3 Copyright (C) 1999-2002 Paul Davis
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU General Public License as published by
7 the Free Software Foundation; either version 2 of the License, or
8 (at your option) any later version.
10 This program is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 GNU General Public License for more details.
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
22 #include "libardour-config.h"
29 #include "ardour/timestamps.h"
31 #include "pbd/error.h"
32 #include "pbd/enumwriter.h"
33 #include "pbd/stacktrace.h"
35 #include "ardour/ardour.h"
36 #include "ardour/configuration.h"
37 #include "ardour/audioengine.h"
38 #include "ardour/session.h"
39 #include "ardour/tempo.h"
44 using namespace ARDOUR
;
50 Session::bbt_time (nframes_t when
, BBT_Time
& bbt
)
52 _tempo_map
->bbt_time (when
, bbt
);
57 Session::timecode_frames_per_second() const
59 switch (config
.get_timecode_format()) {
80 case timecode_2997drop
:
101 cerr
<< "Editor received unexpected timecode type" << endl
;
106 Session::timecode_drop_frames() const
108 switch (config
.get_timecode_format()) {
129 case timecode_2997drop
:
137 case timecode_30drop
:
150 error
<< "Editor received unexpected timecode type" << endmsg
;
156 Session::sync_time_vars ()
158 _current_frame_rate
= (nframes_t
) round (_base_frame_rate
* (1.0 + (config
.get_video_pullup()/100.0)));
159 _frames_per_timecode_frame
= (double) _current_frame_rate
/ (double) timecode_frames_per_second();
160 if (timecode_drop_frames()) {
161 _frames_per_hour
= (int32_t)(107892 * _frames_per_timecode_frame
);
163 _frames_per_hour
= (int32_t)(3600 * rint(timecode_frames_per_second()) * _frames_per_timecode_frame
);
165 _timecode_frames_per_hour
= (nframes_t
)rint(timecode_frames_per_second() * 3600.0);
167 last_timecode_valid
= false;
168 // timecode type bits are the middle two in the upper nibble
169 switch ((int) ceil (timecode_frames_per_second())) {
171 mtc_timecode_bits
= 0;
175 mtc_timecode_bits
= 0x20;
180 if (timecode_drop_frames()) {
181 mtc_timecode_bits
= 0x40;
183 mtc_timecode_bits
= 0x60;
190 Session::set_timecode_offset (nframes_t off
)
192 _timecode_offset
= off
;
193 last_timecode_valid
= false;
195 TimecodeOffsetChanged (); /* EMIT SIGNAL */
199 Session::set_timecode_offset_negative (bool neg
)
201 _timecode_offset_negative
= neg
;
202 last_timecode_valid
= false;
204 TimecodeOffsetChanged (); /* EMIT SIGNAL */
208 Session::timecode_to_sample( Timecode::Time
& timecode
, nframes_t
& sample
, bool use_offset
, bool use_subframes
) const
212 // The drop frame format was created to better approximate the 30000/1001 = 29.97002997002997....
213 // framerate of NTSC color TV. The used frame rate of drop frame is 29.97, which drifts by about
214 // 0.108 frame per hour, or about 1.3 frames per 12 hours. This is not perfect, but a lot better
215 // than using 30 non drop, which will drift with about 1.8 frame per minute.
216 // Using 29.97, drop frame real time can be accurate only every 10th minute (10 minutes of 29.97 fps
217 // is exactly 17982 frames). One minute is 1798.2 frames, but we count 30 frames per second
218 // (30 * 60 = 1800). This means that at the first minute boundary (at the end of 0:0:59:29) we
219 // are 1.8 frames too late relative to real time. By dropping 2 frames (jumping to 0:1:0:2) we are
220 // approx. 0.2 frames too early. This adds up with 0.2 too early for each minute until we are 1.8
221 // frames too early at 0:9:0:2 (9 * 0.2 = 1.8). The 10th minute brings us 1.8 frames later again
222 // (at end of 0:9:59:29), which sums up to 0 (we are back to zero at 0:10:0:0 :-).
226 // Timecode value frames offset subframes offset seconds (rounded) 44100 sample (rounded)
227 // 0:00:00:00 0.0 0 0.000 0 (accurate)
228 // 0:00:59:29 1.8 144 60.027 2647177
229 // 0:01:00:02 -0.2 -16 60.060 2648648
230 // 0:01:59:29 1.6 128 120.020 5292883
231 // 0:02:00:02 -0.4 -32 120.053 5294354
232 // 0:02:59:29 1.4 112 180.013 7938588
233 // 0:03:00:02 -0.6 -48 180.047 7940060
234 // 0:03:59:29 1.2 96 240.007 10584294
235 // 0:04:00:02 -0.8 -64 240.040 10585766
236 // 0:04:59:29 1.0 80 300.000 13230000
237 // 0:05:00:02 -1.0 -80 300.033 13231471
238 // 0:05:59:29 0.8 64 359.993 15875706
239 // 0:06:00:02 -1.2 -96 360.027 15877177
240 // 0:06:59:29 0.6 48 419.987 18521411
241 // 0:07:00:02 -1.4 -112 420.020 18522883
242 // 0:07:59:29 0.4 32 478.980 21167117
243 // 0:08:00:02 -1.6 -128 480.013 21168589
244 // 0:08:59:29 0.2 16 539.973 23812823
245 // 0:09:00:02 -1.8 -144 540.007 23814294
246 // 0:09:59:29 0.0+ 0+ 599.967 26458529
247 // 0:10:00:00 0.0 0 600.000 26460000 (accurate)
249 // Per Sigmond <per@sigmond.no>
251 // Samples inside time dividable by 10 minutes (real time accurate)
252 nframes_t base_samples
= (nframes_t
) (((timecode
.hours
* 107892) + ((timecode
.minutes
/ 10) * 17982)) * _frames_per_timecode_frame
);
254 // Samples inside time exceeding the nearest 10 minutes (always offset, see above)
255 int32_t exceeding_df_minutes
= timecode
.minutes
% 10;
256 int32_t exceeding_df_seconds
= (exceeding_df_minutes
* 60) + timecode
.seconds
;
257 int32_t exceeding_df_frames
= (30 * exceeding_df_seconds
) + timecode
.frames
- (2 * exceeding_df_minutes
);
258 nframes_t exceeding_samples
= (nframes_t
) rint(exceeding_df_frames
* _frames_per_timecode_frame
);
259 sample
= base_samples
+ exceeding_samples
;
262 Non drop is easy.. just note the use of
263 rint(timecode.rate) * _frames_per_timecode_frame
264 (frames per Timecode second), which is larger than
265 frame_rate() in the non-integer Timecode rate case.
268 sample
= (nframes_t
)rint((((timecode
.hours
* 60 * 60) + (timecode
.minutes
* 60) + timecode
.seconds
) * (rint(timecode
.rate
) * _frames_per_timecode_frame
)) + (timecode
.frames
* _frames_per_timecode_frame
));
272 sample
+= (int32_t) (((double)timecode
.subframes
* _frames_per_timecode_frame
) / config
.get_subframes_per_frame());
276 if (timecode_offset_negative()) {
277 if (sample
>= timecode_offset()) {
278 sample
-= timecode_offset();
280 /* Prevent song-time from becoming negative */
284 if (timecode
.negative
) {
285 if (sample
<= timecode_offset()) {
286 sample
= timecode_offset() - sample
;
291 sample
+= timecode_offset();
300 Session::sample_to_timecode( nframes_t sample
, Timecode::Time
& timecode
, bool use_offset
, bool use_subframes
) const
302 nframes_t offset_sample
;
305 offset_sample
= sample
;
306 timecode
.negative
= false;
308 if (_timecode_offset_negative
) {
309 offset_sample
= sample
+ _timecode_offset
;
310 timecode
.negative
= false;
312 if (sample
< _timecode_offset
) {
313 offset_sample
= (_timecode_offset
- sample
);
314 timecode
.negative
= true;
316 offset_sample
= sample
- _timecode_offset
;
317 timecode
.negative
= false;
322 double timecode_frames_left_exact
;
323 double timecode_frames_fraction
;
324 uint32_t timecode_frames_left
;
326 // Extract whole hours. Do this to prevent rounding errors with
327 // high sample numbers in the calculations that follow.
328 timecode
.hours
= offset_sample
/ _frames_per_hour
;
329 offset_sample
= offset_sample
% _frames_per_hour
;
331 // Calculate exact number of (exceeding) timecode frames and fractional frames
332 timecode_frames_left_exact
= (double) offset_sample
/ _frames_per_timecode_frame
;
333 timecode_frames_fraction
= timecode_frames_left_exact
- floor( timecode_frames_left_exact
);
334 timecode
.subframes
= (int32_t) rint(timecode_frames_fraction
* config
.get_subframes_per_frame());
336 // XXX Not sure if this is necessary anymore...
337 if (timecode
.subframes
== config
.get_subframes_per_frame()) {
338 // This can happen with 24 fps (and 29.97 fps ?)
339 timecode_frames_left_exact
= ceil( timecode_frames_left_exact
);
340 timecode
.subframes
= 0;
343 // Extract hour-exceeding frames for minute, second and frame calculations
344 timecode_frames_left
= (uint32_t) floor (timecode_frames_left_exact
);
346 if (timecode_drop_frames()) {
347 // See int32_t explanation in timecode_to_sample()...
349 // Number of 10 minute chunks
350 timecode
.minutes
= (timecode_frames_left
/ 17982) * 10; // exactly 17982 frames in 10 minutes
351 // frames exceeding the nearest 10 minute barrier
352 int32_t exceeding_df_frames
= timecode_frames_left
% 17982;
354 // Find minutes exceeding the nearest 10 minute barrier
355 if (exceeding_df_frames
>= 1800) { // nothing to do if we are inside the first minute (0-1799)
356 exceeding_df_frames
-= 1800; // take away first minute (different number of frames than the others)
357 int32_t extra_minutes_minus_1
= exceeding_df_frames
/ 1798; // how many minutes after the first one
358 exceeding_df_frames
-= extra_minutes_minus_1
* 1798; // take away the (extra) minutes just found
359 timecode
.minutes
+= extra_minutes_minus_1
+ 1; // update with exceeding minutes
362 // Adjust frame numbering for dropped frames (frame 0 and 1 skipped at start of every minute except every 10th)
363 if (timecode
.minutes
% 10) {
364 // Every minute except every 10th
365 if (exceeding_df_frames
< 28) {
366 // First second, frames 0 and 1 are skipped
367 timecode
.seconds
= 0;
368 timecode
.frames
= exceeding_df_frames
+ 2;
370 // All other seconds, all 30 frames are counted
371 exceeding_df_frames
-= 28;
372 timecode
.seconds
= (exceeding_df_frames
/ 30) + 1;
373 timecode
.frames
= exceeding_df_frames
% 30;
376 // Every 10th minute, all 30 frames counted in all seconds
377 timecode
.seconds
= exceeding_df_frames
/ 30;
378 timecode
.frames
= exceeding_df_frames
% 30;
382 timecode
.minutes
= timecode_frames_left
/ ((int32_t) rint (timecode_frames_per_second ()) * 60);
383 timecode_frames_left
= timecode_frames_left
% ((int32_t) rint (timecode_frames_per_second ()) * 60);
384 timecode
.seconds
= timecode_frames_left
/ (int32_t) rint(timecode_frames_per_second ());
385 timecode
.frames
= timecode_frames_left
% (int32_t) rint(timecode_frames_per_second ());
388 if (!use_subframes
) {
389 timecode
.subframes
= 0;
391 /* set frame rate and drop frame */
392 timecode
.rate
= timecode_frames_per_second ();
393 timecode
.drop
= timecode_drop_frames();
397 Session::timecode_time (nframes_t when
, Timecode::Time
& timecode
)
399 if (last_timecode_valid
&& when
== last_timecode_when
) {
400 timecode
= last_timecode
;
404 sample_to_timecode( when
, timecode
, true /* use_offset */, false /* use_subframes */ );
406 last_timecode_when
= when
;
407 last_timecode
= timecode
;
408 last_timecode_valid
= true;
412 Session::timecode_time_subframes (nframes_t when
, Timecode::Time
& timecode
)
414 if (last_timecode_valid
&& when
== last_timecode_when
) {
415 timecode
= last_timecode
;
419 sample_to_timecode( when
, timecode
, true /* use_offset */, true /* use_subframes */ );
421 last_timecode_when
= when
;
422 last_timecode
= timecode
;
423 last_timecode_valid
= true;
427 Session::timecode_duration (nframes_t when
, Timecode::Time
& timecode
) const
429 sample_to_timecode( when
, timecode
, false /* use_offset */, true /* use_subframes */ );
433 Session::timecode_duration_string (char* buf
, nframes_t when
) const
435 Timecode::Time timecode
;
437 timecode_duration (when
, timecode
);
438 snprintf (buf
, sizeof (buf
), "%02" PRIu32
":%02" PRIu32
":%02" PRIu32
":%02" PRIu32
, timecode
.hours
, timecode
.minutes
, timecode
.seconds
, timecode
.frames
);
442 Session::timecode_time (Timecode::Time
&t
)
445 timecode_time (_transport_frame
, t
);
449 Session::jack_sync_callback (jack_transport_state_t state
,
450 jack_position_t
* pos
)
452 bool slave
= synced_to_jack();
455 case JackTransportStopped
:
456 if (slave
&& _transport_frame
!= pos
->frame
&& post_transport_work() == 0) {
457 request_locate (pos
->frame
, false);
458 // cerr << "SYNC: stopped, locate to " << pos->frame << " from " << _transport_frame << endl;
464 case JackTransportStarting
:
465 // cerr << "SYNC: starting @ " << pos->frame << " a@ " << _transport_frame << " our work = " << post_transport_work() << " pos matches ? " << (_transport_frame == pos->frame) << endl;
467 return _transport_frame
== pos
->frame
&& post_transport_work() == 0;
473 case JackTransportRolling
:
474 // cerr << "SYNC: rolling slave = " << slave << endl;
481 error
<< string_compose (_("Unknown JACK transport state %1 in sync callback"), state
)
489 Session::jack_timebase_callback (jack_transport_state_t
/*state*/,
490 nframes_t
/*nframes*/,
491 jack_position_t
* pos
,
492 int /*new_position*/)
498 pos
->frame
= _transport_frame
;
499 pos
->valid
= JackPositionTimecode
;
505 TempoMetric
metric (_tempo_map
->metric_at (_transport_frame
));
506 _tempo_map
->bbt_time_with_metric (_transport_frame
, bbt
, metric
);
509 pos
->beat
= bbt
.beats
;
510 pos
->tick
= bbt
.ticks
;
512 // XXX still need to set bar_start_tick
514 pos
->beats_per_bar
= metric
.meter().beats_per_bar();
515 pos
->beat_type
= metric
.meter().note_divisor();
516 pos
->ticks_per_beat
= Meter::ticks_per_beat
;
517 pos
->beats_per_minute
= metric
.tempo().beats_per_minute();
519 pos
->valid
= jack_position_bits_t (pos
->valid
| JackPositionBBT
);
522 #ifdef HAVE_JACK_VIDEO_SUPPORT
523 //poke audio video ratio so Ardour can track Video Sync
524 pos
->audio_frames_per_video_frame
= frame_rate() / timecode_frames_per_second();
525 pos
->valid
= jack_position_bits_t (pos
->valid
| JackAudioVideoRatio
);
531 t
.timecode_offset
= _timecode_offset
;
532 t
.timecode_frame_rate
= timecode_frames_per_second();
534 if (_transport_speed
) {
538 Location
* location
= _locations
.auto_loop_location();
542 t
.transport_state
= JackTransportLooping
;
543 t
.loop_start
= location
->start();
544 t
.loop_end
= location
->end();
545 t
.valid
= jack_transport_bits_t (t
.valid
| JackTransportLoop
);
551 t
.transport_state
= JackTransportRolling
;
559 t
.transport_state
= JackTransportRolling
;
569 Session::convert_to_frames_at (nframes_t
/*position*/, AnyTime
const & any
)
575 return _tempo_map
->frame_time ( any
.bbt
);
578 case AnyTime::Timecode
:
579 /* XXX need to handle negative values */
580 secs
= any
.timecode
.hours
* 60 * 60;
581 secs
+= any
.timecode
.minutes
* 60;
582 secs
+= any
.timecode
.seconds
;
583 secs
+= any
.timecode
.frames
/ timecode_frames_per_second();
584 if (_timecode_offset_negative
)
586 return (nframes_t
) floor (secs
* frame_rate()) - _timecode_offset
;
590 return (nframes_t
) floor (secs
* frame_rate()) + _timecode_offset
;
594 case AnyTime::Seconds
:
595 return (nframes_t
) floor (any
.seconds
* frame_rate());
598 case AnyTime::Frames
: