/* Copyright (C) 2006 Paul Davis By Dave Robillard, 2006 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "i18n.h" using namespace std; using namespace ARDOUR; using namespace PBD; MidiTrack::MidiTrack (Session& sess, string name, Route::Flag flag, TrackMode mode) : Track (sess, name, flag, mode, DataType::MIDI) { MidiDiskstream::Flag dflags = MidiDiskstream::Flag (0); if (_flags & Hidden) { dflags = MidiDiskstream::Flag (dflags | MidiDiskstream::Hidden); } else { dflags = MidiDiskstream::Flag (dflags | MidiDiskstream::Recordable); } assert(mode != Destructive); boost::shared_ptr ds (new MidiDiskstream (_session, name, dflags)); _session.add_diskstream (ds); set_diskstream (boost::dynamic_pointer_cast (ds)); _declickable = true; _freeze_record.state = NoFreeze; _saved_meter_point = _meter_point; _mode = mode; set_input_minimum(ChanCount(DataType::MIDI, 1)); set_input_maximum(ChanCount(DataType::MIDI, 1)); set_output_minimum(ChanCount(DataType::MIDI, 1)); set_output_maximum(ChanCount(DataType::MIDI, 1)); } MidiTrack::MidiTrack (Session& sess, const XMLNode& node) : Track (sess, node) { _freeze_record.state = NoFreeze; set_state (node); _declickable = true; _saved_meter_point = _meter_point; set_input_minimum(ChanCount(DataType::MIDI, 1)); set_input_maximum(ChanCount(DataType::MIDI, 1)); set_output_minimum(ChanCount(DataType::MIDI, 1)); set_output_maximum(ChanCount(DataType::MIDI, 1)); } MidiTrack::~MidiTrack () { } int MidiTrack::set_diskstream (boost::shared_ptr ds) { _diskstream = ds; _diskstream->set_io (*this); _diskstream->set_destructive (_mode == Destructive); _diskstream->set_record_enabled (false); //_diskstream->monitor_input (false); ic_connection.disconnect(); ic_connection = input_changed.connect (mem_fun (*_diskstream, &MidiDiskstream::handle_input_change)); DiskstreamChanged (); /* EMIT SIGNAL */ return 0; } int MidiTrack::use_diskstream (string name) { boost::shared_ptr dstream; if ((dstream = boost::dynamic_pointer_cast(_session.diskstream_by_name (name))) == 0) { error << string_compose(_("MidiTrack: midi diskstream \"%1\" not known by session"), name) << endmsg; return -1; } return set_diskstream (dstream); } int MidiTrack::use_diskstream (const PBD::ID& id) { boost::shared_ptr dstream; if ((dstream = boost::dynamic_pointer_cast (_session.diskstream_by_id (id))) == 0) { error << string_compose(_("MidiTrack: midi diskstream \"%1\" not known by session"), id) << endmsg; return -1; } return set_diskstream (dstream); } boost::shared_ptr MidiTrack::midi_diskstream() const { return boost::dynamic_pointer_cast(_diskstream); } int MidiTrack::set_state (const XMLNode& node) { const XMLProperty *prop; XMLNodeConstIterator iter; if (Route::set_state (node)) { return -1; } if ((prop = node.property (X_("mode"))) != 0) { if (prop->value() == X_("normal")) { _mode = Normal; } else if (prop->value() == X_("destructive")) { _mode = Destructive; } else { warning << string_compose ("unknown midi track mode \"%1\" seen and ignored", prop->value()) << endmsg; _mode = Normal; } } else { _mode = Normal; } if ((prop = node.property ("diskstream-id")) == 0) { /* some old sessions use the diskstream name rather than the ID */ if ((prop = node.property ("diskstream")) == 0) { fatal << _("programming error: MidiTrack given state without diskstream!") << endmsg; /*NOTREACHED*/ return -1; } if (use_diskstream (prop->value())) { return -1; } } else { PBD::ID id (prop->value()); if (use_diskstream (id)) { return -1; } } XMLNodeList nlist; XMLNodeConstIterator niter; XMLNode *child; nlist = node.children(); for (niter = nlist.begin(); niter != nlist.end(); ++niter){ child = *niter; if (child->name() == X_("remote_control")) { if ((prop = child->property (X_("id"))) != 0) { int32_t x; sscanf (prop->value().c_str(), "%d", &x); set_remote_control_id (x); } } } pending_state = const_cast (&node); _session.StateReady.connect (mem_fun (*this, &MidiTrack::set_state_part_two)); return 0; } XMLNode& MidiTrack::state(bool full_state) { XMLNode& root (Route::state(full_state)); XMLNode* freeze_node; char buf[64]; if (_freeze_record.playlist) { XMLNode* inode; freeze_node = new XMLNode (X_("freeze-info")); freeze_node->add_property ("playlist", _freeze_record.playlist->name()); snprintf (buf, sizeof (buf), "%d", (int) _freeze_record.state); freeze_node->add_property ("state", buf); for (vector::iterator i = _freeze_record.insert_info.begin(); i != _freeze_record.insert_info.end(); ++i) { inode = new XMLNode (X_("insert")); (*i)->id.print (buf, sizeof(buf)); inode->add_property (X_("id"), buf); inode->add_child_copy ((*i)->state); freeze_node->add_child_nocopy (*inode); } root.add_child_nocopy (*freeze_node); } /* Alignment: act as a proxy for the diskstream */ XMLNode* align_node = new XMLNode (X_("alignment")); switch (_diskstream->alignment_style()) { case ExistingMaterial: snprintf (buf, sizeof (buf), X_("existing")); break; case CaptureTime: snprintf (buf, sizeof (buf), X_("capture")); break; } align_node->add_property (X_("style"), buf); root.add_child_nocopy (*align_node); XMLNode* remote_control_node = new XMLNode (X_("remote_control")); snprintf (buf, sizeof (buf), "%d", _remote_control_id); remote_control_node->add_property (X_("id"), buf); root.add_child_nocopy (*remote_control_node); switch (_mode) { case Normal: root.add_property (X_("mode"), X_("normal")); break; case Destructive: root.add_property (X_("mode"), X_("destructive")); break; } /* we don't return diskstream state because we don't own the diskstream exclusively. control of the diskstream state is ceded to the Session, even if we create the diskstream. */ _diskstream->id().print (buf, sizeof(buf)); root.add_property ("diskstream-id", buf); return root; } void MidiTrack::set_state_part_two () { XMLNode* fnode; XMLProperty* prop; LocaleGuard lg (X_("POSIX")); /* This is called after all session state has been restored but before have been made ports and connections are established. */ if (pending_state == 0) { return; } if ((fnode = find_named_node (*pending_state, X_("freeze-info"))) != 0) { _freeze_record.have_mementos = false; _freeze_record.state = Frozen; for (vector::iterator i = _freeze_record.insert_info.begin(); i != _freeze_record.insert_info.end(); ++i) { delete *i; } _freeze_record.insert_info.clear (); if ((prop = fnode->property (X_("playlist"))) != 0) { boost::shared_ptr pl = _session.playlist_by_name (prop->value()); if (pl) { _freeze_record.playlist = boost::dynamic_pointer_cast (pl); } else { _freeze_record.playlist.reset(); _freeze_record.state = NoFreeze; return; } } if ((prop = fnode->property (X_("state"))) != 0) { _freeze_record.state = (FreezeState) atoi (prop->value().c_str()); } XMLNodeConstIterator citer; XMLNodeList clist = fnode->children(); for (citer = clist.begin(); citer != clist.end(); ++citer) { if ((*citer)->name() != X_("insert")) { continue; } if ((prop = (*citer)->property (X_("id"))) == 0) { continue; } FreezeRecordInsertInfo* frii = new FreezeRecordInsertInfo (*((*citer)->children().front()), boost::shared_ptr()); frii->id = prop->value (); _freeze_record.insert_info.push_back (frii); } } /* Alignment: act as a proxy for the diskstream */ if ((fnode = find_named_node (*pending_state, X_("alignment"))) != 0) { if ((prop = fnode->property (X_("style"))) != 0) { if (prop->value() == "existing") { _diskstream->set_persistent_align_style (ExistingMaterial); } else if (prop->value() == "capture") { _diskstream->set_persistent_align_style (CaptureTime); } } } return; } int MidiTrack::no_roll (jack_nframes_t nframes, jack_nframes_t start_frame, jack_nframes_t end_frame, jack_nframes_t offset, bool session_state_changing, bool can_record, bool rec_monitors_input) { if (n_outputs().get(DataType::MIDI) == 0) { //return 0; throw; // FIXME } if (!_active) { silence (nframes, offset); //return 0; // FIXME } if (session_state_changing) { /* XXX is this safe to do against transport state changes? */ passthru_silence (start_frame, end_frame, nframes, offset, 0, false); return 0; } midi_diskstream()->check_record_status (start_frame, nframes, can_record); bool send_silence; if (_have_internal_generator) { /* since the instrument has no input streams, there is no reason to send any signal into the route. */ send_silence = true; } else { if (Config->get_auto_input()) { if (Config->get_monitoring_model() == SoftwareMonitoring) { send_silence = false; } else { send_silence = true; } } else { if (_diskstream->record_enabled()) { if (Config->get_monitoring_model() == SoftwareMonitoring) { send_silence = false; } else { send_silence = true; } } else { send_silence = true; } } } apply_gain_automation = false; if (send_silence) { /* if we're sending silence, but we want the meters to show levels for the signal, meter right here. */ if (_have_internal_generator) { passthru_silence (start_frame, end_frame, nframes, offset, 0, true); } else { if (_meter_point == MeterInput) { just_meter_input (start_frame, end_frame, nframes, offset); } passthru_silence (start_frame, end_frame, nframes, offset, 0, false); } } else { /* we're sending signal, but we may still want to meter the input. */ passthru (start_frame, end_frame, nframes, offset, 0, (_meter_point == MeterInput)); } return 0; } int MidiTrack::roll (jack_nframes_t nframes, jack_nframes_t start_frame, jack_nframes_t end_frame, jack_nframes_t offset, int declick, bool can_record, bool rec_monitors_input) { int dret; boost::shared_ptr diskstream = midi_diskstream(); if (n_outputs().get_total() == 0 && _redirects.empty()) { return 0; } if (!_active) { silence (nframes, offset); return 0; } jack_nframes_t transport_frame = _session.transport_frame(); if ((nframes = check_initial_delay (nframes, offset, transport_frame)) == 0) { /* need to do this so that the diskstream sets its playback distance to zero, thus causing diskstream::commit to do nothing. */ return diskstream->process (transport_frame, 0, 0, can_record, rec_monitors_input); } _silent = false; if ((dret = diskstream->process (transport_frame, nframes, offset, can_record, rec_monitors_input)) != 0) { silence (nframes, offset); return dret; } /* special condition applies */ if (_meter_point == MeterInput) { just_meter_input (start_frame, end_frame, nframes, offset); } if (diskstream->record_enabled() && !can_record && !Config->get_auto_input()) { /* not actually recording, but we want to hear the input material anyway, at least potentially (depending on monitoring options) */ passthru (start_frame, end_frame, nframes, offset, 0, true); } else { /* XXX is it true that the earlier test on n_outputs() means that we can avoid checking it again here? i think so, because changing the i/o configuration of an IO requires holding the AudioEngine lock, which we hold while in the process() tree. */ /* copy the diskstream data to all output buffers */ //const size_t limit = n_process_buffers().get(DataType::AUDIO); BufferSet& bufs = _session.get_scratch_buffers (n_process_buffers()); diskstream->get_playback(bufs.get_midi(0), start_frame, end_frame); process_output_buffers (bufs, start_frame, end_frame, nframes, offset, (!_session.get_record_enabled() || !Config->get_do_not_record_plugins()), declick, (_meter_point != MeterInput)); } return 0; } int MidiTrack::silent_roll (jack_nframes_t nframes, jack_nframes_t start_frame, jack_nframes_t end_frame, jack_nframes_t offset, bool can_record, bool rec_monitors_input) { if (n_outputs().get(DataType::MIDI) == 0 && _redirects.empty()) { return 0; } if (!_active) { silence (nframes, offset); return 0; } _silent = true; apply_gain_automation = false; silence (nframes, offset); return midi_diskstream()->process (_session.transport_frame() + offset, nframes, offset, can_record, rec_monitors_input); } void MidiTrack::process_output_buffers (BufferSet& bufs, jack_nframes_t start_frame, jack_nframes_t end_frame, jack_nframes_t nframes, jack_nframes_t offset, bool with_redirects, int declick, bool meter) { /* There's no such thing as a MIDI bus for the time being, to avoid diverging from trunk * too much until the SoC settles down. We'll do all the MIDI route work here for now, * but the long-term goal is to have Route::process_output_buffers handle everything */ // Run all redirects if (with_redirects) { Glib::RWLock::ReaderLock rm (redirect_lock, Glib::TRY_LOCK); if (rm.locked()) { for (RedirectList::iterator i = _redirects.begin(); i != _redirects.end(); ++i) { (*i)->run (bufs, start_frame, end_frame, nframes, offset); } } } // Main output stage if (muted()) { IO::silence(nframes, offset); } else { deliver_output(bufs, start_frame, end_frame, nframes, offset); } } int MidiTrack::set_name (string str, void *src) { int ret; if (record_enabled() && _session.actively_recording()) { /* this messes things up if done while recording */ return -1; } if (_diskstream->set_name (str)) { return -1; } /* save state so that the statefile fully reflects any filename changes */ if ((ret = IO::set_name (str, src)) == 0) { _session.save_state (""); } return ret; } int MidiTrack::export_stuff (BufferSet& bufs, jack_nframes_t nframes, jack_nframes_t end_frame) { return -1; } void MidiTrack::set_latency_delay (jack_nframes_t longest_session_latency) { Route::set_latency_delay (longest_session_latency); _diskstream->set_roll_delay (_roll_delay); } void MidiTrack::bounce (InterThreadInfo& itt) { throw; //vector srcs; //_session.write_one_midi_track (*this, 0, _session.current_end_frame(), false, srcs, itt); } void MidiTrack::bounce_range (jack_nframes_t start, jack_nframes_t end, InterThreadInfo& itt) { throw; //vector srcs; //_session.write_one_midi_track (*this, start, end, false, srcs, itt); } void MidiTrack::freeze (InterThreadInfo& itt) { } void MidiTrack::unfreeze () { _freeze_record.state = UnFrozen; FreezeChange (); /* EMIT SIGNAL */ } int MidiTrack::set_mode (TrackMode m) { assert(_diskstream); if (m != _mode) { if (_diskstream->set_destructive (m == Destructive)) { return -1; } _mode = m; TrackModeChanged (); /* EMIT SIGNAL */ } return 0; }