2 Copyright (C) 2012 Paul Davis
3 Written by Robin Gareus <robin@gareus.org>
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.
21 #include "timecode/time.h"
23 #include "ardour/audioengine.h"
24 #include "ardour/audio_port.h"
25 #include "ardour/debug.h"
26 #include "ardour/io.h"
27 #include "ardour/session.h"
28 #include "ardour/slave.h"
33 using namespace ARDOUR;
35 using namespace Timecode;
37 /* really verbose timing debug */
38 //#define LTC_GEN_FRAMEDBUG
39 //#define LTC_GEN_TXDBUG
42 #define MAX(a,b) ( (a) > (b) ? (a) : (b) )
45 #define MIN(a,b) ( (a) < (b) ? (a) : (b) )
48 /* LTC signal should have a rise time of 25 us +/- 5 us.
49 * yet with most sound-cards a square-wave of 1-2 sample
50 * introduces ringing and small oscillations.
51 * https://en.wikipedia.org/wiki/Gibbs_phenomenon
52 * A low-pass filter in libltc can reduce this at
53 * the cost of being slightly out of spec WRT to rise-time.
55 * This filter is adaptive so that fast vari-speed signals
56 * will not be affected by it.
58 #define LTC_RISE_TIME(speed) MIN (100, MAX(40, (4000000 / ((speed==0)?1:speed) / engine().sample_rate())))
60 #define TV_STANDARD(tcf) \
61 (timecode_to_frames_per_second(tcf)==25.0 ? LTC_TV_625_50 : \
62 timecode_has_drop_frames(tcf)? LTC_TV_525_60 : LTC_TV_FILM_24)
65 Session::ltc_tx_initialize()
67 ltc_enc_tcformat = config.get_timecode_format();
69 ltc_tx_parse_offset();
70 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX init sr: %1 fps: %2\n", nominal_frame_rate(), timecode_to_frames_per_second(ltc_enc_tcformat)));
71 ltc_encoder = ltc_encoder_create(nominal_frame_rate(),
72 timecode_to_frames_per_second(ltc_enc_tcformat),
73 TV_STANDARD(ltc_enc_tcformat), 0);
75 ltc_encoder_set_bufsize(ltc_encoder, nominal_frame_rate(), 23.0);
76 ltc_encoder_set_filter(ltc_encoder, LTC_RISE_TIME(1.0));
78 /* buffersize for 1 LTC frame: (1 + sample-rate / fps) bytes
79 * usually returned by ltc_encoder_get_buffersize(encoder)
81 * since the fps can change and A3's min fps: 24000/1001 */
82 ltc_enc_buf = (ltcsnd_sample_t*) calloc((nominal_frame_rate() / 23), sizeof(ltcsnd_sample_t));
86 ltc_tx_resync_latency();
87 Xrun.connect_same_thread (*this, boost::bind (&Session::ltc_tx_reset, this));
88 engine().GraphReordered.connect_same_thread (*this, boost::bind (&Session::ltc_tx_resync_latency, this));
93 Session::ltc_tx_cleanup()
95 DEBUG_TRACE (DEBUG::LTC, "LTC TX cleanup\n");
98 ltc_encoder_free(ltc_encoder);
103 Session::ltc_tx_resync_latency()
105 DEBUG_TRACE (DEBUG::LTC, "LTC TX resync latency\n");
106 if (!deletion_in_progress()) {
107 boost::shared_ptr<Port> ltcport = ltc_output_port();
109 ltcport->get_connected_latency_range(ltc_out_latency, true);
115 Session::ltc_tx_reset()
117 DEBUG_TRACE (DEBUG::LTC, "LTC TX reset\n");
118 ltc_enc_pos = -9999; // force re-start
124 ltc_encoder_reset(ltc_encoder);
128 Session::ltc_tx_parse_offset() {
129 Timecode::Time offset_tc;
130 Timecode::parse_timecode_format(config.get_timecode_generator_offset(), offset_tc);
131 offset_tc.rate = timecode_frames_per_second();
132 offset_tc.drop = timecode_drop_frames();
133 timecode_to_sample(offset_tc, ltc_timecode_offset, false, false);
134 ltc_timecode_negative_offset = !offset_tc.negative;
139 Session::ltc_tx_recalculate_position()
143 ltc_encoder_get_timecode(ltc_encoder, &enctc);
145 a3tc.hours = enctc.hours;
146 a3tc.minutes = enctc.mins;
147 a3tc.seconds = enctc.secs;
148 a3tc.frames = enctc.frame;
149 a3tc.rate = timecode_to_frames_per_second(ltc_enc_tcformat);
150 a3tc.drop = timecode_has_drop_frames(ltc_enc_tcformat);
152 Timecode::timecode_to_sample (a3tc, ltc_enc_pos, true, false,
153 (double)frame_rate(),
154 config.get_subframes_per_frame(),
155 ltc_timecode_negative_offset, ltc_timecode_offset
161 Session::ltc_tx_send_time_code_for_cycle (framepos_t start_frame, framepos_t end_frame,
162 double target_speed, double current_speed,
165 assert (nframes > 0);
169 boost::shared_ptr<Port> ltcport = ltc_output_port();
171 Buffer& buf (ltcport->get_buffer (nframes));
173 if (!ltc_encoder || !ltc_enc_buf) {
177 SyncSource sync_src = Config->get_sync_source();
178 if (engine().freewheeling() || !Config->get_send_ltc()
180 * decide which time-sources we can generated LTC from.
181 * Internal, JACK or sample-synced slaves should be fine.
184 || (config.get_external_sync() && sync_src == LTC)
185 || (config.get_external_sync() && sync_src == MTC)
187 ||(config.get_external_sync() && sync_src == MIDIClock)
192 out = dynamic_cast<AudioBuffer*>(&buf)->data ();
194 /* range from libltc (38..218) || - 128.0 -> (-90..90) */
195 const float ltcvol = Config->get_ltc_output_volume()/(90.0); // pow(10, db/20.0)/(90.0);
197 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX %1 to %2 / %3 | lat: %4\n", start_frame, end_frame, nframes, ltc_out_latency.max));
199 /* all systems go. Now here's the plan:
201 * 1) check if fps has changed
202 * 2) check direction of encoding, calc speed, re-sample existing buffer
203 * 3) calculate frame and byte to send aligned to jack-period size
204 * 4) check if it's the frame/byte that is already in the queue
205 * 5) if (4) mismatch, re-calculate offset of LTC frame relative to period size
206 * 6) actual LTC audio output
207 * 6a) send remaining part of already queued frame; break on nframes
208 * 6b) encode new LTC-frame byte
214 TimecodeFormat cur_timecode = config.get_timecode_format();
215 if (cur_timecode != ltc_enc_tcformat) {
216 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX1: TC format mismatch - reinit sr: %1 fps: %2\n", nominal_frame_rate(), timecode_to_frames_per_second(cur_timecode)));
217 if (ltc_encoder_reinit(ltc_encoder, nominal_frame_rate(),
218 timecode_to_frames_per_second(cur_timecode),
219 TV_STANDARD(cur_timecode), 0
221 PBD::error << _("LTC encoder: invalid framerate - LTC encoding is disabled for the remainder of this session.") << endmsg;
225 ltc_encoder_set_filter(ltc_encoder, LTC_RISE_TIME(ltc_speed));
226 ltc_enc_tcformat = cur_timecode;
227 ltc_tx_parse_offset();
231 /* LTC is max. 30 fps */
232 if (timecode_to_frames_per_second(cur_timecode) > 30) {
236 // (2) speed & direction
238 /* speed 0 aka transport stopped is interpreted as rolling forward.
239 * keep repeating current frame
241 #define SIGNUM(a) ( (a) < 0 ? -1 : 1)
242 bool speed_changed = false;
244 /* port latency compensation:
245 * The _generated timecode_ is offset by the port-latency,
246 * therefore the offset depends on the direction of transport.
248 * latency is compensated by adding it to the timecode to
249 * be generated. e.g. if the signal will reach the output in
250 * N samples time from now, generate the timecode for (now + N).
252 * sample-sync is achieved by further calculating the difference
253 * between the timecode and the session-transport and offsetting the
256 * The timecode is generated directly in the Session process callback
257 * using _transport_frame. It requires that the session has set the
258 * port's playback latency to worst_playback_latency() prior to
259 * calling ltc_tx_send_time_code_for_cycle().
261 framepos_t cycle_start_frame;
263 if (current_speed < 0) {
264 cycle_start_frame = (start_frame - ltc_out_latency.max + worst_playback_latency());
265 } else if (current_speed > 0) {
266 cycle_start_frame = (start_frame + ltc_out_latency.max - worst_playback_latency());
268 /* There is no need to compensate for latency when not rolling
269 * rather send the accurate NOW timecode
270 * (LTC encoder compenates latency by sending earlier timecode)
272 cycle_start_frame = start_frame;
275 /* LTC TV standard offset */
276 if (current_speed != 0) {
277 /* ditto - send "NOW" if not rolling */
278 cycle_start_frame -= ltc_frame_alignment(frames_per_timecode_frame(), TV_STANDARD(cur_timecode));
281 /* cycle-start may become negative due to latency compensation */
282 if (cycle_start_frame < 0) { cycle_start_frame = 0; }
284 double new_ltc_speed = (double)(labs(end_frame - start_frame) * SIGNUM(current_speed)) / (double)nframes;
285 if (nominal_frame_rate() != frame_rate()) {
286 new_ltc_speed *= (double)nominal_frame_rate() / (double)frame_rate();
289 if (SIGNUM(new_ltc_speed) != SIGNUM (ltc_speed)) {
290 DEBUG_TRACE (DEBUG::LTC, "LTC TX2: transport changed direction\n");
294 if (ltc_speed != new_ltc_speed
295 /* but only once if, current_speed changes to 0. In that case
296 * new_ltc_speed is > 0 because (end_frame - start_frame) == jack-period for no-roll
297 * but ltc_speed will still be 0
299 && (current_speed != 0 || ltc_speed != current_speed)
301 /* check ./libs/ardour/interpolation.cc CubicInterpolation::interpolate
302 * if target_speed != current_speed we should interpolate, too.
304 * However, currency in A3 target_speed == current_speed for each process cycle
305 * (except for the sign and if target_speed > 8.0).
306 * Besides, above speed calculation uses the difference (end_frame - start_frame).
307 * end_frame is calculated from 'frames_moved' which includes the interpolation.
310 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX2: speed change old: %1 cur: %2 tgt: %3 ctd: %4\n", ltc_speed, current_speed, target_speed, fabs(current_speed) - target_speed, new_ltc_speed));
311 speed_changed = true;
312 ltc_encoder_set_filter(ltc_encoder, LTC_RISE_TIME(new_ltc_speed));
315 if (end_frame == start_frame || fabs(current_speed) < 0.1 ) {
316 DEBUG_TRACE (DEBUG::LTC, "LTC TX2: transport is not rolling or absolute-speed < 0.1\n");
317 /* keep repeating current frame
319 * an LTC generator must be able to continue generating LTC when Ardours transport is in stop
320 * some machines do odd things if LTC goes away:
321 * e.g. a tape based machine (video or audio), some think they have gone into park if LTC goes away,
322 * so unspool the tape from the playhead. That might be inconvenient.
323 * If LTC keeps arriving they remain in a stop position with the tape on the playhead.
326 if (!Config->get_ltc_send_continuously()) {
327 ltc_speed = new_ltc_speed;
330 if (start_frame != ltc_prev_cycle) {
331 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX2: no-roll seek from %1 to %2 (%3)\n", ltc_prev_cycle, start_frame, cycle_start_frame));
336 if (fabs(new_ltc_speed) > 10.0) {
337 DEBUG_TRACE (DEBUG::LTC, "LTC TX2: speed is out of bounds.\n");
342 if (ltc_speed == 0 && new_ltc_speed != 0) {
343 DEBUG_TRACE (DEBUG::LTC, "LTC TX2: transport started rolling - reset\n");
347 /* the timecode duration corresponding to the samples that are still
348 * in the buffer. Here, the speed of previous cycle is used to calculate
349 * the alignment at the beginning of this cycle later.
351 double poff = (ltc_buf_len - ltc_buf_off) * ltc_speed;
353 if (speed_changed && new_ltc_speed != 0) {
354 /* we need to re-sample the existing buffer.
355 * "make space for the en-coder to catch up to the new speed"
357 * since the LTC signal is a rectangular waveform we can simply squeeze it
358 * by removing samples or duplicating samples /here and there/.
360 * There may be a more elegant way to do this, in fact one could
361 * simply re-render the buffer using ltc_encoder_encode_byte()
362 * but that'd require some timecode offset buffer magic,
363 * which is left for later..
366 double oldbuflen = (double)(ltc_buf_len - ltc_buf_off);
367 double newbuflen = (double)(ltc_buf_len - ltc_buf_off) * fabs(ltc_speed / new_ltc_speed);
369 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX2: bufOld %1 bufNew %2 | diff %3\n",
370 (ltc_buf_len - ltc_buf_off), newbuflen, newbuflen - oldbuflen
373 double bufrspdiff = rint(newbuflen - oldbuflen);
375 if (abs(bufrspdiff) > newbuflen || abs(bufrspdiff) > oldbuflen) {
376 DEBUG_TRACE (DEBUG::LTC, "LTC TX2: resampling buffer would destroy information.\n");
379 } else if (bufrspdiff != 0 && newbuflen > oldbuflen) {
381 double samples_to_insert = ceil(newbuflen - oldbuflen);
382 double avg_distance = newbuflen / samples_to_insert;
383 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX2: resample buffer insert: %1\n", samples_to_insert));
385 for (int rp = ltc_buf_off; rp < ltc_buf_len - 1; ++rp) {
386 const int ro = rp - ltc_buf_off;
387 if (ro < (incnt*avg_distance)) continue;
388 const ltcsnd_sample_t v1 = ltc_enc_buf[rp];
389 const ltcsnd_sample_t v2 = ltc_enc_buf[rp+1];
390 if (v1 != v2 && ro < ((incnt+1)*avg_distance)) continue;
391 memmove(<c_enc_buf[rp+1], <c_enc_buf[rp], ltc_buf_len-rp);
395 } else if (bufrspdiff != 0 && newbuflen < oldbuflen) {
396 double samples_to_remove = ceil(oldbuflen - newbuflen);
397 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX2: resample buffer - remove: %1\n", samples_to_remove));
398 if (oldbuflen <= samples_to_remove) {
399 ltc_buf_off = ltc_buf_len= 0;
401 double avg_distance = newbuflen / samples_to_remove;
403 for (int rp = ltc_buf_off; rp < ltc_buf_len - 1; ++rp) {
404 const int ro = rp - ltc_buf_off;
405 if (ro < (rmcnt*avg_distance)) continue;
406 const ltcsnd_sample_t v1 = ltc_enc_buf[rp];
407 const ltcsnd_sample_t v2 = ltc_enc_buf[rp+1];
408 if (v1 != v2 && ro < ((rmcnt+1)*avg_distance)) continue;
409 memmove(<c_enc_buf[rp], <c_enc_buf[rp+1], ltc_buf_len-rp-1);
417 ltc_prev_cycle = start_frame;
418 ltc_speed = new_ltc_speed;
419 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX2: transport speed %1.\n", ltc_speed));
421 // (3) bit/sample alignment
422 Timecode::Time tc_start;
423 framepos_t tc_sample_start;
425 /* calc timecode frame from current position - round down to nearest timecode */
426 Timecode::sample_to_timecode(cycle_start_frame, tc_start, true, false,
427 timecode_frames_per_second(),
428 timecode_drop_frames(),
429 (double)frame_rate(),
430 config.get_subframes_per_frame(),
431 ltc_timecode_negative_offset, ltc_timecode_offset
434 /* convert timecode back to sample-position */
435 Timecode::timecode_to_sample (tc_start, tc_sample_start, true, false,
436 (double)frame_rate(),
437 config.get_subframes_per_frame(),
438 ltc_timecode_negative_offset, ltc_timecode_offset
441 /* difference between current frame and TC frame in samples */
442 frameoffset_t soff = cycle_start_frame - tc_sample_start;
443 if (current_speed == 0) {
446 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX3: A3cycle: %1 = A3tc: %2 +off: %3\n",
447 cycle_start_frame, tc_sample_start, soff));
450 // (4) check if alignment matches
451 const double fptcf = frames_per_timecode_frame();
453 /* maximum difference of bit alignment in audio-samples.
455 * if transport and LTC generator differs more than this, the LTC
456 * generator will be re-initialized
458 * due to rounding error and variations in LTC-bit duration depending
459 * on the speed, it can be off by +- ltc_speed audio-samples.
460 * When the playback speed changes, it can actually reach +- 2 * ltc_speed
461 * in the cycle _after_ the speed changed. The average delta however is 0.
465 if (config.get_external_sync() && slave()) {
466 maxdiff = slave()->resolution();
468 maxdiff = ceil(fabs(ltc_speed))*2.0;
469 if (nominal_frame_rate() != frame_rate()) {
472 if (ltc_enc_tcformat == Timecode::timecode_23976 || ltc_enc_tcformat == Timecode::timecode_24976) {
477 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX4: enc: %1 + %2 - %3 || buf-bytes: %4 enc-byte: %5\n",
478 ltc_enc_pos, ltc_enc_cnt, poff, (ltc_buf_len - ltc_buf_off), poff, ltc_enc_byte));
480 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX4: enc-pos: %1 | d: %2\n",
481 ltc_enc_pos + ltc_enc_cnt - poff,
482 rint(ltc_enc_pos + ltc_enc_cnt - poff) - cycle_start_frame
485 const framecnt_t wrap24h = 86400. * frame_rate();
487 || (ltc_speed != 0 && fabs(fmod(ceil(ltc_enc_pos + ltc_enc_cnt - poff), wrap24h) - (cycle_start_frame % wrap24h)) > maxdiff)
493 /* set frame to encode */
495 tc.hours = tc_start.hours % 24;
496 tc.mins = tc_start.minutes;
497 tc.secs = tc_start.seconds;
498 tc.frame = tc_start.frames;
499 ltc_encoder_set_timecode(ltc_encoder, &tc);
501 /* workaround for libltc recognizing 29.97 and 30000/1001 as drop-frame TC.
502 * In A3 30000/1001 or 30 fps can be drop-frame.
505 ltc_encoder_get_frame(ltc_encoder, <cframe);
506 ltcframe.dfbit = timecode_has_drop_frames(cur_timecode)?1:0;
507 ltc_encoder_set_frame(ltc_encoder, <cframe);
510 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX4: now: %1 trs: %2 toff %3\n", cycle_start_frame, tc_sample_start, soff));
513 if (soff < 0 || soff >= fptcf) {
514 /* session framerate change between (2) and now */
519 if (ltc_speed < 0 ) {
520 /* calculate the byte that starts at or after the current position */
521 ltc_enc_byte = floor((10.0 * soff) / (fptcf));
522 ltc_enc_cnt = ltc_enc_byte * fptcf / 10.0;
524 /* calculate difference between the current position and the byte to send */
525 cyc_off = soff- ceil(ltc_enc_cnt);
528 /* calculate the byte that starts at or after the current position */
529 ltc_enc_byte = ceil((10.0 * soff) / fptcf);
530 ltc_enc_cnt = ltc_enc_byte * fptcf / 10.0;
532 /* calculate difference between the current position and the byte to send */
533 cyc_off = ceil(ltc_enc_cnt) - soff;
535 if (ltc_enc_byte == 10) {
537 ltc_encoder_inc_timecode(ltc_encoder);
541 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX5 restart encoder: soff %1 byte %2 cycoff %3\n",
542 soff, ltc_enc_byte, cyc_off));
544 if ( (ltc_speed < 0 && ltc_enc_byte !=9 ) || (ltc_speed >= 0 && ltc_enc_byte !=0 ) ) {
548 if (cyc_off >= 0 && cyc_off <= (int32_t) nframes) {
549 /* offset in this cycle */
550 txf= rint(cyc_off / fabs(ltc_speed));
551 memset(out, 0, cyc_off * sizeof(Sample));
553 /* resync next cycle */
554 memset(out, 0, nframes * sizeof(Sample));
558 ltc_enc_pos = tc_sample_start % wrap24h;
560 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX5 restart @ %1 + %2 - %3 | byte %4\n",
561 ltc_enc_pos, ltc_enc_cnt, cyc_off, ltc_enc_byte));
563 else if (ltc_speed != 0 && (fptcf / ltc_speed / 80) > 3 ) {
564 /* reduce (low freq) jitter.
565 * The granularity of the LTC encoder speed is 1 byte =
566 * (frames-per-timecode-frame / 10) audio-samples.
567 * Thus, tiny speed changes [as produced by some slaves]
568 * may not have any effect in the cycle when they occur,
569 * but they will add up over time.
571 * This is a linear approx to compensate for this jitter
572 * and prempt re-sync when the drift builds up.
574 * However, for very fast speeds - when 1 LTC bit is
575 * <= 3 audio-sample - adjusting speed may lead to
578 * To do better than this, resampling (or a rewrite of the
579 * encoder) is required.
581 ltc_speed -= fmod(((ltc_enc_pos + ltc_enc_cnt - poff) - cycle_start_frame), wrap24h) / engine().sample_rate();
585 // (6) encode and output
587 #ifdef LTC_GEN_TXDBUG
588 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX6.1 @%1 [ %2 / %3 ]\n", txf, ltc_buf_off, ltc_buf_len));
590 // (6a) send remaining buffer
591 while ((ltc_buf_off < ltc_buf_len) && (txf < nframes)) {
592 const float v1 = ltc_enc_buf[ltc_buf_off++] - 128.0;
593 const Sample val = (Sample) (v1*ltcvol);
596 #ifdef LTC_GEN_TXDBUG
597 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX6.2 @%1 [ %2 / %3 ]\n", txf, ltc_buf_off, ltc_buf_len));
600 if (txf >= nframes) {
601 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX7 enc: %1 [ %2 / %3 ] byte: %4 spd %5 fpp %6 || nf: %7\n",
602 ltc_enc_pos, ltc_buf_off, ltc_buf_len, ltc_enc_byte, ltc_speed, nframes, txf));
609 // (6b) encode LTC, bump timecode
612 ltc_enc_byte = (ltc_enc_byte + 9)%10;
613 if (ltc_enc_byte == 9) {
614 ltc_encoder_dec_timecode(ltc_encoder);
615 ltc_tx_recalculate_position();
623 /* write zero bytes -- don't touch encoder until we're at a frame-boundary
624 * otherwise the biphase polarity may be inverted.
626 enc_frames = fptcf / 10.0;
627 memset(<c_enc_buf[ltc_buf_len], 127, enc_frames * sizeof(ltcsnd_sample_t));
629 if (ltc_encoder_encode_byte(ltc_encoder, ltc_enc_byte, (ltc_speed==0)?1.0:(1.0/ltc_speed))) {
630 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX6.3 encoder error byte %1\n", ltc_enc_byte));
631 ltc_encoder_buffer_flush(ltc_encoder);
635 enc_frames = ltc_encoder_get_buffer(ltc_encoder, &(ltc_enc_buf[ltc_buf_len]));
638 #ifdef LTC_GEN_FRAMEDBUG
639 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX6.3 encoded %1 bytes for LTC-byte %2 at spd %3\n", enc_frames, ltc_enc_byte, ltc_speed));
641 if (enc_frames <=0) {
642 DEBUG_TRACE (DEBUG::LTC, "LTC TX6.3 encoder empty buffer.\n");
643 ltc_encoder_buffer_flush(ltc_encoder);
648 ltc_buf_len += enc_frames;
650 ltc_enc_cnt -= fptcf/10.0;
652 ltc_enc_cnt += fptcf/10.0;
654 if (ltc_speed >= 0) {
655 ltc_enc_byte = (ltc_enc_byte + 1)%10;
656 if (ltc_enc_byte == 0 && ltc_speed != 0) {
657 ltc_encoder_inc_timecode(ltc_encoder);
658 #if 0 /* force fixed parity -- scope debug */
660 ltc_encoder_get_frame(ltc_encoder, &f);
661 f.biphase_mark_phase_correction=0;
662 ltc_encoder_set_frame(ltc_encoder, &f);
664 ltc_tx_recalculate_position();
666 } else if (ltc_enc_byte == 0) {
671 #ifdef LTC_GEN_FRAMEDBUG
672 DEBUG_TRACE (DEBUG::LTC, string_compose("LTC TX6.4 enc-pos: %1 + %2 [ %4 / %5 ] spd %6\n", ltc_enc_pos, ltc_enc_cnt, ltc_buf_off, ltc_buf_len, ltc_speed));
676 dynamic_cast<AudioBuffer*>(&buf)->set_written (true);