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livetrax/libs/ardour/ltc_slave.cc

667 lines
19 KiB
C++

/*
* Copyright (C) 2012-2019 Paul Davis <paul@linuxaudiosystems.com>
* Copyright (C) 2012-2019 Robin Gareus <robin@gareus.org>
* Copyright (C) 2013-2018 John Emmas <john@creativepost.co.uk>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <iostream>
#include <errno.h>
#include <sys/types.h>
#include <unistd.h>
#include "pbd/error.h"
#include "pbd/failed_constructor.h"
#include "pbd/pthread_utils.h"
#include "ardour/debug.h"
#include "ardour/profile.h"
#include "ardour/transport_master.h"
#include "ardour/session.h"
#include "ardour/audioengine.h"
#include "ardour/audio_port.h"
#include "pbd/i18n.h"
using namespace std;
using namespace ARDOUR;
using namespace MIDI;
using namespace PBD;
using namespace Timecode;
#define ENGINE AudioEngine::instance()
#define FLYWHEEL_TIMEOUT ( 1 * ENGINE->sample_rate() )
/* XXX USE Config->get_ltc_input */
LTC_TransportMaster::LTC_TransportMaster (std::string const & name)
: TimecodeTransportMaster (name, LTC)
, decoder (0)
, samples_per_ltc_frame (0)
, fps_detected (false)
, monotonic_cnt (0)
, frames_since_reset (0)
, delayedlocked (10)
, ltc_detect_fps_cnt (0)
, ltc_detect_fps_max (0)
, sync_lock_broken (false)
, samples_per_timecode_frame (0)
{
memset (&prev_frame, 0, sizeof(LTCFrameExt));
AudioEngine::instance()->Xrun.connect_same_thread (port_connection, boost::bind (&LTC_TransportMaster::resync_xrun, this));
}
void
LTC_TransportMaster::init ()
{
reset (true);
}
void
LTC_TransportMaster::create_port ()
{
if ((_port = AudioEngine::instance()->register_input_port (DataType::AUDIO, string_compose ("%1 in", _name), false, TransportMasterPort)) == 0) {
throw failed_constructor();
}
}
void
LTC_TransportMaster::set_session (Session *s)
{
TransportMaster::set_session (s);
session_connections.drop_connections();
if (_session) {
samples_per_ltc_frame = _session->samples_per_timecode_frame();
timecode.drop = _session->timecode_drop_frames();
if (decoder) {
ltc_decoder_free (decoder);
}
decoder = ltc_decoder_create((int) samples_per_ltc_frame, 128 /*queue size*/);
parse_timecode_offset();
reset (true);
_session->config.ParameterChanged.connect_same_thread (session_connections, boost::bind (&LTC_TransportMaster::parameter_changed, this, _1));
_session->LatencyUpdated.connect_same_thread (session_connections, boost::bind (&LTC_TransportMaster::resync_latency, this, _1));
}
}
LTC_TransportMaster::~LTC_TransportMaster()
{
port_connection.disconnect();
session_connections.drop_connections();
ltc_decoder_free(decoder);
}
void
LTC_TransportMaster::connection_handler (std::weak_ptr<ARDOUR::Port> w0, std::string n0, std::weak_ptr<ARDOUR::Port> w1, std::string n1, bool con)
{
TransportMaster::connection_handler(w0, n0, w1, n1, con);
std::shared_ptr<Port> p = w1.lock ();
if (p == _port) {
resync_latency (false);
}
}
void
LTC_TransportMaster::parse_timecode_offset()
{
if (_session) {
Timecode::Time offset_tc;
Timecode::parse_timecode_format(_session->config.get_slave_timecode_offset(), offset_tc);
offset_tc.rate = _session->timecode_frames_per_second();
offset_tc.drop = _session->timecode_drop_frames();
_session->timecode_to_sample(offset_tc, timecode_offset, false, false);
timecode_negative_offset = offset_tc.negative;
}
}
void
LTC_TransportMaster::parameter_changed (std::string const & p)
{
if (p == "slave-timecode-offset"
|| p == "timecode-format"
) {
parse_timecode_offset();
}
}
ARDOUR::samplecnt_t
LTC_TransportMaster::update_interval() const
{
if (timecode.rate) {
/* Use engine rate, timecode ports are not resampled */
return AudioEngine::instance()->sample_rate() / timecode.rate;
}
return AudioEngine::instance()->sample_rate(); /* useless but what other answer is there? */
}
ARDOUR::samplecnt_t
LTC_TransportMaster::resolution () const
{
return (samplecnt_t) (ENGINE->sample_rate() / 1000);
}
bool
LTC_TransportMaster::locked () const
{
DEBUG_TRACE (DEBUG::Slave, string_compose ("locked: fps ? %1 dlocked %2\n", fps_detected, delayedlocked));
return fps_detected && (delayedlocked < 5);
}
bool
LTC_TransportMaster::ok() const
{
return true;
}
void
LTC_TransportMaster::resync_xrun()
{
DEBUG_TRACE (DEBUG::LTC, "LTC resync_xrun()\n");
sync_lock_broken = false;
}
void
LTC_TransportMaster::set_sample_clock_synced (bool yn)
{
sync_lock_broken = false;
TransportMaster::set_sample_clock_synced (yn);
}
void
LTC_TransportMaster::resync_latency (bool playback)
{
if (playback) {
return;
}
uint32_t old = ltc_slave_latency.max;
if (_port) {
_port->get_connected_latency_range (ltc_slave_latency, false);
DEBUG_TRACE (DEBUG::LTC, string_compose ("LTC resync_latency: %1\n", ltc_slave_latency.max));
}
if (old != ltc_slave_latency.max) {
sync_lock_broken = false;
}
}
void
LTC_TransportMaster::reset (bool with_position)
{
DEBUG_TRACE (DEBUG::LTC, string_compose ("LTC reset() with pos ? %1\n", with_position));
if (with_position) {
current.update (current.position, 0, 0);
_current_delta = 0;
} else {
current.reset ();
}
transport_direction = 0;
sync_lock_broken = false;
delayedlocked = 10;
monotonic_cnt = 0;
memset (&prev_frame, 0, sizeof(LTCFrameExt));
frames_since_reset = 0;
timecode_format_valid = false;
}
void
LTC_TransportMaster::parse_ltc (const ARDOUR::pframes_t nframes, const Sample* const in, const ARDOUR::samplecnt_t posinfo)
{
pframes_t i;
unsigned char sound[8192];
if (nframes > 8192) {
/* TODO warn once or wrap, loop conversion below
* does jack/A3 support > 8192 spp anyway?
*/
return;
}
for (i = 0; i < nframes; i++) {
const int snd=(int) rint ((127.0*in[i])+128.0);
sound[i] = (unsigned char) (snd&0xff);
}
ltc_decoder_write (decoder, sound, nframes, posinfo);
return;
}
bool
LTC_TransportMaster::equal_ltc_sample_time(LTCFrame *a, LTCFrame *b) {
if (a->frame_units != b->frame_units ||
a->frame_tens != b->frame_tens ||
a->dfbit != b->dfbit ||
a->secs_units != b->secs_units ||
a->secs_tens != b->secs_tens ||
a->mins_units != b->mins_units ||
a->mins_tens != b->mins_tens ||
a->hours_units != b->hours_units ||
a->hours_tens != b->hours_tens) {
return false;
}
return true;
}
#if 0
static ostream& operator<< (ostream& ostr, LTCFrame& a)
{
ostr
<< a.hours_tens
<< a.hours_units << ':'
<< a.mins_tens
<< a.mins_units << ':'
<< a.secs_tens
<< a.secs_units << ':'
<< a.frame_tens
<< a.frame_units
<< (a.dfbit ? 'D' : ' ')
;
return ostr;
}
#endif
#if 0
static ostream& operator<< (ostream& ostr, SMPTETimecode& t)
{
for (size_t i = 0; i < sizeof (t.timezone); ++i) {
ostr << t.timezone[i];
}
ostr << ' '
<< t.years << ' '
<< t.months << ' '
<< t.days << ' '
<< t.hours << ' '
<< t.mins << ' '
<< t.secs << ' '
<< t.frame
;
return ostr;
}
#endif
bool
LTC_TransportMaster::detect_discontinuity(LTCFrameExt *sample, int fps, bool fuzzy)
{
bool discontinuity_detected = false;
if (fuzzy && (
( sample->reverse && prev_frame.ltc.frame_units == 0)
||(!sample->reverse && sample->ltc.frame_units == 0)
)) {
memcpy(&prev_frame, sample, sizeof(LTCFrameExt));
return false;
}
if (sample->reverse) {
ltc_frame_decrement(&prev_frame.ltc, fps, LTC_TV_525_60, 0);
} else {
ltc_frame_increment(&prev_frame.ltc, fps, LTC_TV_525_60, 0);
}
if (!equal_ltc_sample_time(&prev_frame.ltc, &sample->ltc)) {
discontinuity_detected = true;
}
memcpy (&prev_frame, sample, sizeof(LTCFrameExt));
return discontinuity_detected;
}
bool
LTC_TransportMaster::detect_ltc_fps(int frameno, bool df)
{
bool fps_changed = false;
double detected_fps = 0;
if (frameno > ltc_detect_fps_max) {
ltc_detect_fps_max = frameno;
}
ltc_detect_fps_cnt++;
if (ltc_detect_fps_cnt > 40) {
if (ltc_detect_fps_cnt > ltc_detect_fps_max) {
detected_fps = ltc_detect_fps_max + 1;
if (df) {
/* LTC df -> indicates fractional framerate */
if (fr2997()) {
detected_fps = detected_fps * 999.0 / 1000.0;
} else {
detected_fps = detected_fps * 1000.0 / 1001.0;
}
}
timecode_format_valid = true; /* SET FLAG */
if (timecode.rate != detected_fps || timecode.drop != df) {
DEBUG_TRACE (DEBUG::LTC, string_compose ("detected FPS: %1%2\n", detected_fps, df?"df":"ndf"));
} else {
detected_fps = 0; /* no change */
}
}
ltc_detect_fps_cnt = ltc_detect_fps_max = 0;
}
/* when changed */
if (detected_fps != 0 && (detected_fps != timecode.rate || df != timecode.drop)) {
timecode.rate = detected_fps;
timecode.drop = df;
samples_per_ltc_frame = double(ENGINE->sample_rate()) / timecode.rate;
DEBUG_TRACE (DEBUG::LTC, string_compose ("LTC reset to FPS: %1%2 ; audio-samples per LTC: %3\n",
detected_fps, df?"df":"ndf", samples_per_ltc_frame));
fps_changed=true;
}
TimecodeFormat tc_format = apparent_timecode_format();
samples_per_timecode_frame = ENGINE->sample_rate() / Timecode::timecode_to_frames_per_second (tc_format);
return fps_changed;
}
void
LTC_TransportMaster::process_ltc(samplepos_t const now)
{
LTCFrameExt ltc_frame;
LTC_TV_STANDARD tv_standard = LTC_TV_625_50;
while (ltc_decoder_read (decoder, &ltc_frame)) {
SMPTETimecode stime;
ltc_frame_to_time (&stime, &ltc_frame.ltc, 0);
timecode.negative = false;
timecode.subframes = 0;
/* set timecode.rate and timecode.drop: */
const bool ltc_is_stationary = equal_ltc_sample_time (&prev_frame.ltc, &ltc_frame.ltc);
if (detect_discontinuity (&ltc_frame, ceil(timecode.rate), !fps_detected)) {
if (frames_since_reset > 1) {
reset (false);
}
} else {
if (fps_detected) {
frames_since_reset++;
DEBUG_TRACE (DEBUG::LTC, string_compose ("fsr %1\n", frames_since_reset));
}
}
if (!ltc_is_stationary && detect_ltc_fps (stime.frame, (ltc_frame.ltc.dfbit) ? true : false)) {
reset (true);
fps_detected = true;
}
#ifndef NDEBUG
if (DEBUG_ENABLED (DEBUG::LTC)) {
/* use fprintf for simpler correct formatting of times
*/
char buf[256];
snprintf (buf, sizeof (buf), "LTC@(%ld..%ld) rate %.3f %02d:%02d:%02d%c%02d | %8lld %8lld%s\n",
now, now+ENGINE->samples_per_cycle(),
timecode.rate,
stime.hours,
stime.mins,
stime.secs,
(ltc_frame.ltc.dfbit) ? '.' : ':',
stime.frame,
ltc_frame.off_start,
ltc_frame.off_end,
ltc_frame.reverse ? " R" : " "
);
DEBUG_TRACE (DEBUG::LTC, buf);
}
#endif
/* when a full LTC frame is decoded, the timecode the LTC frame
* is referring has just passed.
* So we send the _next_ timecode which
* is expected to start at the end of the current LTC frame
*/
int fps_i = ceil(timecode.rate);
switch(fps_i) {
case 30:
if (timecode.drop) {
tv_standard = LTC_TV_525_60;
} else {
tv_standard = LTC_TV_1125_60;
}
break;
case 25:
tv_standard = LTC_TV_625_50;
break;
default:
tv_standard = LTC_TV_FILM_24; /* == LTC_TV_1125_60 == no offset, 24,30fps BGF */
break;
}
if (!ltc_frame.reverse) {
ltc_frame_increment(&ltc_frame.ltc, fps_i, tv_standard, 0);
ltc_frame_to_time(&stime, &ltc_frame.ltc, 0);
transport_direction = 1;
ltc_frame.off_start -= ltc_frame_alignment(samples_per_timecode_frame, tv_standard);
ltc_frame.off_end -= ltc_frame_alignment(samples_per_timecode_frame, tv_standard);
} else {
ltc_frame_decrement(&ltc_frame.ltc, fps_i, tv_standard, 0);
int off = ltc_frame.off_end - ltc_frame.off_start;
ltc_frame.off_start += off - ltc_frame_alignment(samples_per_timecode_frame, tv_standard);
ltc_frame.off_end += off - ltc_frame_alignment(samples_per_timecode_frame, tv_standard);
transport_direction = -1;
}
timecode.hours = stime.hours;
timecode.minutes = stime.mins;
timecode.seconds = stime.secs;
timecode.frames = stime.frame;
samplepos_t ltc_sample; // audio-sample corresponding to position of LTC frame
if (_session) {
Timecode::timecode_to_sample (timecode, ltc_sample, true, false, (double)ENGINE->sample_rate(), _session->config.get_subframes_per_frame(), timecode_negative_offset, timecode_offset);
} else {
Timecode::timecode_to_sample (timecode, ltc_sample, true, false, (double)ENGINE->sample_rate(), 100, timecode_negative_offset, timecode_offset);
}
ltc_sample += ltc_slave_latency.max;
/* This LTC frame spans sample time between sample.off_start .. sample.off_end
*
* NOTE: these sample times are NOT the ones that LTC is representing. They are
* derived our own audioengine's monotonic audio clock.
*
* So we expect the next frame to span sample.off_end+1 and ... <don't care for now>.
* That isn't the time we will necessarily receive the LTC frame, but the decoder
* should tell us that its span begins there.
*
*/
samplepos_t cur_timestamp = ltc_frame.off_end + 1;
double ltc_speed = current.speed;
DEBUG_TRACE (DEBUG::LTC, string_compose ("LTC ltc-sample: %1 prev-ltc-sample %2 cur-timestamp: %3 last-timestamp: %4 frame-spans %5..%6\n", ltc_sample, current.position, cur_timestamp, current.timestamp, ltc_frame.off_start, ltc_frame.off_end));
if (cur_timestamp <= current.timestamp || current.timestamp == 0) {
DEBUG_TRACE (DEBUG::LTC, string_compose ("LTC speed: UNCHANGED: %1\n", current.speed));
} else {
ltc_speed = double (ltc_sample - current.position) / double (cur_timestamp - current.timestamp);
/* provide a .1% deadzone to lock the speed */
if (fabs (ltc_speed - 1.0) <= 0.001) {
ltc_speed = 1.0;
}
if (fabs (ltc_speed) > 10.0) {
ltc_speed = 0;
}
DEBUG_TRACE (DEBUG::LTC, string_compose ("LTC speed: %1 (moved %2 in %3\n", ltc_speed, (ltc_sample - current.position), (cur_timestamp - current.timestamp)));
}
DEBUG_TRACE (DEBUG::LTC, string_compose ("update current to %1 %2 %3\n", ltc_sample, cur_timestamp, ltc_speed));
current.update (ltc_sample, cur_timestamp, ltc_speed);
} /* end foreach decoded LTC frame */
}
void
LTC_TransportMaster::pre_process (ARDOUR::pframes_t nframes, samplepos_t now, boost::optional<samplepos_t> session_pos)
{
if (!_port) {
reset (true);
return;
}
Sample* in = (Sample*) AudioEngine::instance()->port_engine().get_buffer (_port->port_handle(), nframes);
sampleoffset_t skip;
if (current.timestamp == 0 || frames_since_reset == 0) {
if (delayedlocked < 10) {
++delayedlocked;
}
monotonic_cnt = now;
skip = 0;
} else {
skip = now - (monotonic_cnt + nframes);
monotonic_cnt = now;
}
DEBUG_TRACE (DEBUG::LTC, string_compose ("pre-process - TID:%1 | latency: %2 | skip %3 | session ? %4| last %5 | dir %6 | sp %7 | dl %8\n",
pthread_name(), ltc_slave_latency.max, skip, (_session ? 'y' : 'n'), current.timestamp, transport_direction, current.speed, delayedlocked));
DEBUG_TRACE (DEBUG::LTC, string_compose ("pre-process with audio clock time: %1\n", now));
/* if the audioengine failed to take the process lock, it won't
call this method, and time will appear to skip. Reset the
LTC decoder's state by giving it some silence.
*/
if (skip > 0) {
DEBUG_TRACE (DEBUG::LTC, string_compose("engine skipped %1 samples. Feeding silence to LTC parser.\n", skip));
if (skip >= 8192) skip = 8192;
unsigned char sound[8192];
memset (sound, 0x80, sizeof(char) * skip);
ltc_decoder_write (decoder, sound, skip, now);
reset (false);
} else if (skip != 0) {
/* this should never happen. it may if monotonic_cnt, now overflow on 64bit */
DEBUG_TRACE (DEBUG::LTC, string_compose("engine skipped %1 samples\n", skip));
reset(true);
}
/* Now feed the incoming LTC signal into the decoder */
DEBUG_TRACE (DEBUG::LTC, string_compose ("%1@%2 parse ltc @ %3 in %4\n", name(), this, now, nframes));
parse_ltc (nframes, in, now);
/* and pull out actual LTC frame data */
DEBUG_TRACE (DEBUG::LTC, string_compose ("%1@%2 call process_ltc(%3)\n", name(), this, now));
process_ltc (now);
if (current.timestamp == 0) {
DEBUG_TRACE (DEBUG::LTC, "last timestamp == 0\n");
return;
} else if (current.speed != 0) {
DEBUG_TRACE (DEBUG::LTC, string_compose ("speed non-zero (%1)\n", current.speed));
if (delayedlocked > 1) {
delayedlocked--;
} else if (_current_delta == 0) {
delayedlocked = 0;
}
}
if (abs (now - current.timestamp) > FLYWHEEL_TIMEOUT) {
DEBUG_TRACE (DEBUG::LTC, "flywheel timeout\n");
reset(true);
/* don't change position from last known */
return;
}
if (!sync_lock_broken && current.speed != 0 && delayedlocked == 0 && fabs(current.speed) != 1.0) {
sync_lock_broken = true;
DEBUG_TRACE (DEBUG::LTC, string_compose ("LTC speed not locked based on %1\n", current.speed));
}
if (session_pos) {
const samplepos_t current_pos = current.position + ((now - current.timestamp) * current.speed);
_current_delta = current_pos - *session_pos;
} else {
_current_delta = 0;
}
}
Timecode::TimecodeFormat
LTC_TransportMaster::apparent_timecode_format () const
{
if (timecode.rate == 24 && !timecode.drop)
return timecode_24;
else if (timecode.rate == 25 && !timecode.drop)
return timecode_25;
else if (rint(timecode.rate * 100) == 2997 && !timecode.drop)
return (fr2997() ? timecode_2997000 : timecode_2997);
else if (rint(timecode.rate * 100) == 2997 && timecode.drop)
return (fr2997() ? timecode_2997000drop : timecode_2997drop);
else if (timecode.rate == 30 && timecode.drop)
return timecode_2997drop; // timecode_30drop; // LTC counting to 30 samples w/DF *means* 29.97 df
else if (timecode.rate == 30 && !timecode.drop)
return timecode_30;
/* XXX - unknown timecode format */
if (_session) {
return _session->config.get_timecode_format();
} else {
return timecode_30;
}
}
std::string
LTC_TransportMaster::position_string() const
{
if (!_collect || current.timestamp == 0) {
return " --:--:--:--";
}
return Timecode::timecode_format_time(timecode);
}
std::string
LTC_TransportMaster::delta_string() const
{
if (!_collect || current.timestamp == 0) {
return X_(u8"\u2012\u2012\u2012\u2012");
} else if ((monotonic_cnt - current.timestamp) > 2 * samples_per_ltc_frame) {
return _("flywheel");
} else {
return format_delta_time (_current_delta);
}
}