modify API of MIDI Clock ticker to use ProcessedRange
This solves the faulty MClk output when we locate due to a loop end.
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bcc1aeeb86
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720102f98a
@ -299,7 +299,7 @@ public:
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void process (pframes_t nframes);
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void send_ltc_for_cycle (samplepos_t, samplepos_t, pframes_t);
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void send_mclk_for_cycle (samplepos_t, samplepos_t, pframes_t, samplecnt_t);
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void send_mclk_for_cycle (pframes_t, samplecnt_t);
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BufferSet& get_silent_buffers (ChanCount count = ChanCount::ZERO);
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BufferSet& get_noinplace_buffers (ChanCount count = ChanCount::ZERO);
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@ -43,7 +43,7 @@ public:
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MidiClockTicker (Session&);
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virtual ~MidiClockTicker ();
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void tick (samplepos_t, samplepos_t, pframes_t, samplecnt_t);
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void tick (ProcessedRanges const &, pframes_t, samplecnt_t);
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private:
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ARDOUR::Session& _session;
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@ -59,6 +59,7 @@ private:
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void reset ();
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void resync_latency (bool);
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double one_ppqn_in_samples (samplepos_t transport_position) const;
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void sub_tick (samplepos_t start, samplepos_t end, pframes_t n_samples, samplecnt_t& pre_roll, double speed);
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void send_midi_clock_event (pframes_t offset, pframes_t nframes);
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void send_start_event (pframes_t offset, pframes_t nframes);
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@ -558,9 +558,10 @@ AudioEngine::process_callback (pframes_t nframes)
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/* send timecode for current cycle */
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samplepos_t end_sample = _session->transport_sample ();
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_session->send_ltc_for_cycle (start_sample, end_sample, nframes);
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/* and MIDI Clock */
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_session->send_mclk_for_cycle (start_sample, end_sample, nframes, pre_roll);
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_session->send_mclk_for_cycle (nframes, pre_roll);
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}
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if (_freewheeling) {
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@ -7570,9 +7570,9 @@ Session::maybe_update_tempo_from_midiclock_tempo (float bpm)
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}
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void
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Session::send_mclk_for_cycle (samplepos_t start_sample, samplepos_t end_sample, pframes_t n_samples, samplecnt_t pre_roll)
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Session::send_mclk_for_cycle (pframes_t n_samples, samplecnt_t pre_roll)
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{
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midi_clock->tick (start_sample, end_sample, n_samples, pre_roll);
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midi_clock->tick (processed_ranges, n_samples, pre_roll);
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}
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void
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@ -178,6 +178,7 @@ Session::locate (samplepos_t target_sample, bool for_loop_end, bool force, bool
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}
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bool need_butler = false;
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samplepos_t existing = _transport_sample;
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/* Locates for seamless looping are fairly different from other
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* locates. They assume that the diskstream buffers for each track
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@ -35,6 +35,7 @@
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#include "ardour/session.h"
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#include "ardour/tempo.h"
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#include "ardour/ticker.h"
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#include "ardour/transport_fsm.h"
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using namespace ARDOUR;
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using namespace PBD;
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@ -60,6 +61,7 @@ MidiClockTicker::~MidiClockTicker ()
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void
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MidiClockTicker::reset ()
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{
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DEBUG_TRACE (DEBUG::MidiClock, "reset!\n");
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_rolling = false;
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_next_tick = 0;
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_beat_pos = 0;
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@ -79,22 +81,43 @@ MidiClockTicker::resync_latency (bool playback)
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}
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void
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MidiClockTicker::tick (samplepos_t start_sample, samplepos_t end_sample, pframes_t n_samples, samplecnt_t pre_roll)
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MidiClockTicker::tick (ProcessedRanges const & pr, pframes_t n_samples, samplecnt_t pre_roll)
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{
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/* silence buffer */
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DEBUG_TRACE (DEBUG::MidiClock, string_compose ("tick for %1 ranges (%2) w/preroll %3\n", pr.cnt, n_samples, pre_roll));
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const pframes_t full_nsamples = n_samples;
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samplecnt_t total = pr.end[0] - pr.start[0];
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if (pr.cnt > 1) {
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total += pr.end[1] - pr.start[1];
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}
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const double speed = total / n_samples;
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_midi_port->cycle_start (n_samples);
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double speed = (end_sample - start_sample) / (double)n_samples;
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/* If told not to send, or we're not moving, or we're moving backwards,
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* ensure we have sent a stop message, reset and be done.
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*/
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if (!Config->get_send_midi_clock () /*|| !TransportMasterManager::instance().current()*/) {
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if (!Config->get_send_midi_clock () || pr.start[0] == pr.end[0] || pr.end[0] < pr.start[0]) { /*|| !TransportMasterManager::instance().current()*/
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if (_rolling) {
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send_stop_event (0, n_samples);
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DEBUG_TRACE (DEBUG::MidiClock, "stopped sending!\n");
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}
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DEBUG_TRACE (DEBUG::MidiClock, "not sending!\n");
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reset ();
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goto out;
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}
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if (speed == 0 && start_sample == 0 && end_sample == 0) {
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n_samples -= pr.end[0] - pr.start[0];
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/* Special case code for "pre-roll ends during this call, and position
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* is zero
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*/
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if ((speed == 0) && (pr.start[0] == 0)) {
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/* test if pre-roll is active, special-case
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* "start at zero"
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*/
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@ -145,26 +168,59 @@ MidiClockTicker::tick (samplepos_t start_sample, samplepos_t end_sample, pframes
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}
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}
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if (speed != 1.0) {
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if (_rolling) {
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DEBUG_TRACE (DEBUG::MidiClock, string_compose ("Speed != 1 - Stop @ cycle: 1 .. %2 (- preroll %3) nsamples: %4\n",
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start_sample, end_sample, end_sample, pre_roll, n_samples));
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send_stop_event (0, n_samples);
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}
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reset ();
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if (speed == 0) {
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goto out;
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}
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/* test for discontinuity */
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if (start_sample != _transport_pos) {
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if (_rolling) {
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DEBUG_TRACE (DEBUG::MidiClock, string_compose ("Discontinuty start_sample: %1 ticker-pos: %2\n", start_sample, _transport_pos));
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send_stop_event (0, n_samples);
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sub_tick (pr.start[0], pr.end[0], n_samples, pre_roll, speed);
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if (pr.cnt > 1) {
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/* we located for the end of a loop, so notify the receiver
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* appropriately. If we located back to zero, treat that as a
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* special case.
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*/
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if (pr.start[1] == 0) {
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send_start_event (0, n_samples);
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} else {
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uint32_t beat_pos;
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samplepos_t clk_pos;
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Temporal::TempoMap::use()->midi_clock_beat_at_or_after (pr.start[1] + _mclk_out_latency.max, clk_pos, beat_pos);
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_beat_pos = beat_pos;
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_next_tick = clk_pos - _mclk_out_latency.max;
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send_position_event (_beat_pos, 0, n_samples); // consider sending this early
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send_continue_event (_next_tick - pr.start[1], n_samples);
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}
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_rolling = false;
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_transport_pos = -1;
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sub_tick (pr.start[1], pr.end[1], n_samples, pre_roll, speed);
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}
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_transport_pos = pr.end[pr.cnt - 1];
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out:
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_midi_port->flush_buffers (full_nsamples);
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_midi_port->cycle_end (full_nsamples);
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}
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/*
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* start_sanple .. end_sample is guaranteed to represent a single continuous,
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* advancing time range.
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*
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*/
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void
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MidiClockTicker::sub_tick (samplepos_t start_sample, samplepos_t end_sample, pframes_t n_samples, samplecnt_t& pre_roll, double speed)
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{
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DEBUG_TRACE (DEBUG::MidiClock, string_compose ("sub-tick for %1 .. %2 (%3) w/preroll %4\n", start_sample, end_sample, n_samples, pre_roll));
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/* silence buffer */
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if (!_rolling) {
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if (_transport_pos < 0 || _next_tick < start_sample) {
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/* get the next downbeat */
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@ -175,51 +231,52 @@ MidiClockTicker::tick (samplepos_t start_sample, samplepos_t end_sample, pframes
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_beat_pos = beat_pos;
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_next_tick = clk_pos - _mclk_out_latency.max;
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_transport_pos = end_sample;
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}
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if (_next_tick >= start_sample && _next_tick < end_sample) {
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DEBUG_TRACE (DEBUG::MidiClock, string_compose ("Start rolling at %1 beat-pos: %2\n", _next_tick, _beat_pos));
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if (_next_tick >= start_sample && _next_tick < end_sample) {
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DEBUG_TRACE (DEBUG::MidiClock, string_compose ("Start rolling at %1 beat-pos: %2\n", _next_tick, _beat_pos));
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_rolling = true;
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_rolling = true;
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_clock_cnt = 0;
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if (_beat_pos == 0 && _next_tick == 0 && start_sample == 0) {
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send_start_event (0, n_samples);
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} else {
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send_position_event (_beat_pos, 0, n_samples); // consider sending this early
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send_continue_event (_next_tick - start_sample, n_samples);
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}
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} else {
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return;
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}
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_rolling = true;
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_clock_cnt = 0;
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if (_beat_pos == 0 && _next_tick == 0 && start_sample == 0) {
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send_start_event (0, n_samples);
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} else {
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send_position_event (_beat_pos, 0, n_samples); // consider sending this early
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send_continue_event (_next_tick - start_sample, n_samples);
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}
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} else {
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goto out;
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DEBUG_TRACE (DEBUG::MidiClock, string_compose ("next tick reset to %1 from %2 + %3 & %4\n", _next_tick, start_sample, _mclk_out_latency.max, clk_pos));
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}
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}
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assert (_rolling);
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while (_next_tick >= start_sample && _next_tick < end_sample) {
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DEBUG_TRACE (DEBUG::MidiClock, string_compose ("Tick @ %1 cycle: %2 .. %3 nsamples: %4, ticker-pos: %5\n",
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_next_tick, start_sample, end_sample, n_samples, _transport_pos));
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send_midi_clock_event (_next_tick - start_sample, n_samples);
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if (++_clock_cnt == 6) {
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_clock_cnt = 0;
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++_beat_pos;
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}
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_next_tick += one_ppqn_in_samples (llrint (_next_tick));
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}
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_transport_pos = end_sample;
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out:
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_midi_port->flush_buffers (n_samples);
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_midi_port->cycle_end (n_samples);
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pre_roll -= end_sample - start_sample;
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}
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double
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MidiClockTicker::one_ppqn_in_samples (samplepos_t transport_position) const
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{
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Tempo const & tempo (TempoMap::use()->metric_at (transport_position).tempo());
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const double samples_per_quarter_note = tempo.samples_per_quarter_note (_session->nominal_sample_rate());
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const double samples_per_quarter_note = tempo.samples_per_quarter_note (_session.nominal_sample_rate());
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return samples_per_quarter_note / 24.0;
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}
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