(p, &v))
610  return AVERROR_INVALIDDATA;
611  if (scale_double(p->log, v, 0.01, vol))
612  return AVERROR(ERANGE);
613  return 1;
614 }
615 
617  struct sbg_script_synth *synth)
618 {
619  double carrierf, beatf;
620  int carrier, beat, vol;
621 
622  if (!lex_double(p, &carrierf))
623  return 0;
624  if (!lex_double(p, &beatf))
625  beatf = 0;
626  FORWARD_ERROR(parse_volume(p, &vol));
627  if (scale_double(p->log, carrierf, 1, &carrier) < 0 ||
628  scale_double(p->log, beatf, 1, &beat) < 0)
629  return AVERROR(EDOM);
630  synth->type = SBG_TYPE_SINE;
631  synth->carrier = carrier;
632  synth->beat = beat;
633  synth->vol = vol;
634  return 1;
635 }
636 
638  struct sbg_script_synth *synth)
639 {
640  int vol;
641 
642  if (!lex_fixed(p, "pink", 4))
643  return 0;
644  FORWARD_ERROR(parse_volume(p, &vol));
645  synth->type = SBG_TYPE_NOISE;
646  synth->vol = vol;
647  return 1;
648 }
649 
651  struct sbg_script_synth *synth)
652 {
653  double carrierf;
654  int carrier, vol;
655 
656  if (!lex_fixed(p, "bell", 4))
657  return 0;
658  if (!lex_double(p, &carrierf))
659  return AVERROR_INVALIDDATA;
660  FORWARD_ERROR(parse_volume(p, &vol));
661  if (scale_double(p->log, carrierf, 1, &carrier) < 0)
662  return AVERROR(EDOM);
663  synth->type = SBG_TYPE_BELL;
664  synth->carrier = carrier;
665  synth->vol = vol;
666  return 1;
667 }
668 
669 static int parse_synth_channel_mix(struct sbg_parser *p,
670  struct sbg_script_synth *synth)
671 {
672  int vol;
673 
674  if (!lex_fixed(p, "mix", 3))
675  return 0;
676  FORWARD_ERROR(parse_volume(p, &vol));
677  synth->type = SBG_TYPE_MIX;
678  synth->vol = vol;
679  return 1;
680 }
681 
683  struct sbg_script_synth *synth)
684 {
685  double carrierf, beatf;
686  int carrier, beat, vol;
687 
688  if (!lex_fixed(p, "spin:", 5))
689  return 0;
690  if (!lex_double(p, &carrierf))
691  return AVERROR_INVALIDDATA;
692  if (!lex_double(p, &beatf))
693  return AVERROR_INVALIDDATA;
694  FORWARD_ERROR(parse_volume(p, &vol));
695  if (scale_double(p->log, carrierf, 1, &carrier) < 0 ||
696  scale_double(p->log, beatf, 1, &beat) < 0)
697  return AVERROR(EDOM);
698  synth->type = SBG_TYPE_SPIN;
699  synth->carrier = carrier;
700  synth->beat = beat;
701  synth->vol = vol;
702  return 1;
703 }
704 
705 static int parse_synth_channel(struct sbg_parser *p)
706 {
707  int r;
708  struct sbg_script_synth *synth;
709 
710  synth = alloc_array_elem((void **)&p->scs.synth, sizeof(*synth),
711  &p->scs.nb_synth, &p->nb_synth_max);
712  if (!synth)
713  return AVERROR(ENOMEM);
714  r = lex_char(p, '-');
715  if (!r)
716  r = parse_synth_channel_pink(p, synth);
717  if (!r)
718  r = parse_synth_channel_bell(p, synth);
719  if (!r)
720  r = parse_synth_channel_mix(p, synth);
721  if (!r)
722  r = parse_synth_channel_spin(p, synth);
723  /* Unimplemented: wave%d:%f%f/vol (carrier, beat) */
724  if (!r)
725  r = parse_synth_channel_sine(p, synth);
726  if (r <= 0)
727  p->scs.nb_synth--;
728  return r;
729 }
730 
731 static int parse_synth_def(struct sbg_parser *p,
732  struct sbg_script_definition *def)
733 {
734  int r, synth;
735 
736  synth = p->scs.nb_synth;
737  while (1) {
738  r = parse_synth_channel(p);
739  if (r < 0)
740  return r;
741  if (!r || !lex_space(p))
742  break;
743  }
744  lex_space(p);
745  if (synth == p->scs.nb_synth)
746  return AVERROR_INVALIDDATA;
747  if (!lex_line_end(p))
748  return AVERROR_INVALIDDATA;
749  def->type = 'S';
750  def->elements = synth;
751  def->nb_elements = p->scs.nb_synth - synth;
752  return 1;
753 }
754 
755 static int parse_named_def(struct sbg_parser *p)
756 {
757  char *cursor_save = p->cursor;
758  struct sbg_string name;
759  struct sbg_script_definition *def;
760 
761  if (!lex_name(p, &name) || !lex_char(p, ':') || !lex_space(p)) {
762  p->cursor = cursor_save;
763  return 0;
764  }
765  if (name.e - name.s == 6 && !memcmp(name.s, "wave", 4) &&
766  name.s[4] >= '0' && name.s[4] <= '9' &&
767  name.s[5] >= '0' && name.s[5] <= '9') {
768  int wavenum = (name.s[4] - '0') * 10 + (name.s[5] - '0');
769  return parse_wave_def(p, wavenum);
770  }
771  def = alloc_array_elem((void **)&p->scs.def, sizeof(*def),
772  &p->scs.nb_def, &p->nb_def_max);
773  if (!def)
774  return AVERROR(ENOMEM);
775  def->name = name.s;
776  def->name_len = name.e - name.s;
777  if (lex_char(p, '{'))
778  return parse_block_def(p, def);
779  return parse_synth_def(p, def);
780 }
781 
782 static void free_script(struct sbg_script *s)
783 {
784  av_freep(&s->def);
785  av_freep(&s->synth);
786  av_freep(&s->tseq);
787  av_freep(&s->block_tseq);
788  av_freep(&s->events);
789  av_freep(&s->opt_mix);
790 }
791 
792 static int parse_script(void *log, char *script, int script_len,
793  struct sbg_script *rscript)
794 {
795  struct sbg_parser sp = {
796  .log = log,
797  .script = script,
798  .end = script + script_len,
799  .cursor = script,
800  .line_no = 1,
801  .err_msg = "",
802  .scs = {
803  /* default values */
804  .start_ts = AV_NOPTS_VALUE,
805  .sample_rate = 44100,
806  .opt_fade_time = 60 * AV_TIME_BASE,
807  },
808  };
809  int r;
810 
811  lex_space(&sp);
812  while (sp.cursor < sp.end) {
813  r = parse_options(&sp);
814  if (r < 0)
815  goto fail;
816  if (!r && !lex_line_end(&sp))
817  break;
818  }
819  while (sp.cursor < sp.end) {
820  r = parse_named_def(&sp);
821  if (!r)
822  r = parse_time_sequence(&sp, 0);
823  if (!r)
824  r = lex_line_end(&sp) ? 1 : AVERROR_INVALIDDATA;
825  if (r < 0)
826  goto fail;
827  }
828  *rscript = sp.scs;
829  return 1;
830 fail:
831  free_script(&sp.scs);
832  if (!*sp.err_msg)
833  if (r == AVERROR_INVALIDDATA)
834  snprintf(sp.err_msg, sizeof(sp.err_msg), "syntax error");
835  if (log && *sp.err_msg) {
836  const char *ctx = sp.cursor;
837  const char *ectx = av_x_if_null(memchr(ctx, '\n', sp.end - sp.cursor),
838  sp.end);
839  int lctx = ectx - ctx;
840  const char *quote = "\"";
841  if (lctx > 0 && ctx[lctx - 1] == '\r')
842  lctx--;
843  if (lctx == 0) {
844  ctx = "the end of line";
845  lctx = strlen(ctx);
846  quote = "";
847  }
848  av_log(log, AV_LOG_ERROR, "Error line %d: %s near %s%.*s%s.\n",
849  sp.line_no, sp.err_msg, quote, lctx, ctx, quote);
850  }
851  return r;
852 }
853 
854 static int read_whole_file(AVIOContext *io, int max_size, char **rbuf)
855 {
856  char *buf = NULL;
857  int size = 0, bufsize = 0, r;
858 
859  while (1) {
860  if (bufsize - size < 1024) {
861  bufsize = FFMIN(FFMAX(2 * bufsize, 8192), max_size);
862  if (bufsize - size < 2) {
863  size = AVERROR(EFBIG);
864  goto fail;
865  }
866  buf = av_realloc_f(buf, bufsize, 1);
867  if (!buf) {
868  size = AVERROR(ENOMEM);
869  goto fail;
870  }
871  }
872  r = avio_read(io, buf, bufsize - size - 1);
873  if (r == AVERROR_EOF)
874  break;
875  if (r < 0)
876  goto fail;
877  size += r;
878  }
879  buf[size] = 0;
880  *rbuf = buf;
881  return size;
882 fail:
883  av_free(buf);
884  return size;
885 }
886 
887 static void expand_timestamps(void *log, struct sbg_script *s)
888 {
889  int i, nb_rel = 0;
890  int64_t now, cur_ts, delta = 0;
891 
892  for (i = 0; i < s->nb_tseq; i++)
893  nb_rel += s->tseq[i].ts.type == 'N';
894  if (nb_rel == s->nb_tseq) {
895  /* All ts are relative to NOW: consider NOW = 0 */
896  now = 0;
897  if (s->start_ts != AV_NOPTS_VALUE)
898  av_log(log, AV_LOG_WARNING,
899  "Start time ignored in a purely relative script.\n");
900  } else if (nb_rel == 0 && s->start_ts != AV_NOPTS_VALUE ||
901  s->opt_start_at_first) {
902  /* All ts are absolute and start time is specified */
903  if (s->start_ts == AV_NOPTS_VALUE)
904  s->start_ts = s->tseq[0].ts.t;
905  now = s->start_ts;
906  } else {
907  /* Mixed relative/absolute ts: expand */
908  time_t now0;
909  struct tm *tm, tmpbuf;
910 
911  av_log(log, AV_LOG_WARNING,
912  "Scripts with mixed absolute and relative timestamps can give "
913  "unexpected results (pause, seeking, time zone change).\n");
914 #undef time
915  time(&now0);
916  tm = localtime_r(&now0, &tmpbuf);
917  now = tm ? tm->tm_hour * 3600 + tm->tm_min * 60 + tm->tm_sec :
918  now0 % DAY;
919  av_log(log, AV_LOG_INFO, "Using %02d:%02d:%02d as NOW.\n",
920  (int)(now / 3600), (int)(now / 60) % 60, (int)now % 60);
921  now *= AV_TIME_BASE;
922  for (i = 0; i < s->nb_tseq; i++) {
923  if (s->tseq[i].ts.type == 'N') {
924  s->tseq[i].ts.t += now;
925  s->tseq[i].ts.type = 'T'; /* not necessary */
926  }
927  }
928  }
929  if (s->start_ts == AV_NOPTS_VALUE)
930  s->start_ts = (s->opt_start_at_first && s->tseq) ? s->tseq[0].ts.t : now;
931  s->end_ts = s->opt_duration ? s->start_ts + s->opt_duration :
932  AV_NOPTS_VALUE; /* may be overridden later by -E option */
933  cur_ts = now;
934  for (i = 0; i < s->nb_tseq; i++) {
935  if (s->tseq[i].ts.t + delta < cur_ts)
936  delta += DAY_TS;
937  cur_ts = s->tseq[i].ts.t += delta;
938  }
939 }
940 
941 static int expand_tseq(void *log, struct sbg_script *s, int *nb_ev_max,
942  int64_t t0, struct sbg_script_tseq *tseq)
943 {
944  int i, r;
945  struct sbg_script_definition *def;
946  struct sbg_script_tseq *be;
947  struct sbg_script_event *ev;
948 
949  if (tseq->lock++) {
950  av_log(log, AV_LOG_ERROR, "Recursion loop on \"%.*s\"\n",
951  tseq->name_len, tseq->name);
952  return AVERROR(EINVAL);
953  }
954  t0 += tseq->ts.t;
955  for (i = 0; i < s->nb_def; i++) {
956  if (s->def[i].name_len == tseq->name_len &&
957  !memcmp(s->def[i].name, tseq->name, tseq->name_len))
958  break;
959  }
960  if (i >= s->nb_def) {
961  av_log(log, AV_LOG_ERROR, "Tone-set \"%.*s\" not defined\n",
962  tseq->name_len, tseq->name);
963  return AVERROR(EINVAL);
964  }
965  def = &s->def[i];
966  if (def->type == 'B') {
967  be = s->block_tseq + def->elements;
968  for (i = 0; i < def->nb_elements; i++) {
969  r = expand_tseq(log, s, nb_ev_max, t0, &be[i]);
970  if (r < 0)
971  return r;
972  }
973  } else {
974  ev = alloc_array_elem((void **)&s->events, sizeof(*ev),
975  &s->nb_events, nb_ev_max);
976  if (!ev)
977  return AVERROR(ENOMEM);
978  ev->ts = tseq->ts.t;
979  ev->elements = def->elements;
980  ev->nb_elements = def->nb_elements;
981  ev->fade = tseq->fade;
982  }
983  tseq->lock--;
984  return 0;
985 }
986 
987 static int expand_script(void *log, struct sbg_script *s)
988 {
989  int i, r, nb_events_max = 0;
990 
991  expand_timestamps(log, s);
992  for (i = 0; i < s->nb_tseq; i++) {
993  r = expand_tseq(log, s, &nb_events_max, 0, &s->tseq[i]);
994  if (r < 0)
995  return r;
996  }
997  if (!s->nb_events) {
998  av_log(log, AV_LOG_ERROR, "No events in script\n");
999  return AVERROR_INVALIDDATA;
1000  }
1001  if (s->opt_end_at_last)
1002  s->end_ts = s->events[s->nb_events - 1].ts;
1003  return 0;
1004 }
1005 
1006 static int add_interval(struct ws_intervals *inter,
1007  enum ws_interval_type type, uint32_t channels, int ref,
1008  int64_t ts1, int32_t f1, int32_t a1,
1009  int64_t ts2, int32_t f2, int32_t a2)
1010 {
1011  struct ws_interval *i, *ri;
1012 
1013  if (ref >= 0) {
1014  ri = &inter->inter[ref];
1015  /* ref and new intervals are constant, identical and adjacent */
1016  if (ri->type == type && ri->channels == channels &&
1017  ri->f1 == ri->f2 && ri->f2 == f1 && f1 == f2 &&
1018  ri->a1 == ri->a2 && ri->a2 == a1 && a1 == a2 &&
1019  ri->ts2 == ts1) {
1020  ri->ts2 = ts2;
1021  return ref;
1022  }
1023  }
1024  i = alloc_array_elem((void **)&inter->inter, sizeof(*i),
1025  &inter->nb_inter, &inter->max_inter);
1026  if (!i)
1027  return AVERROR(ENOMEM);
1028  i->ts1 = ts1;
1029  i->ts2 = ts2;
1030  i->type = type;
1031  i->channels = channels;
1032  i->f1 = f1;
1033  i->f2 = f2;
1034  i->a1 = a1;
1035  i->a2 = a2;
1036  i->phi = ref >= 0 ? ref | 0x80000000 : 0;
1037  return i - inter->inter;
1038 }
1039 
1040 static int add_bell(struct ws_intervals *inter, struct sbg_script *s,
1041  int64_t ts1, int64_t ts2, int32_t f, int32_t a)
1042 {
1043  /* SBaGen uses an exponential decrease every 50ms.
1044  We approximate it with piecewise affine segments. */
1045  int32_t cpoints[][2] = {
1046  { 2, a },
1047  { 4, a - a / 4 },
1048  { 8, a / 2 },
1049  { 16, a / 4 },
1050  { 25, a / 10 },
1051  { 50, a / 80 },
1052  { 75, 0 },
1053  };
1054  int i, r;
1055  int64_t dt = s->sample_rate / 20, ts3 = ts1, ts4;
1056  for (i = 0; i < FF_ARRAY_ELEMS(cpoints); i++) {
1057  ts4 = FFMIN(ts2, ts1 + cpoints[i][0] * dt);
1058  r = add_interval(inter, WS_SINE, 3, -1,
1059  ts3, f, a, ts4, f, cpoints[i][1]);
1060  if (r < 0)
1061  return r;
1062  ts3 = ts4;
1063  a = cpoints[i][1];
1064  }
1065  return 0;
1066 }
1067 
1068 static int generate_interval(void *log, struct sbg_script *s,
1069  struct ws_intervals *inter,
1070  int64_t ts1, int64_t ts2,
1071  struct sbg_script_synth *s1,
1072  struct sbg_script_synth *s2,
1073  int transition)
1074 {
1075  int r;
1076 
1077  if (ts2 <= ts1 || (s1->vol == 0 && s2->vol == 0))
1078  return 0;
1079  switch (s1->type) {
1080  case SBG_TYPE_NONE:
1081  break;
1082  case SBG_TYPE_SINE:
1083  if (s1->beat == 0 && s2->beat == 0) {
1084  r = add_interval(inter, WS_SINE, 3, s1->ref.l,
1085  ts1, s1->carrier, s1->vol,
1086  ts2, s2->carrier, s2->vol);
1087  if (r < 0)
1088  return r;
1089  s2->ref.l = s2->ref.r = r;
1090  } else {
1091  r = add_interval(inter, WS_SINE, 1, s1->ref.l,
1092  ts1, s1->carrier + s1->beat / 2, s1->vol,
1093  ts2, s2->carrier + s2->beat / 2, s2->vol);
1094  if (r < 0)
1095  return r;
1096  s2->ref.l = r;
1097  r = add_interval(inter, WS_SINE, 2, s1->ref.r,
1098  ts1, s1->carrier - s1->beat / 2, s1->vol,
1099  ts2, s2->carrier - s2->beat / 2, s2->vol);
1100  if (r < 0)
1101  return r;
1102  s2->ref.r = r;
1103  }
1104  break;
1105 
1106  case SBG_TYPE_BELL:
1107  if (transition == 2) {
1108  r = add_bell(inter, s, ts1, ts2, s1->carrier, s2->vol);
1109  if (r < 0)
1110  return r;
1111  }
1112  break;
1113 
1114  case SBG_TYPE_SPIN:
1115  av_log(log, AV_LOG_WARNING, "Spinning noise not implemented, "
1116  "using pink noise instead.\n");
1117  /* fall through */
1118  case SBG_TYPE_NOISE:
1119  /* SBaGen's pink noise generator uses:
1120  - 1 band of white noise, mean square: 1/3;
1121  - 9 bands of subsampled white noise with linear
1122  interpolation, mean square: 2/3 each;
1123  with 1/10 weight each: the total mean square is 7/300.
1124  Our pink noise generator uses 8 bands of white noise with
1125  rectangular subsampling: the total mean square is 1/24.
1126  Therefore, to match SBaGen's volume, we must multiply vol by
1127  sqrt((7/300) / (1/24)) = sqrt(14/25) =~ 0.748
1128  */
1129  r = add_interval(inter, WS_NOISE, 3, s1->ref.l,
1130  ts1, 0, s1->vol - s1->vol / 4,
1131  ts2, 0, s2->vol - s2->vol / 4);
1132  if (r < 0)
1133  return r;
1134  s2->ref.l = s2->ref.r = r;
1135  break;
1136 
1137  case SBG_TYPE_MIX:
1138  /* Unimplemented: silence; warning present elsewhere */
1139  default:
1140  av_log(log, AV_LOG_ERROR,
1141  "Type %d is not implemented\n", s1->type);
1142  return AVERROR_PATCHWELCOME;
1143  }
1144  return 0;
1145 }
1146 
1147 static int generate_plateau(void *log, struct sbg_script *s,
1148  struct ws_intervals *inter,
1149  struct sbg_script_event *ev1)
1150 {
1151  int64_t ts1 = ev1->ts_int, ts2 = ev1->ts_trans;
1152  int i, r;
1153  struct sbg_script_synth *s1;
1154 
1155  for (i = 0; i < ev1->nb_elements; i++) {
1156  s1 = &s->synth[ev1->elements + i];
1157  r = generate_interval(log, s, inter, ts1, ts2, s1, s1, 0);
1158  if (r < 0)
1159  return r;
1160  }
1161  return 0;
1162 }
1163 
1164 /*
1165 
1166  ts1 ts2 ts1 tsmid ts2
1167  | | | | |
1168  v v v | v
1169 ____ ____ v ____
1170  ''''.... ''.. ..''
1171  ''''....____ ''....''
1172 
1173  compatible transition incompatible transition
1174  */
1175 
1176 static int generate_transition(void *log, struct sbg_script *s,
1177  struct ws_intervals *inter,
1178  struct sbg_script_event *ev1,
1179  struct sbg_script_event *ev2)
1180 {
1181  int64_t ts1 = ev1->ts_trans, ts2 = ev1->ts_next;
1182  /* (ts1 + ts2) / 2 without overflow */
1183  int64_t tsmid = (ts1 >> 1) + (ts2 >> 1) + (ts1 & ts2 & 1);
1184  enum sbg_fade_type type = ev1->fade.slide | (ev1->fade.out & ev2->fade.in);
1185  int nb_elements = FFMAX(ev1->nb_elements, ev2->nb_elements);
1186  struct sbg_script_synth *s1, *s2, s1mod, s2mod, smid;
1187  int pass, i, r;
1188 
1189  for (pass = 0; pass < 2; pass++) {
1190  /* pass = 0 -> compatible and first half of incompatible
1191  pass = 1 -> second half of incompatible
1192  Using two passes like that ensures that the intervals are generated
1193  in increasing order according to their start timestamp.
1194  Otherwise it would be necessary to sort them
1195  while keeping the mutual references.
1196  */
1197  for (i = 0; i < nb_elements; i++) {
1198  s1 = i < ev1->nb_elements ? &s->synth[ev1->elements + i] : &s1mod;
1199  s2 = i < ev2->nb_elements ? &s->synth[ev2->elements + i] : &s2mod;
1200  s1mod = s1 != &s1mod ? *s1 : (struct sbg_script_synth){ 0 };
1201  s2mod = s2 != &s2mod ? *s2 : (struct sbg_script_synth){ 0 };
1202  if (ev1->fade.slide) {
1203  /* for slides, and only for slides, silence ("-") is equivalent
1204  to anything with volume 0 */
1205  if (s1mod.type == SBG_TYPE_NONE) {
1206  s1mod = s2mod;
1207  s1mod.vol = 0;
1208  } else if (s2mod.type == SBG_TYPE_NONE) {
1209  s2mod = s1mod;
1210  s2mod.vol = 0;
1211  }
1212  }
1213  if (s1mod.type == s2mod.type &&
1214  s1mod.type != SBG_TYPE_BELL &&
1215  (type == SBG_FADE_ADAPT ||
1216  (s1mod.carrier == s2mod.carrier &&
1217  s1mod.beat == s2mod.beat))) {
1218  /* compatible: single transition */
1219  if (!pass) {
1220  r = generate_interval(log, s, inter,
1221  ts1, ts2, &s1mod, &s2mod, 3);
1222  if (r < 0)
1223  return r;
1224  s2->ref = s2mod.ref;
1225  }
1226  } else {
1227  /* incompatible: silence at midpoint */
1228  if (!pass) {
1229  smid = s1mod;
1230  smid.vol = 0;
1231  r = generate_interval(log, s, inter,
1232  ts1, tsmid, &s1mod, &smid, 1);
1233  if (r < 0)
1234  return r;
1235  } else {
1236  smid = s2mod;
1237  smid.vol = 0;
1238  r = generate_interval(log, s, inter,
1239  tsmid, ts2, &smid, &s2mod, 2);
1240  if (r < 0)
1241  return r;
1242  s2->ref = s2mod.ref;
1243  }
1244  }
1245  }
1246  }
1247  return 0;
1248 }
1249 
1250 /*
1251  ev1 trats ev2 intts endts ev3
1252  | | | | | |
1253  v v v v v v
1254  ________________
1255 .... .... ....
1256  '''....________________....''' '''...._______________
1257 
1258 \_________/\______________/\_________/\______________/\_________/\_____________/
1259  tr x->1 int1 tr 1->2 int2 tr 2->3 int3
1260  */
1261 
1262 static int generate_intervals(void *log, struct sbg_script *s, int sample_rate,
1263  struct ws_intervals *inter)
1264 {
1265  int64_t trans_time = s->opt_fade_time / 2;
1266  struct sbg_script_event ev0, *ev1, *ev2;
1267  int64_t period;
1268  int i, r;
1269 
1270  /* SBaGen handles the time before and after the extremal events,
1271  and the corresponding transitions, as if the sequence were cyclic
1272  with a 24-hours period. */
1273  period = s->events[s->nb_events - 1].ts - s->events[0].ts;
1274  period = (period + (DAY_TS - 1)) / DAY_TS * DAY_TS;
1275  period = FFMAX(period, DAY_TS);
1276 
1277  /* Prepare timestamps for transitions */
1278  for (i = 0; i < s->nb_events; i++) {
1279  ev1 = &s->events[i];
1280  ev2 = &s->events[(i + 1) % s->nb_events];
1281  ev1->ts_int = ev1->ts;
1282  ev1->ts_trans = ev1->fade.slide ? ev1->ts
1283  : ev2->ts + (ev1 < ev2 ? 0 : period);
1284  }
1285  for (i = 0; i < s->nb_events; i++) {
1286  ev1 = &s->events[i];
1287  ev2 = &s->events[(i + 1) % s->nb_events];
1288  if (!ev1->fade.slide) {
1289  ev1->ts_trans = FFMAX(ev1->ts_int, ev1->ts_trans - trans_time);
1290  ev2->ts_int = FFMIN(ev2->ts_trans, ev2->ts_int + trans_time);
1291  }
1292  ev1->ts_next = ev2->ts_int + (ev1 < ev2 ? 0 : period);
1293  }
1294 
1295  /* Pseudo event before the first one */
1296  ev0 = s->events[s->nb_events - 1];
1297  ev0.ts_int -= period;
1298  ev0.ts_trans -= period;
1299  ev0.ts_next -= period;
1300 
1301  /* Convert timestamps */
1302  for (i = -1; i < s->nb_events; i++) {
1303  ev1 = i < 0 ? &ev0 : &s->events[i];
1304  ev1->ts_int = av_rescale(ev1->ts_int, sample_rate, AV_TIME_BASE);
1305  ev1->ts_trans = av_rescale(ev1->ts_trans, sample_rate, AV_TIME_BASE);
1306  ev1->ts_next = av_rescale(ev1->ts_next, sample_rate, AV_TIME_BASE);
1307  }
1308 
1309  /* Generate intervals */
1310  for (i = 0; i < s->nb_synth; i++)
1311  s->synth[i].ref.l = s->synth[i].ref.r = -1;
1312  for (i = -1; i < s->nb_events; i++) {
1313  ev1 = i < 0 ? &ev0 : &s->events[i];
1314  ev2 = &s->events[(i + 1) % s->nb_events];
1315  r = generate_plateau(log, s, inter, ev1);
1316  if (r < 0)
1317  return r;
1318  r = generate_transition(log, s, inter, ev1, ev2);
1319  if (r < 0)
1320  return r;
1321  }
1322  if (!inter->nb_inter)
1323  av_log(log, AV_LOG_WARNING, "Completely silent script.\n");
1324  return 0;
1325 }
1326 
1328  struct ws_intervals *inter)
1329 {
1330  int i, edata_size = 4;
1331  uint8_t *edata;
1332 
1333  for (i = 0; i < inter->nb_inter; i++) {
1334  edata_size += inter->inter[i].type == WS_SINE ? 44 :
1335  inter->inter[i].type == WS_NOISE ? 32 : 0;
1336  if (edata_size < 0)
1337  return AVERROR(ENOMEM);
1338  }
1339  if (ff_alloc_extradata(par, edata_size))
1340  return AVERROR(ENOMEM);
1341  edata = par->extradata;
1342 
1343 #define ADD_EDATA32(v) do { AV_WL32(edata, (v)); edata += 4; } while(0)
1344 #define ADD_EDATA64(v) do { AV_WL64(edata, (v)); edata += 8; } while(0)
1345  ADD_EDATA32(inter->nb_inter);
1346  for (i = 0; i < inter->nb_inter; i++) {
1347  ADD_EDATA64(inter->inter[i].ts1);
1348  ADD_EDATA64(inter->inter[i].ts2);
1349  ADD_EDATA32(inter->inter[i].type);
1350  ADD_EDATA32(inter->inter[i].channels);
1351  switch (inter->inter[i].type) {
1352  case WS_SINE:
1353  ADD_EDATA32(inter->inter[i].f1);
1354  ADD_EDATA32(inter->inter[i].f2);
1355  ADD_EDATA32(inter->inter[i].a1);
1356  ADD_EDATA32(inter->inter[i].a2);
1357  ADD_EDATA32(inter->inter[i].phi);
1358  break;
1359  case WS_NOISE:
1360  ADD_EDATA32(inter->inter[i].a1);
1361  ADD_EDATA32(inter->inter[i].a2);
1362  break;
1363  }
1364  }
1365  if (edata != par->extradata + edata_size)
1366  return AVERROR_BUG;
1367  return 0;
1368 }
1369 
1371 {
1372  int r, score;
1373  struct sbg_script script = { 0 };
1374 
1375  r = parse_script(NULL, p->buf, p->buf_size, &script);
1376  score = r < 0 || !script.nb_def || !script.nb_tseq ? 0 :
1377  AVPROBE_SCORE_MAX / 3;
1378  free_script(&script);
1379  return score;
1380 }
1381 
1383 {
1384  struct sbg_demuxer *sbg = avf->priv_data;
1385  int r;
1386  char *buf = NULL;
1387  struct sbg_script script = { 0 };
1388  AVStream *st;
1389  struct ws_intervals inter = { 0 };
1390 
1391  r = read_whole_file(avf->pb, sbg->max_file_size, &buf);
1392  if (r < 0)
1393  goto fail;
1394  r = parse_script(avf, buf, r, &script);
1395  if (r < 0)
1396  goto fail;
1397  if (!sbg->sample_rate)
1398  sbg->sample_rate = script.sample_rate;
1399  else
1400  script.sample_rate = sbg->sample_rate;
1401  if (!sbg->frame_size)
1402  sbg->frame_size = FFMAX(1, sbg->sample_rate / 10);
1403  if (script.opt_mix)
1404  av_log(avf, AV_LOG_WARNING, "Mix feature not implemented: "
1405  "-m is ignored and mix channels will be silent.\n");
1406  r = expand_script(avf, &script);
1407  if (r < 0)
1408  goto fail;
1409  av_freep(&buf);
1410  r = generate_intervals(avf, &script, sbg->sample_rate, &inter);
1411  if (r < 0)
1412  goto fail;
1413 
1414  st = avformat_new_stream(avf, NULL);
1415  if (!st)
1416  return AVERROR(ENOMEM);
1419  st->codecpar->channels = 2;
1421  st->codecpar->sample_rate = sbg->sample_rate;
1422  st->codecpar->frame_size = sbg->frame_size;
1423  avpriv_set_pts_info(st, 64, 1, st->codecpar->sample_rate);
1424  st->probe_packets = 0;
1425  st->start_time = av_rescale(script.start_ts,
1426  sbg->sample_rate, AV_TIME_BASE);
1427  st->duration = script.end_ts == AV_NOPTS_VALUE ? AV_NOPTS_VALUE :
1428  av_rescale(script.end_ts - script.start_ts,
1429  sbg->sample_rate, AV_TIME_BASE);
1430  st->cur_dts = st->start_time;
1431  r = encode_intervals(&script, st->codecpar, &inter);
1432  if (r < 0)
1433  goto fail;
1434 
1435  av_free(inter.inter);
1436  free_script(&script);
1437  return 0;
1438 
1439 fail:
1440  av_free(inter.inter);
1441  free_script(&script);
1442  av_free(buf);
1443  return r;
1444 }
1445 
1446 static int sbg_read_packet(AVFormatContext *avf, AVPacket *packet)
1447 {
1448  int64_t ts, end_ts;
1449 
1450  ts = avf->streams[0]->cur_dts;
1451  end_ts = ts + avf->streams[0]->codecpar->frame_size;
1452  if (avf->streams[0]->duration != AV_NOPTS_VALUE)
1453  end_ts = FFMIN(avf->streams[0]->start_time + avf->streams[0]->duration,
1454  end_ts);
1455  if (end_ts <= ts)
1456  return AVERROR_EOF;
1457  if (av_new_packet(packet, 12) < 0)
1458  return AVERROR(ENOMEM);
1459  packet->dts = packet->pts = ts;
1460  packet->duration = end_ts - ts;
1461  AV_WL64(packet->data + 0, ts);
1462  AV_WL32(packet->data + 8, packet->duration);
1463  return packet->size;
1464 }
1465 
1466 static int sbg_read_seek2(AVFormatContext *avf, int stream_index,
1467  int64_t min_ts, int64_t ts, int64_t max_ts, int flags)
1468 {
1469  if (flags || stream_index > 0)
1470  return AVERROR(EINVAL);
1471  if (stream_index < 0)
1472  ts = av_rescale_q(ts, AV_TIME_BASE_Q, avf->streams[0]->time_base);
1473  avf->streams[0]->cur_dts = ts;
1474  return 0;
1475 }
1476 
1477 static int sbg_read_seek(AVFormatContext *avf, int stream_index,
1478  int64_t ts, int flags)
1479 {
1480  return sbg_read_seek2(avf, stream_index, ts, ts, ts, 0);
1481 }
1482 
1483 static const AVOption sbg_options[] = {
1484  { "sample_rate", "", offsetof(struct sbg_demuxer, sample_rate),
1485  AV_OPT_TYPE_INT, { .i64 = 0 }, 0, INT_MAX,
1487  { "frame_size", "", offsetof(struct sbg_demuxer, frame_size),
1488  AV_OPT_TYPE_INT, { .i64 = 0 }, 0, INT_MAX,
1490  { "max_file_size", "", offsetof(struct sbg_demuxer, max_file_size),
1491  AV_OPT_TYPE_INT, { .i64 = 5000000 }, 0, INT_MAX,
1493  { NULL },
1494 };
1495 
1496 static const AVClass sbg_demuxer_class = {
1497  .class_name = "sbg_demuxer",
1498  .item_name = av_default_item_name,
1499  .option = sbg_options,
1500  .version = LIBAVUTIL_VERSION_INT,
1501 };
1502 
1504  .name = "sbg",
1505  .long_name = NULL_IF_CONFIG_SMALL("SBaGen binaural beats script"),
1506  .priv_data_size = sizeof(struct sbg_demuxer),
1507  .read_probe = sbg_read_probe,
1508  .read_header = sbg_read_header,
1509  .read_packet = sbg_read_packet,
1510  .read_seek = sbg_read_seek,
1511  .read_seek2 = sbg_read_seek2,
1512  .extensions = "sbg",
1513  .priv_class = &sbg_demuxer_class,
1514 };
int64_t ts_trans
Definition: sbgdec.c:101
char * cursor
Definition: sbgdec.c:129
#define NULL
Definition: coverity.c:32
char * opt_mix
Definition: sbgdec.c:120
const char * s
Definition: avisynth_c.h:768
Bytestream IO Context.
Definition: avio.h:155
#define AVERROR_INVALIDDATA
Invalid data found when processing input.
Definition: error.h:59
int sample_rate
Definition: sbgdec.c:121
static int parse_synth_channel_bell(struct sbg_parser *p, struct sbg_script_synth *synth)
Definition: sbgdec.c:650
static av_cold int sbg_read_header(AVFormatContext *avf)
Definition: sbgdec.c:1382
#define av_realloc_f(p, o, n)
AVOption.
Definition: opt.h:246
static int generate_transition(void *log, struct sbg_script *s, struct ws_intervals *inter, struct sbg_script_event *ev1, struct sbg_script_event *ev2)
Definition: sbgdec.c:1176
static av_cold int sbg_read_probe(AVProbeData *p)
Definition: sbgdec.c:1370
#define AV_LOG_WARNING
Something somehow does not look correct.
Definition: log.h:182
#define LIBAVUTIL_VERSION_INT
Definition: version.h:85
int64_t end_ts
Definition: sbgdec.c:117
struct sbg_script_event * events
Definition: sbgdec.c:111
void avpriv_set_pts_info(AVStream *s, int pts_wrap_bits, unsigned int pts_num, unsigned int pts_den)
Set the time base and wrapping info for a given stream.
Definition: utils.c:4601
uint32_t channels
Definition: ffwavesynth.c:87
uint8_t opt_start_at_first
Definition: sbgdec.c:122
int probe_packets
Number of packets to buffer for codec probing.
Definition: avformat.h:1073
static int parse_immediate(struct sbg_parser *p)
Definition: sbgdec.c:322
enum AVCodecID codec_id
Specific type of the encoded data (the codec used).
Definition: avcodec.h:4066
ws_interval_type
Definition: ffwavesynth.c:77
int nb_synth_max
Definition: sbgdec.c:133
int size
Definition: avcodec.h:1658
static int parse_timestamp(struct sbg_parser *p, struct sbg_timestamp *rts, int64_t *rrel)
Definition: sbgdec.c:459
static const AVOption sbg_options[]
Definition: sbgdec.c:1483
static int add_bell(struct ws_intervals *inter, struct sbg_script *s, int64_t ts1, int64_t ts2, int32_t f, int32_t a)
Definition: sbgdec.c:1040
char type
Definition: sbgdec.c:71
#define a1
Definition: regdef.h:47
#define AV_CH_LAYOUT_STEREO
char * script
Definition: sbgdec.c:128
static int expand_tseq(void *log, struct sbg_script *s, int *nb_ev_max, int64_t t0, struct sbg_script_tseq *tseq)
Definition: sbgdec.c:941
This struct describes the properties of an encoded stream.
Definition: avcodec.h:4058
static int parse_volume(struct sbg_parser *p, int *vol)
Definition: sbgdec.c:603
int8_t in
Definition: sbgdec.c:55
#define DAY
Definition: sbgdec.c:33
static void expand_timestamps(void *log, struct sbg_script *s)
Definition: sbgdec.c:887
int frame_size
Audio only.
Definition: avcodec.h:4187
static int parse_synth_channel(struct sbg_parser *p)
Definition: sbgdec.c:705
Format I/O context.
Definition: avformat.h:1349
static int scale_double(void *log, double d, double m, int *r)
Definition: sbgdec.c:209
int64_t cur_dts
Definition: avformat.h:1066
const char * class_name
The name of the class; usually it is the same name as the context structure type to which the AVClass...
Definition: log.h:72
#define SBG_SCALE
Definition: sbgdec.c:32
uint8_t
#define av_cold
Definition: attributes.h:82
#define av_malloc(s)
float delta
AVOptions.
int32_t f1
Definition: sbgdec.c:147
static int sbg_read_seek(AVFormatContext *avf, int stream_index, int64_t ts, int flags)
Definition: sbgdec.c:1477
static av_cold int end(AVCodecContext *avctx)
Definition: avrndec.c:90
int nb_events
Definition: sbgdec.c:114
int64_t ts1
Definition: sbgdec.c:144
int64_t duration
Duration of this packet in AVStream->time_base units, 0 if unknown.
Definition: avcodec.h:1675
AVStream * avformat_new_stream(AVFormatContext *s, const AVCodec *c)
Add a new stream to a media file.
Definition: utils.c:4231
AVStream ** streams
A list of all streams in the file.
Definition: avformat.h:1417
int nb_tseq
Definition: sbgdec.c:113
#define t0
Definition: regdef.h:28
double strtod(const char *, char **)
static int parse_named_def(struct sbg_parser *p)
Definition: sbgdec.c:755
uint8_t * data
Definition: avcodec.h:1657
static int flags
Definition: log.c:57
#define AVERROR_EOF
End of file.
Definition: error.h:55
int64_t opt_duration
Definition: sbgdec.c:119
static int lex_wsword(struct sbg_parser *p, struct sbg_string *rs)
Definition: sbgdec.c:280
ptrdiff_t size
Definition: opengl_enc.c:101
int nb_block_tseq
Definition: sbgdec.c:132
enum ws_interval_type type
Definition: ffwavesynth.c:88
uint64_t channel_layout
Audio only.
Definition: avcodec.h:4168
#define av_log(a,...)
int avio_read(AVIOContext *s, unsigned char *buf, int size)
Read size bytes from AVIOContext into buf.
Definition: aviobuf.c:616
sbg_synth_type
Definition: sbgdec.c:58
int nb_def
Definition: sbgdec.c:112
static void free_script(struct sbg_script *s)
Definition: sbgdec.c:782
struct sbg_timestamp ts
Definition: sbgdec.c:92
static void * av_x_if_null(const void *p, const void *x)
Return x default pointer in case p is NULL.
Definition: avutil.h:308
int64_t av_rescale_q(int64_t a, AVRational bq, AVRational cq)
Rescale a 64-bit integer by 2 rational numbers.
Definition: mathematics.c:142
struct sbg_fade fade
Definition: sbgdec.c:103
int av_new_packet(AVPacket *pkt, int size)
Allocate the payload of a packet and initialize its fields with default values.
Definition: avpacket.c:86
#define AV_WL64(p, v)
Definition: intreadwrite.h:445
int line_no
Definition: sbgdec.c:134
int nb_synth
Definition: sbgdec.c:115
#define AV_LOG_ERROR
Something went wrong and cannot losslessly be recovered.
Definition: log.h:176
#define s2
Definition: regdef.h:39
int frame_size
Definition: sbgdec.c:39
av_default_item_name
#define AVERROR(e)
Definition: error.h:43
struct sbg_script_synth * synth
Definition: sbgdec.c:108
static void fade(uint8_t *dst, ptrdiff_t dst_linesize, const uint8_t *src, ptrdiff_t src_linesize, int width, int height, int alpha, int beta)
Definition: vp8.c:438
#define NULL_IF_CONFIG_SMALL(x)
Return NULL if CONFIG_SMALL is true, otherwise the argument without modification. ...
Definition: internal.h:179
const char * r
Definition: vf_curves.c:111
struct ws_interval * inter
Definition: sbgdec.c:153
enum AVMediaType codec_type
General type of the encoded data.
Definition: avcodec.h:4062
static int lex_double(struct sbg_parser *p, double *r)
Definition: sbgdec.c:238
int nb_block_tseq_max
Definition: sbgdec.c:133
int max_inter
Definition: sbgdec.c:155
int32_t a1
Definition: sbgdec.c:148
int64_t start_ts
Definition: sbgdec.c:116
#define FFMAX(a, b)
Definition: common.h:94
#define fail()
Definition: checkasm.h:89
static int parse_synth_channel_pink(struct sbg_parser *p, struct sbg_script_synth *synth)
Definition: sbgdec.c:637
#define pass
Definition: fft_template.c:532
int64_t ts
Definition: sbgdec.c:100
int buf_size
Size of buf except extra allocated bytes.
Definition: avformat.h:464
unsigned char * buf
Buffer must have AVPROBE_PADDING_SIZE of extra allocated bytes filled with zero.
Definition: avformat.h:463
int64_t opt_fade_time
Definition: sbgdec.c:118
static int read_whole_file(AVIOContext *io, int max_size, char **rbuf)
Definition: sbgdec.c:854
int ff_alloc_extradata(AVCodecParameters *par, int size)
Allocate extradata with additional AV_INPUT_BUFFER_PADDING_SIZE at end which is always set to 0...
Definition: utils.c:3213
uint64_t phi
Definition: ffwavesynth.c:86
int64_t av_rescale(int64_t a, int64_t b, int64_t c)
Rescale a 64-bit integer with rounding to nearest.
Definition: mathematics.c:129
struct sbg_script_definition * def
Definition: sbgdec.c:107
#define AV_TIME_BASE
Internal time base represented as integer.
Definition: avutil.h:254
#define FFMIN(a, b)
Definition: common.h:96
static int parse_block_def(struct sbg_parser *p, struct sbg_script_definition *def)
Definition: sbgdec.c:574
static struct tm * localtime_r(const time_t *clock, struct tm *result)
Definition: time_internal.h:37
static int parse_synth_channel_mix(struct sbg_parser *p, struct sbg_script_synth *synth)
Definition: sbgdec.c:669
struct sbg_fade fade
Definition: sbgdec.c:96
int32_t
AVFormatContext * ctx
Definition: movenc.c:48
#define a2
Definition: regdef.h:48
static void * alloc_array_elem(void **array, size_t elsize, int *size, int *max_size)
Definition: sbgdec.c:158
enum sbg_synth_type type
Definition: sbgdec.c:85
struct sbg_timestamp current_time
Definition: sbgdec.c:131
#define DAY_TS
Definition: sbgdec.c:34
char * end
Definition: sbgdec.c:128
#define FF_ARRAY_ELEMS(a)
static int encode_intervals(struct sbg_script *s, AVCodecParameters *par, struct ws_intervals *inter)
Definition: sbgdec.c:1327
static int generate_intervals(void *log, struct sbg_script *s, int sample_rate, struct ws_intervals *inter)
Definition: sbgdec.c:1262
Stream structure.
Definition: avformat.h:889
#define AVERROR_PATCHWELCOME
Not yet implemented in FFmpeg, patches welcome.
Definition: error.h:62
static int sbg_read_packet(AVFormatContext *avf, AVPacket *packet)
Definition: sbgdec.c:1446
static int parse_synth_def(struct sbg_parser *p, struct sbg_script_definition *def)
Definition: sbgdec.c:731
static int parse_wave_def(struct sbg_parser *p, int wavenum)
Definition: sbgdec.c:567
struct sbg_script_tseq * tseq
Definition: sbgdec.c:109
sample_rate
#define AV_LOG_INFO
Standard information.
Definition: log.h:187
int frame_size
Definition: mxfenc.c:1820
#define AV_TIME_BASE_Q
Internal time base represented as fractional value.
Definition: avutil.h:260
AVIOContext * pb
I/O context.
Definition: avformat.h:1391
static int is_space(char c)
Definition: sbgdec.c:204
int nb_tseq_max
Definition: sbgdec.c:133
char * s
Definition: sbgdec.c:44
static int lex_char(struct sbg_parser *p, char c)
Definition: sbgdec.c:230
struct sbg_script_tseq * block_tseq
Definition: sbgdec.c:110
static int lex_space(struct sbg_parser *p)
Definition: sbgdec.c:221
int max_file_size
Definition: sbgdec.c:40
static int add_interval(struct ws_intervals *inter, enum ws_interval_type type, uint32_t channels, int ref, int64_t ts1, int32_t f1, int32_t a1, int64_t ts2, int32_t f2, int32_t a2)
Definition: sbgdec.c:1006
void * buf
Definition: avisynth_c.h:690
GLint GLenum type
Definition: opengl_enc.c:105
int64_t ts_next
Definition: sbgdec.c:101
#define AVERROR_BUG
Internal bug, also see AVERROR_BUG2.
Definition: error.h:50
Describe the class of an AVClass context structure.
Definition: log.h:67
#define AV_OPT_FLAG_DECODING_PARAM
a generic parameter which can be set by the user for demuxing or decoding
Definition: opt.h:277
#define FORWARD_ERROR(c)
Definition: sbgdec.c:315
int sample_rate
Definition: sbgdec.c:38
#define s1
Definition: regdef.h:38
#define snprintf
Definition: snprintf.h:34
int8_t out
Definition: sbgdec.c:55
int64_t t
Definition: sbgdec.c:70
This structure contains the data a format has to probe a file.
Definition: avformat.h:461
int nb_def_max
Definition: sbgdec.c:133
static const AVClass sbg_demuxer_class
Definition: sbgdec.c:1496
static int parse_fade(struct sbg_parser *p, struct sbg_fade *fr)
Definition: sbgdec.c:490
char err_msg[128]
Definition: sbgdec.c:135
static int parse_preprogrammed(struct sbg_parser *p)
Definition: sbgdec.c:329
static int generate_plateau(void *log, struct sbg_script *s, struct ws_intervals *inter, struct sbg_script_event *ev1)
Definition: sbgdec.c:1147
uint32_t phi
Definition: sbgdec.c:149
int64_t duration
Decoding: duration of the stream, in stream time base.
Definition: avformat.h:946
int sample_rate
Audio only.
Definition: avcodec.h:4176
static int parse_synth_channel_sine(struct sbg_parser *p, struct sbg_script_synth *synth)
Definition: sbgdec.c:616
#define ADD_EDATA32(v)
struct sbg_script scs
Definition: sbgdec.c:130
#define AVPROBE_SCORE_MAX
maximum score
Definition: avformat.h:473
static int parse_synth_channel_spin(struct sbg_parser *p, struct sbg_script_synth *synth)
Definition: sbgdec.c:682
int name_len
Definition: sbgdec.c:94
static int parse_time_sequence(struct sbg_parser *p, int inblock)
Definition: sbgdec.c:514
Main libavformat public API header.
static int sbg_read_seek2(AVFormatContext *avf, int stream_index, int64_t min_ts, int64_t ts, int64_t max_ts, int flags)
Definition: sbgdec.c:1466
static int str_to_time(const char *str, int64_t *rtime)
Definition: sbgdec.c:178
static int lex_line_end(struct sbg_parser *p)
Definition: sbgdec.c:262
if(ret< 0)
Definition: vf_mcdeint.c:282
static int ref[MAX_W *MAX_W]
Definition: jpeg2000dwt.c:107
int nb_inter
Definition: sbgdec.c:154
int64_t start_time
Decoding: pts of the first frame of the stream in presentation order, in stream time base...
Definition: avformat.h:936
static double c[64]
static int expand_script(void *log, struct sbg_script *s)
Definition: sbgdec.c:987
sbg_fade_type
Definition: sbgdec.c:48
static int generate_interval(void *log, struct sbg_script *s, struct ws_intervals *inter, int64_t ts1, int64_t ts2, struct sbg_script_synth *s1, struct sbg_script_synth *s2, int transition)
Definition: sbgdec.c:1068
void * log
Definition: sbgdec.c:127
static int parse_script(void *log, char *script, int script_len, struct sbg_script *rscript)
Definition: sbgdec.c:792
#define ADD_EDATA64(v)
AVInputFormat ff_sbg_demuxer
Definition: sbgdec.c:1503
int32_t f2
Definition: sbgdec.c:147
int64_t ts_int
Definition: sbgdec.c:101
#define av_free(p)
uint8_t opt_end_at_last
Definition: sbgdec.c:123
void * priv_data
Format private data.
Definition: avformat.h:1377
static int parse_options(struct sbg_parser *p)
Definition: sbgdec.c:346
uint8_t * extradata
Extra binary data needed for initializing the decoder, codec-dependent.
Definition: avcodec.h:4080
int channels
Audio only.
Definition: avcodec.h:4172
struct sbg_script_synth::@226 ref
int64_t dts
Decompression timestamp in AVStream->time_base units; the time at which the packet is decompressed...
Definition: avcodec.h:1656
int32_t a2
Definition: sbgdec.c:148
#define av_freep(p)
const char * name
A comma separated list of short names for the format.
Definition: avformat.h:664
static int lex_name(struct sbg_parser *p, struct sbg_string *rs)
Definition: sbgdec.c:294
static int array[MAX_W *MAX_W]
Definition: jpeg2000dwt.c:106
static int parse_optarg(struct sbg_parser *p, char o, struct sbg_string *r)
Definition: sbgdec.c:336
AVCodecParameters * codecpar
Definition: avformat.h:1252
static int lex_fixed(struct sbg_parser *p, const char *t, int l)
Definition: sbgdec.c:254
AVRational time_base
This is the fundamental unit of time (in seconds) in terms of which frame timestamps are represented...
Definition: avformat.h:926
int64_t ts2
Definition: sbgdec.c:144
#define MKTAG(a, b, c, d)
Definition: common.h:342
This structure stores compressed data.
Definition: avcodec.h:1634
char * name
Definition: sbgdec.c:93
mode
Use these values in ebur128_init (or'ed).
Definition: ebur128.h:83
int64_t pts
Presentation timestamp in AVStream->time_base units; the time at which the decompressed packet will b...
Definition: avcodec.h:1650
for(j=16;j >0;--j)
#define AV_NOPTS_VALUE
Undefined timestamp value.
Definition: avutil.h:248
static int lex_time(struct sbg_parser *p, int64_t *rt)
Definition: sbgdec.c:308
int8_t slide
Definition: sbgdec.c:55
#define AV_WL32(p, v)
Definition: intreadwrite.h:431
char * e
Definition: sbgdec.c:45