2 Copyright (C) 1999-2010 Paul Davis
4 This program is free software; you can redistribute it and/or modify
5 it under the terms of the GNU General Public License as published by
6 the Free Software Foundation; either version 2 of the License, or
7 (at your option) any later version.
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 GNU General Public License for more details.
14 You should have received a copy of the GNU General Public License
15 along with this program; if not, write to the Free Software
16 Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
26 #include <cstdio> /* sprintf(3) ... grrr */
32 #include <glibmm/threads.h>
33 #include <glibmm/miscutils.h>
34 #include <glibmm/fileutils.h>
36 #include <boost/algorithm/string/erase.hpp>
38 #include "pbd/basename.h"
39 #include "pbd/convert.h"
40 #include "pbd/error.h"
41 #include "pbd/file_utils.h"
43 #include "pbd/pthread_utils.h"
44 #include "pbd/search_path.h"
45 #include "pbd/stacktrace.h"
46 #include "pbd/stl_delete.h"
47 #include "pbd/replace_all.h"
48 #include "pbd/unwind.h"
50 #include "ardour/amp.h"
51 #include "ardour/analyser.h"
52 #include "ardour/async_midi_port.h"
53 #include "ardour/audio_buffer.h"
54 #include "ardour/audio_port.h"
55 #include "ardour/audio_track.h"
56 #include "ardour/audioengine.h"
57 #include "ardour/audiofilesource.h"
58 #include "ardour/auditioner.h"
59 #include "ardour/boost_debug.h"
60 #include "ardour/buffer_manager.h"
61 #include "ardour/buffer_set.h"
62 #include "ardour/bundle.h"
63 #include "ardour/butler.h"
64 #include "ardour/click.h"
65 #include "ardour/control_protocol_manager.h"
66 #include "ardour/data_type.h"
67 #include "ardour/debug.h"
68 #include "ardour/disk_reader.h"
69 #include "ardour/directory_names.h"
70 #ifdef USE_TRACKS_CODE_FEATURES
71 #include "ardour/engine_state_controller.h"
73 #include "ardour/filename_extensions.h"
74 #include "ardour/gain_control.h"
75 #include "ardour/graph.h"
76 #include "ardour/luabindings.h"
77 #include "ardour/midiport_manager.h"
78 #include "ardour/scene_changer.h"
79 #include "ardour/midi_patch_manager.h"
80 #include "ardour/midi_track.h"
81 #include "ardour/midi_ui.h"
82 #include "ardour/operations.h"
83 #include "ardour/playlist.h"
84 #include "ardour/playlist_factory.h"
85 #include "ardour/plugin.h"
86 #include "ardour/plugin_insert.h"
87 #include "ardour/process_thread.h"
88 #include "ardour/profile.h"
89 #include "ardour/rc_configuration.h"
90 #include "ardour/recent_sessions.h"
91 #include "ardour/region.h"
92 #include "ardour/region_factory.h"
93 #include "ardour/revision.h"
94 #include "ardour/route_graph.h"
95 #include "ardour/route_group.h"
96 #include "ardour/rt_tasklist.h"
97 #include "ardour/send.h"
98 #include "ardour/selection.h"
99 #include "ardour/session.h"
100 #include "ardour/session_directory.h"
101 #include "ardour/session_playlists.h"
102 #include "ardour/slave.h"
103 #include "ardour/smf_source.h"
104 #include "ardour/slave.h"
105 #include "ardour/solo_isolate_control.h"
106 #include "ardour/source_factory.h"
107 #include "ardour/speakers.h"
108 #include "ardour/tempo.h"
109 #include "ardour/ticker.h"
110 #include "ardour/track.h"
111 #include "ardour/types_convert.h"
112 #include "ardour/user_bundle.h"
113 #include "ardour/utils.h"
114 #include "ardour/vca_manager.h"
115 #include "ardour/vca.h"
117 #include "midi++/port.h"
118 #include "midi++/mmc.h"
120 #include "LuaBridge/LuaBridge.h"
122 #include "pbd/i18n.h"
124 #include <glibmm/checksum.h>
133 using namespace ARDOUR;
136 bool Session::_disable_all_loaded_plugins = false;
137 bool Session::_bypass_all_loaded_plugins = false;
138 guint Session::_name_id_counter = 0;
140 PBD::Signal1<int,uint32_t> Session::AudioEngineSetupRequired;
141 PBD::Signal1<void,std::string> Session::Dialog;
142 PBD::Signal0<int> Session::AskAboutPendingState;
143 PBD::Signal2<int, samplecnt_t, samplecnt_t> Session::AskAboutSampleRateMismatch;
144 PBD::Signal2<void, samplecnt_t, samplecnt_t> Session::NotifyAboutSampleRateMismatch;
145 PBD::Signal0<void> Session::SendFeedback;
146 PBD::Signal3<int,Session*,std::string,DataType> Session::MissingFile;
148 PBD::Signal1<void, samplepos_t> Session::StartTimeChanged;
149 PBD::Signal1<void, samplepos_t> Session::EndTimeChanged;
150 PBD::Signal2<void,std::string, std::string> Session::Exported;
151 PBD::Signal1<int,boost::shared_ptr<Playlist> > Session::AskAboutPlaylistDeletion;
152 PBD::Signal0<void> Session::Quit;
153 PBD::Signal0<void> Session::FeedbackDetected;
154 PBD::Signal0<void> Session::SuccessfulGraphSort;
155 PBD::Signal2<void,std::string,std::string> Session::VersionMismatch;
157 const samplecnt_t Session::bounce_chunk_size = 8192;
158 static void clean_up_session_event (SessionEvent* ev) { delete ev; }
159 const SessionEvent::RTeventCallback Session::rt_cleanup (clean_up_session_event);
161 // seconds should be added after the region exceeds end marker
162 #ifdef USE_TRACKS_CODE_FEATURES
163 const uint32_t Session::session_end_shift = 5;
165 const uint32_t Session::session_end_shift = 0;
168 /** @param snapshot_name Snapshot name, without .ardour suffix */
169 Session::Session (AudioEngine &eng,
170 const string& fullpath,
171 const string& snapshot_name,
172 BusProfile* bus_profile,
174 : playlists (new SessionPlaylists)
176 , process_function (&Session::process_with_events)
177 , _bounce_processing_active (false)
178 , waiting_for_sync_offset (false)
179 , _base_sample_rate (0)
180 , _nominal_sample_rate (0)
181 , _current_sample_rate (0)
182 , transport_sub_state (0)
183 , _record_status (Disabled)
184 , _transport_sample (0)
186 , _session_range_location (0)
187 , _session_range_end_is_free (true)
190 , _remaining_latency_preroll (0)
191 , _engine_speed (1.0)
192 , _transport_speed (0)
193 , _default_transport_speed (1.0)
194 , _last_transport_speed (0)
195 , _signalled_varispeed (0)
196 , _target_transport_speed (0.0)
197 , auto_play_legal (false)
198 , _last_slave_transport_sample (0)
199 , _requested_return_sample (-1)
200 , current_block_size (0)
201 , _worst_output_latency (0)
202 , _worst_input_latency (0)
203 , _worst_route_latency (0)
204 , _send_latency_changes (0)
205 , _have_captured (false)
206 , _non_soloed_outs_muted (false)
209 , _solo_isolated_cnt (0)
211 , _was_seamless (Config->get_seamless_loop ())
212 , _under_nsm_control (false)
214 , delta_accumulator_cnt (0)
215 , average_slave_delta (1800) // !!! why 1800 ???
217 , have_first_delta_accumulator (false)
218 , _slave_state (Stopped)
219 , _mtc_active (false)
220 , _ltc_active (false)
221 , post_export_sync (false)
222 , post_export_position (0)
224 , _export_rolling (false)
225 , _realtime_export (false)
226 , _region_export (false)
227 , _export_preroll (0)
228 , _pre_export_mmc_enabled (false)
229 , _name (snapshot_name)
231 , _send_qf_mtc (false)
232 , _pframes_since_last_mtc (0)
234 , loop_changing (false)
236 , _session_dir (new SessionDirectory (fullpath))
237 , _current_snapshot_name (snapshot_name)
239 , state_was_pending (false)
240 , _state_of_the_state (StateOfTheState(CannotSave|InitialConnecting|Loading))
242 , _save_queued (false)
243 , _last_roll_location (0)
244 , _last_roll_or_reversal_location (0)
245 , _last_record_location (0)
246 , pending_locate_roll (false)
247 , pending_locate_sample (0)
248 , pending_locate_flush (false)
249 , pending_abort (false)
250 , pending_auto_loop (false)
251 , _mempool ("Session", 3145728)
252 , lua (lua_newstate (&PBD::ReallocPool::lalloc, &_mempool))
254 , _butler (new Butler (*this))
255 , _post_transport_work (0)
256 , cumulative_rf_motion (0)
258 , _locations (new Locations (*this))
259 , _ignore_skips_updates (false)
260 , _rt_thread_active (false)
261 , _rt_emit_pending (false)
262 , _ac_thread_active (0)
263 , _latency_recompute_pending (0)
265 , outbound_mtc_timecode_frame (0)
266 , next_quarter_frame_to_send (-1)
267 , _samples_per_timecode_frame (0)
268 , _frames_per_hour (0)
269 , _timecode_frames_per_hour (0)
270 , last_timecode_valid (false)
271 , last_timecode_when (0)
272 , _send_timecode_update (false)
284 , ltc_timecode_offset (0)
285 , ltc_timecode_negative_offset (false)
286 , midi_control_ui (0)
288 , _all_route_group (new RouteGroup (*this, "all"))
289 , routes (new RouteList)
290 , _adding_routes_in_progress (false)
291 , _reconnecting_routes_in_progress (false)
292 , _route_deletion_in_progress (false)
293 , destructive_index (0)
294 , _track_number_decimals(1)
295 , default_fade_steepness (0)
296 , default_fade_msecs (0)
297 , _total_free_4k_blocks (0)
298 , _total_free_4k_blocks_uncertain (false)
299 , no_questions_about_missing_files (false)
302 , _bundles (new BundleList)
303 , _bundle_xml_node (0)
306 , _click_rec_only (false)
308 , click_emphasis_data (0)
310 , click_emphasis_length (0)
311 , _clicks_cleared (0)
312 , _count_in_samples (0)
313 , _play_range (false)
314 , _range_selection (-1,-1)
315 , _object_selection (-1,-1)
316 , _preroll_record_trim_len (0)
317 , _count_in_once (false)
319 , first_file_data_format_reset (true)
320 , first_file_header_format_reset (true)
321 , have_looped (false)
322 , _have_rec_enabled_track (false)
323 , _have_rec_disabled_track (true)
325 , _suspend_timecode_transmission (0)
326 , _speakers (new Speakers)
327 , _ignore_route_processor_changes (0)
332 , _vca_manager (new VCAManager (*this))
333 , _selection (new CoreSelection (*this))
334 , _global_locate_pending (false)
338 created_with = string_compose ("%1 %2", PROGRAM_NAME, revision);
340 pthread_mutex_init (&_rt_emit_mutex, 0);
341 pthread_cond_init (&_rt_emit_cond, 0);
343 pthread_mutex_init (&_auto_connect_mutex, 0);
344 pthread_cond_init (&_auto_connect_cond, 0);
346 init_name_id_counter (1); // reset for new sessions, start at 1
347 VCA::set_next_vca_number (1); // reset for new sessions, start at 1
349 pre_engine_init (fullpath); // sets _is_new
355 Stateful::loading_state_version = CURRENT_SESSION_FILE_VERSION;
357 #ifdef USE_TRACKS_CODE_FEATURES
358 sr = EngineStateController::instance()->get_current_sample_rate();
360 if (ensure_engine (sr, true)) {
362 throw SessionException (_("Cannot connect to audio/midi engine"));
365 // set samplerate for plugins added early
366 // e.g from templates or MB channelstrip
367 set_block_size (_engine.samples_per_cycle());
368 set_sample_rate (_engine.sample_rate());
370 if (create (mix_template, bus_profile)) {
372 throw SessionException (_("Session initialization failed"));
375 /* if a mix template was provided, then ::create() will
376 * have copied it into the session and we need to load it
377 * so that we have the state ready for ::set_state()
378 * after the engine is started.
380 * Note that we do NOT try to get the sample rate from
381 * the template at this time, though doing so would
382 * be easy if we decided this was an appropriate part
386 if (!mix_template.empty()) {
388 if (load_state (_current_snapshot_name)) {
389 throw SessionException (_("Failed to load template/snapshot state"));
391 } catch (PBD::unknown_enumeration& e) {
392 throw SessionException (_("Failed to parse template/snapshot state"));
394 store_recent_templates (mix_template);
397 /* load default session properties - if any */
402 if (load_state (_current_snapshot_name)) {
403 throw SessionException (_("Failed to load state"));
406 /* try to get sample rate from XML state so that we
407 * can influence the SR if we set up the audio
412 XMLProperty const * prop;
413 XMLNode const * root (state_tree->root());
414 if ((prop = root->property (X_("sample-rate"))) != 0) {
415 sr = atoi (prop->value());
419 if (ensure_engine (sr, false)) {
421 throw SessionException (_("Cannot connect to audio/midi engine"));
425 int err = post_engine_init ();
430 throw SessionException (string_compose (_("Cannot initialize session/engine: %1"), _("Failed to create background threads.")));
434 throw SessionException (string_compose (_("Cannot initialize session/engine: %1"), _("Invalid TempoMap in session-file.")));
437 throw SessionException (string_compose (_("Cannot initialize session/engine: %1"), _("Invalid or corrupt session state.")));
440 throw SessionException (string_compose (_("Cannot initialize session/engine: %1"), _("Port registration failed.")));
443 throw SessionException (string_compose (_("Cannot initialize session/engine: %1"), _("Unexpected exception during session setup, possibly invalid audio/midi engine parameters. Please see stdout/stderr for details")));
448 store_recent_sessions (_name, _path);
450 bool was_dirty = dirty();
452 _state_of_the_state = StateOfTheState (_state_of_the_state & ~Dirty);
454 PresentationInfo::Change.connect_same_thread (*this, boost::bind (&Session::notify_presentation_info_change, this));
456 Config->ParameterChanged.connect_same_thread (*this, boost::bind (&Session::config_changed, this, _1, false));
457 config.ParameterChanged.connect_same_thread (*this, boost::bind (&Session::config_changed, this, _1, true));
460 DirtyChanged (); /* EMIT SIGNAL */
463 StartTimeChanged.connect_same_thread (*this, boost::bind (&Session::start_time_changed, this, _1));
464 EndTimeChanged.connect_same_thread (*this, boost::bind (&Session::end_time_changed, this, _1));
466 Send::ChangedLatency.connect_same_thread (*this, boost::bind (&Session::send_latency_compensation_change, this));
468 emit_thread_start ();
469 auto_connect_thread_start ();
471 /* hook us up to the engine since we are now completely constructed */
473 BootMessage (_("Connect to engine"));
475 _engine.set_session (this);
476 _engine.reset_timebase ();
478 #ifdef USE_TRACKS_CODE_FEATURES
480 EngineStateController::instance()->set_session(this);
483 if ( ARDOUR::Profile->get_trx () ) {
485 /* Waves Tracks: fill session with tracks basing on the amount of inputs.
486 * each available input must have corresponding track when session starts.
489 uint32_t how_many (0);
491 std::vector<std::string> inputs;
492 EngineStateController::instance()->get_physical_audio_inputs(inputs);
494 how_many = inputs.size();
496 list<boost::shared_ptr<AudioTrack> > tracks;
498 // Track names after driver
499 if (Config->get_tracks_auto_naming() == NameAfterDriver) {
500 string track_name = "";
501 for (std::vector<string>::size_type i = 0; i < inputs.size(); ++i) {
503 track_name = inputs[i];
504 replace_all (track_name, "system:capture", "");
506 list<boost::shared_ptr<AudioTrack> > single_track = new_audio_track (1, 1, Normal, 0, 1, track_name);
507 tracks.insert(tracks.begin(), single_track.front());
509 } else { // Default track names
510 tracks = new_audio_track (1, 1, Normal, 0, how_many, string());
513 if (tracks.size() != how_many) {
515 throw failed_constructor ();
521 ensure_subdirs (); // archived or zipped sessions may lack peaks/ analysis/ etc
523 if (!mix_template.empty ()) {
524 /* ::create() unsets _is_new after creating the session.
525 * But for templated sessions, the sample-rate is initially unset
526 * (not read from template), so we need to save it (again).
534 BootMessage (_("Session loading complete"));
546 Session::next_name_id ()
548 return g_atomic_int_add (&_name_id_counter, 1);
552 Session::name_id_counter ()
554 return g_atomic_int_get (&_name_id_counter);
558 Session::init_name_id_counter (guint n)
560 g_atomic_int_set (&_name_id_counter, n);
564 Session::ensure_engine (uint32_t desired_sample_rate, bool isnew)
566 if (_engine.current_backend() == 0) {
567 /* backend is unknown ... */
568 boost::optional<int> r = AudioEngineSetupRequired (desired_sample_rate);
569 if (r.get_value_or (-1) != 0) {
572 } else if (!isnew && _engine.running() && _engine.sample_rate () == desired_sample_rate) {
574 } else if (_engine.setup_required()) {
575 /* backend is known, but setup is needed */
576 boost::optional<int> r = AudioEngineSetupRequired (desired_sample_rate);
577 if (r.get_value_or (-1) != 0) {
580 } else if (!_engine.running()) {
581 if (_engine.start()) {
586 /* at this point the engine should be running */
588 if (!_engine.running()) {
592 return immediately_post_engine ();
597 Session::immediately_post_engine ()
599 /* Do various initializations that should take place directly after we
600 * know that the engine is running, but before we either create a
601 * session or set state for an existing one.
604 _rt_tasklist.reset (new RTTaskList ());
606 if (how_many_dsp_threads () > 1) {
607 /* For now, only create the graph if we are using >1 DSP threads, as
608 it is a bit slower than the old code with 1 thread.
610 _process_graph.reset (new Graph (*this));
613 /* every time we reconnect, recompute worst case output latencies */
615 _engine.Running.connect_same_thread (*this, boost::bind (&Session::initialize_latencies, this));
617 if (synced_to_engine()) {
618 _engine.transport_stop ();
621 if (config.get_jack_time_master()) {
622 _engine.transport_locate (_transport_sample);
626 BootMessage (_("Set up LTC"));
628 BootMessage (_("Set up Click"));
630 BootMessage (_("Set up standard connections"));
634 catch (failed_constructor& err) {
638 /* TODO, connect in different thread. (PortRegisteredOrUnregistered may be in RT context)
640 _engine.PortRegisteredOrUnregistered.connect_same_thread (*this, boost::bind (&Session::setup_bundles, this));
648 vector<void*> debug_pointers;
650 /* if we got to here, leaving pending capture state around
654 remove_pending_capture_state ();
658 _state_of_the_state = StateOfTheState (CannotSave|Deletion);
661 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
667 /* disconnect from any and all signals that we are connected to */
669 Port::PortSignalDrop (); /* EMIT SIGNAL */
672 /* shutdown control surface protocols while we still have ports
673 * and the engine to move data to any devices.
676 /* remove I/O objects before unsetting the engine session */
679 _ltc_output.reset ();
681 ControlProtocolManager::instance().drop_protocols ();
683 /* stop auto dis/connecting */
684 auto_connect_thread_terminate ();
686 MIDI::Name::MidiPatchManager::instance().remove_search_path(session_directory().midi_patch_path());
688 _engine.remove_session ();
690 #ifdef USE_TRACKS_CODE_FEATURES
691 EngineStateController::instance()->remove_session();
694 /* drop slave, if any. We don't use use_sync_source (0) because
695 * there's no reason to do all the other stuff that may happen
696 * when calling that method.
700 /* deregister all ports - there will be no process or any other
701 * callbacks from the engine any more.
704 Port::PortDrop (); /* EMIT SIGNAL */
706 /* clear history so that no references to objects are held any more */
710 /* clear state tree so that no references to objects are held any more */
716 /* unregister all lua functions, drop held references (if any) */
717 Glib::Threads::Mutex::Lock tm (lua_lock, Glib::Threads::TRY_LOCK);
719 lua.do_command ("Session = nil");
727 lua.collect_garbage ();
730 /* reset dynamic state version back to default */
731 Stateful::loading_state_version = 0;
733 _butler->drop_references ();
737 delete _all_route_group;
739 DEBUG_TRACE (DEBUG::Destruction, "delete route groups\n");
740 for (list<RouteGroup *>::iterator i = _route_groups.begin(); i != _route_groups.end(); ++i) {
744 if (click_data != default_click) {
745 delete [] click_data;
748 if (click_emphasis_data != default_click_emphasis) {
749 delete [] click_emphasis_data;
754 /* need to remove auditioner before monitoring section
755 * otherwise it is re-connected.
756 * Note: If a session was never successfully loaded, there
757 * may not yet be an auditioner.
760 auditioner->drop_references ();
764 /* drop references to routes held by the monitoring section
765 * specifically _monitor_out aux/listen references */
766 remove_monitor_section();
768 /* clear out any pending dead wood from RCU managed objects */
773 DiskReader::free_working_buffers();
775 /* tell everyone who is still standing that we're about to die */
778 /* tell everyone to drop references and delete objects as we go */
780 DEBUG_TRACE (DEBUG::Destruction, "delete regions\n");
781 RegionFactory::delete_all_regions ();
783 /* Do this early so that VCAs no longer hold references to routes */
785 DEBUG_TRACE (DEBUG::Destruction, "delete vcas\n");
788 DEBUG_TRACE (DEBUG::Destruction, "delete routes\n");
790 /* reset these three references to special routes before we do the usual route delete thing */
792 _master_out.reset ();
793 _monitor_out.reset ();
796 RCUWriter<RouteList> writer (routes);
797 boost::shared_ptr<RouteList> r = writer.get_copy ();
799 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
800 DEBUG_TRACE(DEBUG::Destruction, string_compose ("Dropping for route %1 ; pre-ref = %2\n", (*i)->name(), (*i).use_count()));
801 (*i)->drop_references ();
805 /* writer goes out of scope and updates master */
810 DEBUG_TRACE (DEBUG::Destruction, "delete sources\n");
811 Glib::Threads::Mutex::Lock lm (source_lock);
812 for (SourceMap::iterator i = sources.begin(); i != sources.end(); ++i) {
813 DEBUG_TRACE(DEBUG::Destruction, string_compose ("Dropping for source %1 ; pre-ref = %2\n", i->second->name(), i->second.use_count()));
814 i->second->drop_references ();
820 /* not strictly necessary, but doing it here allows the shared_ptr debugging to work */
823 emit_thread_terminate ();
825 pthread_cond_destroy (&_rt_emit_cond);
826 pthread_mutex_destroy (&_rt_emit_mutex);
828 pthread_cond_destroy (&_auto_connect_cond);
829 pthread_mutex_destroy (&_auto_connect_mutex);
831 delete _scene_changer; _scene_changer = 0;
832 delete midi_control_ui; midi_control_ui = 0;
834 delete _mmc; _mmc = 0;
835 delete _midi_ports; _midi_ports = 0;
836 delete _locations; _locations = 0;
841 /* clear event queue, the session is gone, nobody is interested in
842 * those anymore, but they do leak memory if not removed
844 while (!immediate_events.empty ()) {
845 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
846 SessionEvent *ev = immediate_events.front ();
847 DEBUG_TRACE (DEBUG::SessionEvents, string_compose ("Drop event: %1\n", enum_2_string (ev->type)));
848 immediate_events.pop_front ();
852 case SessionEvent::AutoLoop:
853 case SessionEvent::AutoLoopDeclick:
854 case SessionEvent::Skip:
855 case SessionEvent::PunchIn:
856 case SessionEvent::PunchOut:
857 case SessionEvent::StopOnce:
858 case SessionEvent::RangeStop:
859 case SessionEvent::RangeLocate:
863 case SessionEvent::RealTimeOperation:
870 del = del && !_remove_event (ev);
878 /* unregister all dropped ports, process pending port deletion. */
879 // this may call ARDOUR::Port::drop ... jack_port_unregister ()
880 // jack1 cannot cope with removing ports while processing
881 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
882 AudioEngine::instance()->clear_pending_port_deletions ();
885 DEBUG_TRACE (DEBUG::Destruction, "delete selection\n");
889 DEBUG_TRACE (DEBUG::Destruction, "Session::destroy() done\n");
891 BOOST_SHOW_POINTERS ();
895 Session::setup_ltc ()
899 _ltc_input.reset (new IO (*this, X_("LTC In"), IO::Input));
900 _ltc_output.reset (new IO (*this, X_("LTC Out"), IO::Output));
902 if (state_tree && (child = find_named_node (*state_tree->root(), X_("LTC In"))) != 0) {
903 _ltc_input->set_state (*(child->children().front()), Stateful::loading_state_version);
906 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
907 _ltc_input->ensure_io (ChanCount (DataType::AUDIO, 1), true, this);
908 // TODO use auto-connect thread somehow (needs a route currently)
909 // see note in Session::auto_connect_thread_run() why process lock is needed.
910 reconnect_ltc_input ();
914 if (state_tree && (child = find_named_node (*state_tree->root(), X_("LTC Out"))) != 0) {
915 _ltc_output->set_state (*(child->children().front()), Stateful::loading_state_version);
918 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
919 _ltc_output->ensure_io (ChanCount (DataType::AUDIO, 1), true, this);
920 // TODO use auto-connect thread
921 reconnect_ltc_output ();
925 /* fix up names of LTC ports because we don't want the normal
926 * IO style of NAME/TYPE-{in,out}N
929 _ltc_input->nth (0)->set_name (X_("LTC-in"));
930 _ltc_output->nth (0)->set_name (X_("LTC-out"));
934 Session::setup_click ()
938 boost::shared_ptr<AutomationList> gl (new AutomationList (Evoral::Parameter (GainAutomation)));
939 boost::shared_ptr<GainControl> gain_control = boost::shared_ptr<GainControl> (new GainControl (*this, Evoral::Parameter(GainAutomation), gl));
941 _click_io.reset (new ClickIO (*this, X_("Click")));
942 _click_gain.reset (new Amp (*this, _("Fader"), gain_control, true));
943 _click_gain->activate ();
945 setup_click_state (state_tree->root());
947 setup_click_state (0);
952 Session::setup_click_state (const XMLNode* node)
954 const XMLNode* child = 0;
956 if (node && (child = find_named_node (*node, "Click")) != 0) {
958 /* existing state for Click */
961 if (Stateful::loading_state_version < 3000) {
962 c = _click_io->set_state_2X (*child->children().front(), Stateful::loading_state_version, false);
964 const XMLNodeList& children (child->children());
965 XMLNodeList::const_iterator i = children.begin();
966 if ((c = _click_io->set_state (**i, Stateful::loading_state_version)) == 0) {
968 if (i != children.end()) {
969 c = _click_gain->set_state (**i, Stateful::loading_state_version);
975 _clicking = Config->get_clicking ();
979 error << _("could not setup Click I/O") << endmsg;
986 /* default state for Click: dual-mono to first 2 physical outputs */
989 _engine.get_physical_outputs (DataType::AUDIO, outs);
991 for (uint32_t physport = 0; physport < 2; ++physport) {
992 if (outs.size() > physport) {
993 if (_click_io->add_port (outs[physport], this)) {
994 // relax, even though its an error
999 if (_click_io->n_ports () > ChanCount::ZERO) {
1000 _clicking = Config->get_clicking ();
1006 Session::get_physical_ports (vector<string>& inputs, vector<string>& outputs, DataType type,
1007 MidiPortFlags include, MidiPortFlags exclude)
1009 _engine.get_physical_inputs (type, inputs, include, exclude);
1010 _engine.get_physical_outputs (type, outputs, include, exclude);
1014 Session::setup_bundles ()
1018 RCUWriter<BundleList> writer (_bundles);
1019 boost::shared_ptr<BundleList> b = writer.get_copy ();
1020 for (BundleList::iterator i = b->begin(); i != b->end();) {
1021 if (boost::dynamic_pointer_cast<UserBundle>(*i)) {
1029 vector<string> inputs[DataType::num_types];
1030 vector<string> outputs[DataType::num_types];
1032 for (uint32_t i = 0; i < DataType::num_types; ++i) {
1033 get_physical_ports (inputs[i], outputs[i], DataType (DataType::Symbol (i)),
1034 MidiPortFlags (0), /* no specific inclusions */
1035 MidiPortFlags (MidiPortControl|MidiPortVirtual) /* exclude control & virtual ports */
1039 /* Create a set of Bundle objects that map
1040 to the physical I/O currently available. We create both
1041 mono and stereo bundles, so that the common cases of mono
1042 and stereo tracks get bundles to put in their mixer strip
1043 in / out menus. There may be a nicer way of achieving that;
1044 it doesn't really scale that well to higher channel counts
1047 /* mono output bundles */
1049 for (uint32_t np = 0; np < outputs[DataType::AUDIO].size(); ++np) {
1051 std::string pn = _engine.get_pretty_name_by_name (outputs[DataType::AUDIO][np]);
1053 snprintf (buf, sizeof (buf), _("out %s"), pn.c_str());
1055 snprintf (buf, sizeof (buf), _("out %" PRIu32), np+1);
1058 boost::shared_ptr<Bundle> c (new Bundle (buf, true));
1059 c->add_channel (_("mono"), DataType::AUDIO);
1060 c->set_port (0, outputs[DataType::AUDIO][np]);
1062 add_bundle (c, false);
1065 /* stereo output bundles */
1067 for (uint32_t np = 0; np < outputs[DataType::AUDIO].size(); np += 2) {
1068 if (np + 1 < outputs[DataType::AUDIO].size()) {
1070 snprintf (buf, sizeof(buf), _("out %" PRIu32 "+%" PRIu32), np + 1, np + 2);
1071 boost::shared_ptr<Bundle> c (new Bundle (buf, true));
1072 c->add_channel (_("L"), DataType::AUDIO);
1073 c->set_port (0, outputs[DataType::AUDIO][np]);
1074 c->add_channel (_("R"), DataType::AUDIO);
1075 c->set_port (1, outputs[DataType::AUDIO][np + 1]);
1077 add_bundle (c, false);
1081 /* mono input bundles */
1083 for (uint32_t np = 0; np < inputs[DataType::AUDIO].size(); ++np) {
1085 std::string pn = _engine.get_pretty_name_by_name (inputs[DataType::AUDIO][np]);
1087 snprintf (buf, sizeof (buf), _("in %s"), pn.c_str());
1089 snprintf (buf, sizeof (buf), _("in %" PRIu32), np+1);
1092 boost::shared_ptr<Bundle> c (new Bundle (buf, false));
1093 c->add_channel (_("mono"), DataType::AUDIO);
1094 c->set_port (0, inputs[DataType::AUDIO][np]);
1096 add_bundle (c, false);
1099 /* stereo input bundles */
1101 for (uint32_t np = 0; np < inputs[DataType::AUDIO].size(); np += 2) {
1102 if (np + 1 < inputs[DataType::AUDIO].size()) {
1104 snprintf (buf, sizeof(buf), _("in %" PRIu32 "+%" PRIu32), np + 1, np + 2);
1106 boost::shared_ptr<Bundle> c (new Bundle (buf, false));
1107 c->add_channel (_("L"), DataType::AUDIO);
1108 c->set_port (0, inputs[DataType::AUDIO][np]);
1109 c->add_channel (_("R"), DataType::AUDIO);
1110 c->set_port (1, inputs[DataType::AUDIO][np + 1]);
1112 add_bundle (c, false);
1116 /* MIDI input bundles */
1118 for (uint32_t np = 0; np < inputs[DataType::MIDI].size(); ++np) {
1119 string n = inputs[DataType::MIDI][np];
1121 std::string pn = _engine.get_pretty_name_by_name (n);
1125 boost::erase_first (n, X_("alsa_pcm:"));
1127 boost::shared_ptr<Bundle> c (new Bundle (n, false));
1128 c->add_channel ("", DataType::MIDI);
1129 c->set_port (0, inputs[DataType::MIDI][np]);
1130 add_bundle (c, false);
1133 /* MIDI output bundles */
1135 for (uint32_t np = 0; np < outputs[DataType::MIDI].size(); ++np) {
1136 string n = outputs[DataType::MIDI][np];
1137 std::string pn = _engine.get_pretty_name_by_name (n);
1141 boost::erase_first (n, X_("alsa_pcm:"));
1143 boost::shared_ptr<Bundle> c (new Bundle (n, true));
1144 c->add_channel ("", DataType::MIDI);
1145 c->set_port (0, outputs[DataType::MIDI][np]);
1146 add_bundle (c, false);
1149 // we trust the backend to only calls us if there's a change
1150 BundleAddedOrRemoved (); /* EMIT SIGNAL */
1154 Session::auto_connect_master_bus ()
1156 if (!_master_out || !Config->get_auto_connect_standard_busses() || _monitor_out) {
1160 // Waves Tracks: Do not connect master bas for Tracks if AutoConnectMaster option is not set
1161 // In this case it means "Multi Out" output mode
1162 if (ARDOUR::Profile->get_trx() && !(Config->get_output_auto_connect() & AutoConnectMaster) ) {
1166 /* if requested auto-connect the outputs to the first N physical ports.
1169 uint32_t limit = _master_out->n_outputs().n_total();
1170 vector<string> outputs[DataType::num_types];
1172 for (uint32_t i = 0; i < DataType::num_types; ++i) {
1173 _engine.get_physical_outputs (DataType (DataType::Symbol (i)), outputs[i]);
1176 for (uint32_t n = 0; n < limit; ++n) {
1177 boost::shared_ptr<Port> p = _master_out->output()->nth (n);
1179 if (outputs[p->type()].size() > n) {
1180 connect_to = outputs[p->type()][n];
1183 if (!connect_to.empty() && p->connected_to (connect_to) == false) {
1184 if (_master_out->output()->connect (p, connect_to, this)) {
1185 error << string_compose (_("cannot connect master output %1 to %2"), n, connect_to)
1194 Session::remove_monitor_section ()
1196 if (!_monitor_out || Profile->get_trx()) {
1200 /* force reversion to Solo-In-Place */
1201 Config->set_solo_control_is_listen_control (false);
1203 /* if we are auditioning, cancel it ... this is a workaround
1204 to a problem (auditioning does not execute the process graph,
1205 which is needed to remove routes when using >1 core for processing)
1210 /* Hold process lock while doing this so that we don't hear bits and
1211 * pieces of audio as we work on each route.
1214 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
1216 /* Connect tracks to monitor section. Note that in an
1217 existing session, the internal sends will already exist, but we want the
1218 routes to notice that they connect to the control out specifically.
1222 boost::shared_ptr<RouteList> r = routes.reader ();
1223 ProcessorChangeBlocker pcb (this, false);
1225 for (RouteList::iterator x = r->begin(); x != r->end(); ++x) {
1227 if ((*x)->is_monitor()) {
1229 } else if ((*x)->is_master()) {
1232 (*x)->remove_aux_or_listen (_monitor_out);
1237 remove_route (_monitor_out);
1238 if (_state_of_the_state & Deletion) {
1242 auto_connect_master_bus ();
1245 auditioner->connect ();
1248 Config->ParameterChanged ("use-monitor-bus");
1252 Session::add_monitor_section ()
1256 if (_monitor_out || !_master_out || Profile->get_trx()) {
1260 boost::shared_ptr<Route> r (new Route (*this, _("Monitor"), PresentationInfo::MonitorOut, DataType::AUDIO));
1266 BOOST_MARK_ROUTE(r);
1269 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
1270 r->input()->ensure_io (_master_out->output()->n_ports(), false, this);
1271 r->output()->ensure_io (_master_out->output()->n_ports(), false, this);
1273 error << _("Cannot create monitor section. 'Monitor' Port name is not unique.") << endmsg;
1278 add_routes (rl, false, false, false, 0);
1280 assert (_monitor_out);
1282 /* AUDIO ONLY as of june 29th 2009, because listen semantics for anything else
1283 are undefined, at best.
1286 uint32_t limit = _monitor_out->n_inputs().n_audio();
1290 /* connect the inputs to the master bus outputs. this
1291 * represents a separate data feed from the internal sends from
1292 * each route. as of jan 2011, it allows the monitor section to
1293 * conditionally ignore either the internal sends or the normal
1294 * input feed, but we should really find a better way to do
1298 _master_out->output()->disconnect (this);
1300 for (uint32_t n = 0; n < limit; ++n) {
1301 boost::shared_ptr<AudioPort> p = _monitor_out->input()->ports().nth_audio_port (n);
1302 boost::shared_ptr<AudioPort> o = _master_out->output()->ports().nth_audio_port (n);
1305 string connect_to = o->name();
1306 if (_monitor_out->input()->connect (p, connect_to, this)) {
1307 error << string_compose (_("cannot connect control input %1 to %2"), n, connect_to)
1315 /* if monitor section is not connected, connect it to physical outs
1318 if ((Config->get_auto_connect_standard_busses () || Profile->get_mixbus ()) && !_monitor_out->output()->connected ()) {
1320 if (!Config->get_monitor_bus_preferred_bundle().empty()) {
1322 boost::shared_ptr<Bundle> b = bundle_by_name (Config->get_monitor_bus_preferred_bundle());
1325 _monitor_out->output()->connect_ports_to_bundle (b, true, this);
1327 warning << string_compose (_("The preferred I/O for the monitor bus (%1) cannot be found"),
1328 Config->get_monitor_bus_preferred_bundle())
1334 /* Monitor bus is audio only */
1336 vector<string> outputs[DataType::num_types];
1338 for (uint32_t i = 0; i < DataType::num_types; ++i) {
1339 _engine.get_physical_outputs (DataType (DataType::Symbol (i)), outputs[i]);
1342 uint32_t mod = outputs[DataType::AUDIO].size();
1343 uint32_t limit = _monitor_out->n_outputs().get (DataType::AUDIO);
1347 for (uint32_t n = 0; n < limit; ++n) {
1349 boost::shared_ptr<Port> p = _monitor_out->output()->ports().port(DataType::AUDIO, n);
1351 if (outputs[DataType::AUDIO].size() > (n % mod)) {
1352 connect_to = outputs[DataType::AUDIO][n % mod];
1355 if (!connect_to.empty()) {
1356 if (_monitor_out->output()->connect (p, connect_to, this)) {
1357 error << string_compose (
1358 _("cannot connect control output %1 to %2"),
1369 /* Hold process lock while doing this so that we don't hear bits and
1370 * pieces of audio as we work on each route.
1373 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
1375 /* Connect tracks to monitor section. Note that in an
1376 existing session, the internal sends will already exist, but we want the
1377 routes to notice that they connect to the control out specifically.
1381 boost::shared_ptr<RouteList> rls = routes.reader ();
1383 ProcessorChangeBlocker pcb (this, false /* XXX */);
1385 for (RouteList::iterator x = rls->begin(); x != rls->end(); ++x) {
1387 if ((*x)->is_monitor()) {
1389 } else if ((*x)->is_master()) {
1392 (*x)->enable_monitor_send ();
1397 auditioner->connect ();
1399 Config->ParameterChanged ("use-monitor-bus");
1403 Session::reset_monitor_section ()
1405 /* Process lock should be held by the caller.*/
1407 if (!_monitor_out || Profile->get_trx()) {
1411 uint32_t limit = _master_out->n_outputs().n_audio();
1413 /* connect the inputs to the master bus outputs. this
1414 * represents a separate data feed from the internal sends from
1415 * each route. as of jan 2011, it allows the monitor section to
1416 * conditionally ignore either the internal sends or the normal
1417 * input feed, but we should really find a better way to do
1421 _master_out->output()->disconnect (this);
1422 _monitor_out->output()->disconnect (this);
1424 // monitor section follow master bus - except midi
1425 ChanCount mon_chn (_master_out->output()->n_ports());
1426 mon_chn.set_midi (0);
1428 _monitor_out->input()->ensure_io (mon_chn, false, this);
1429 _monitor_out->output()->ensure_io (mon_chn, false, this);
1431 for (uint32_t n = 0; n < limit; ++n) {
1432 boost::shared_ptr<AudioPort> p = _monitor_out->input()->ports().nth_audio_port (n);
1433 boost::shared_ptr<AudioPort> o = _master_out->output()->ports().nth_audio_port (n);
1436 string connect_to = o->name();
1437 if (_monitor_out->input()->connect (p, connect_to, this)) {
1438 error << string_compose (_("cannot connect control input %1 to %2"), n, connect_to)
1445 /* connect monitor section to physical outs
1448 if (Config->get_auto_connect_standard_busses()) {
1450 if (!Config->get_monitor_bus_preferred_bundle().empty()) {
1452 boost::shared_ptr<Bundle> b = bundle_by_name (Config->get_monitor_bus_preferred_bundle());
1455 _monitor_out->output()->connect_ports_to_bundle (b, true, this);
1457 warning << string_compose (_("The preferred I/O for the monitor bus (%1) cannot be found"),
1458 Config->get_monitor_bus_preferred_bundle())
1464 /* Monitor bus is audio only */
1466 vector<string> outputs[DataType::num_types];
1468 for (uint32_t i = 0; i < DataType::num_types; ++i) {
1469 _engine.get_physical_outputs (DataType (DataType::Symbol (i)), outputs[i]);
1472 uint32_t mod = outputs[DataType::AUDIO].size();
1473 uint32_t limit = _monitor_out->n_outputs().get (DataType::AUDIO);
1477 for (uint32_t n = 0; n < limit; ++n) {
1479 boost::shared_ptr<Port> p = _monitor_out->output()->ports().port(DataType::AUDIO, n);
1481 if (outputs[DataType::AUDIO].size() > (n % mod)) {
1482 connect_to = outputs[DataType::AUDIO][n % mod];
1485 if (!connect_to.empty()) {
1486 if (_monitor_out->output()->connect (p, connect_to, this)) {
1487 error << string_compose (
1488 _("cannot connect control output %1 to %2"),
1499 /* Connect tracks to monitor section. Note that in an
1500 existing session, the internal sends will already exist, but we want the
1501 routes to notice that they connect to the control out specifically.
1505 boost::shared_ptr<RouteList> rls = routes.reader ();
1507 ProcessorChangeBlocker pcb (this, false);
1509 for (RouteList::iterator x = rls->begin(); x != rls->end(); ++x) {
1511 if ((*x)->is_monitor()) {
1513 } else if ((*x)->is_master()) {
1516 (*x)->enable_monitor_send ();
1522 Session::add_master_bus (ChanCount const& count)
1524 if (master_out ()) {
1530 boost::shared_ptr<Route> r (new Route (*this, _("Master"), PresentationInfo::MasterOut, DataType::AUDIO));
1535 BOOST_MARK_ROUTE(r);
1538 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
1539 r->input()->ensure_io (count, false, this);
1540 r->output()->ensure_io (count, false, this);
1544 add_routes (rl, false, false, false, PresentationInfo::max_order);
1549 Session::hookup_io ()
1551 /* stop graph reordering notifications from
1552 causing resorts, etc.
1555 _state_of_the_state = StateOfTheState (_state_of_the_state | InitialConnecting);
1559 /* we delay creating the auditioner till now because
1560 it makes its own connections to ports.
1564 boost::shared_ptr<Auditioner> a (new Auditioner (*this));
1566 throw failed_constructor ();
1571 catch (failed_constructor& err) {
1572 warning << _("cannot create Auditioner: no auditioning of regions possible") << endmsg;
1576 /* load bundles, which we may have postponed earlier on */
1577 if (_bundle_xml_node) {
1578 load_bundles (*_bundle_xml_node);
1579 delete _bundle_xml_node;
1582 /* Tell all IO objects to connect themselves together */
1584 IO::enable_connecting ();
1586 /* Now tell all "floating" ports to connect to whatever
1587 they should be connected to.
1590 AudioEngine::instance()->reconnect_ports ();
1592 /* Anyone who cares about input state, wake up and do something */
1594 IOConnectionsComplete (); /* EMIT SIGNAL */
1596 _state_of_the_state = StateOfTheState (_state_of_the_state & ~InitialConnecting);
1598 /* now handle the whole enchilada as if it was one
1599 graph reorder event.
1604 /* update the full solo state, which can't be
1605 correctly determined on a per-route basis, but
1606 needs the global overview that only the session
1610 update_route_solo_state ();
1614 Session::track_playlist_changed (boost::weak_ptr<Track> wp)
1616 boost::shared_ptr<Track> track = wp.lock ();
1621 boost::shared_ptr<Playlist> playlist;
1623 if ((playlist = track->playlist()) != 0) {
1624 playlist->RegionAdded.connect_same_thread (*this, boost::bind (&Session::playlist_region_added, this, _1));
1625 playlist->RangesMoved.connect_same_thread (*this, boost::bind (&Session::playlist_ranges_moved, this, _1));
1626 playlist->RegionsExtended.connect_same_thread (*this, boost::bind (&Session::playlist_regions_extended, this, _1));
1631 Session::record_enabling_legal () const
1633 /* this used to be in here, but survey says.... we don't need to restrict it */
1634 // if (record_status() == Recording) {
1638 if (Config->get_all_safe()) {
1645 Session::set_track_monitor_input_status (bool yn)
1647 boost::shared_ptr<RouteList> rl = routes.reader ();
1648 for (RouteList::iterator i = rl->begin(); i != rl->end(); ++i) {
1649 boost::shared_ptr<AudioTrack> tr = boost::dynamic_pointer_cast<AudioTrack> (*i);
1650 if (tr && tr->rec_enable_control()->get_value()) {
1651 //cerr << "switching to input = " << !auto_input << __FILE__ << __LINE__ << endl << endl;
1652 tr->request_input_monitoring (yn);
1658 Session::auto_punch_start_changed (Location* location)
1660 replace_event (SessionEvent::PunchIn, location->start());
1662 if (get_record_enabled() && config.get_punch_in() && !actively_recording ()) {
1663 /* capture start has been changed, so save new pending state */
1664 save_state ("", true);
1669 Session::auto_punch_end_changed (Location* location)
1671 replace_event (SessionEvent::PunchOut, location->end());
1675 Session::auto_punch_changed (Location* location)
1677 auto_punch_start_changed (location);
1678 auto_punch_end_changed (location);
1681 /** @param loc A loop location.
1682 * @param pos Filled in with the start time of the required fade-out (in session samples).
1683 * @param length Filled in with the length of the required fade-out.
1686 Session::auto_loop_declick_range (Location* loc, samplepos_t & pos, samplepos_t & length)
1688 pos = max (loc->start(), loc->end() - 64);
1689 length = loc->end() - pos;
1693 Session::auto_loop_changed (Location* location)
1695 replace_event (SessionEvent::AutoLoop, location->end(), location->start());
1698 auto_loop_declick_range (location, dcp, dcl);
1700 if (transport_rolling() && play_loop) {
1702 replace_event (SessionEvent::AutoLoopDeclick, dcp, dcl);
1704 // if (_transport_sample > location->end()) {
1706 if (_transport_sample < location->start() || _transport_sample > location->end()) {
1707 // relocate to beginning of loop
1708 clear_events (SessionEvent::LocateRoll);
1710 request_locate (location->start(), true);
1713 else if (Config->get_seamless_loop() && !loop_changing) {
1715 // schedule a locate-roll to refill the disk readers at the
1716 // previous loop end
1717 loop_changing = true;
1719 if (location->end() > last_loopend) {
1720 clear_events (SessionEvent::LocateRoll);
1721 SessionEvent *ev = new SessionEvent (SessionEvent::LocateRoll, SessionEvent::Add, last_loopend, last_loopend, 0, true);
1727 clear_events (SessionEvent::AutoLoopDeclick);
1728 clear_events (SessionEvent::AutoLoop);
1731 /* possibly move playhead if not rolling; if we are rolling we'll move
1732 to the loop start on stop if that is appropriate.
1737 if (!transport_rolling() && select_playhead_priority_target (pos)) {
1738 if (pos == location->start()) {
1739 request_locate (pos);
1744 last_loopend = location->end();
1749 Session::set_auto_punch_location (Location* location)
1753 if ((existing = _locations->auto_punch_location()) != 0 && existing != location) {
1754 punch_connections.drop_connections();
1755 existing->set_auto_punch (false, this);
1756 clear_events (SessionEvent::PunchIn);
1757 clear_events (SessionEvent::PunchOut);
1758 auto_punch_location_changed (0);
1763 if (location == 0) {
1767 if (location->end() <= location->start()) {
1768 error << _("Session: you can't use that location for auto punch (start <= end)") << endmsg;
1772 punch_connections.drop_connections ();
1774 location->StartChanged.connect_same_thread (punch_connections, boost::bind (&Session::auto_punch_start_changed, this, location));
1775 location->EndChanged.connect_same_thread (punch_connections, boost::bind (&Session::auto_punch_end_changed, this, location));
1776 location->Changed.connect_same_thread (punch_connections, boost::bind (&Session::auto_punch_changed, this, location));
1778 location->set_auto_punch (true, this);
1780 auto_punch_changed (location);
1782 auto_punch_location_changed (location);
1786 Session::set_session_extents (samplepos_t start, samplepos_t end)
1789 if ((existing = _locations->session_range_location()) == 0) {
1790 //if there is no existing session, we need to make a new session location (should never happen)
1791 existing = new Location (*this, 0, 0, _("session"), Location::IsSessionRange, 0);
1795 error << _("Session: you can't use that location for session start/end)") << endmsg;
1799 existing->set( start, end );
1805 Session::set_auto_loop_location (Location* location)
1809 if ((existing = _locations->auto_loop_location()) != 0 && existing != location) {
1810 loop_connections.drop_connections ();
1811 existing->set_auto_loop (false, this);
1812 remove_event (existing->end(), SessionEvent::AutoLoop);
1815 auto_loop_declick_range (existing, dcp, dcl);
1816 remove_event (dcp, SessionEvent::AutoLoopDeclick);
1817 auto_loop_location_changed (0);
1822 if (location == 0) {
1826 if (location->end() <= location->start()) {
1827 error << _("You cannot use this location for auto-loop because it has zero or negative length") << endmsg;
1831 last_loopend = location->end();
1833 loop_connections.drop_connections ();
1835 location->StartChanged.connect_same_thread (loop_connections, boost::bind (&Session::auto_loop_changed, this, location));
1836 location->EndChanged.connect_same_thread (loop_connections, boost::bind (&Session::auto_loop_changed, this, location));
1837 location->Changed.connect_same_thread (loop_connections, boost::bind (&Session::auto_loop_changed, this, location));
1838 location->FlagsChanged.connect_same_thread (loop_connections, boost::bind (&Session::auto_loop_changed, this, location));
1840 location->set_auto_loop (true, this);
1842 if (Config->get_loop_is_mode() && play_loop && Config->get_seamless_loop()) {
1843 // set all tracks to use internal looping
1844 boost::shared_ptr<RouteList> rl = routes.reader ();
1845 for (RouteList::iterator i = rl->begin(); i != rl->end(); ++i) {
1846 boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (*i);
1847 if (tr && !tr->is_private_route()) {
1848 tr->set_loop (location);
1853 /* take care of our stuff first */
1855 auto_loop_changed (location);
1857 /* now tell everyone else */
1859 auto_loop_location_changed (location);
1863 Session::update_marks (Location*)
1869 Session::update_skips (Location* loc, bool consolidate)
1871 if (_ignore_skips_updates) {
1875 Locations::LocationList skips;
1878 PBD::Unwinder<bool> uw (_ignore_skips_updates, true);
1879 consolidate_skips (loc);
1882 sync_locations_to_skips ();
1888 Session::consolidate_skips (Location* loc)
1890 Locations::LocationList all_locations = _locations->list ();
1892 for (Locations::LocationList::iterator l = all_locations.begin(); l != all_locations.end(); ) {
1894 if (!(*l)->is_skip ()) {
1899 /* don't test against self */
1906 switch (Evoral::coverage ((*l)->start(), (*l)->end(), loc->start(), loc->end())) {
1907 case Evoral::OverlapInternal:
1908 case Evoral::OverlapExternal:
1909 case Evoral::OverlapStart:
1910 case Evoral::OverlapEnd:
1911 /* adjust new location to cover existing one */
1912 loc->set_start (min (loc->start(), (*l)->start()));
1913 loc->set_end (max (loc->end(), (*l)->end()));
1914 /* we don't need this one any more */
1915 _locations->remove (*l);
1916 /* the location has been deleted, so remove reference to it in our local list */
1917 l = all_locations.erase (l);
1920 case Evoral::OverlapNone:
1928 Session::sync_locations_to_skips ()
1930 /* This happens asynchronously (in the audioengine thread). After the clear is done, we will call
1931 * Session::_sync_locations_to_skips() from the audioengine thread.
1933 clear_events (SessionEvent::Skip, boost::bind (&Session::_sync_locations_to_skips, this));
1937 Session::_sync_locations_to_skips ()
1939 /* called as a callback after existing Skip events have been cleared from a realtime audioengine thread */
1941 Locations::LocationList const & locs (_locations->list());
1943 for (Locations::LocationList::const_iterator i = locs.begin(); i != locs.end(); ++i) {
1945 Location* location = *i;
1947 if (location->is_skip() && location->is_skipping()) {
1948 SessionEvent* ev = new SessionEvent (SessionEvent::Skip, SessionEvent::Add, location->start(), location->end(), 1.0);
1956 Session::location_added (Location *location)
1958 if (location->is_auto_punch()) {
1959 set_auto_punch_location (location);
1962 if (location->is_auto_loop()) {
1963 set_auto_loop_location (location);
1966 if (location->is_session_range()) {
1967 /* no need for any signal handling or event setting with the session range,
1968 because we keep a direct reference to it and use its start/end directly.
1970 _session_range_location = location;
1973 if (location->is_mark()) {
1974 /* listen for per-location signals that require us to do any * global updates for marks */
1976 location->StartChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1977 location->EndChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1978 location->Changed.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1979 location->FlagsChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1980 location->PositionLockStyleChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1983 if (location->is_range_marker()) {
1984 /* listen for per-location signals that require us to do any * global updates for marks */
1986 location->StartChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1987 location->EndChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1988 location->Changed.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1989 location->FlagsChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1990 location->PositionLockStyleChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
1993 if (location->is_skip()) {
1994 /* listen for per-location signals that require us to update skip-locate events */
1996 location->StartChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_skips, this, location, true));
1997 location->EndChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_skips, this, location, true));
1998 location->Changed.connect_same_thread (skip_update_connections, boost::bind (&Session::update_skips, this, location, true));
1999 location->FlagsChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_skips, this, location, false));
2000 location->PositionLockStyleChanged.connect_same_thread (skip_update_connections, boost::bind (&Session::update_marks, this, location));
2002 update_skips (location, true);
2009 Session::location_removed (Location *location)
2011 if (location->is_auto_loop()) {
2012 set_auto_loop_location (0);
2013 set_track_loop (false);
2016 if (location->is_auto_punch()) {
2017 set_auto_punch_location (0);
2020 if (location->is_session_range()) {
2021 /* this is never supposed to happen */
2022 error << _("programming error: session range removed!") << endl;
2025 if (location->is_skip()) {
2027 update_skips (location, false);
2034 Session::locations_changed ()
2036 _locations->apply (*this, &Session::_locations_changed);
2040 Session::_locations_changed (const Locations::LocationList& locations)
2042 /* There was some mass-change in the Locations object.
2044 We might be re-adding a location here but it doesn't actually matter
2045 for all the locations that the Session takes an interest in.
2049 PBD::Unwinder<bool> protect_ignore_skip_updates (_ignore_skips_updates, true);
2050 for (Locations::LocationList::const_iterator i = locations.begin(); i != locations.end(); ++i) {
2051 location_added (*i);
2055 update_skips (NULL, false);
2059 Session::enable_record ()
2061 if (_transport_speed != 0.0 && _transport_speed != 1.0) {
2062 /* no recording at anything except normal speed */
2067 RecordState rs = (RecordState) g_atomic_int_get (&_record_status);
2069 if (rs == Recording) {
2073 if (g_atomic_int_compare_and_exchange (&_record_status, rs, Recording)) {
2075 _last_record_location = _transport_sample;
2076 send_immediate_mmc (MIDI::MachineControlCommand (MIDI::MachineControl::cmdRecordStrobe));
2078 if (Config->get_monitoring_model() == HardwareMonitoring && config.get_auto_input()) {
2079 set_track_monitor_input_status (true);
2082 RecordStateChanged ();
2089 Session::set_all_tracks_record_enabled (bool enable )
2091 boost::shared_ptr<RouteList> rl = routes.reader();
2092 set_controls (route_list_to_control_list (rl, &Stripable::rec_enable_control), enable, Controllable::NoGroup);
2096 Session::disable_record (bool rt_context, bool force)
2100 if ((rs = (RecordState) g_atomic_int_get (&_record_status)) != Disabled) {
2102 if (!Config->get_latched_record_enable () || force) {
2103 g_atomic_int_set (&_record_status, Disabled);
2104 send_immediate_mmc (MIDI::MachineControlCommand (MIDI::MachineControl::cmdRecordExit));
2106 if (rs == Recording) {
2107 g_atomic_int_set (&_record_status, Enabled);
2111 if (Config->get_monitoring_model() == HardwareMonitoring && config.get_auto_input()) {
2112 set_track_monitor_input_status (false);
2115 RecordStateChanged (); /* emit signal */
2118 remove_pending_capture_state ();
2124 Session::step_back_from_record ()
2126 if (g_atomic_int_compare_and_exchange (&_record_status, Recording, Enabled)) {
2128 if (Config->get_monitoring_model() == HardwareMonitoring && config.get_auto_input()) {
2129 set_track_monitor_input_status (false);
2132 RecordStateChanged (); /* emit signal */
2137 Session::maybe_enable_record (bool rt_context)
2139 if (_step_editors > 0) {
2143 g_atomic_int_set (&_record_status, Enabled);
2145 /* This function is currently called from somewhere other than an RT thread.
2146 * (except maybe lua scripts, which can use rt_context = true)
2147 * This save_state() call therefore doesn't impact anything. Doing it here
2148 * means that we save pending state of which sources the next record will use,
2149 * which gives us some chance of recovering from a crash during the record.
2153 save_state ("", true);
2156 if (_transport_speed) {
2157 if (!config.get_punch_in()) {
2161 send_immediate_mmc (MIDI::MachineControlCommand (MIDI::MachineControl::cmdRecordPause));
2162 RecordStateChanged (); /* EMIT SIGNAL */
2169 Session::audible_sample (bool* latent_locate) const
2171 if (latent_locate) {
2172 *latent_locate = false;
2177 if (synced_to_engine()) {
2178 /* Note: this is basically just sync-to-JACK */
2179 ret = _engine.transport_sample();
2181 ret = _transport_sample;
2186 if (!transport_rolling()) {
2190 #if 0 // TODO looping
2191 if (_transport_speed > 0.0f) {
2192 if (play_loop && have_looped) {
2193 /* the play-position wrapped at the loop-point
2194 * ardour is already playing the beginning of the loop,
2195 * but due to playback latency, the "audible frame"
2196 * is still at the end of the loop.
2198 Location *location = _locations->auto_loop_location();
2199 sampleoffset_t lo = location->start() - ret;
2201 ret = location->end () - lo;
2202 if (latent_locate) {
2203 *latent_locate = true;
2207 } else if (_transport_speed < 0.0f) {
2208 /* XXX wot? no backward looping? */
2212 return std::max ((samplepos_t)0, ret);
2216 Session::preroll_samples (samplepos_t pos) const
2218 const float pr = Config->get_preroll_seconds();
2219 if (pos >= 0 && pr < 0) {
2220 const Tempo& tempo = _tempo_map->tempo_at_sample (pos);
2221 const Meter& meter = _tempo_map->meter_at_sample (pos);
2222 return meter.samples_per_bar (tempo, sample_rate()) * -pr;
2227 return pr * sample_rate();
2231 Session::set_sample_rate (samplecnt_t frames_per_second)
2233 /** \fn void Session::set_sample_size(samplecnt_t)
2234 the AudioEngine object that calls this guarantees
2235 that it will not be called while we are also in
2236 ::process(). Its fine to do things that block
2240 if (_base_sample_rate == 0) {
2241 _base_sample_rate = frames_per_second;
2243 else if (_base_sample_rate != frames_per_second && frames_per_second != _nominal_sample_rate) {
2244 NotifyAboutSampleRateMismatch (_base_sample_rate, frames_per_second);
2246 _nominal_sample_rate = frames_per_second;
2251 reset_write_sources (false);
2253 // XXX we need some equivalent to this, somehow
2254 // SndFileSource::setup_standard_crossfades (frames_per_second);
2258 /* XXX need to reset/reinstantiate all LADSPA plugins */
2262 Session::set_block_size (pframes_t nframes)
2264 /* the AudioEngine guarantees
2265 that it will not be called while we are also in
2266 ::process(). It is therefore fine to do things that block
2271 current_block_size = nframes;
2275 boost::shared_ptr<RouteList> r = routes.reader ();
2277 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
2278 (*i)->set_block_size (nframes);
2281 boost::shared_ptr<RouteList> rl = routes.reader ();
2282 for (RouteList::iterator i = rl->begin(); i != rl->end(); ++i) {
2283 boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (*i);
2285 tr->set_block_size (nframes);
2289 set_worst_io_latencies ();
2295 trace_terminal (boost::shared_ptr<Route> r1, boost::shared_ptr<Route> rbase)
2297 boost::shared_ptr<Route> r2;
2299 if (r1->feeds (rbase) && rbase->feeds (r1)) {
2300 info << string_compose(_("feedback loop setup between %1 and %2"), r1->name(), rbase->name()) << endmsg;
2304 /* make a copy of the existing list of routes that feed r1 */
2306 Route::FedBy existing (r1->fed_by());
2308 /* for each route that feeds r1, recurse, marking it as feeding
2312 for (Route::FedBy::iterator i = existing.begin(); i != existing.end(); ++i) {
2313 if (!(r2 = i->r.lock ())) {
2314 /* (*i) went away, ignore it */
2318 /* r2 is a route that feeds r1 which somehow feeds base. mark
2319 base as being fed by r2
2322 rbase->add_fed_by (r2, i->sends_only);
2326 /* 2nd level feedback loop detection. if r1 feeds or is fed by r2,
2330 if (r1->feeds (r2) && r2->feeds (r1)) {
2334 /* now recurse, so that we can mark base as being fed by
2335 all routes that feed r2
2338 trace_terminal (r2, rbase);
2345 Session::resort_routes ()
2347 /* don't do anything here with signals emitted
2348 by Routes during initial setup or while we
2349 are being destroyed.
2352 if (_state_of_the_state & (InitialConnecting | Deletion)) {
2356 if (_route_deletion_in_progress) {
2361 RCUWriter<RouteList> writer (routes);
2362 boost::shared_ptr<RouteList> r = writer.get_copy ();
2363 resort_routes_using (r);
2364 /* writer goes out of scope and forces update */
2368 if (DEBUG_ENABLED(DEBUG::Graph)) {
2369 boost::shared_ptr<RouteList> rl = routes.reader ();
2370 for (RouteList::iterator i = rl->begin(); i != rl->end(); ++i) {
2371 DEBUG_TRACE (DEBUG::Graph, string_compose ("%1 fed by ...\n", (*i)->name()));
2373 const Route::FedBy& fb ((*i)->fed_by());
2375 for (Route::FedBy::const_iterator f = fb.begin(); f != fb.end(); ++f) {
2376 boost::shared_ptr<Route> sf = f->r.lock();
2378 DEBUG_TRACE (DEBUG::Graph, string_compose ("\t%1 (sends only ? %2)\n", sf->name(), f->sends_only));
2387 /** This is called whenever we need to rebuild the graph of how we will process
2389 * @param r List of routes, in any order.
2393 Session::resort_routes_using (boost::shared_ptr<RouteList> r)
2395 /* We are going to build a directed graph of our routes;
2396 this is where the edges of that graph are put.
2401 /* Go through all routes doing two things:
2403 * 1. Collect the edges of the route graph. Each of these edges
2404 * is a pair of routes, one of which directly feeds the other
2405 * either by a JACK connection or by an internal send.
2407 * 2. Begin the process of making routes aware of which other
2408 * routes directly or indirectly feed them. This information
2409 * is used by the solo code.
2412 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
2414 /* Clear out the route's list of direct or indirect feeds */
2415 (*i)->clear_fed_by ();
2417 for (RouteList::iterator j = r->begin(); j != r->end(); ++j) {
2419 bool via_sends_only;
2421 /* See if this *j feeds *i according to the current state of the JACK
2422 connections and internal sends.
2424 if ((*j)->direct_feeds_according_to_reality (*i, &via_sends_only)) {
2425 /* add the edge to the graph (part #1) */
2426 edges.add (*j, *i, via_sends_only);
2427 /* tell the route (for part #2) */
2428 (*i)->add_fed_by (*j, via_sends_only);
2433 /* Attempt a topological sort of the route graph */
2434 boost::shared_ptr<RouteList> sorted_routes = topological_sort (r, edges);
2436 if (sorted_routes) {
2437 /* We got a satisfactory topological sort, so there is no feedback;
2440 Note: the process graph rechain does not require a
2441 topologically-sorted list, but hey ho.
2443 if (_process_graph) {
2444 _process_graph->rechain (sorted_routes, edges);
2447 _current_route_graph = edges;
2449 /* Complete the building of the routes' lists of what directly
2450 or indirectly feeds them.
2452 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
2453 trace_terminal (*i, *i);
2456 *r = *sorted_routes;
2459 DEBUG_TRACE (DEBUG::Graph, "Routes resorted, order follows:\n");
2460 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
2461 DEBUG_TRACE (DEBUG::Graph, string_compose ("\t%1 presentation order %2\n", (*i)->name(), (*i)->presentation_info().order()));
2465 SuccessfulGraphSort (); /* EMIT SIGNAL */
2468 /* The topological sort failed, so we have a problem. Tell everyone
2469 and stick to the old graph; this will continue to be processed, so
2470 until the feedback is fixed, what is played back will not quite
2471 reflect what is actually connected. Note also that we do not
2472 do trace_terminal here, as it would fail due to an endless recursion,
2473 so the solo code will think that everything is still connected
2477 FeedbackDetected (); /* EMIT SIGNAL */
2482 /** Find a route name starting with \a base, maybe followed by the
2483 * lowest \a id. \a id will always be added if \a definitely_add_number
2484 * is true on entry; otherwise it will only be added if required
2485 * to make the name unique.
2487 * Names are constructed like e.g. "Audio 3" for base="Audio" and id=3.
2488 * The available route name with the lowest ID will be used, and \a id
2489 * will be set to the ID.
2491 * \return false if a route name could not be found, and \a track_name
2492 * and \a id do not reflect a free route name.
2495 Session::find_route_name (string const & base, uint32_t& id, string& name, bool definitely_add_number)
2497 /* the base may conflict with ports that do not belong to existing
2498 routes, but hidden objects like the click track. So check port names
2499 before anything else.
2502 for (map<string,bool>::const_iterator reserved = reserved_io_names.begin(); reserved != reserved_io_names.end(); ++reserved) {
2503 if (base == reserved->first) {
2504 /* Check if this reserved name already exists, and if
2505 so, disallow it without a numeric suffix.
2507 if (!reserved->second || route_by_name (reserved->first)) {
2508 definitely_add_number = true;
2517 /* if we have "base 1" already, it doesn't make sense to add "base"
2518 * if "base 1" has been deleted, adding "base" is no worse than "base 1"
2520 if (!definitely_add_number && route_by_name (base) == 0 && (route_by_name (string_compose("%1 1", base)) == 0)) {
2521 /* just use the base */
2527 name = string_compose ("%1 %2", base, id);
2529 if (route_by_name (name) == 0) {
2535 } while (id < (UINT_MAX-1));
2540 /** Count the total ins and outs of all non-hidden tracks in the session and return them in in and out */
2542 Session::count_existing_track_channels (ChanCount& in, ChanCount& out)
2544 in = ChanCount::ZERO;
2545 out = ChanCount::ZERO;
2547 boost::shared_ptr<RouteList> r = routes.reader ();
2549 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
2550 boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (*i);
2554 assert (!tr->is_auditioner()); // XXX remove me
2555 in += tr->n_inputs();
2556 out += tr->n_outputs();
2561 Session::default_track_name_pattern (DataType t)
2564 case DataType::AUDIO:
2565 if (Profile->get_trx()) {
2572 case DataType::MIDI:
2579 /** Caller must not hold process lock
2580 * @param name_template string to use for the start of the name, or "" to use "MIDI".
2581 * @param instrument plugin info for the instrument to insert pre-fader, if any
2583 list<boost::shared_ptr<MidiTrack> >
2584 Session::new_midi_track (const ChanCount& input, const ChanCount& output, bool strict_io,
2585 boost::shared_ptr<PluginInfo> instrument, Plugin::PresetRecord* pset,
2586 RouteGroup* route_group, uint32_t how_many,
2587 string name_template, PresentationInfo::order_t order,
2591 uint32_t track_id = 0;
2593 RouteList new_routes;
2594 list<boost::shared_ptr<MidiTrack> > ret;
2596 const string name_pattern = default_track_name_pattern (DataType::MIDI);
2597 bool const use_number = (how_many != 1) || name_template.empty () || (name_template == name_pattern);
2600 if (!find_route_name (name_template.empty() ? _("MIDI") : name_template, ++track_id, track_name, use_number)) {
2601 error << "cannot find name for new midi track" << endmsg;
2605 boost::shared_ptr<MidiTrack> track;
2608 track.reset (new MidiTrack (*this, track_name, mode));
2610 if (track->init ()) {
2615 track->set_strict_io (true);
2618 BOOST_MARK_TRACK (track);
2621 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
2622 if (track->input()->ensure_io (input, false, this)) {
2623 error << "cannot configure " << input << " out configuration for new midi track" << endmsg;
2627 if (track->output()->ensure_io (output, false, this)) {
2628 error << "cannot configure " << output << " out configuration for new midi track" << endmsg;
2634 route_group->add (track);
2637 new_routes.push_back (track);
2638 ret.push_back (track);
2641 catch (failed_constructor &err) {
2642 error << _("Session: could not create new midi track.") << endmsg;
2646 catch (AudioEngine::PortRegistrationFailure& pfe) {
2648 error << string_compose (_("No more JACK ports are available. You will need to stop %1 and restart JACK with more ports if you need this many tracks."), PROGRAM_NAME) << endmsg;
2656 if (!new_routes.empty()) {
2657 StateProtector sp (this);
2658 if (Profile->get_trx()) {
2659 add_routes (new_routes, false, false, false, order);
2661 add_routes (new_routes, true, true, false, order);
2665 for (RouteList::iterator r = new_routes.begin(); r != new_routes.end(); ++r) {
2666 PluginPtr plugin = instrument->load (*this);
2668 warning << "Failed to add Synth Plugin to newly created track." << endmsg;
2672 plugin->load_preset (*pset);
2674 boost::shared_ptr<PluginInsert> pi (new PluginInsert (*this, plugin));
2676 pi->set_strict_io (true);
2679 (*r)->add_processor (pi, PreFader);
2681 if (Profile->get_mixbus () && pi->configured () && pi->output_streams().n_audio() > 2) {
2682 (*r)->move_instrument_down (false);
2692 Session::new_midi_route (RouteGroup* route_group, uint32_t how_many, string name_template, bool strict_io,
2693 boost::shared_ptr<PluginInfo> instrument, Plugin::PresetRecord* pset,
2694 PresentationInfo::Flag flag, PresentationInfo::order_t order)
2697 uint32_t bus_id = 0;
2701 bool const use_number = (how_many != 1) || name_template.empty () || name_template == _("Midi Bus");
2704 if (!find_route_name (name_template.empty () ? _("Midi Bus") : name_template, ++bus_id, bus_name, use_number)) {
2705 error << "cannot find name for new midi bus" << endmsg;
2710 boost::shared_ptr<Route> bus (new Route (*this, bus_name, flag, DataType::AUDIO)); // XXX Editor::add_routes is not ready for ARDOUR::DataType::MIDI
2717 bus->set_strict_io (true);
2720 BOOST_MARK_ROUTE(bus);
2723 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
2725 if (bus->input()->ensure_io (ChanCount(DataType::MIDI, 1), false, this)) {
2726 error << _("cannot configure new midi bus input") << endmsg;
2731 if (bus->output()->ensure_io (ChanCount(DataType::MIDI, 1), false, this)) {
2732 error << _("cannot configure new midi bus output") << endmsg;
2738 route_group->add (bus);
2741 bus->add_internal_return ();
2742 ret.push_back (bus);
2745 catch (failed_constructor &err) {
2746 error << _("Session: could not create new audio route.") << endmsg;
2750 catch (AudioEngine::PortRegistrationFailure& pfe) {
2751 error << pfe.what() << endmsg;
2761 StateProtector sp (this);
2762 add_routes (ret, false, false, false, order);
2765 for (RouteList::iterator r = ret.begin(); r != ret.end(); ++r) {
2766 PluginPtr plugin = instrument->load (*this);
2768 warning << "Failed to add Synth Plugin to newly created track." << endmsg;
2772 plugin->load_preset (*pset);
2774 boost::shared_ptr<PluginInsert> pi (new PluginInsert (*this, plugin));
2776 pi->set_strict_io (true);
2779 (*r)->add_processor (pi, PreFader);
2781 if (Profile->get_mixbus () && pi->configured () && pi->output_streams().n_audio() > 2) {
2782 (*r)->move_instrument_down (false);
2794 Session::midi_output_change_handler (IOChange change, void * /*src*/, boost::weak_ptr<Route> wmt)
2796 boost::shared_ptr<Route> midi_track (wmt.lock());
2802 if ((change.type & IOChange::ConfigurationChanged) && Config->get_output_auto_connect() != ManualConnect) {
2804 if (change.after.n_audio() <= change.before.n_audio()) {
2808 /* new audio ports: make sure the audio goes somewhere useful,
2809 * unless the user has no-auto-connect selected.
2811 * The existing ChanCounts don't matter for this call as they are only
2812 * to do with matching input and output indices, and we are only changing
2815 auto_connect_route (midi_track, false, ChanCount(), change.before);
2819 #ifdef USE_TRACKS_CODE_FEATURES
2822 compare_routes_by_remote_id (const boost::shared_ptr<Route>& route1, const boost::shared_ptr<Route>& route2)
2824 return route1->remote_control_id() < route2->remote_control_id();
2828 Session::reconnect_existing_routes (bool withLock, bool reconnect_master, bool reconnect_inputs, bool reconnect_outputs)
2830 // it is not allowed to perform connection
2831 if (!IO::connecting_legal) {
2835 // if we are deleting routes we will call this once at the end
2836 if (_route_deletion_in_progress) {
2840 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock (), Glib::Threads::NOT_LOCK);
2846 // We need to disconnect the route's inputs and outputs first
2847 // basing on autoconnect configuration
2848 bool reconnectIputs = !(Config->get_input_auto_connect() & ManualConnect) && reconnect_inputs;
2849 bool reconnectOutputs = !(Config->get_output_auto_connect() & ManualConnect) && reconnect_outputs;
2851 ChanCount existing_inputs;
2852 ChanCount existing_outputs;
2853 count_existing_track_channels (existing_inputs, existing_outputs);
2855 //ChanCount inputs = ChanCount::ZERO;
2856 //ChanCount outputs = ChanCount::ZERO;
2858 RouteList existing_routes = *routes.reader ();
2859 existing_routes.sort (compare_routes_by_remote_id);
2862 PBD::Unwinder<bool> protect_ignore_changes (_reconnecting_routes_in_progress, true);
2864 vector<string> physinputs;
2865 vector<string> physoutputs;
2867 EngineStateController::instance()->get_physical_audio_outputs(physoutputs);
2868 EngineStateController::instance()->get_physical_audio_inputs(physinputs);
2870 uint32_t input_n = 0;
2871 uint32_t output_n = 0;
2872 RouteList::iterator rIter = existing_routes.begin();
2873 const AutoConnectOption current_input_auto_connection (Config->get_input_auto_connect());
2874 const AutoConnectOption current_output_auto_connection (Config->get_output_auto_connect());
2875 for (; rIter != existing_routes.end(); ++rIter) {
2876 if (*rIter == _master_out || *rIter == _monitor_out ) {
2880 if (current_output_auto_connection == AutoConnectPhysical) {
2881 (*rIter)->amp()->deactivate();
2882 } else if (current_output_auto_connection == AutoConnectMaster) {
2883 (*rIter)->amp()->activate();
2886 if (reconnectIputs) {
2887 (*rIter)->input()->disconnect (this); //GZ: check this; could be heavy
2889 for (uint32_t route_input_n = 0; route_input_n < (*rIter)->n_inputs().get(DataType::AUDIO); ++route_input_n) {
2891 if (current_input_auto_connection & AutoConnectPhysical) {
2893 if ( input_n == physinputs.size() ) {
2897 string port = physinputs[input_n];
2899 if (port.empty() ) {
2900 error << "Physical Input number "<< input_n << " is unavailable and cannot be connected" << endmsg;
2903 //GZ: check this; could be heavy
2904 (*rIter)->input()->connect ((*rIter)->input()->ports().port(DataType::AUDIO, route_input_n), port, this);
2910 if (reconnectOutputs) {
2912 //normalize route ouptuts: reduce the amount outputs to be equal to the amount of inputs
2913 if (current_output_auto_connection & AutoConnectPhysical) {
2915 //GZ: check this; could be heavy
2916 (*rIter)->output()->disconnect (this);
2917 size_t route_inputs_count = (*rIter)->n_inputs().get(DataType::AUDIO);
2919 //GZ: check this; could be heavy
2920 (*rIter)->output()->ensure_io(ChanCount(DataType::AUDIO, route_inputs_count), false, this );
2922 } else if (current_output_auto_connection & AutoConnectMaster){
2924 if (!reconnect_master) {
2928 //GZ: check this; could be heavy
2929 (*rIter)->output()->disconnect (this);
2932 uint32_t master_inputs_count = _master_out->n_inputs().get(DataType::AUDIO);
2933 (*rIter)->output()->ensure_io(ChanCount(DataType::AUDIO, master_inputs_count), false, this );
2935 error << error << "Master bus is not available" << endmsg;
2940 for (uint32_t route_output_n = 0; route_output_n < (*rIter)->n_outputs().get(DataType::AUDIO); ++route_output_n) {
2941 if (current_output_auto_connection & AutoConnectPhysical) {
2943 if ( output_n == physoutputs.size() ) {
2947 string port = physoutputs[output_n];
2949 if (port.empty() ) {
2950 error << "Physical Output number "<< output_n << " is unavailable and cannot be connected" << endmsg;
2953 //GZ: check this; could be heavy
2954 (*rIter)->output()->connect ((*rIter)->output()->ports().port(DataType::AUDIO, route_output_n), port, this);
2957 } else if (current_output_auto_connection & AutoConnectMaster) {
2959 if ( route_output_n == _master_out->n_inputs().get(DataType::AUDIO) ) {
2963 // connect to master bus
2964 string port = _master_out->input()->ports().port(DataType::AUDIO, route_output_n)->name();
2966 if (port.empty() ) {
2967 error << "MasterBus Input number "<< route_output_n << " is unavailable and cannot be connected" << endmsg;
2971 //GZ: check this; could be heavy
2972 (*rIter)->output()->connect ((*rIter)->output()->ports().port(DataType::AUDIO, route_output_n), port, this);
2979 _master_out->output()->disconnect (this);
2980 auto_connect_master_bus ();
2985 session_routes_reconnected (); /* EMIT SIGNAL */
2989 Session::reconnect_midi_scene_ports(bool inputs)
2993 boost::shared_ptr<MidiPort> scene_in_ptr = scene_in();
2995 scene_in_ptr->disconnect_all ();
2997 std::vector<EngineStateController::MidiPortState> midi_port_states;
2998 EngineStateController::instance()->get_physical_midi_input_states (midi_port_states);
3000 std::vector<EngineStateController::MidiPortState>::iterator state_iter = midi_port_states.begin();
3002 for (; state_iter != midi_port_states.end(); ++state_iter) {
3003 if (state_iter->active && state_iter->available && state_iter->scene_connected) {
3004 scene_in_ptr->connect (state_iter->name);
3011 boost::shared_ptr<MidiPort> scene_out_ptr = scene_out();
3013 if (scene_out_ptr ) {
3014 scene_out_ptr->disconnect_all ();
3016 std::vector<EngineStateController::MidiPortState> midi_port_states;
3017 EngineStateController::instance()->get_physical_midi_output_states (midi_port_states);
3019 std::vector<EngineStateController::MidiPortState>::iterator state_iter = midi_port_states.begin();
3021 for (; state_iter != midi_port_states.end(); ++state_iter) {
3022 if (state_iter->active && state_iter->available && state_iter->scene_connected) {
3023 scene_out_ptr->connect (state_iter->name);
3031 Session::reconnect_mtc_ports ()
3033 boost::shared_ptr<MidiPort> mtc_in_ptr = _midi_ports->mtc_input_port();
3039 mtc_in_ptr->disconnect_all ();
3041 std::vector<EngineStateController::MidiPortState> midi_port_states;
3042 EngineStateController::instance()->get_physical_midi_input_states (midi_port_states);
3044 std::vector<EngineStateController::MidiPortState>::iterator state_iter = midi_port_states.begin();
3046 for (; state_iter != midi_port_states.end(); ++state_iter) {
3047 if (state_iter->available && state_iter->mtc_in) {
3048 mtc_in_ptr->connect (state_iter->name);
3052 if (!_midi_ports->mtc_input_port ()->connected () &&
3053 config.get_external_sync () &&
3054 (Config->get_sync_source () == MTC) ) {
3055 config.set_external_sync (false);
3058 if ( ARDOUR::Profile->get_trx () ) {
3059 // Tracks need this signal to update timecode_source_dropdown
3060 MtcOrLtcInputPortChanged (); //emit signal
3065 Session::reconnect_mmc_ports(bool inputs)
3067 if (inputs ) { // get all enabled midi input ports
3069 boost::shared_ptr<MidiPort> mmc_in_ptr = _midi_ports->mmc_in();
3071 mmc_in_ptr->disconnect_all ();
3072 std::vector<std::string> enabled_midi_inputs;
3073 EngineStateController::instance()->get_physical_midi_inputs (enabled_midi_inputs);
3075 std::vector<std::string>::iterator port_iter = enabled_midi_inputs.begin();
3077 for (; port_iter != enabled_midi_inputs.end(); ++port_iter) {
3078 mmc_in_ptr->connect (*port_iter);
3082 } else { // get all enabled midi output ports
3084 boost::shared_ptr<MidiPort> mmc_out_ptr = _midi_ports->mmc_out();
3086 mmc_out_ptr->disconnect_all ();
3087 std::vector<std::string> enabled_midi_outputs;
3088 EngineStateController::instance()->get_physical_midi_outputs (enabled_midi_outputs);
3090 std::vector<std::string>::iterator port_iter = enabled_midi_outputs.begin();
3092 for (; port_iter != enabled_midi_outputs.end(); ++port_iter) {
3093 mmc_out_ptr->connect (*port_iter);
3102 Session::ensure_stripable_sort_order ()
3105 get_stripables (sl);
3106 sl.sort (Stripable::Sorter ());
3108 bool change = false;
3109 PresentationInfo::order_t order = 0;
3111 for (StripableList::iterator si = sl.begin(); si != sl.end(); ++si) {
3112 boost::shared_ptr<Stripable> s (*si);
3113 assert (!s->is_auditioner ()); // XXX remove me
3114 if (s->is_monitor ()) {
3117 if (order != s->presentation_info().order()) {
3118 s->set_presentation_order (order);
3127 Session::ensure_route_presentation_info_gap (PresentationInfo::order_t first_new_order, uint32_t how_many)
3129 DEBUG_TRACE (DEBUG::OrderKeys, string_compose ("ensure order gap starting at %1 for %2\n", first_new_order, how_many));
3131 if (first_new_order == PresentationInfo::max_order) {
3132 /* adding at end, no worries */
3136 /* create a gap in the presentation info to accomodate @param how_many
3140 get_stripables (sl);
3142 for (StripableList::iterator si = sl.begin(); si != sl.end(); ++si) {
3143 boost::shared_ptr<Stripable> s (*si);
3145 if (s->presentation_info().special (false)) {
3149 if (!s->presentation_info().order_set()) {
3153 if (s->presentation_info().order () >= first_new_order) {
3154 s->set_presentation_order (s->presentation_info().order () + how_many);
3159 /** Caller must not hold process lock
3160 * @param name_template string to use for the start of the name, or "" to use "Audio".
3162 list< boost::shared_ptr<AudioTrack> >
3163 Session::new_audio_track (int input_channels, int output_channels, RouteGroup* route_group,
3164 uint32_t how_many, string name_template, PresentationInfo::order_t order,
3168 uint32_t track_id = 0;
3170 RouteList new_routes;
3171 list<boost::shared_ptr<AudioTrack> > ret;
3173 const string name_pattern = default_track_name_pattern (DataType::AUDIO);
3174 bool const use_number = (how_many != 1) || name_template.empty () || (name_template == name_pattern);
3178 if (!find_route_name (name_template.empty() ? _(name_pattern.c_str()) : name_template, ++track_id, track_name, use_number)) {
3179 error << "cannot find name for new audio track" << endmsg;
3183 boost::shared_ptr<AudioTrack> track;
3186 track.reset (new AudioTrack (*this, track_name, mode));
3188 if (track->init ()) {
3192 if (Profile->get_mixbus ()) {
3193 track->set_strict_io (true);
3196 if (ARDOUR::Profile->get_trx ()) {
3197 // TRACKS considers it's not a USE CASE, it's
3198 // a piece of behavior of the session model:
3200 // Gain for a newly created route depends on
3201 // the current output_auto_connect mode:
3203 // 0 for Stereo Out mode
3205 if (Config->get_output_auto_connect() & AutoConnectMaster) {
3206 track->gain_control()->set_value (dB_to_coefficient (0), Controllable::NoGroup);
3210 BOOST_MARK_TRACK (track);
3213 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
3215 if (track->input()->ensure_io (ChanCount(DataType::AUDIO, input_channels), false, this)) {
3216 error << string_compose (
3217 _("cannot configure %1 in/%2 out configuration for new audio track"),
3218 input_channels, output_channels)
3223 if (track->output()->ensure_io (ChanCount(DataType::AUDIO, output_channels), false, this)) {
3224 error << string_compose (
3225 _("cannot configure %1 in/%2 out configuration for new audio track"),
3226 input_channels, output_channels)
3233 route_group->add (track);
3236 new_routes.push_back (track);
3237 ret.push_back (track);
3240 catch (failed_constructor &err) {
3241 error << _("Session: could not create new audio track.") << endmsg;
3245 catch (AudioEngine::PortRegistrationFailure& pfe) {
3247 error << pfe.what() << endmsg;
3255 if (!new_routes.empty()) {
3256 StateProtector sp (this);
3257 if (Profile->get_trx()) {
3258 add_routes (new_routes, false, false, false, order);
3260 add_routes (new_routes, true, true, false, order);
3267 /** Caller must not hold process lock.
3268 * @param name_template string to use for the start of the name, or "" to use "Bus".
3271 Session::new_audio_route (int input_channels, int output_channels, RouteGroup* route_group, uint32_t how_many, string name_template,
3272 PresentationInfo::Flag flags, PresentationInfo::order_t order)
3275 uint32_t bus_id = 0;
3279 bool const use_number = (how_many != 1) || name_template.empty () || name_template == _("Bus");
3282 if (!find_route_name (name_template.empty () ? _("Bus") : name_template, ++bus_id, bus_name, use_number)) {
3283 error << "cannot find name for new audio bus" << endmsg;
3288 boost::shared_ptr<Route> bus (new Route (*this, bus_name, flags, DataType::AUDIO));
3294 if (Profile->get_mixbus ()) {
3295 bus->set_strict_io (true);
3298 BOOST_MARK_ROUTE(bus);
3301 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
3303 if (bus->input()->ensure_io (ChanCount(DataType::AUDIO, input_channels), false, this)) {
3304 error << string_compose (_("cannot configure %1 in/%2 out configuration for new audio track"),
3305 input_channels, output_channels)
3311 if (bus->output()->ensure_io (ChanCount(DataType::AUDIO, output_channels), false, this)) {
3312 error << string_compose (_("cannot configure %1 in/%2 out configuration for new audio track"),
3313 input_channels, output_channels)
3320 route_group->add (bus);
3323 bus->add_internal_return ();
3324 ret.push_back (bus);
3327 catch (failed_constructor &err) {
3328 error << _("Session: could not create new audio route.") << endmsg;
3332 catch (AudioEngine::PortRegistrationFailure& pfe) {
3333 error << pfe.what() << endmsg;
3343 StateProtector sp (this);
3344 if (Profile->get_trx()) {
3345 add_routes (ret, false, false, false, order);
3347 add_routes (ret, false, true, true, order); // autoconnect // outputs only
3356 Session::new_route_from_template (uint32_t how_many, PresentationInfo::order_t insert_at, const std::string& template_path, const std::string& name_base,
3357 PlaylistDisposition pd)
3361 if (!tree.read (template_path.c_str())) {
3365 return new_route_from_template (how_many, insert_at, *tree.root(), name_base, pd);
3369 Session::new_route_from_template (uint32_t how_many, PresentationInfo::order_t insert_at, XMLNode& node, const std::string& name_base, PlaylistDisposition pd)
3372 uint32_t number = 0;
3373 const uint32_t being_added = how_many;
3374 /* This will prevent the use of any existing XML-provided PBD::ID
3377 Stateful::ForceIDRegeneration force_ids;
3378 IO::disable_connecting ();
3382 /* We're going to modify the node contents a bit so take a
3383 * copy. The node may be re-used when duplicating more than once.
3386 XMLNode node_copy (node);
3391 if (!name_base.empty()) {
3393 /* if we're adding more than one routes, force
3394 * all the names of the new routes to be
3395 * numbered, via the final parameter.
3398 if (!find_route_name (name_base.c_str(), ++number, name, (being_added > 1))) {
3399 fatal << _("Session: UINT_MAX routes? impossible!") << endmsg;
3405 string const route_name = node_copy.property(X_("name"))->value ();
3407 /* generate a new name by adding a number to the end of the template name */
3408 if (!find_route_name (route_name.c_str(), ++number, name, true)) {
3409 fatal << _("Session: UINT_MAX routes? impossible!") << endmsg;
3410 abort(); /*NOTREACHED*/
3414 /* set this name in the XML description that we are about to use */
3415 #warning fixme -- no more Diskstream
3416 if (pd == CopyPlaylist) {
3417 XMLNode* ds_node = find_named_node (node_copy, "Diskstream");
3419 const std::string playlist_name = ds_node->property (X_("playlist"))->value ();
3420 boost::shared_ptr<Playlist> playlist = playlists->by_name (playlist_name);
3421 // Use same name as Route::set_name_in_state so playlist copy
3422 // is picked up when creating the Route in XMLRouteFactory below
3423 playlist = PlaylistFactory::create (playlist, string_compose ("%1.1", name));
3424 playlist->reset_shares ();
3426 } else if (pd == SharePlaylist) {
3427 XMLNode* ds_node = find_named_node (node_copy, "Diskstream");
3429 const std::string playlist_name = ds_node->property (X_("playlist"))->value ();
3430 boost::shared_ptr<Playlist> playlist = playlists->by_name (playlist_name);
3431 playlist->share_with ((node_copy.property (X_("id")))->value());
3435 bool rename_playlist = (pd == CopyPlaylist || pd == NewPlaylist);
3437 Route::set_name_in_state (node_copy, name, rename_playlist);
3439 /* trim bitslots from listen sends so that new ones are used */
3440 XMLNodeList children = node_copy.children ();
3441 for (XMLNodeList::iterator i = children.begin(); i != children.end(); ++i) {
3442 if ((*i)->name() == X_("Processor")) {
3443 /* ForceIDRegeneration does not catch the following */
3444 XMLProperty const * role = (*i)->property (X_("role"));
3445 XMLProperty const * type = (*i)->property (X_("type"));
3446 if (role && role->value() == X_("Aux")) {
3447 /* check if the target bus exists.
3448 * we should not save aux-sends in templates.
3450 XMLProperty const * target = (*i)->property (X_("target"));
3452 (*i)->set_property ("type", "dangling-aux-send");
3455 boost::shared_ptr<Route> r = route_by_id (target->value());
3456 if (!r || boost::dynamic_pointer_cast<Track>(r)) {
3457 (*i)->set_property ("type", "dangling-aux-send");
3461 if (role && role->value() == X_("Listen")) {
3462 (*i)->remove_property (X_("bitslot"));
3464 else if (role && (role->value() == X_("Send") || role->value() == X_("Aux"))) {
3465 Delivery::Role xrole;
3466 uint32_t bitslot = 0;
3467 xrole = Delivery::Role (string_2_enum (role->value(), xrole));
3468 std::string name = Send::name_and_id_new_send(*this, xrole, bitslot, false);
3469 (*i)->remove_property (X_("bitslot"));
3470 (*i)->remove_property (X_("name"));
3471 (*i)->set_property ("bitslot", bitslot);
3472 (*i)->set_property ("name", name);
3474 else if (type && type->value() == X_("intreturn")) {
3475 (*i)->remove_property (X_("bitslot"));
3476 (*i)->set_property ("ignore-bitslot", "1");
3478 else if (type && type->value() == X_("return")) {
3479 // Return::set_state() generates a new one
3480 (*i)->remove_property (X_("bitslot"));
3482 else if (type && type->value() == X_("port")) {
3483 // PortInsert::set_state() handles the bitslot
3484 (*i)->remove_property (X_("bitslot"));
3485 (*i)->set_property ("ignore-name", "1");
3490 /* new routes start off unsoloed to avoid issues related to
3491 upstream / downstream buses. */
3492 node_copy.remove_node_and_delete (X_("Controllable"), X_("name"), X_("solo"));
3494 boost::shared_ptr<Route> route (XMLRouteFactory (node_copy, 3000));
3497 error << _("Session: cannot create track/bus from template description") << endmsg;
3501 if (boost::dynamic_pointer_cast<Track>(route)) {
3502 /* force input/output change signals so that the new diskstream
3503 picks up the configuration of the route. During session
3504 loading this normally happens in a different way.
3507 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
3509 IOChange change (IOChange::Type (IOChange::ConfigurationChanged | IOChange::ConnectionsChanged));
3510 change.after = route->input()->n_ports();
3511 route->input()->changed (change, this);
3512 change.after = route->output()->n_ports();
3513 route->output()->changed (change, this);
3516 ret.push_back (route);
3519 catch (failed_constructor &err) {
3520 error << _("Session: could not create new route from template") << endmsg;
3524 catch (AudioEngine::PortRegistrationFailure& pfe) {
3525 error << pfe.what() << endmsg;
3534 StateProtector sp (this);
3535 if (Profile->get_trx()) {
3536 add_routes (ret, false, false, false, insert_at);
3538 add_routes (ret, true, true, false, insert_at);
3540 IO::enable_connecting ();
3547 Session::add_routes (RouteList& new_routes, bool input_auto_connect, bool output_auto_connect, bool save, PresentationInfo::order_t order)
3550 PBD::Unwinder<bool> aip (_adding_routes_in_progress, true);
3551 add_routes_inner (new_routes, input_auto_connect, output_auto_connect, order);
3554 error << _("Adding new tracks/busses failed") << endmsg;
3559 update_latency (false);
3560 update_latency (true);
3565 save_state (_current_snapshot_name);
3568 update_route_record_state ();
3570 RouteAdded (new_routes); /* EMIT SIGNAL */
3574 Session::add_routes_inner (RouteList& new_routes, bool input_auto_connect, bool output_auto_connect, PresentationInfo::order_t order)
3576 ChanCount existing_inputs;
3577 ChanCount existing_outputs;
3581 count_existing_track_channels (existing_inputs, existing_outputs);
3584 RCUWriter<RouteList> writer (routes);
3585 boost::shared_ptr<RouteList> r = writer.get_copy ();
3586 n_routes = r->size();
3587 r->insert (r->end(), new_routes.begin(), new_routes.end());
3589 /* if there is no control out and we're not in the middle of loading,
3590 * resort the graph here. if there is a control out, we will resort
3591 * toward the end of this method. if we are in the middle of loading,
3592 * we will resort when done.
3595 if (!_monitor_out && IO::connecting_legal) {
3596 resort_routes_using (r);
3600 /* monitor is not part of the order */
3602 assert (n_routes > 0);
3607 PresentationInfo::ChangeSuspender cs;
3608 ensure_route_presentation_info_gap (order, new_routes.size());
3610 for (RouteList::iterator x = new_routes.begin(); x != new_routes.end(); ++x, ++added) {
3612 boost::weak_ptr<Route> wpr (*x);
3613 boost::shared_ptr<Route> r (*x);
3615 r->solo_control()->Changed.connect_same_thread (*this, boost::bind (&Session::route_solo_changed, this, _1, _2,wpr));
3616 r->solo_isolate_control()->Changed.connect_same_thread (*this, boost::bind (&Session::route_solo_isolated_changed, this, wpr));
3617 r->mute_control()->Changed.connect_same_thread (*this, boost::bind (&Session::route_mute_changed, this));
3619 r->output()->changed.connect_same_thread (*this, boost::bind (&Session::set_worst_io_latencies_x, this, _1, _2));
3620 r->processors_changed.connect_same_thread (*this, boost::bind (&Session::route_processors_changed, this, _1));
3621 r->processor_latency_changed.connect_same_thread (*this, boost::bind (&Session::queue_latency_recompute, this));
3623 if (r->is_master()) {
3627 if (r->is_monitor()) {
3631 boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (r);
3633 tr->PlaylistChanged.connect_same_thread (*this, boost::bind (&Session::track_playlist_changed, this, boost::weak_ptr<Track> (tr)));
3634 track_playlist_changed (boost::weak_ptr<Track> (tr));
3635 tr->rec_enable_control()->Changed.connect_same_thread (*this, boost::bind (&Session::update_route_record_state, this));
3637 boost::shared_ptr<MidiTrack> mt = boost::dynamic_pointer_cast<MidiTrack> (tr);
3639 mt->StepEditStatusChange.connect_same_thread (*this, boost::bind (&Session::step_edit_status_change, this, _1));
3640 mt->output()->changed.connect_same_thread (*this, boost::bind (&Session::midi_output_change_handler, this, _1, _2, boost::weak_ptr<Route>(mt)));
3641 mt->presentation_info().PropertyChanged.connect_same_thread (*this, boost::bind (&Session::midi_track_presentation_info_changed, this, _1, boost::weak_ptr<MidiTrack>(mt)));
3645 if (!r->presentation_info().special (false)) {
3647 DEBUG_TRACE (DEBUG::OrderKeys, string_compose ("checking PI state for %1\n", r->name()));
3649 /* presentation info order may already have been set from XML */
3651 if (!r->presentation_info().order_set()) {
3652 if (order == PresentationInfo::max_order) {
3653 /* just add to the end */
3654 r->set_presentation_order (n_routes + added);
3655 DEBUG_TRACE (DEBUG::OrderKeys, string_compose ("group order not set, set to NR %1 + %2 = %3\n", n_routes, added, n_routes + added));
3657 r->set_presentation_order (order + added);
3658 DEBUG_TRACE (DEBUG::OrderKeys, string_compose ("group order not set, set to %1 + %2 = %3\n", order, added, order + added));
3661 DEBUG_TRACE (DEBUG::OrderKeys, string_compose ("group order already set to %1\n", r->presentation_info().order()));
3665 #if !defined(__APPLE__) && !defined(__FreeBSD__)
3666 /* clang complains: 'operator<<' should be declared prior to the call site or in an associated namespace of one of its
3667 * arguments std::ostream& operator<<(std::ostream& o, ARDOUR::PresentationInfo const& rid)"
3669 DEBUG_TRACE (DEBUG::OrderKeys, string_compose ("added route %1, group order %2 type %3 (summary: %4)\n",
3671 r->presentation_info().order(),
3672 enum_2_string (r->presentation_info().flags()),
3673 r->presentation_info()));
3677 if (input_auto_connect || output_auto_connect) {
3678 auto_connect_route (r, input_auto_connect, ChanCount (), ChanCount (), existing_inputs, existing_outputs);
3679 existing_inputs += r->n_inputs();
3680 existing_outputs += r->n_outputs();
3685 ensure_stripable_sort_order ();
3688 if (_monitor_out && IO::connecting_legal) {
3689 Glib::Threads::Mutex::Lock lm (_engine.process_lock());
3691 for (RouteList::iterator x = new_routes.begin(); x != new_routes.end(); ++x) {
3692 if ((*x)->is_monitor()) {
3694 } else if ((*x)->is_master()) {
3697 (*x)->enable_monitor_send ();
3702 reassign_track_numbers ();
3706 Session::globally_set_send_gains_to_zero (boost::shared_ptr<Route> dest)
3708 boost::shared_ptr<RouteList> r = routes.reader ();
3709 boost::shared_ptr<Send> s;
3711 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
3712 if ((s = (*i)->internal_send_for (dest)) != 0) {
3713 s->amp()->gain_control()->set_value (GAIN_COEFF_ZERO, Controllable::NoGroup);
3719 Session::globally_set_send_gains_to_unity (boost::shared_ptr<Route> dest)
3721 boost::shared_ptr<RouteList> r = routes.reader ();
3722 boost::shared_ptr<Send> s;
3724 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
3725 if ((s = (*i)->internal_send_for (dest)) != 0) {
3726 s->amp()->gain_control()->set_value (GAIN_COEFF_UNITY, Controllable::NoGroup);
3732 Session::globally_set_send_gains_from_track(boost::shared_ptr<Route> dest)
3734 boost::shared_ptr<RouteList> r = routes.reader ();
3735 boost::shared_ptr<Send> s;
3737 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
3738 if ((s = (*i)->internal_send_for (dest)) != 0) {
3739 s->amp()->gain_control()->set_value ((*i)->gain_control()->get_value(), Controllable::NoGroup);
3744 /** @param include_buses true to add sends to buses and tracks, false for just tracks */
3746 Session::globally_add_internal_sends (boost::shared_ptr<Route> dest, Placement p, bool include_buses)
3748 boost::shared_ptr<RouteList> r = routes.reader ();
3749 boost::shared_ptr<RouteList> t (new RouteList);
3751 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
3752 /* no MIDI sends because there are no MIDI busses yet */
3753 if (include_buses || boost::dynamic_pointer_cast<AudioTrack>(*i)) {
3758 add_internal_sends (dest, p, t);
3762 Session::add_internal_sends (boost::shared_ptr<Route> dest, Placement p, boost::shared_ptr<RouteList> senders)
3764 for (RouteList::iterator i = senders->begin(); i != senders->end(); ++i) {
3765 add_internal_send (dest, (*i)->before_processor_for_placement (p), *i);
3770 Session::add_internal_send (boost::shared_ptr<Route> dest, int index, boost::shared_ptr<Route> sender)
3772 add_internal_send (dest, sender->before_processor_for_index (index), sender);
3776 Session::add_internal_send (boost::shared_ptr<Route> dest, boost::shared_ptr<Processor> before, boost::shared_ptr<Route> sender)
3778 if (sender->is_monitor() || sender->is_master() || sender == dest || dest->is_monitor() || dest->is_master()) {
3782 if (!dest->internal_return()) {
3783 dest->add_internal_return ();
3786 sender->add_aux_send (dest, before);
3792 Session::remove_routes (boost::shared_ptr<RouteList> routes_to_remove)
3794 bool mute_changed = false;
3795 bool send_selected = false;
3797 { // RCU Writer scope
3798 PBD::Unwinder<bool> uw_flag (_route_deletion_in_progress, true);
3799 RCUWriter<RouteList> writer (routes);
3800 boost::shared_ptr<RouteList> rs = writer.get_copy ();
3802 for (RouteList::iterator iter = routes_to_remove->begin(); iter != routes_to_remove->end(); ++iter) {
3804 if (_selection->selected (*iter)) {
3805 send_selected = true;
3808 if (*iter == _master_out) {
3812 /* speed up session deletion, don't do the solo dance */
3813 if (0 == (_state_of_the_state & Deletion)) {
3814 (*iter)->solo_control()->set_value (0.0, Controllable::NoGroup);
3817 if ((*iter)->mute_control()->muted ()) {
3818 mute_changed = true;
3823 /* deleting the master out seems like a dumb
3824 idea, but its more of a UI policy issue
3828 if (*iter == _master_out) {
3829 _master_out = boost::shared_ptr<Route> ();
3832 if (*iter == _monitor_out) {
3833 _monitor_out.reset ();
3836 // We need to disconnect the route's inputs and outputs
3838 (*iter)->input()->disconnect (0);
3839 (*iter)->output()->disconnect (0);
3841 /* if the route had internal sends sending to it, remove them */
3842 if ((*iter)->internal_return()) {
3844 boost::shared_ptr<RouteList> r = routes.reader ();
3845 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
3846 boost::shared_ptr<Send> s = (*i)->internal_send_for (*iter);
3848 (*i)->remove_processor (s);
3853 /* if the monitoring section had a pointer to this route, remove it */
3854 if (_monitor_out && !(*iter)->is_master() && !(*iter)->is_monitor()) {
3855 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
3856 ProcessorChangeBlocker pcb (this, false);
3857 (*iter)->remove_aux_or_listen (_monitor_out);
3860 boost::shared_ptr<MidiTrack> mt = boost::dynamic_pointer_cast<MidiTrack> (*iter);
3861 if (mt && mt->step_editing()) {
3862 if (_step_editors > 0) {
3868 /* writer goes out of scope, forces route list update */
3870 } // end of RCU Writer scope
3873 MuteChanged (); /* EMIT SIGNAL */
3876 update_route_solo_state ();
3877 update_latency_compensation ();
3880 /* Re-sort routes to remove the graph's current references to the one that is
3881 * going away, then flush old references out of the graph.
3882 * Wave Tracks: reconnect routes
3885 #ifdef USE_TRACKS_CODE_FEATURES
3886 reconnect_existing_routes(true, false);
3888 routes.flush (); // maybe unsafe, see below.
3892 if (_process_graph && !(_state_of_the_state & Deletion)) {
3893 _process_graph->clear_other_chain ();
3896 /* get rid of it from the dead wood collection in the route list manager */
3897 /* XXX i think this is unsafe as it currently stands, but i am not sure. (pd, october 2nd, 2006) */
3901 /* remove these routes from the selection if appropriate, and signal
3902 * the change *before* we call DropReferences for them.
3905 if (send_selected && !deletion_in_progress()) {
3906 for (RouteList::iterator iter = routes_to_remove->begin(); iter != routes_to_remove->end(); ++iter) {
3907 _selection->remove_stripable_by_id ((*iter)->id());
3910 pc.add (Properties::selected);
3911 PresentationInfo::Change (pc);
3914 /* try to cause everyone to drop their references
3915 * and unregister ports from the backend
3918 for (RouteList::iterator iter = routes_to_remove->begin(); iter != routes_to_remove->end(); ++iter) {
3919 (*iter)->drop_references ();
3922 if (deletion_in_progress()) {
3927 pc.add (Properties::order);
3928 PresentationInfo::Change (pc);
3930 /* save the new state of the world */
3932 if (save_state (_current_snapshot_name)) {
3933 save_history (_current_snapshot_name);
3936 update_route_record_state ();
3940 Session::remove_route (boost::shared_ptr<Route> route)
3942 boost::shared_ptr<RouteList> rl (new RouteList);
3943 rl->push_back (route);
3948 Session::route_mute_changed ()
3950 MuteChanged (); /* EMIT SIGNAL */
3955 Session::route_listen_changed (Controllable::GroupControlDisposition group_override, boost::weak_ptr<Route> wpr)
3957 boost::shared_ptr<Route> route (wpr.lock());
3963 assert (Config->get_solo_control_is_listen_control());
3965 if (route->solo_control()->soloed_by_self_or_masters()) {
3967 if (Config->get_exclusive_solo()) {
3969 RouteGroup* rg = route->route_group ();
3970 const bool group_already_accounted_for = (group_override == Controllable::ForGroup);
3972 boost::shared_ptr<RouteList> r = routes.reader ();
3974 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
3975 if ((*i) == route) {
3976 /* already changed */
3980 if ((*i)->solo_isolate_control()->solo_isolated() || !(*i)->can_solo()) {
3981 /* route does not get solo propagated to it */
3985 if ((group_already_accounted_for && (*i)->route_group() && (*i)->route_group() == rg)) {
3986 /* this route is a part of the same solo group as the route
3987 * that was changed. Changing that route did change or will
3988 * change all group members appropriately, so we can ignore it
3993 (*i)->solo_control()->set_value (0.0, Controllable::NoGroup);
3999 } else if (_listen_cnt > 0) {
4006 Session::route_solo_isolated_changed (boost::weak_ptr<Route> wpr)
4008 boost::shared_ptr<Route> route (wpr.lock());
4014 bool send_changed = false;
4016 if (route->solo_isolate_control()->solo_isolated()) {
4017 if (_solo_isolated_cnt == 0) {
4018 send_changed = true;
4020 _solo_isolated_cnt++;
4021 } else if (_solo_isolated_cnt > 0) {
4022 _solo_isolated_cnt--;
4023 if (_solo_isolated_cnt == 0) {
4024 send_changed = true;
4029 IsolatedChanged (); /* EMIT SIGNAL */
4034 Session::route_solo_changed (bool self_solo_changed, Controllable::GroupControlDisposition group_override, boost::weak_ptr<Route> wpr)
4036 DEBUG_TRACE (DEBUG::Solo, string_compose ("route solo change, self = %1, update\n", self_solo_changed));
4038 boost::shared_ptr<Route> route (wpr.lock());
4044 if (Config->get_solo_control_is_listen_control()) {
4045 route_listen_changed (group_override, wpr);
4049 DEBUG_TRACE (DEBUG::Solo, string_compose ("%1: self %2 masters %3 transition %4\n", route->name(), route->self_soloed(), route->solo_control()->get_masters_value(), route->solo_control()->transitioned_into_solo()));
4051 if (route->solo_control()->transitioned_into_solo() == 0) {
4052 /* route solo changed by upstream/downstream or clear all solo state; not interesting
4055 DEBUG_TRACE (DEBUG::Solo, string_compose ("%1 not self-soloed nor soloed by master (%2), ignoring\n", route->name(), route->solo_control()->get_masters_value()));
4059 boost::shared_ptr<RouteList> r = routes.reader ();
4060 int32_t delta = route->solo_control()->transitioned_into_solo ();
4062 /* the route may be a member of a group that has shared-solo
4063 * semantics. If so, then all members of that group should follow the
4064 * solo of the changed route. But ... this is optional, controlled by a
4065 * Controllable::GroupControlDisposition.
4067 * The first argument to the signal that this method is connected to is the
4068 * GroupControlDisposition value that was used to change solo.
4070 * If the solo change was done with group semantics (either InverseGroup
4071 * (force the entire group to change even if the group shared solo is
4072 * disabled) or UseGroup (use the group, which may or may not have the
4073 * shared solo property enabled)) then as we propagate the change to
4074 * the entire session we should IGNORE THE GROUP that the changed route
4078 RouteGroup* rg = route->route_group ();
4079 const bool group_already_accounted_for = (group_override == Controllable::ForGroup);
4081 DEBUG_TRACE (DEBUG::Solo, string_compose ("propagate to session, group accounted for ? %1\n", group_already_accounted_for));
4083 if (delta == 1 && Config->get_exclusive_solo()) {
4085 /* new solo: disable all other solos, but not the group if its solo-enabled */
4087 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
4089 if ((*i) == route) {
4090 /* already changed */
4094 if ((*i)->solo_isolate_control()->solo_isolated() || !(*i)->can_solo()) {
4095 /* route does not get solo propagated to it */
4099 if ((group_already_accounted_for && (*i)->route_group() && (*i)->route_group() == rg)) {
4100 /* this route is a part of the same solo group as the route
4101 * that was changed. Changing that route did change or will
4102 * change all group members appropriately, so we can ignore it
4108 (*i)->solo_control()->set_value (0.0, group_override);
4112 DEBUG_TRACE (DEBUG::Solo, string_compose ("propagate solo change, delta = %1\n", delta));
4114 RouteList uninvolved;
4116 DEBUG_TRACE (DEBUG::Solo, string_compose ("%1\n", route->name()));
4118 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
4119 bool via_sends_only;
4120 bool in_signal_flow;
4122 if ((*i) == route) {
4123 /* already changed */
4127 if ((*i)->solo_isolate_control()->solo_isolated() || !(*i)->can_solo()) {
4128 /* route does not get solo propagated to it */
4129 DEBUG_TRACE (DEBUG::Solo, string_compose ("%1 excluded from solo because iso = %2 can_solo = %3\n", (*i)->name(), (*i)->solo_isolate_control()->solo_isolated(),
4134 if ((group_already_accounted_for && (*i)->route_group() && (*i)->route_group() == rg)) {
4135 /* this route is a part of the same solo group as the route
4136 * that was changed. Changing that route did change or will
4137 * change all group members appropriately, so we can ignore it
4143 in_signal_flow = false;
4145 DEBUG_TRACE (DEBUG::Solo, string_compose ("check feed from %1\n", (*i)->name()));
4147 if ((*i)->feeds (route, &via_sends_only)) {
4148 DEBUG_TRACE (DEBUG::Solo, string_compose ("\tthere is a feed from %1\n", (*i)->name()));
4149 if (!via_sends_only) {
4150 if (!route->soloed_by_others_upstream()) {
4151 (*i)->solo_control()->mod_solo_by_others_downstream (delta);
4153 DEBUG_TRACE (DEBUG::Solo, "\talready soloed by others upstream\n");
4156 DEBUG_TRACE (DEBUG::Solo, string_compose ("\tthere is a send-only feed from %1\n", (*i)->name()));
4158 in_signal_flow = true;
4160 DEBUG_TRACE (DEBUG::Solo, string_compose ("\tno feed from %1\n", (*i)->name()));
4163 DEBUG_TRACE (DEBUG::Solo, string_compose ("check feed to %1\n", (*i)->name()));
4165 if (route->feeds (*i, &via_sends_only)) {
4166 /* propagate solo upstream only if routing other than
4167 sends is involved, but do consider the other route
4168 (*i) to be part of the signal flow even if only
4171 DEBUG_TRACE (DEBUG::Solo, string_compose ("%1 feeds %2 via sends only %3 sboD %4 sboU %5\n",
4175 route->soloed_by_others_downstream(),
4176 route->soloed_by_others_upstream()));
4177 if (!via_sends_only) {
4178 //NB. Triggers Invert Push, which handles soloed by downstream
4179 DEBUG_TRACE (DEBUG::Solo, string_compose ("\tmod %1 by %2\n", (*i)->name(), delta));
4180 (*i)->solo_control()->mod_solo_by_others_upstream (delta);
4182 DEBUG_TRACE (DEBUG::Solo, string_compose ("\tfeed to %1 ignored, sends-only\n", (*i)->name()));
4184 in_signal_flow = true;
4186 DEBUG_TRACE (DEBUG::Solo, "\tno feed to\n");
4189 if (!in_signal_flow) {
4190 uninvolved.push_back (*i);
4194 DEBUG_TRACE (DEBUG::Solo, "propagation complete\n");
4196 /* now notify that the mute state of the routes not involved in the signal
4197 pathway of the just-solo-changed route may have altered.
4200 for (RouteList::iterator i = uninvolved.begin(); i != uninvolved.end(); ++i) {
4201 DEBUG_TRACE (DEBUG::Solo, string_compose ("mute change for %1, which neither feeds or is fed by %2\n", (*i)->name(), route->name()));
4202 (*i)->act_on_mute ();
4203 /* Session will emit SoloChanged() after all solo changes are
4204 * complete, which should be used by UIs to update mute status
4210 Session::update_route_solo_state (boost::shared_ptr<RouteList> r)
4212 /* now figure out if anything that matters is soloed (or is "listening")*/
4214 bool something_soloed = false;
4215 bool something_listening = false;
4216 uint32_t listeners = 0;
4217 uint32_t isolated = 0;
4220 r = routes.reader();
4223 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
4224 if ((*i)->can_solo()) {
4225 if (Config->get_solo_control_is_listen_control()) {
4226 if ((*i)->solo_control()->soloed_by_self_or_masters()) {
4228 something_listening = true;
4231 (*i)->set_listen (false);
4232 if ((*i)->can_solo() && (*i)->solo_control()->soloed_by_self_or_masters()) {
4233 something_soloed = true;
4238 if ((*i)->solo_isolate_control()->solo_isolated()) {
4243 if (something_soloed != _non_soloed_outs_muted) {
4244 _non_soloed_outs_muted = something_soloed;
4245 SoloActive (_non_soloed_outs_muted); /* EMIT SIGNAL */
4248 if (something_listening != _listening) {
4249 _listening = something_listening;
4250 SoloActive (_listening);
4253 _listen_cnt = listeners;
4255 if (isolated != _solo_isolated_cnt) {
4256 _solo_isolated_cnt = isolated;
4257 IsolatedChanged (); /* EMIT SIGNAL */
4260 DEBUG_TRACE (DEBUG::Solo, string_compose ("solo state updated by session, soloed? %1 listeners %2 isolated %3\n",
4261 something_soloed, listeners, isolated));
4264 SoloChanged (); /* EMIT SIGNAL */
4269 Session::muted () const
4271 // TODO consider caching the value on every MuteChanged signal,
4272 // Note that API users may also subscribe to MuteChanged and hence
4273 // this method needs to be called first.
4276 get_stripables (all);
4277 for (StripableList::const_iterator i = all.begin(); i != all.end(); ++i) {
4278 assert (!(*i)->is_auditioner()); // XXX remove me
4279 if ((*i)->is_monitor()) {
4282 boost::shared_ptr<Route> r = boost::dynamic_pointer_cast<Route>(*i);
4283 if (r && !r->active()) {
4286 boost::shared_ptr<MuteControl> mc = (*i)->mute_control();
4287 if (mc && mc->muted ()) {
4295 std::vector<boost::weak_ptr<AutomationControl> >
4296 Session::cancel_all_mute ()
4299 get_stripables (all);
4300 std::vector<boost::weak_ptr<AutomationControl> > muted;
4301 boost::shared_ptr<ControlList> cl (new ControlList);
4302 for (StripableList::const_iterator i = all.begin(); i != all.end(); ++i) {
4303 assert (!(*i)->is_auditioner());
4304 if ((*i)->is_monitor()) {
4307 boost::shared_ptr<Route> r = boost::dynamic_pointer_cast<Route> (*i);
4308 if (r && !r->active()) {
4311 boost::shared_ptr<AutomationControl> ac = (*i)->mute_control();
4312 if (ac && ac->get_value () > 0) {
4314 muted.push_back (boost::weak_ptr<AutomationControl>(ac));
4317 if (!cl->empty ()) {
4318 set_controls (cl, 0.0, PBD::Controllable::UseGroup);
4324 Session::get_stripables (StripableList& sl) const
4326 boost::shared_ptr<RouteList> r = routes.reader ();
4327 sl.insert (sl.end(), r->begin(), r->end());
4329 VCAList v = _vca_manager->vcas ();
4330 sl.insert (sl.end(), v.begin(), v.end());
4334 Session::get_stripables () const
4337 Session::get_stripables (rv);
4338 rv.sort (Stripable::Sorter ());
4342 boost::shared_ptr<RouteList>
4343 Session::get_routes_with_internal_returns() const
4345 boost::shared_ptr<RouteList> r = routes.reader ();
4346 boost::shared_ptr<RouteList> rl (new RouteList);
4348 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
4349 if ((*i)->internal_return ()) {
4357 Session::io_name_is_legal (const std::string& name) const
4359 boost::shared_ptr<RouteList> r = routes.reader ();
4361 for (map<string,bool>::const_iterator reserved = reserved_io_names.begin(); reserved != reserved_io_names.end(); ++reserved) {
4362 if (name == reserved->first) {
4363 if (!route_by_name (reserved->first)) {
4364 /* first instance of a reserved name is allowed for some */
4365 return reserved->second;
4367 /* all other instances of a reserved name are not allowed */
4372 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
4373 if ((*i)->name() == name) {
4377 if ((*i)->has_io_processor_named (name)) {
4386 Session::set_exclusive_input_active (boost::shared_ptr<RouteList> rl, bool onoff, bool flip_others)
4389 vector<string> connections;
4391 /* if we are passed only a single route and we're not told to turn
4392 * others off, then just do the simple thing.
4395 if (flip_others == false && rl->size() == 1) {
4396 boost::shared_ptr<MidiTrack> mt = boost::dynamic_pointer_cast<MidiTrack> (rl->front());
4398 mt->set_input_active (onoff);
4403 for (RouteList::iterator rt = rl->begin(); rt != rl->end(); ++rt) {
4405 PortSet& ps ((*rt)->input()->ports());
4407 for (PortSet::iterator p = ps.begin(); p != ps.end(); ++p) {
4408 p->get_connections (connections);
4411 for (vector<string>::iterator s = connections.begin(); s != connections.end(); ++s) {
4412 routes_using_input_from (*s, rl2);
4415 /* scan all relevant routes to see if others are on or off */
4417 bool others_are_already_on = false;
4419 for (RouteList::iterator r = rl2.begin(); r != rl2.end(); ++r) {
4421 boost::shared_ptr<MidiTrack> mt = boost::dynamic_pointer_cast<MidiTrack> (*r);
4427 if ((*r) != (*rt)) {
4428 if (mt->input_active()) {
4429 others_are_already_on = true;
4432 /* this one needs changing */
4433 mt->set_input_active (onoff);
4439 /* globally reverse other routes */
4441 for (RouteList::iterator r = rl2.begin(); r != rl2.end(); ++r) {
4442 if ((*r) != (*rt)) {
4443 boost::shared_ptr<MidiTrack> mt = boost::dynamic_pointer_cast<MidiTrack> (*r);
4445 mt->set_input_active (!others_are_already_on);
4454 Session::routes_using_input_from (const string& str, RouteList& rl)
4456 boost::shared_ptr<RouteList> r = routes.reader();
4458 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
4459 if ((*i)->input()->connected_to (str)) {
4465 boost::shared_ptr<Route>
4466 Session::route_by_name (string name) const
4468 boost::shared_ptr<RouteList> r = routes.reader ();
4470 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
4471 if ((*i)->name() == name) {
4476 return boost::shared_ptr<Route> ((Route*) 0);
4479 boost::shared_ptr<Route>
4480 Session::route_by_id (PBD::ID id) const
4482 boost::shared_ptr<RouteList> r = routes.reader ();
4484 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
4485 if ((*i)->id() == id) {
4490 return boost::shared_ptr<Route> ((Route*) 0);
4494 boost::shared_ptr<Stripable>
4495 Session::stripable_by_id (PBD::ID id) const
4498 get_stripables (sl);
4500 for (StripableList::const_iterator s = sl.begin(); s != sl.end(); ++s) {
4501 if ((*s)->id() == id) {
4506 return boost::shared_ptr<Stripable>();
4509 boost::shared_ptr<Processor>
4510 Session::processor_by_id (PBD::ID id) const
4512 boost::shared_ptr<RouteList> r = routes.reader ();
4514 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
4515 boost::shared_ptr<Processor> p = (*i)->Route::processor_by_id (id);
4521 return boost::shared_ptr<Processor> ();
4524 boost::shared_ptr<Route>
4525 Session::get_remote_nth_route (PresentationInfo::order_t n) const
4527 return boost::dynamic_pointer_cast<Route> (get_remote_nth_stripable (n, PresentationInfo::Route));
4530 boost::shared_ptr<Stripable>
4531 Session::get_remote_nth_stripable (PresentationInfo::order_t n, PresentationInfo::Flag flags) const
4534 PresentationInfo::order_t match_cnt = 0;
4536 get_stripables (sl);
4537 sl.sort (Stripable::Sorter());
4539 for (StripableList::const_iterator s = sl.begin(); s != sl.end(); ++s) {
4541 if ((*s)->presentation_info().hidden()) {
4542 /* if the caller didn't explicitly ask for hidden
4543 stripables, ignore hidden ones. This matches
4544 the semantics of the pre-PresentationOrder
4545 "get by RID" logic of Ardour 4.x and earlier.
4547 XXX at some point we should likely reverse
4548 the logic of the flags, because asking for "the
4549 hidden stripables" is not going to be common,
4550 whereas asking for visible ones is normal.
4553 if (! (flags & PresentationInfo::Hidden)) {
4558 if ((*s)->presentation_info().flag_match (flags)) {
4559 if (match_cnt++ == n) {
4565 /* there is no nth stripable that matches the given flags */
4566 return boost::shared_ptr<Stripable>();
4569 boost::shared_ptr<Route>
4570 Session::route_by_selected_count (uint32_t id) const
4572 RouteList r (*(routes.reader ()));
4573 r.sort (Stripable::Sorter());
4575 RouteList::iterator i;
4577 for (i = r.begin(); i != r.end(); ++i) {
4578 if ((*i)->is_selected()) {
4586 return boost::shared_ptr<Route> ();
4590 Session::reassign_track_numbers ()
4594 RouteList r (*(routes.reader ()));
4595 r.sort (Stripable::Sorter());
4597 StateProtector sp (this);
4599 for (RouteList::iterator i = r.begin(); i != r.end(); ++i) {
4600 assert (!(*i)->is_auditioner());
4601 if (boost::dynamic_pointer_cast<Track> (*i)) {
4602 (*i)->set_track_number(++tn);
4604 else if (!(*i)->is_master() && !(*i)->is_monitor()) {
4605 (*i)->set_track_number(--bn);
4608 const uint32_t decimals = ceilf (log10f (tn + 1));
4609 const bool decimals_changed = _track_number_decimals != decimals;
4610 _track_number_decimals = decimals;
4612 if (decimals_changed && config.get_track_name_number ()) {
4613 for (RouteList::iterator i = r.begin(); i != r.end(); ++i) {
4614 boost::shared_ptr<Track> t = boost::dynamic_pointer_cast<Track> (*i);
4616 t->resync_track_name();
4619 // trigger GUI re-layout
4620 config.ParameterChanged("track-name-number");
4624 if (DEBUG_ENABLED(DEBUG::OrderKeys)) {
4625 boost::shared_ptr<RouteList> rl = routes.reader ();
4626 for (RouteList::iterator i = rl->begin(); i != rl->end(); ++i) {
4627 DEBUG_TRACE (DEBUG::OrderKeys, string_compose ("%1 numbered %2\n", (*i)->name(), (*i)->track_number()));
4635 Session::playlist_region_added (boost::weak_ptr<Region> w)
4637 boost::shared_ptr<Region> r = w.lock ();
4642 /* These are the operations that are currently in progress... */
4643 list<GQuark> curr = _current_trans_quarks;
4646 /* ...and these are the operations during which we want to update
4647 the session range location markers.
4650 ops.push_back (Operations::capture);
4651 ops.push_back (Operations::paste);
4652 ops.push_back (Operations::duplicate_region);
4653 ops.push_back (Operations::insert_file);
4654 ops.push_back (Operations::insert_region);
4655 ops.push_back (Operations::drag_region_brush);
4656 ops.push_back (Operations::region_drag);
4657 ops.push_back (Operations::selection_grab);
4658 ops.push_back (Operations::region_fill);
4659 ops.push_back (Operations::fill_selection);
4660 ops.push_back (Operations::create_region);
4661 ops.push_back (Operations::region_copy);
4662 ops.push_back (Operations::fixed_time_region_copy);
4665 /* See if any of the current operations match the ones that we want */
4667 set_intersection (_current_trans_quarks.begin(), _current_trans_quarks.end(), ops.begin(), ops.end(), back_inserter (in));
4669 /* If so, update the session range markers */
4671 maybe_update_session_range (r->position (), r->last_sample ());
4675 /** Update the session range markers if a is before the current start or
4676 * b is after the current end.
4679 Session::maybe_update_session_range (samplepos_t a, samplepos_t b)
4681 if (_state_of_the_state & Loading) {
4685 samplepos_t session_end_marker_shift_samples = session_end_shift * _nominal_sample_rate;
4687 if (_session_range_location == 0) {
4689 set_session_range_location (a, b + session_end_marker_shift_samples);
4693 if (a < _session_range_location->start()) {
4694 _session_range_location->set_start (a);
4697 if (_session_range_end_is_free && (b > _session_range_location->end())) {
4698 _session_range_location->set_end (b);
4704 Session::set_end_is_free (bool yn)
4706 _session_range_end_is_free = yn;
4710 Session::playlist_ranges_moved (list<Evoral::RangeMove<samplepos_t> > const & ranges)
4712 for (list<Evoral::RangeMove<samplepos_t> >::const_iterator i = ranges.begin(); i != ranges.end(); ++i) {
4713 maybe_update_session_range (i->to, i->to + i->length);
4718 Session::playlist_regions_extended (list<Evoral::Range<samplepos_t> > const & ranges)
4720 for (list<Evoral::Range<samplepos_t> >::const_iterator i = ranges.begin(); i != ranges.end(); ++i) {
4721 maybe_update_session_range (i->from, i->to);
4725 /* Region management */
4727 boost::shared_ptr<Region>
4728 Session::find_whole_file_parent (boost::shared_ptr<Region const> child) const
4730 const RegionFactory::RegionMap& regions (RegionFactory::regions());
4731 RegionFactory::RegionMap::const_iterator i;
4732 boost::shared_ptr<Region> region;
4734 Glib::Threads::Mutex::Lock lm (region_lock);
4736 for (i = regions.begin(); i != regions.end(); ++i) {
4740 if (region->whole_file()) {
4742 if (child->source_equivalent (region)) {
4748 return boost::shared_ptr<Region> ();
4752 Session::destroy_sources (list<boost::shared_ptr<Source> > srcs)
4754 set<boost::shared_ptr<Region> > relevant_regions;
4756 for (list<boost::shared_ptr<Source> >::iterator s = srcs.begin(); s != srcs.end(); ++s) {
4757 RegionFactory::get_regions_using_source (*s, relevant_regions);
4760 for (set<boost::shared_ptr<Region> >::iterator r = relevant_regions.begin(); r != relevant_regions.end(); ) {
4761 set<boost::shared_ptr<Region> >::iterator tmp;
4766 playlists->destroy_region (*r);
4767 RegionFactory::map_remove (*r);
4769 (*r)->drop_sources ();
4770 (*r)->drop_references ();
4772 relevant_regions.erase (r);
4777 for (list<boost::shared_ptr<Source> >::iterator s = srcs.begin(); s != srcs.end(); ) {
4780 Glib::Threads::Mutex::Lock ls (source_lock);
4781 /* remove from the main source list */
4782 sources.erase ((*s)->id());
4785 (*s)->mark_for_remove ();
4786 (*s)->drop_references ();
4795 Session::remove_last_capture ()
4797 list<boost::shared_ptr<Source> > srcs;
4799 boost::shared_ptr<RouteList> rl = routes.reader ();
4800 for (RouteList::iterator i = rl->begin(); i != rl->end(); ++i) {
4801 boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (*i);
4806 list<boost::shared_ptr<Source> >& l = tr->last_capture_sources();
4809 srcs.insert (srcs.end(), l.begin(), l.end());
4814 destroy_sources (srcs);
4816 save_state (_current_snapshot_name);
4821 /* Source Management */
4824 Session::add_source (boost::shared_ptr<Source> source)
4826 pair<SourceMap::key_type, SourceMap::mapped_type> entry;
4827 pair<SourceMap::iterator,bool> result;
4829 entry.first = source->id();
4830 entry.second = source;
4833 Glib::Threads::Mutex::Lock lm (source_lock);
4834 result = sources.insert (entry);
4837 if (result.second) {
4839 /* yay, new source */
4841 boost::shared_ptr<FileSource> fs = boost::dynamic_pointer_cast<FileSource> (source);
4844 if (!fs->within_session()) {
4845 ensure_search_path_includes (Glib::path_get_dirname (fs->path()), fs->type());
4851 boost::shared_ptr<AudioFileSource> afs;
4853 if ((afs = boost::dynamic_pointer_cast<AudioFileSource>(source)) != 0) {
4854 if (Config->get_auto_analyse_audio()) {
4855 Analyser::queue_source_for_analysis (source, false);
4859 source->DropReferences.connect_same_thread (*this, boost::bind (&Session::remove_source, this, boost::weak_ptr<Source> (source)));
4864 Session::remove_source (boost::weak_ptr<Source> src)
4866 if (_state_of_the_state & Deletion) {
4870 SourceMap::iterator i;
4871 boost::shared_ptr<Source> source = src.lock();
4878 Glib::Threads::Mutex::Lock lm (source_lock);
4880 if ((i = sources.find (source->id())) != sources.end()) {
4885 if (!(_state_of_the_state & StateOfTheState (InCleanup|Loading))) {
4887 /* save state so we don't end up with a session file
4888 referring to non-existent sources.
4891 save_state (_current_snapshot_name);
4895 boost::shared_ptr<Source>
4896 Session::source_by_id (const PBD::ID& id)
4898 Glib::Threads::Mutex::Lock lm (source_lock);
4899 SourceMap::iterator i;
4900 boost::shared_ptr<Source> source;
4902 if ((i = sources.find (id)) != sources.end()) {
4909 boost::shared_ptr<AudioFileSource>
4910 Session::audio_source_by_path_and_channel (const string& path, uint16_t chn) const
4912 /* Restricted to audio files because only audio sources have channel
4916 Glib::Threads::Mutex::Lock lm (source_lock);
4918 for (SourceMap::const_iterator i = sources.begin(); i != sources.end(); ++i) {
4919 boost::shared_ptr<AudioFileSource> afs
4920 = boost::dynamic_pointer_cast<AudioFileSource>(i->second);
4922 if (afs && afs->path() == path && chn == afs->channel()) {
4927 return boost::shared_ptr<AudioFileSource>();
4930 boost::shared_ptr<MidiSource>
4931 Session::midi_source_by_path (const std::string& path, bool need_source_lock) const
4933 /* Restricted to MIDI files because audio sources require a channel
4934 for unique identification, in addition to a path.
4937 Glib::Threads::Mutex::Lock lm (source_lock, Glib::Threads::NOT_LOCK);
4938 if (need_source_lock) {
4942 for (SourceMap::const_iterator s = sources.begin(); s != sources.end(); ++s) {
4943 boost::shared_ptr<MidiSource> ms
4944 = boost::dynamic_pointer_cast<MidiSource>(s->second);
4945 boost::shared_ptr<FileSource> fs
4946 = boost::dynamic_pointer_cast<FileSource>(s->second);
4948 if (ms && fs && fs->path() == path) {
4953 return boost::shared_ptr<MidiSource>();
4957 Session::count_sources_by_origin (const string& path)
4960 Glib::Threads::Mutex::Lock lm (source_lock);
4962 for (SourceMap::iterator i = sources.begin(); i != sources.end(); ++i) {
4963 boost::shared_ptr<FileSource> fs
4964 = boost::dynamic_pointer_cast<FileSource>(i->second);
4966 if (fs && fs->origin() == path) {
4975 peak_file_helper (const string& peak_path, const string& file_path, const string& file_base, bool hash) {
4977 std::string checksum = Glib::Checksum::compute_checksum(Glib::Checksum::CHECKSUM_SHA1, file_path + G_DIR_SEPARATOR + file_base);
4978 return Glib::build_filename (peak_path, checksum + peakfile_suffix);
4980 return Glib::build_filename (peak_path, file_base + peakfile_suffix);
4985 Session::construct_peak_filepath (const string& filepath, const bool in_session, const bool old_peak_name) const
4987 string interchange_dir_string = string (interchange_dir_name) + G_DIR_SEPARATOR;
4989 if (Glib::path_is_absolute (filepath)) {
4991 /* rip the session dir from the audiofile source */
4993 string session_path;
4994 bool in_another_session = true;
4996 if (filepath.find (interchange_dir_string) != string::npos) {
4998 session_path = Glib::path_get_dirname (filepath); /* now ends in audiofiles */
4999 session_path = Glib::path_get_dirname (session_path); /* now ends in session name */
5000 session_path = Glib::path_get_dirname (session_path); /* now ends in interchange */
5001 session_path = Glib::path_get_dirname (session_path); /* now has session path */
5003 /* see if it is within our session */
5005 for (vector<space_and_path>::const_iterator i = session_dirs.begin(); i != session_dirs.end(); ++i) {
5006 if (i->path == session_path) {
5007 in_another_session = false;
5012 in_another_session = false;
5016 if (in_another_session) {
5017 SessionDirectory sd (session_path);
5018 return peak_file_helper (sd.peak_path(), "", Glib::path_get_basename (filepath), !old_peak_name);
5022 /* 1) if file belongs to this session
5023 * it may be a relative path (interchange/...)
5024 * or just basename (session_state, remove source)
5025 * -> just use the basename
5027 std::string filename = Glib::path_get_basename (filepath);
5030 /* 2) if the file is outside our session dir:
5031 * (imported but not copied) add the path for check-summming */
5033 path = Glib::path_get_dirname (filepath);
5036 return peak_file_helper (_session_dir->peak_path(), path, Glib::path_get_basename (filepath), !old_peak_name);
5040 Session::new_audio_source_path_for_embedded (const std::string& path)
5044 * we know that the filename is already unique because it exists
5045 * out in the filesystem.
5047 * However, when we bring it into the session, we could get a
5050 * Eg. two embedded files:
5055 * When merged into session, these collide.
5057 * There will not be a conflict with in-memory sources
5058 * because when the source was created we already picked
5059 * a unique name for it.
5061 * This collision is not likely to be common, but we have to guard
5062 * against it. So, if there is a collision, take the md5 hash of the
5063 * the path, and use that as the filename instead.
5066 SessionDirectory sdir (get_best_session_directory_for_new_audio());
5067 string base = Glib::path_get_basename (path);
5068 string newpath = Glib::build_filename (sdir.sound_path(), base);
5070 if (Glib::file_test (newpath, Glib::FILE_TEST_EXISTS)) {
5074 md5.digestString (path.c_str());
5075 md5.writeToString ();
5076 base = md5.digestChars;
5078 string ext = get_suffix (path);
5085 newpath = Glib::build_filename (sdir.sound_path(), base);
5087 /* if this collides, we're screwed */
5089 if (Glib::file_test (newpath, Glib::FILE_TEST_EXISTS)) {
5090 error << string_compose (_("Merging embedded file %1: name collision AND md5 hash collision!"), path) << endmsg;
5099 /** Return true if there are no audio file sources that use @param name as
5100 * the filename component of their path.
5102 * Return false otherwise.
5104 * This method MUST ONLY be used to check in-session, mono files since it
5105 * hard-codes the channel of the audio file source we are looking for as zero.
5107 * If/when Ardour supports native files in non-mono formats, the logic here
5108 * will need to be revisited.
5111 Session::audio_source_name_is_unique (const string& name)
5113 std::vector<string> sdirs = source_search_path (DataType::AUDIO);
5114 vector<space_and_path>::iterator i;
5115 uint32_t existing = 0;
5117 for (vector<string>::const_iterator i = sdirs.begin(); i != sdirs.end(); ++i) {
5119 /* note that we search *without* the extension so that
5120 we don't end up both "Audio 1-1.wav" and "Audio 1-1.caf"
5121 in the event that this new name is required for
5122 a file format change.
5125 const string spath = *i;
5127 if (matching_unsuffixed_filename_exists_in (spath, name)) {
5132 /* it is possible that we have the path already
5133 * assigned to a source that has not yet been written
5134 * (ie. the write source for a diskstream). we have to
5135 * check this in order to make sure that our candidate
5136 * path isn't used again, because that can lead to
5137 * two Sources point to the same file with different
5138 * notions of their removability.
5142 string possible_path = Glib::build_filename (spath, name);
5144 if (audio_source_by_path_and_channel (possible_path, 0)) {
5150 return (existing == 0);
5154 Session::format_audio_source_name (const string& legalized_base, uint32_t nchan, uint32_t chan, bool destructive, bool take_required, uint32_t cnt, bool related_exists)
5157 const string ext = native_header_format_extension (config.get_native_file_header_format(), DataType::AUDIO);
5159 if (Profile->get_trx() && destructive) {
5161 sstr << setfill ('0') << setw (4) << cnt;
5162 sstr << legalized_base;
5164 sstr << legalized_base;
5166 if (take_required || related_exists) {
5178 } else if (nchan > 2) {
5183 /* XXX what? more than 26 channels! */
5194 /** Return a unique name based on \a base for a new internal audio source */
5196 Session::new_audio_source_path (const string& base, uint32_t nchan, uint32_t chan, bool destructive, bool take_required)
5199 string possible_name;
5200 const uint32_t limit = 9999; // arbitrary limit on number of files with the same basic name
5202 bool some_related_source_name_exists = false;
5204 legalized = legalize_for_path (base);
5206 // Find a "version" of the base name that doesn't exist in any of the possible directories.
5208 for (cnt = (destructive ? ++destructive_index : 1); cnt <= limit; ++cnt) {
5210 possible_name = format_audio_source_name (legalized, nchan, chan, destructive, take_required, cnt, some_related_source_name_exists);
5212 if (audio_source_name_is_unique (possible_name)) {
5216 some_related_source_name_exists = true;
5219 error << string_compose(
5220 _("There are already %1 recordings for %2, which I consider too many."),
5221 limit, base) << endmsg;
5223 throw failed_constructor();
5227 /* We've established that the new name does not exist in any session
5228 * directory, so now find out which one we should use for this new
5232 SessionDirectory sdir (get_best_session_directory_for_new_audio());
5234 std::string s = Glib::build_filename (sdir.sound_path(), possible_name);
5239 /** Return a unique name based on `base` for a new internal MIDI source */
5241 Session::new_midi_source_path (const string& base, bool need_lock)
5243 string possible_path;
5244 string possible_name;
5246 possible_name = legalize_for_path (base);
5248 // Find a "version" of the file name that doesn't exist in any of the possible directories.
5249 std::vector<string> sdirs = source_search_path(DataType::MIDI);
5251 /* - the main session folder is the first in the vector.
5252 * - after checking all locations for file-name uniqueness,
5253 * we keep the one from the last iteration as new file name
5254 * - midi files are small and should just be kept in the main session-folder
5256 * -> reverse the array, check main session folder last and use that as location
5259 std::reverse(sdirs.begin(), sdirs.end());
5262 possible_name = bump_name_once (possible_name, '-');
5264 vector<space_and_path>::iterator i;
5265 uint32_t existing = 0;
5267 for (vector<string>::const_iterator i = sdirs.begin(); i != sdirs.end(); ++i) {
5269 possible_path = Glib::build_filename (*i, possible_name + ".mid");
5271 if (Glib::file_test (possible_path, Glib::FILE_TEST_EXISTS)) {
5275 if (midi_source_by_path (possible_path, need_lock)) {
5280 if (possible_path.size () >= PATH_MAX) {
5281 error << string_compose(
5282 _("There are already many recordings for %1, resulting in a too long file-path %2."),
5283 base, possible_path) << endmsg;
5288 if (existing == 0) {
5293 /* No need to "find best location" for software/app-based RAID, because
5294 MIDI is so small that we always put it in the same place.
5297 return possible_path;
5301 /** Create a new within-session audio source */
5302 boost::shared_ptr<AudioFileSource>
5303 Session::create_audio_source_for_session (size_t n_chans, string const & base, uint32_t chan, bool destructive)
5305 const string path = new_audio_source_path (base, n_chans, chan, destructive, true);
5307 if (!path.empty()) {
5308 return boost::dynamic_pointer_cast<AudioFileSource> (
5309 SourceFactory::createWritable (DataType::AUDIO, *this, path, destructive, sample_rate(), true, true));
5311 throw failed_constructor ();
5315 /** Create a new within-session MIDI source */
5316 boost::shared_ptr<MidiSource>
5317 Session::create_midi_source_for_session (string const & basic_name)
5319 const string path = new_midi_source_path (basic_name);
5321 if (!path.empty()) {
5322 return boost::dynamic_pointer_cast<SMFSource> (
5323 SourceFactory::createWritable (
5324 DataType::MIDI, *this, path, false, sample_rate()));
5326 throw failed_constructor ();
5330 /** Create a new within-session MIDI source */
5331 boost::shared_ptr<MidiSource>
5332 Session::create_midi_source_by_stealing_name (boost::shared_ptr<Track> track)
5334 /* the caller passes in the track the source will be used in,
5335 so that we can keep the numbering sane.
5337 Rationale: a track with the name "Foo" that has had N
5338 captures carried out so far will ALREADY have a write source
5339 named "Foo-N+1.mid" waiting to be used for the next capture.
5341 If we call new_midi_source_name() we will get "Foo-N+2". But
5342 there is no region corresponding to "Foo-N+1", so when
5343 "Foo-N+2" appears in the track, the gap presents the user
5344 with odd behaviour - why did it skip past Foo-N+1?
5346 We could explain this to the user in some odd way, but
5347 instead we rename "Foo-N+1.mid" as "Foo-N+2.mid", and then
5350 If that attempted rename fails, we get "Foo-N+2.mid" anyway.
5353 boost::shared_ptr<MidiTrack> mt = boost::dynamic_pointer_cast<MidiTrack> (track);
5355 std::string name = track->steal_write_source_name ();
5358 return boost::shared_ptr<MidiSource>();
5361 /* MIDI files are small, just put them in the first location of the
5362 session source search path.
5365 const string path = Glib::build_filename (source_search_path (DataType::MIDI).front(), name);
5367 return boost::dynamic_pointer_cast<SMFSource> (
5368 SourceFactory::createWritable (
5369 DataType::MIDI, *this, path, false, sample_rate()));
5374 Session::add_playlist (boost::shared_ptr<Playlist> playlist, bool unused)
5376 if (playlist->hidden()) {
5380 playlists->add (playlist);
5383 playlist->release();
5390 Session::remove_playlist (boost::weak_ptr<Playlist> weak_playlist)
5392 if (_state_of_the_state & Deletion) {
5396 boost::shared_ptr<Playlist> playlist (weak_playlist.lock());
5402 playlists->remove (playlist);
5408 Session::set_audition (boost::shared_ptr<Region> r)
5410 pending_audition_region = r;
5411 add_post_transport_work (PostTransportAudition);
5412 _butler->schedule_transport_work ();
5416 Session::audition_playlist ()
5418 SessionEvent* ev = new SessionEvent (SessionEvent::Audition, SessionEvent::Add, SessionEvent::Immediate, 0, 0.0);
5419 ev->region.reset ();
5425 Session::register_lua_function (
5426 const std::string& name,
5427 const std::string& script,
5428 const LuaScriptParamList& args
5431 Glib::Threads::Mutex::Lock lm (lua_lock);
5433 lua_State* L = lua.getState();
5435 const std::string& bytecode = LuaScripting::get_factory_bytecode (script);
5436 luabridge::LuaRef tbl_arg (luabridge::newTable(L));
5437 for (LuaScriptParamList::const_iterator i = args.begin(); i != args.end(); ++i) {
5438 if ((*i)->optional && !(*i)->is_set) { continue; }
5439 tbl_arg[(*i)->name] = (*i)->value;
5441 (*_lua_add)(name, bytecode, tbl_arg); // throws luabridge::LuaException
5444 LuaScriptsChanged (); /* EMIT SIGNAL */
5449 Session::unregister_lua_function (const std::string& name)
5451 Glib::Threads::Mutex::Lock lm (lua_lock);
5452 (*_lua_del)(name); // throws luabridge::LuaException
5453 lua.collect_garbage ();
5456 LuaScriptsChanged (); /* EMIT SIGNAL */
5460 std::vector<std::string>
5461 Session::registered_lua_functions ()
5463 Glib::Threads::Mutex::Lock lm (lua_lock);
5464 std::vector<std::string> rv;
5467 luabridge::LuaRef list ((*_lua_list)());
5468 for (luabridge::Iterator i (list); !i.isNil (); ++i) {
5469 if (!i.key ().isString ()) { assert(0); continue; }
5470 rv.push_back (i.key ().cast<std::string> ());
5477 static void _lua_print (std::string s) {
5478 std::cout << "SessionLua: " << s << "\n";
5483 Session::try_run_lua (pframes_t nframes)
5485 if (_n_lua_scripts == 0) return;
5486 Glib::Threads::Mutex::Lock tm (lua_lock, Glib::Threads::TRY_LOCK);
5488 try { (*_lua_run)(nframes); } catch (...) { }
5489 lua.collect_garbage_step ();
5494 Session::setup_lua ()
5497 lua.Print.connect (&_lua_print);
5502 "function ArdourSession ()"
5503 " local self = { scripts = {}, instances = {} }"
5505 " local remove = function (n)"
5506 " self.scripts[n] = nil"
5507 " self.instances[n] = nil"
5508 " Session:scripts_changed()" // call back
5511 " local addinternal = function (n, f, a)"
5512 " assert(type(n) == 'string', 'function-name must be string')"
5513 " assert(type(f) == 'function', 'Given script is a not a function')"
5514 " assert(type(a) == 'table' or type(a) == 'nil', 'Given argument is invalid')"
5515 " assert(self.scripts[n] == nil, 'Callback \"'.. n ..'\" already exists.')"
5516 " self.scripts[n] = { ['f'] = f, ['a'] = a }"
5517 " local env = { print = print, tostring = tostring, assert = assert, ipairs = ipairs, error = error, select = select, string = string, type = type, tonumber = tonumber, collectgarbage = collectgarbage, pairs = pairs, math = math, table = table, pcall = pcall, bit32=bit32, Session = Session, PBD = PBD, Timecode = Timecode, Evoral = Evoral, C = C, ARDOUR = ARDOUR }"
5518 " self.instances[n] = load (string.dump(f, true), nil, nil, env)(a)"
5519 " Session:scripts_changed()" // call back
5522 " local add = function (n, b, a)"
5523 " assert(type(b) == 'string', 'ByteCode must be string')"
5524 " load (b)()" // assigns f
5525 " assert(type(f) == 'string', 'Assigned ByteCode must be string')"
5526 " addinternal (n, load(f), a)"
5529 " local run = function (...)"
5530 " for n, s in pairs (self.instances) do"
5531 " local status, err = pcall (s, ...)"
5532 " if not status then"
5533 " print ('fn \"'.. n .. '\": ', err)"
5540 " local cleanup = function ()"
5541 " self.scripts = nil"
5542 " self.instances = nil"
5545 " local list = function ()"
5547 " for n, _ in pairs (self.scripts) do"
5553 " local function basic_serialize (o)"
5554 " if type(o) == \"number\" then"
5555 " return tostring(o)"
5557 " return string.format(\"%q\", o)"
5561 " local function serialize (name, value)"
5562 " local rv = name .. ' = '"
5564 " if type(value) == \"number\" or type(value) == \"string\" or type(value) == \"nil\" then"
5565 " return rv .. basic_serialize(value) .. ' '"
5566 " elseif type(value) == \"table\" then"
5568 " for k,v in pairs(value) do"
5569 " local fieldname = string.format(\"%s[%s]\", name, basic_serialize(k))"
5570 " rv = rv .. serialize(fieldname, v) .. ' '"
5571 " collectgarbage()" // string concatenation allocates a new string :(
5574 " elseif type(value) == \"function\" then"
5575 " return rv .. string.format(\"%q\", string.dump(value, true))"
5577 " error('cannot save a ' .. type(value))"
5582 " local save = function ()"
5583 " return (serialize('scripts', self.scripts))"
5586 " local restore = function (state)"
5587 " self.scripts = {}"
5589 " for n, s in pairs (scripts) do"
5590 " addinternal (n, load(s['f']), s['a'])"
5594 " return { run = run, add = add, remove = remove,"
5595 " list = list, restore = restore, save = save, cleanup = cleanup}"
5598 " sess = ArdourSession ()"
5599 " ArdourSession = nil"
5601 "function ardour () end"
5604 lua_State* L = lua.getState();
5607 luabridge::LuaRef lua_sess = luabridge::getGlobal (L, "sess");
5608 lua.do_command ("sess = nil"); // hide it.
5609 lua.do_command ("collectgarbage()");
5611 _lua_run = new luabridge::LuaRef(lua_sess["run"]);
5612 _lua_add = new luabridge::LuaRef(lua_sess["add"]);
5613 _lua_del = new luabridge::LuaRef(lua_sess["remove"]);
5614 _lua_list = new luabridge::LuaRef(lua_sess["list"]);
5615 _lua_save = new luabridge::LuaRef(lua_sess["save"]);
5616 _lua_load = new luabridge::LuaRef(lua_sess["restore"]);
5617 _lua_cleanup = new luabridge::LuaRef(lua_sess["cleanup"]);
5618 } catch (luabridge::LuaException const& e) {
5619 fatal << string_compose (_("programming error: %1"),
5620 std::string ("Failed to setup session Lua interpreter") + e.what ())
5622 abort(); /*NOTREACHED*/
5624 fatal << string_compose (_("programming error: %1"),
5625 X_("Failed to setup session Lua interpreter"))
5627 abort(); /*NOTREACHED*/
5630 LuaBindings::stddef (L);
5631 LuaBindings::common (L);
5632 LuaBindings::dsp (L);
5633 luabridge::push <Session *> (L, this);
5634 lua_setglobal (L, "Session");
5638 Session::scripts_changed ()
5640 assert (!lua_lock.trylock()); // must hold lua_lock
5643 luabridge::LuaRef list ((*_lua_list)());
5645 for (luabridge::Iterator i (list); !i.isNil (); ++i) {
5646 if (!i.key ().isString ()) { assert(0); continue; }
5649 _n_lua_scripts = cnt;
5650 } catch (luabridge::LuaException const& e) {
5651 fatal << string_compose (_("programming error: %1"),
5652 std::string ("Indexing Lua Session Scripts failed.") + e.what ())
5654 abort(); /*NOTREACHED*/
5656 fatal << string_compose (_("programming error: %1"),
5657 X_("Indexing Lua Session Scripts failed."))
5659 abort(); /*NOTREACHED*/
5664 Session::non_realtime_set_audition ()
5666 assert (pending_audition_region);
5667 auditioner->audition_region (pending_audition_region);
5668 pending_audition_region.reset ();
5669 AuditionActive (true); /* EMIT SIGNAL */
5673 Session::audition_region (boost::shared_ptr<Region> r)
5675 SessionEvent* ev = new SessionEvent (SessionEvent::Audition, SessionEvent::Add, SessionEvent::Immediate, 0, 0.0);
5681 Session::cancel_audition ()
5686 if (auditioner->auditioning()) {
5687 auditioner->cancel_audition ();
5688 AuditionActive (false); /* EMIT SIGNAL */
5693 Session::is_auditioning () const
5695 /* can be called before we have an auditioner object */
5697 return auditioner->auditioning();
5704 Session::graph_reordered ()
5706 /* don't do this stuff if we are setting up connections
5707 from a set_state() call or creating new tracks. Ditto for deletion.
5710 if ((_state_of_the_state & (InitialConnecting|Deletion)) || _adding_routes_in_progress || _reconnecting_routes_in_progress || _route_deletion_in_progress) {
5716 /* force all diskstreams to update their capture offset values to
5717 * reflect any changes in latencies within the graph.
5719 update_route_latency (false, true);
5722 /** @return Number of samples that there is disk space available to write,
5725 boost::optional<samplecnt_t>
5726 Session::available_capture_duration ()
5728 Glib::Threads::Mutex::Lock lm (space_lock);
5730 if (_total_free_4k_blocks_uncertain) {
5731 return boost::optional<samplecnt_t> ();
5734 float sample_bytes_on_disk = 4.0; // keep gcc happy
5736 switch (config.get_native_file_data_format()) {
5738 sample_bytes_on_disk = 4.0;
5742 sample_bytes_on_disk = 3.0;
5746 sample_bytes_on_disk = 2.0;
5750 /* impossible, but keep some gcc versions happy */
5751 fatal << string_compose (_("programming error: %1"),
5752 X_("illegal native file data format"))
5754 abort(); /*NOTREACHED*/
5757 double scale = 4096.0 / sample_bytes_on_disk;
5759 if (_total_free_4k_blocks * scale > (double) max_samplecnt) {
5760 return max_samplecnt;
5763 return (samplecnt_t) floor (_total_free_4k_blocks * scale);
5767 Session::add_bundle (boost::shared_ptr<Bundle> bundle, bool emit_signal)
5770 RCUWriter<BundleList> writer (_bundles);
5771 boost::shared_ptr<BundleList> b = writer.get_copy ();
5772 b->push_back (bundle);
5776 BundleAddedOrRemoved (); /* EMIT SIGNAL */
5783 Session::remove_bundle (boost::shared_ptr<Bundle> bundle)
5785 bool removed = false;
5788 RCUWriter<BundleList> writer (_bundles);
5789 boost::shared_ptr<BundleList> b = writer.get_copy ();
5790 BundleList::iterator i = find (b->begin(), b->end(), bundle);
5792 if (i != b->end()) {
5799 BundleAddedOrRemoved (); /* EMIT SIGNAL */
5805 boost::shared_ptr<Bundle>
5806 Session::bundle_by_name (string name) const
5808 boost::shared_ptr<BundleList> b = _bundles.reader ();
5810 for (BundleList::const_iterator i = b->begin(); i != b->end(); ++i) {
5811 if ((*i)->name() == name) {
5816 return boost::shared_ptr<Bundle> ();
5820 Session::tempo_map_changed (const PropertyChange&)
5824 playlists->update_after_tempo_map_change ();
5826 _locations->apply (*this, &Session::update_locations_after_tempo_map_change);
5832 Session::update_locations_after_tempo_map_change (const Locations::LocationList& loc)
5834 for (Locations::LocationList::const_iterator i = loc.begin(); i != loc.end(); ++i) {
5835 (*i)->recompute_samples_from_beat ();
5839 /** Ensures that all buffers (scratch, send, silent, etc) are allocated for
5840 * the given count with the current block size.
5843 Session::ensure_buffers (ChanCount howmany)
5845 BufferManager::ensure_buffers (howmany, bounce_processing() ? bounce_chunk_size : 0);
5849 Session::ensure_buffer_set(BufferSet& buffers, const ChanCount& count)
5851 for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) {
5852 buffers.ensure_buffers(*t, count.get(*t), _engine.raw_buffer_size(*t));
5857 Session::next_insert_id ()
5859 /* this doesn't really loop forever. just think about it */
5862 for (boost::dynamic_bitset<uint32_t>::size_type n = 1; n < insert_bitset.size(); ++n) {
5863 if (!insert_bitset[n]) {
5864 insert_bitset[n] = true;
5870 /* none available, so resize and try again */
5872 insert_bitset.resize (insert_bitset.size() + 16, false);
5877 Session::next_send_id ()
5879 /* this doesn't really loop forever. just think about it */
5882 for (boost::dynamic_bitset<uint32_t>::size_type n = 1; n < send_bitset.size(); ++n) {
5883 if (!send_bitset[n]) {
5884 send_bitset[n] = true;
5890 /* none available, so resize and try again */
5892 send_bitset.resize (send_bitset.size() + 16, false);
5897 Session::next_aux_send_id ()
5899 /* this doesn't really loop forever. just think about it */
5902 for (boost::dynamic_bitset<uint32_t>::size_type n = 1; n < aux_send_bitset.size(); ++n) {
5903 if (!aux_send_bitset[n]) {
5904 aux_send_bitset[n] = true;
5910 /* none available, so resize and try again */
5912 aux_send_bitset.resize (aux_send_bitset.size() + 16, false);
5917 Session::next_return_id ()
5919 /* this doesn't really loop forever. just think about it */
5922 for (boost::dynamic_bitset<uint32_t>::size_type n = 1; n < return_bitset.size(); ++n) {
5923 if (!return_bitset[n]) {
5924 return_bitset[n] = true;
5930 /* none available, so resize and try again */
5932 return_bitset.resize (return_bitset.size() + 16, false);
5937 Session::mark_send_id (uint32_t id)
5939 if (id >= send_bitset.size()) {
5940 send_bitset.resize (id+16, false);
5942 if (send_bitset[id]) {
5943 warning << string_compose (_("send ID %1 appears to be in use already"), id) << endmsg;
5945 send_bitset[id] = true;
5949 Session::mark_aux_send_id (uint32_t id)
5951 if (id >= aux_send_bitset.size()) {
5952 aux_send_bitset.resize (id+16, false);
5954 if (aux_send_bitset[id]) {
5955 warning << string_compose (_("aux send ID %1 appears to be in use already"), id) << endmsg;
5957 aux_send_bitset[id] = true;
5961 Session::mark_return_id (uint32_t id)
5963 if (id >= return_bitset.size()) {
5964 return_bitset.resize (id+16, false);
5966 if (return_bitset[id]) {
5967 warning << string_compose (_("return ID %1 appears to be in use already"), id) << endmsg;
5969 return_bitset[id] = true;
5973 Session::mark_insert_id (uint32_t id)
5975 if (id >= insert_bitset.size()) {
5976 insert_bitset.resize (id+16, false);
5978 if (insert_bitset[id]) {
5979 warning << string_compose (_("insert ID %1 appears to be in use already"), id) << endmsg;
5981 insert_bitset[id] = true;
5985 Session::unmark_send_id (uint32_t id)
5987 if (id < send_bitset.size()) {
5988 send_bitset[id] = false;
5993 Session::unmark_aux_send_id (uint32_t id)
5995 if (id < aux_send_bitset.size()) {
5996 aux_send_bitset[id] = false;
6001 Session::unmark_return_id (uint32_t id)
6003 if (_state_of_the_state & Deletion) { return; }
6004 if (id < return_bitset.size()) {
6005 return_bitset[id] = false;
6010 Session::unmark_insert_id (uint32_t id)
6012 if (id < insert_bitset.size()) {
6013 insert_bitset[id] = false;
6018 Session::reset_native_file_format ()
6020 boost::shared_ptr<RouteList> rl = routes.reader ();
6022 for (RouteList::iterator i = rl->begin(); i != rl->end(); ++i) {
6023 boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (*i);
6025 /* don't save state as we do this, there's no point
6027 _state_of_the_state = StateOfTheState (_state_of_the_state|InCleanup);
6028 tr->reset_write_sources (false);
6029 _state_of_the_state = StateOfTheState (_state_of_the_state & ~InCleanup);
6035 Session::route_name_unique (string n) const
6037 boost::shared_ptr<RouteList> r = routes.reader ();
6039 for (RouteList::const_iterator i = r->begin(); i != r->end(); ++i) {
6040 if ((*i)->name() == n) {
6049 Session::route_name_internal (string n) const
6051 if (auditioner && auditioner->name() == n) {
6055 if (_click_io && _click_io->name() == n) {
6063 Session::freeze_all (InterThreadInfo& itt)
6065 boost::shared_ptr<RouteList> r = routes.reader ();
6067 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
6069 boost::shared_ptr<Track> t;
6071 if ((t = boost::dynamic_pointer_cast<Track>(*i)) != 0) {
6072 /* XXX this is wrong because itt.progress will keep returning to zero at the start
6082 boost::shared_ptr<Region>
6083 Session::write_one_track (Track& track, samplepos_t start, samplepos_t end,
6084 bool /*overwrite*/, vector<boost::shared_ptr<Source> >& srcs,
6085 InterThreadInfo& itt,
6086 boost::shared_ptr<Processor> endpoint, bool include_endpoint,
6087 bool for_export, bool for_freeze)
6089 boost::shared_ptr<Region> result;
6090 boost::shared_ptr<Playlist> playlist;
6091 boost::shared_ptr<Source> source;
6092 ChanCount diskstream_channels (track.n_channels());
6093 samplepos_t position;
6094 samplecnt_t this_chunk;
6096 samplepos_t latency_skip;
6098 samplepos_t len = end - start;
6099 bool need_block_size_reset = false;
6100 ChanCount const max_proc = track.max_processor_streams ();
6101 string legal_playlist_name;
6102 string possible_path;
6105 error << string_compose (_("Cannot write a range where end <= start (e.g. %1 <= %2)"),
6106 end, start) << endmsg;
6110 diskstream_channels = track.bounce_get_output_streams (diskstream_channels, endpoint,
6111 include_endpoint, for_export, for_freeze);
6113 if (diskstream_channels.n(track.data_type()) < 1) {
6114 error << _("Cannot write a range with no data.") << endmsg;
6118 // block all process callback handling
6120 block_processing ();
6123 // synchronize with AudioEngine::process_callback()
6124 // make sure processing is not currently running
6125 // and processing_blocked() is honored before
6126 // acquiring thread buffers
6127 Glib::Threads::Mutex::Lock lm (_engine.process_lock());
6130 _bounce_processing_active = true;
6132 /* call tree *MUST* hold route_lock */
6134 if ((playlist = track.playlist()) == 0) {
6138 legal_playlist_name = legalize_for_path (playlist->name());
6140 for (uint32_t chan_n = 0; chan_n < diskstream_channels.n(track.data_type()); ++chan_n) {
6142 string base_name = string_compose ("%1-%2-bounce", playlist->name(), chan_n);
6143 string path = ((track.data_type() == DataType::AUDIO)
6144 ? new_audio_source_path (legal_playlist_name, diskstream_channels.n_audio(), chan_n, false, true)
6145 : new_midi_source_path (legal_playlist_name));
6152 source = SourceFactory::createWritable (track.data_type(), *this, path, false, sample_rate());
6155 catch (failed_constructor& err) {
6156 error << string_compose (_("cannot create new file \"%1\" for %2"), path, track.name()) << endmsg;
6160 srcs.push_back (source);
6163 /* tell redirects that care that we are about to use a much larger
6164 * blocksize. this will flush all plugins too, so that they are ready
6165 * to be used for this process.
6168 need_block_size_reset = true;
6169 track.set_block_size (bounce_chunk_size);
6170 _engine.main_thread()->get_buffers ();
6174 latency_skip = track.bounce_get_latency (endpoint, include_endpoint, for_export, for_freeze);
6176 /* create a set of reasonably-sized buffers */
6177 for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) {
6178 buffers.ensure_buffers(*t, max_proc.get(*t), bounce_chunk_size);
6180 buffers.set_count (max_proc);
6182 for (vector<boost::shared_ptr<Source> >::iterator src = srcs.begin(); src != srcs.end(); ++src) {
6183 boost::shared_ptr<AudioFileSource> afs = boost::dynamic_pointer_cast<AudioFileSource>(*src);
6184 boost::shared_ptr<MidiSource> ms;
6186 afs->prepare_for_peakfile_writes ();
6187 } else if ((ms = boost::dynamic_pointer_cast<MidiSource>(*src))) {
6188 Source::Lock lock(ms->mutex());
6189 ms->mark_streaming_write_started(lock);
6193 while (to_do && !itt.cancel) {
6195 this_chunk = min (to_do, bounce_chunk_size);
6197 if (track.export_stuff (buffers, start, this_chunk, endpoint, include_endpoint, for_export, for_freeze)) {
6201 start += this_chunk;
6202 to_do -= this_chunk;
6203 itt.progress = (float) (1.0 - ((double) to_do / len));
6205 if (latency_skip >= bounce_chunk_size) {
6206 latency_skip -= bounce_chunk_size;
6210 const samplecnt_t current_chunk = this_chunk - latency_skip;
6213 for (vector<boost::shared_ptr<Source> >::iterator src=srcs.begin(); src != srcs.end(); ++src, ++n) {
6214 boost::shared_ptr<AudioFileSource> afs = boost::dynamic_pointer_cast<AudioFileSource>(*src);
6215 boost::shared_ptr<MidiSource> ms;
6218 if (afs->write (buffers.get_audio(n).data(latency_skip), current_chunk) != current_chunk) {
6221 } else if ((ms = boost::dynamic_pointer_cast<MidiSource>(*src))) {
6222 Source::Lock lock(ms->mutex());
6224 const MidiBuffer& buf = buffers.get_midi(0);
6225 for (MidiBuffer::const_iterator i = buf.begin(); i != buf.end(); ++i) {
6226 Evoral::Event<samplepos_t> ev = *i;
6227 ev.set_time(ev.time() - position);
6228 ms->append_event_samples(lock, ev, ms->timeline_position());
6235 /* post-roll, pick up delayed processor output */
6236 latency_skip = track.bounce_get_latency (endpoint, include_endpoint, for_export, for_freeze);
6238 while (latency_skip && !itt.cancel) {
6239 this_chunk = min (latency_skip, bounce_chunk_size);
6240 latency_skip -= this_chunk;
6242 buffers.silence (this_chunk, 0);
6243 track.bounce_process (buffers, start, this_chunk, endpoint, include_endpoint, for_export, for_freeze);
6246 for (vector<boost::shared_ptr<Source> >::iterator src=srcs.begin(); src != srcs.end(); ++src, ++n) {
6247 boost::shared_ptr<AudioFileSource> afs = boost::dynamic_pointer_cast<AudioFileSource>(*src);
6250 if (afs->write (buffers.get_audio(n).data(), this_chunk) != this_chunk) {
6262 xnow = localtime (&now);
6264 for (vector<boost::shared_ptr<Source> >::iterator src=srcs.begin(); src != srcs.end(); ++src) {
6265 boost::shared_ptr<AudioFileSource> afs = boost::dynamic_pointer_cast<AudioFileSource>(*src);
6266 boost::shared_ptr<MidiSource> ms;
6269 afs->update_header (position, *xnow, now);
6270 afs->flush_header ();
6271 } else if ((ms = boost::dynamic_pointer_cast<MidiSource>(*src))) {
6272 Source::Lock lock(ms->mutex());
6273 ms->mark_streaming_write_completed(lock);
6277 /* construct a region to represent the bounced material */
6281 plist.add (Properties::start, 0);
6282 plist.add (Properties::length, srcs.front()->length(srcs.front()->timeline_position()));
6283 plist.add (Properties::name, region_name_from_path (srcs.front()->name(), true));
6285 result = RegionFactory::create (srcs, plist);
6291 for (vector<boost::shared_ptr<Source> >::iterator src = srcs.begin(); src != srcs.end(); ++src) {
6292 (*src)->mark_for_remove ();
6293 (*src)->drop_references ();
6297 for (vector<boost::shared_ptr<Source> >::iterator src = srcs.begin(); src != srcs.end(); ++src) {
6298 boost::shared_ptr<AudioFileSource> afs = boost::dynamic_pointer_cast<AudioFileSource>(*src);
6301 afs->done_with_peakfile_writes ();
6305 _bounce_processing_active = false;
6307 if (need_block_size_reset) {
6308 _engine.main_thread()->drop_buffers ();
6309 track.set_block_size (get_block_size());
6312 unblock_processing ();
6318 Session::gain_automation_buffer() const
6320 return ProcessThread::gain_automation_buffer ();
6324 Session::trim_automation_buffer() const
6326 return ProcessThread::trim_automation_buffer ();
6330 Session::send_gain_automation_buffer() const
6332 return ProcessThread::send_gain_automation_buffer ();
6336 Session::scratch_automation_buffer() const
6338 return ProcessThread::scratch_automation_buffer ();
6342 Session::pan_automation_buffer() const
6344 return ProcessThread::pan_automation_buffer ();
6348 Session::get_silent_buffers (ChanCount count)
6350 return ProcessThread::get_silent_buffers (count);
6354 Session::get_scratch_buffers (ChanCount count, bool silence)
6356 return ProcessThread::get_scratch_buffers (count, silence);
6360 Session::get_noinplace_buffers (ChanCount count)
6362 return ProcessThread::get_noinplace_buffers (count);
6366 Session::get_route_buffers (ChanCount count, bool silence)
6368 return ProcessThread::get_route_buffers (count, silence);
6373 Session::get_mix_buffers (ChanCount count)
6375 return ProcessThread::get_mix_buffers (count);
6379 Session::ntracks () const
6382 boost::shared_ptr<RouteList> r = routes.reader ();
6384 for (RouteList::const_iterator i = r->begin(); i != r->end(); ++i) {
6385 if (boost::dynamic_pointer_cast<Track> (*i)) {
6394 Session::nbusses () const
6397 boost::shared_ptr<RouteList> r = routes.reader ();
6399 for (RouteList::const_iterator i = r->begin(); i != r->end(); ++i) {
6400 if (boost::dynamic_pointer_cast<Track>(*i) == 0) {
6409 Session::nstripables (bool with_monitor) const
6411 uint32_t rv = routes.reader()->size ();
6412 rv += _vca_manager->vcas ().size ();
6426 Session::add_automation_list(AutomationList *al)
6428 automation_lists[al->id()] = al;
6431 /** @return true if there is at least one record-enabled track, otherwise false */
6433 Session::have_rec_enabled_track () const
6435 return g_atomic_int_get (const_cast<gint*>(&_have_rec_enabled_track)) == 1;
6439 Session::have_rec_disabled_track () const
6441 return g_atomic_int_get (const_cast<gint*>(&_have_rec_disabled_track)) == 1;
6444 /** Update the state of our rec-enabled tracks flag */
6446 Session::update_route_record_state ()
6448 boost::shared_ptr<RouteList> rl = routes.reader ();
6449 RouteList::iterator i = rl->begin();
6450 while (i != rl->end ()) {
6452 boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (*i);
6453 if (tr && tr->rec_enable_control()->get_value()) {
6460 int const old = g_atomic_int_get (&_have_rec_enabled_track);
6462 g_atomic_int_set (&_have_rec_enabled_track, i != rl->end () ? 1 : 0);
6464 if (g_atomic_int_get (&_have_rec_enabled_track) != old) {
6465 RecordStateChanged (); /* EMIT SIGNAL */
6468 for (i = rl->begin(); i != rl->end (); ++i) {
6469 boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (*i);
6470 if (tr && !tr->rec_enable_control()->get_value()) {
6475 g_atomic_int_set (&_have_rec_disabled_track, i != rl->end () ? 1 : 0);
6477 bool record_arm_state_changed = (old != g_atomic_int_get (&_have_rec_enabled_track) );
6479 if (record_status() == Recording && record_arm_state_changed ) {
6480 RecordArmStateChanged ();
6486 Session::listen_position_changed ()
6488 ProcessorChangeBlocker pcb (this);
6489 boost::shared_ptr<RouteList> r = routes.reader ();
6490 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
6491 (*i)->listen_position_changed ();
6496 Session::solo_control_mode_changed ()
6498 if (soloing() || listening()) {
6500 /* We can't use ::clear_all_solo_state() here because during
6501 session loading at program startup, that will queue a call
6502 to rt_clear_all_solo_state() that will not execute until
6503 AFTER solo states have been established (thus throwing away
6504 the session's saved solo state). So just explicitly turn
6507 set_controls (route_list_to_control_list (get_routes(), &Stripable::solo_control), 0.0, Controllable::NoGroup);
6509 clear_all_solo_state (get_routes());
6514 /** Called when a property of one of our route groups changes */
6516 Session::route_group_property_changed (RouteGroup* rg)
6518 RouteGroupPropertyChanged (rg); /* EMIT SIGNAL */
6521 /** Called when a route is added to one of our route groups */
6523 Session::route_added_to_route_group (RouteGroup* rg, boost::weak_ptr<Route> r)
6525 RouteAddedToRouteGroup (rg, r);
6528 /** Called when a route is removed from one of our route groups */
6530 Session::route_removed_from_route_group (RouteGroup* rg, boost::weak_ptr<Route> r)
6532 update_route_record_state ();
6533 RouteRemovedFromRouteGroup (rg, r); /* EMIT SIGNAL */
6535 if (!rg->has_control_master () && !rg->has_subgroup () && rg->empty()) {
6536 remove_route_group (*rg);
6540 boost::shared_ptr<RouteList>
6541 Session::get_tracks () const
6543 boost::shared_ptr<RouteList> rl = routes.reader ();
6544 boost::shared_ptr<RouteList> tl (new RouteList);
6546 for (RouteList::const_iterator r = rl->begin(); r != rl->end(); ++r) {
6547 if (boost::dynamic_pointer_cast<Track> (*r)) {
6548 assert (!(*r)->is_auditioner()); // XXX remove me
6555 boost::shared_ptr<RouteList>
6556 Session::get_routes_with_regions_at (samplepos_t const p) const
6558 boost::shared_ptr<RouteList> r = routes.reader ();
6559 boost::shared_ptr<RouteList> rl (new RouteList);
6561 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
6562 boost::shared_ptr<Track> tr = boost::dynamic_pointer_cast<Track> (*i);
6567 boost::shared_ptr<Playlist> pl = tr->playlist ();
6572 if (pl->has_region_at (p)) {
6581 Session::goto_end ()
6583 if (_session_range_location) {
6584 request_locate (_session_range_location->end(), false);
6586 request_locate (0, false);
6591 Session::goto_start (bool and_roll)
6593 if (_session_range_location) {
6594 request_locate (_session_range_location->start(), and_roll);
6596 request_locate (0, and_roll);
6601 Session::current_start_sample () const
6603 return _session_range_location ? _session_range_location->start() : 0;
6607 Session::current_end_sample () const
6609 return _session_range_location ? _session_range_location->end() : 0;
6613 Session::set_session_range_location (samplepos_t start, samplepos_t end)
6615 _session_range_location = new Location (*this, start, end, _("session"), Location::IsSessionRange, 0);
6616 _locations->add (_session_range_location);
6620 Session::step_edit_status_change (bool yn)
6626 send = (_step_editors == 0);
6631 send = (_step_editors == 1);
6634 if (_step_editors > 0) {
6640 StepEditStatusChange (val);
6646 Session::start_time_changed (samplepos_t old)
6648 /* Update the auto loop range to match the session range
6649 (unless the auto loop range has been changed by the user)
6652 Location* s = _locations->session_range_location ();
6657 Location* l = _locations->auto_loop_location ();
6659 if (l && l->start() == old) {
6660 l->set_start (s->start(), true);
6666 Session::end_time_changed (samplepos_t old)
6668 /* Update the auto loop range to match the session range
6669 (unless the auto loop range has been changed by the user)
6672 Location* s = _locations->session_range_location ();
6677 Location* l = _locations->auto_loop_location ();
6679 if (l && l->end() == old) {
6680 l->set_end (s->end(), true);
6685 std::vector<std::string>
6686 Session::source_search_path (DataType type) const
6690 if (session_dirs.size() == 1) {
6692 case DataType::AUDIO:
6693 sp.push_back (_session_dir->sound_path());
6695 case DataType::MIDI:
6696 sp.push_back (_session_dir->midi_path());
6700 for (vector<space_and_path>::const_iterator i = session_dirs.begin(); i != session_dirs.end(); ++i) {
6701 SessionDirectory sdir (i->path);
6703 case DataType::AUDIO:
6704 sp.push_back (sdir.sound_path());
6706 case DataType::MIDI:
6707 sp.push_back (sdir.midi_path());
6713 if (type == DataType::AUDIO) {
6714 const string sound_path_2X = _session_dir->sound_path_2X();
6715 if (Glib::file_test (sound_path_2X, Glib::FILE_TEST_EXISTS|Glib::FILE_TEST_IS_DIR)) {
6716 if (find (sp.begin(), sp.end(), sound_path_2X) == sp.end()) {
6717 sp.push_back (sound_path_2X);
6722 // now check the explicit (possibly user-specified) search path
6725 case DataType::AUDIO:
6726 sp += Searchpath(config.get_audio_search_path ());
6728 case DataType::MIDI:
6729 sp += Searchpath(config.get_midi_search_path ());
6737 Session::ensure_search_path_includes (const string& path, DataType type)
6746 case DataType::AUDIO:
6747 sp += Searchpath(config.get_audio_search_path ());
6749 case DataType::MIDI:
6750 sp += Searchpath (config.get_midi_search_path ());
6754 for (vector<std::string>::iterator i = sp.begin(); i != sp.end(); ++i) {
6755 /* No need to add this new directory if it has the same inode as
6756 an existing one; checking inode rather than name prevents duplicated
6757 directories when we are using symlinks.
6759 On Windows, I think we could just do if (*i == path) here.
6761 if (PBD::equivalent_paths (*i, path)) {
6769 case DataType::AUDIO:
6770 config.set_audio_search_path (sp.to_string());
6772 case DataType::MIDI:
6773 config.set_midi_search_path (sp.to_string());
6779 Session::remove_dir_from_search_path (const string& dir, DataType type)
6784 case DataType::AUDIO:
6785 sp = Searchpath(config.get_audio_search_path ());
6787 case DataType::MIDI:
6788 sp = Searchpath (config.get_midi_search_path ());
6795 case DataType::AUDIO:
6796 config.set_audio_search_path (sp.to_string());
6798 case DataType::MIDI:
6799 config.set_midi_search_path (sp.to_string());
6805 boost::shared_ptr<Speakers>
6806 Session::get_speakers()
6812 Session::unknown_processors () const
6816 boost::shared_ptr<RouteList> r = routes.reader ();
6817 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
6818 list<string> t = (*i)->unknown_processors ();
6819 copy (t.begin(), t.end(), back_inserter (p));
6829 Session::set_worst_io_latencies_x (IOChange, void *)
6831 set_worst_io_latencies ();
6835 Session::send_latency_compensation_change ()
6837 /* As a result of Send::set_output_latency()
6838 * or InternalReturn::set_playback_offset ()
6839 * the send's own latency can change (source track
6840 * is aligned with target bus).
6842 * This can only happen be triggered by
6843 * Route::update_signal_latency ()
6844 * when updating the processor latency.
6846 * We need to walk the graph again to take those changes into account
6847 * (we should probably recurse or process the graph in a 2 step process).
6849 ++_send_latency_changes;
6853 Session::update_route_latency (bool playback, bool apply_to_delayline)
6855 /* Note: RouteList is process-graph sorted */
6856 boost::shared_ptr<RouteList> r = routes.reader ();
6859 /* reverse the list so that we work backwards from the last route to run to the first,
6860 * this is not needed, but can help to reduce the iterations for aux-sends.
6862 RouteList* rl = routes.reader().get();
6863 r.reset (new RouteList (*rl));
6864 reverse (r->begin(), r->end());
6867 bool changed = false;
6870 _send_latency_changes = 0;
6871 _worst_route_latency = 0;
6873 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
6874 // if (!(*i)->active()) { continue ; } // TODO
6876 if ((*i)->signal_latency () != (l = (*i)->update_signal_latency (apply_to_delayline))) {
6879 _worst_route_latency = std::max (l, _worst_route_latency);
6882 if (_send_latency_changes > 0) {
6883 // only 1 extra iteration is needed (we allow only 1 level of aux-sends)
6884 // BUT.. jack'n'sends'n'bugs
6885 if (++bailout < 5) {
6886 cerr << "restarting Session::update_latency. # of send changes: " << _send_latency_changes << " iteration: " << bailout << endl;
6891 DEBUG_TRACE (DEBUG::Latency, string_compose ("worst signal processing latency: %1 (changed ? %2)\n", _worst_route_latency, (changed ? "yes" : "no")));
6897 Session::update_latency (bool playback)
6899 DEBUG_TRACE (DEBUG::Latency, string_compose ("JACK latency callback: %1\n", (playback ? "PLAYBACK" : "CAPTURE")));
6901 if ((_state_of_the_state & (InitialConnecting|Deletion)) || _adding_routes_in_progress || _route_deletion_in_progress) {
6904 if (!_engine.running()) {
6908 /* Note; RouteList is sorted as process-graph */
6909 boost::shared_ptr<RouteList> r = routes.reader ();
6912 /* reverse the list so that we work backwards from the last route to run to the first */
6913 RouteList* rl = routes.reader().get();
6914 r.reset (new RouteList (*rl));
6915 reverse (r->begin(), r->end());
6918 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
6919 samplecnt_t latency = (*i)->set_private_port_latencies (playback);
6920 (*i)->set_public_port_latencies (latency, playback);
6924 set_worst_output_latency ();
6925 update_route_latency (true, true);
6927 set_worst_input_latency ();
6928 update_route_latency (false, false);
6931 DEBUG_TRACE (DEBUG::Latency, "JACK latency callback: DONE\n");
6935 Session::initialize_latencies ()
6938 Glib::Threads::Mutex::Lock lm (_engine.process_lock());
6939 update_latency (false);
6940 update_latency (true);
6943 set_worst_io_latencies ();
6947 Session::set_worst_io_latencies ()
6949 set_worst_output_latency ();
6950 set_worst_input_latency ();
6954 Session::set_worst_output_latency ()
6956 if (_state_of_the_state & (InitialConnecting|Deletion)) {
6960 _worst_output_latency = 0;
6962 if (!_engine.connected()) {
6966 boost::shared_ptr<RouteList> r = routes.reader ();
6968 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
6969 _worst_output_latency = max (_worst_output_latency, (*i)->output()->latency());
6972 _worst_output_latency = max (_worst_output_latency, _click_io->latency());
6974 DEBUG_TRACE (DEBUG::Latency, string_compose ("Worst output latency: %1\n", _worst_output_latency));
6978 Session::set_worst_input_latency ()
6980 if (_state_of_the_state & (InitialConnecting|Deletion)) {
6984 _worst_input_latency = 0;
6986 if (!_engine.connected()) {
6990 boost::shared_ptr<RouteList> r = routes.reader ();
6992 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
6993 _worst_input_latency = max (_worst_input_latency, (*i)->input()->latency());
6996 DEBUG_TRACE (DEBUG::Latency, string_compose ("Worst input latency: %1\n", _worst_input_latency));
7000 Session::update_latency_compensation (bool force_whole_graph)
7002 if (_state_of_the_state & (InitialConnecting|Deletion)) {
7006 bool some_track_latency_changed = update_route_latency (false, false);
7008 if (some_track_latency_changed || force_whole_graph) {
7009 _engine.update_latencies ();
7010 /* above call will ask the backend up update its latencies, which
7011 * eventually will trigger AudioEngine::latency_callback () and
7012 * call Session::update_latency ()
7015 boost::shared_ptr<RouteList> r = routes.reader ();
7016 for (RouteList::iterator i = r->begin(); i != r->end(); ++i) {
7017 (*i)->apply_latency_compensation ();
7023 Session::session_name_is_legal (const string& path)
7025 char illegal_chars[] = { '/', '\\', ':', ';', '\0' };
7027 for (int i = 0; illegal_chars[i]; ++i) {
7028 if (path.find (illegal_chars[i]) != string::npos) {
7029 return illegal_chars[i];
7037 Session::notify_presentation_info_change ()
7039 if (deletion_in_progress()) {
7043 reassign_track_numbers();
7045 #ifdef USE_TRACKS_CODE_FEATURES
7046 /* Waves Tracks: for Waves Tracks session it's required to reconnect their IOs
7047 * if track order has been changed by user
7049 reconnect_existing_routes(true, true);
7055 Session::operation_in_progress (GQuark op) const
7057 return (find (_current_trans_quarks.begin(), _current_trans_quarks.end(), op) != _current_trans_quarks.end());
7060 boost::shared_ptr<Port>
7061 Session::ltc_input_port () const
7063 assert (_ltc_input);
7064 return _ltc_input->nth (0);
7067 boost::shared_ptr<Port>
7068 Session::ltc_output_port () const
7070 return _ltc_output ? _ltc_output->nth (0) : boost::shared_ptr<Port> ();
7074 Session::reconnect_ltc_input ()
7078 string src = Config->get_ltc_source_port();
7080 _ltc_input->disconnect (this);
7082 if (src != _("None") && !src.empty()) {
7083 _ltc_input->nth (0)->connect (src);
7086 if ( ARDOUR::Profile->get_trx () ) {
7087 // Tracks need this signal to update timecode_source_dropdown
7088 MtcOrLtcInputPortChanged (); //emit signal
7094 Session::reconnect_ltc_output ()
7098 string src = Config->get_ltc_output_port();
7100 _ltc_output->disconnect (this);
7102 if (src != _("None") && !src.empty()) {
7103 _ltc_output->nth (0)->connect (src);
7109 Session::set_range_selection (samplepos_t start, samplepos_t end)
7111 _range_selection = Evoral::Range<samplepos_t> (start, end);
7112 #ifdef USE_TRACKS_CODE_FEATURES
7113 follow_playhead_priority ();
7118 Session::set_object_selection (samplepos_t start, samplepos_t end)
7120 _object_selection = Evoral::Range<samplepos_t> (start, end);
7121 #ifdef USE_TRACKS_CODE_FEATURES
7122 follow_playhead_priority ();
7127 Session::clear_range_selection ()
7129 _range_selection = Evoral::Range<samplepos_t> (-1,-1);
7130 #ifdef USE_TRACKS_CODE_FEATURES
7131 follow_playhead_priority ();
7136 Session::clear_object_selection ()
7138 _object_selection = Evoral::Range<samplepos_t> (-1,-1);
7139 #ifdef USE_TRACKS_CODE_FEATURES
7140 follow_playhead_priority ();
7145 Session::auto_connect_route (boost::shared_ptr<Route> route, bool connect_inputs,
7146 const ChanCount& input_start,
7147 const ChanCount& output_start,
7148 const ChanCount& input_offset,
7149 const ChanCount& output_offset)
7151 Glib::Threads::Mutex::Lock lx (_auto_connect_queue_lock);
7152 _auto_connect_queue.push (AutoConnectRequest (route, connect_inputs,
7153 input_start, output_start,
7154 input_offset, output_offset));
7156 auto_connect_thread_wakeup ();
7160 Session::auto_connect_thread_wakeup ()
7162 if (pthread_mutex_trylock (&_auto_connect_mutex) == 0) {
7163 pthread_cond_signal (&_auto_connect_cond);
7164 pthread_mutex_unlock (&_auto_connect_mutex);
7169 Session::queue_latency_recompute ()
7171 g_atomic_int_inc (&_latency_recompute_pending);
7172 auto_connect_thread_wakeup ();
7176 Session::auto_connect (const AutoConnectRequest& ar)
7178 boost::shared_ptr<Route> route = ar.route.lock();
7180 if (!route) { return; }
7182 if (!IO::connecting_legal) {
7186 /* If both inputs and outputs are auto-connected to physical ports,
7187 * use the max of input and output offsets to ensure auto-connected
7188 * port numbers always match up (e.g. the first audio input and the
7189 * first audio output of the route will have the same physical
7190 * port number). Otherwise just use the lowest input or output
7194 const bool in_out_physical =
7195 (Config->get_input_auto_connect() & AutoConnectPhysical)
7196 && (Config->get_output_auto_connect() & AutoConnectPhysical)
7197 && ar.connect_inputs;
7199 const ChanCount in_offset = in_out_physical
7200 ? ChanCount::max(ar.input_offset, ar.output_offset)
7203 const ChanCount out_offset = in_out_physical
7204 ? ChanCount::max(ar.input_offset, ar.output_offset)
7207 for (DataType::iterator t = DataType::begin(); t != DataType::end(); ++t) {
7208 vector<string> physinputs;
7209 vector<string> physoutputs;
7212 /* for connecting track inputs we only want MIDI ports marked
7216 get_physical_ports (physinputs, physoutputs, *t, MidiPortMusic);
7218 if (!physinputs.empty() && ar.connect_inputs) {
7219 uint32_t nphysical_in = physinputs.size();
7221 for (uint32_t i = ar.input_start.get(*t); i < route->n_inputs().get(*t) && i < nphysical_in; ++i) {
7224 if (Config->get_input_auto_connect() & AutoConnectPhysical) {
7225 port = physinputs[(in_offset.get(*t) + i) % nphysical_in];
7228 if (!port.empty() && route->input()->connect (route->input()->ports().port(*t, i), port, this)) {
7234 if (!physoutputs.empty()) {
7235 uint32_t nphysical_out = physoutputs.size();
7236 for (uint32_t i = ar.output_start.get(*t); i < route->n_outputs().get(*t); ++i) {
7240 * do not create new connections if we reached the limit of physical outputs
7243 if (!(Config->get_output_auto_connect() & AutoConnectMaster) &&
7244 ARDOUR::Profile->get_trx () &&
7245 ar.output_offset.get(*t) == nphysical_out ) {
7249 if ((*t) == DataType::MIDI && (Config->get_output_auto_connect() & AutoConnectPhysical)) {
7250 port = physoutputs[(out_offset.get(*t) + i) % nphysical_out];
7251 } else if ((*t) == DataType::AUDIO && (Config->get_output_auto_connect() & AutoConnectMaster)) {
7252 /* master bus is audio only */
7253 if (_master_out && _master_out->n_inputs().get(*t) > 0) {
7254 port = _master_out->input()->ports().port(*t,
7255 i % _master_out->input()->n_ports().get(*t))->name();
7259 if (!port.empty() && route->output()->connect (route->output()->ports().port(*t, i), port, this)) {
7268 Session::auto_connect_thread_start ()
7270 if (g_atomic_int_get (&_ac_thread_active)) {
7274 while (!_auto_connect_queue.empty ()) {
7275 _auto_connect_queue.pop ();
7278 g_atomic_int_set (&_ac_thread_active, 1);
7279 if (pthread_create (&_auto_connect_thread, NULL, auto_connect_thread, this)) {
7280 g_atomic_int_set (&_ac_thread_active, 0);
7285 Session::auto_connect_thread_terminate ()
7287 if (!g_atomic_int_get (&_ac_thread_active)) {
7292 Glib::Threads::Mutex::Lock lx (_auto_connect_queue_lock);
7293 while (!_auto_connect_queue.empty ()) {
7294 _auto_connect_queue.pop ();
7298 /* cannot use auto_connect_thread_wakeup() because that is allowed to
7299 * fail to wakeup the thread.
7302 pthread_mutex_lock (&_auto_connect_mutex);
7303 g_atomic_int_set (&_ac_thread_active, 0);
7304 pthread_cond_signal (&_auto_connect_cond);
7305 pthread_mutex_unlock (&_auto_connect_mutex);
7308 pthread_join (_auto_connect_thread, &status);
7312 Session::auto_connect_thread (void *arg)
7314 Session *s = static_cast<Session *>(arg);
7315 s->auto_connect_thread_run ();
7321 Session::auto_connect_thread_run ()
7323 pthread_set_name (X_("autoconnect"));
7324 SessionEvent::create_per_thread_pool (X_("autoconnect"), 1024);
7325 PBD::notify_event_loops_about_thread_creation (pthread_self(), X_("autoconnect"), 1024);
7326 pthread_mutex_lock (&_auto_connect_mutex);
7327 while (g_atomic_int_get (&_ac_thread_active)) {
7329 if (!_auto_connect_queue.empty ()) {
7330 // Why would we need the process lock ??
7331 // A: if ports are added while we're connecting, the backend's iterator may be invalidated:
7332 // graph_order_callback() -> resort_routes() -> direct_feeds_according_to_reality () -> backend::connected_to()
7333 // All ardour-internal backends use a std::vector xxxAudioBackend::find_port()
7334 // We have control over those, but what does jack do?
7335 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
7337 Glib::Threads::Mutex::Lock lx (_auto_connect_queue_lock);
7338 while (!_auto_connect_queue.empty ()) {
7339 const AutoConnectRequest ar (_auto_connect_queue.front());
7340 _auto_connect_queue.pop ();
7347 if (!actively_recording ()) { // might not be needed,
7348 /* this is only used for updating plugin latencies, the
7349 * graph does not change. so it's safe in general.
7351 * update_latency_compensation ()
7352 * calls DiskWriter::set_capture_offset () which
7353 * modifies the capture-offset, which can be a problem.
7355 while (g_atomic_int_and (&_latency_recompute_pending, 0)) {
7356 update_latency_compensation ();
7361 // this may call ARDOUR::Port::drop ... jack_port_unregister ()
7362 // jack1 cannot cope with removing ports while processing
7363 Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock ());
7364 AudioEngine::instance()->clear_pending_port_deletions ();
7367 pthread_cond_wait (&_auto_connect_cond, &_auto_connect_mutex);
7369 pthread_mutex_unlock (&_auto_connect_mutex);
7373 Session::cancel_all_solo ()
7377 get_stripables (sl);
7379 set_controls (stripable_list_to_control_list (sl, &Stripable::solo_control), 0.0, Controllable::NoGroup);
7380 clear_all_solo_state (routes.reader());