/* Copyright (C) 2014 Waves Audio Ltd. 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 "tracks_control_panel.h" #include "waves_button.h" #include "pbd/unwind.h" #include #include "ardour/engine_state_controller.h" #include "ardour/rc_configuration.h" #include "ardour/utils.h" #include "ardour_ui.h" #include "gui_thread.h" #include "utils.h" #include "i18n.h" #include "pbd/convert.h" #include "open_file_dialog_proxy.h" using namespace ARDOUR; using namespace Gtk; using namespace Gtkmm2ext; using namespace PBD; using namespace Glib; #define dbg_msg(a) MessageDialog (a, PROGRAM_NAME).run(); namespace { static const char* audio_capture_name_prefix = "system:capture:"; static const char* audio_playback_name_prefix = "system:playback:"; static const char* midi_port_name_prefix = "system_midi:"; static const char* midi_capture_suffix = " capture"; static const char* midi_playback_suffix = " playback"; struct MidiDeviceDescriptor { std::string name; std::string capture_name; bool capture_active; std::string playback_name; bool playback_active; MidiDeviceDescriptor(const std::string& name) : name(name), capture_name(""), capture_active(false), playback_name(""), playback_active(false) {} bool operator==(const MidiDeviceDescriptor& rhs) { return name == rhs.name; } }; typedef std::vector MidiDeviceDescriptorVec; } void TracksControlPanel::init () { _ok_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_ok)); _cancel_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_cancel)); _apply_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_apply)); _audio_settings_tab_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_audio_settings)); _midi_settings_tab_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_midi_settings)); _session_settings_tab_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_session_settings)); _control_panel_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_control_panel)); _all_inputs_on_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_all_inputs_on_button)); _all_inputs_off_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_all_inputs_off_button)); _all_outputs_on_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_all_outputs_on_button)); _all_outputs_off_button.signal_clicked.connect (sigc::mem_fun (*this, &TracksControlPanel::on_all_outputs_off_button)); _multi_out_button.signal_clicked.connect(sigc::mem_fun (*this, &TracksControlPanel::on_multi_out)); _stereo_out_button.signal_clicked.connect(sigc::mem_fun (*this, &TracksControlPanel::on_stereo_out)); _browse_button.signal_clicked.connect(sigc::mem_fun (*this, &TracksControlPanel::on_browse_button)); EngineStateController::instance ()->EngineRunning.connect (running_connection, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::engine_running, this), gui_context()); EngineStateController::instance ()->EngineStopped.connect (stopped_connection, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::engine_stopped, this), gui_context()); EngineStateController::instance ()->EngineHalted.connect (stopped_connection, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::engine_stopped, this), gui_context()); /* Subscribe for udpates from EngineStateController */ EngineStateController::instance()->PortRegistrationChanged.connect (update_connections, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::on_port_registration_update, this), gui_context()); EngineStateController::instance()->BufferSizeChanged.connect (update_connections, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::on_buffer_size_update, this), gui_context()); EngineStateController::instance()->DeviceListChanged.connect (update_connections, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::on_device_list_update, this, _1), gui_context()); EngineStateController::instance()->InputConfigChanged.connect (update_connections, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::on_audio_input_configuration_changed, this), gui_context()); EngineStateController::instance()->OutputConfigChanged.connect (update_connections, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::on_audio_output_configuration_changed, this), gui_context()); EngineStateController::instance()->MIDIInputConfigChanged.connect (update_connections, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::on_midi_input_configuration_changed, this), gui_context()); EngineStateController::instance()->MIDIOutputConfigChanged.connect (update_connections, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::on_midi_output_configuration_changed, this), gui_context()); /* Global configuration parameters update */ Config->ParameterChanged.connect (update_connections, MISSING_INVALIDATOR, boost::bind (&TracksControlPanel::on_parameter_changed, this, _1), gui_context()); _engine_combo.signal_changed().connect (sigc::mem_fun (*this, &TracksControlPanel::engine_changed)); _device_combo.signal_changed().connect (sigc::bind (sigc::mem_fun (*this, &TracksControlPanel::device_changed), true) ); _sample_rate_combo.signal_changed().connect (sigc::mem_fun (*this, &TracksControlPanel::sample_rate_changed)); _buffer_size_combo.signal_changed().connect (sigc::mem_fun (*this, &TracksControlPanel::buffer_size_changed)); _name_tracks_after_driver.signal_clicked.connect(sigc::mem_fun (*this, &TracksControlPanel::on_name_tracks_after_driver)); _reset_tracks_name_to_default.signal_clicked.connect(sigc::mem_fun (*this, &TracksControlPanel::on_reset_tracks_name_to_default)); _control_panel_button.signal_clicked.connect(sigc::mem_fun (*this, &TracksControlPanel::on_control_panel_button)); _yes_button.signal_clicked.connect(sigc::mem_fun (*this, &TracksControlPanel::on_yes_button)); _no_button.signal_clicked.connect(sigc::mem_fun (*this, &TracksControlPanel::on_no_button)); _yes_button.set_visible(false); _no_button.set_visible(false); populate_engine_combo (); populate_output_mode(); populate_input_channels(); populate_output_channels(); populate_midi_ports(); populate_default_session_path(); _audio_settings_tab_button.set_active(true); } DeviceConnectionControl& TracksControlPanel::add_device_capture_control(std::string port_name, bool active, uint16_t capture_number, std::string track_name) { std::string device_capture_name(""); std::string pattern(audio_capture_name_prefix); remove_pattern_from_string(port_name, pattern, device_capture_name); DeviceConnectionControl &capture_control = *manage (new DeviceConnectionControl(device_capture_name, active, capture_number, track_name)); char * id_str = new char [port_name.length()+1]; std::strcpy (id_str, port_name.c_str()); capture_control.set_data(DeviceConnectionControl::id_name, id_str); _device_capture_list.pack_start (capture_control, false, false); capture_control.signal_active_changed.connect (sigc::mem_fun (*this, &TracksControlPanel::on_capture_active_changed)); return capture_control; } DeviceConnectionControl& TracksControlPanel::add_device_playback_control(std::string port_name, bool active, uint16_t playback_number) { std::string device_playback_name(""); std::string pattern(audio_playback_name_prefix); remove_pattern_from_string(port_name, pattern, device_playback_name); DeviceConnectionControl &playback_control = *manage (new DeviceConnectionControl(device_playback_name, active, playback_number)); char * id_str = new char [port_name.length()+1]; std::strcpy (id_str, port_name.c_str()); playback_control.set_data(DeviceConnectionControl::id_name, id_str); _device_playback_list.pack_start (playback_control, false, false); playback_control.signal_active_changed.connect(sigc::mem_fun (*this, &TracksControlPanel::on_playback_active_changed)); return playback_control; } MidiDeviceConnectionControl& TracksControlPanel::add_midi_device_control(const std::string& midi_device_name, const std::string& capture_name, bool capture_active, const std::string& playback_name, bool playback_active) { MidiDeviceConnectionControl &midi_device_control = *manage (new MidiDeviceConnectionControl(midi_device_name, !capture_name.empty(), capture_active, !playback_name.empty(), playback_active)); if (!capture_name.empty()) { char * capture_id_str = new char [capture_name.length()+1]; std::strcpy (capture_id_str, capture_name.c_str()); midi_device_control.set_data(MidiDeviceConnectionControl::capture_id_name, capture_id_str); } if (!playback_name.empty()) { char * playback_id_str = new char [playback_name.length()+1]; std::strcpy (playback_id_str, playback_name.c_str()); midi_device_control.set_data(MidiDeviceConnectionControl::playback_id_name, playback_id_str); } _midi_device_list.pack_start (midi_device_control, false, false); midi_device_control.signal_capture_active_changed.connect (sigc::mem_fun (*this, &TracksControlPanel::on_midi_capture_active_changed)); midi_device_control.signal_playback_active_changed.connect(sigc::mem_fun (*this, &TracksControlPanel::on_midi_playback_active_changed)); return midi_device_control; } void TracksControlPanel::populate_default_session_path() { std::string std_path = Config->get_default_open_path(); bool folderExist = Glib::file_test(std_path, FILE_TEST_EXISTS); if ( !folderExist ) Config->set_default_open_path(Glib::get_home_dir()); _default_open_path.set_text(Config->get_default_open_path()); } void TracksControlPanel::populate_engine_combo() { if (_ignore_changes) { return; } std::vector strings; std::vector backends; EngineStateController::instance()->available_backends(backends); if (backends.empty()) { MessageDialog msg (string_compose (_("No audio/MIDI backends detected. %1 cannot run\n\n(This is a build/packaging/system error. It should never happen.)"), PROGRAM_NAME)); msg.run (); throw failed_constructor (); } for (std::vector::const_iterator b = backends.begin(); b != backends.end(); ++b) { strings.push_back ((*b)->name); } { // set _ignore_changes flag to ignore changes in combo-box callbacks PBD::Unwinder protect_ignore_changes (_ignore_changes, _ignore_changes + 1); set_popdown_strings (_engine_combo, strings); _engine_combo.set_sensitive (strings.size() > 1); } if (!strings.empty() ) { _engine_combo.set_active_text (EngineStateController::instance()->get_current_backend_name() ); } } void TracksControlPanel::populate_device_combo() { std::vector all_devices; EngineStateController::instance()->enumerate_devices (all_devices); std::vector available_devices; for (std::vector::const_iterator i = all_devices.begin(); i != all_devices.end(); ++i) { available_devices.push_back (i->name); } { // set _ignore_changes flag to ignore changes in combo-box callbacks PBD::Unwinder protect_ignore_changes (_ignore_changes, _ignore_changes + 1); set_popdown_strings (_device_combo, available_devices); _device_combo.set_sensitive (available_devices.size() > 1); if(!available_devices.empty() ) { _device_combo.set_active_text (EngineStateController::instance()->get_current_device_name() ); } } if(!available_devices.empty() ) { device_changed(false); } } void TracksControlPanel::populate_sample_rate_combo() { std::vector sample_rates; EngineStateController::instance()->available_sample_rates_for_current_device(sample_rates); std::vector s; for (std::vector::const_iterator x = sample_rates.begin(); x != sample_rates.end(); ++x) { s.push_back (rate_as_string (*x)); } { // set _ignore_changes flag to ignore changes in combo-box callbacks PBD::Unwinder protect_ignore_changes (_ignore_changes, _ignore_changes + 1); set_popdown_strings (_sample_rate_combo, s); _sample_rate_combo.set_sensitive (s.size() > 1); } if (!s.empty() ) { std::string active_sr = rate_as_string(EngineStateController::instance()->get_current_sample_rate() ); _sample_rate_combo.set_active_text(active_sr); } } void TracksControlPanel::populate_buffer_size_combo() { std::vector s; std::vector buffer_sizes; EngineStateController::instance()->available_buffer_sizes_for_current_device(buffer_sizes); for (std::vector::const_iterator x = buffer_sizes.begin(); x != buffer_sizes.end(); ++x) { s.push_back (bufsize_as_string (*x)); } { // set _ignore_changes flag to ignore changes in combo-box callbacks PBD::Unwinder protect_ignore_changes (_ignore_changes, _ignore_changes + 1); set_popdown_strings (_buffer_size_combo, s); _buffer_size_combo.set_sensitive (s.size() > 1); } if (!s.empty() ) { std::string active_bs = bufsize_as_string(EngineStateController::instance()->get_current_buffer_size()); _buffer_size_combo.set_active_text(active_bs); } } void TracksControlPanel::populate_output_mode() { _multi_out_button.set_active(Config->get_output_auto_connect() & AutoConnectPhysical); _stereo_out_button.set_active(Config->get_output_auto_connect() & AutoConnectMaster); _all_outputs_on_button.set_sensitive(Config->get_output_auto_connect() & AutoConnectPhysical); _all_outputs_off_button.set_sensitive(Config->get_output_auto_connect() & AutoConnectPhysical); } void TracksControlPanel::populate_input_channels() { cleanup_input_channels_list(); // process captures (inputs) std::vector input_states; EngineStateController::instance()->get_physical_audio_input_states(input_states); std::vector::const_iterator input_iter; uint16_t number_count = 1; for (input_iter = input_states.begin(); input_iter != input_states.end(); ++input_iter ) { uint16_t number = DeviceConnectionControl::NoNumber; std::string track_name; if (input_iter->active) { std::string port_name(""); std::string pattern(audio_capture_name_prefix); remove_pattern_from_string(input_iter->name, pattern, port_name); number = number_count++; if (Config->get_tracks_auto_naming() & UseDefaultNames) { track_name = string_compose ("%1 %2", Session::default_trx_track_name_pattern, number); } else if (Config->get_tracks_auto_naming() & NameAfterDriver) { track_name = port_name; } } add_device_capture_control (input_iter->name, input_iter->active, number, track_name); } _all_inputs_on_button.set_sensitive(!input_states.empty() ); _all_inputs_off_button.set_sensitive(!input_states.empty() ); } void TracksControlPanel::populate_output_channels() { cleanup_output_channels_list(); // process captures (outputs) std::vector output_states; EngineStateController::instance()->get_physical_audio_output_states(output_states); std::vector::const_iterator output_iter; uint16_t number_count = 1; for (output_iter = output_states.begin(); output_iter != output_states.end(); ++output_iter ) { uint16_t number = DeviceConnectionControl::NoNumber; if (output_iter->active) { number = number_count++; } add_device_playback_control (output_iter->name, output_iter->active, number); } bool stereo_out_disabled = (Config->get_output_auto_connect() & AutoConnectPhysical); _all_outputs_on_button.set_sensitive(!output_states.empty() && stereo_out_disabled ); _all_outputs_off_button.set_sensitive(!output_states.empty() && stereo_out_disabled ); } void TracksControlPanel::populate_midi_ports() { cleanup_midi_device_list(); std::vector midi_input_states, midi_output_states; EngineStateController::instance()->get_physical_midi_input_states(midi_input_states); EngineStateController::instance()->get_physical_midi_output_states(midi_output_states); // now group corresponding inputs and outputs into a vector of midi device descriptors MidiDeviceDescriptorVec midi_device_descriptors; std::vector::const_iterator state_iter; // process inputs for (state_iter = midi_input_states.begin(); state_iter != midi_input_states.end(); ++state_iter) { // strip the device name from input port name std::string device_name(""); remove_pattern_from_string(state_iter->name, midi_port_name_prefix, device_name); remove_pattern_from_string(device_name, midi_capture_suffix, device_name); MidiDeviceDescriptor device_descriptor(device_name); device_descriptor.capture_name = state_iter->name; device_descriptor.capture_active = state_iter->active; midi_device_descriptors.push_back(device_descriptor); } // process outputs for (state_iter = midi_output_states.begin(); state_iter != midi_output_states.end(); ++state_iter){ // strip the device name from input port name std::string device_name(""); remove_pattern_from_string(state_iter->name, midi_port_name_prefix, device_name); remove_pattern_from_string(device_name, midi_playback_suffix, device_name); // check if we already have descriptor for this device MidiDeviceDescriptor device_descriptor(device_name); MidiDeviceDescriptorVec::iterator found_iter; found_iter = std::find(midi_device_descriptors.begin(), midi_device_descriptors.end(), device_descriptor ); if (found_iter != midi_device_descriptors.end() ) { found_iter->playback_name = state_iter->name; found_iter->playback_active = state_iter->active; } else { device_descriptor.capture_name.clear(); device_descriptor.playback_name = state_iter->name; device_descriptor.playback_active = state_iter->active; midi_device_descriptors.push_back(device_descriptor); } } // now add midi device controls MidiDeviceDescriptorVec::iterator iter; for (iter = midi_device_descriptors.begin(); iter != midi_device_descriptors.end(); ++iter ) { add_midi_device_control(iter->name, iter->capture_name, iter->capture_active, iter->playback_name, iter->playback_active); } } void TracksControlPanel::cleanup_input_channels_list() { std::vector capture_controls = _device_capture_list.get_children(); while (capture_controls.size() != 0) { Gtk::Widget* item = capture_controls.back(); DeviceConnectionControl* control = dynamic_cast(item); if (control) { control->remove_data(DeviceConnectionControl::id_name); } capture_controls.pop_back(); _device_capture_list.remove(*item); delete item; } } void TracksControlPanel::cleanup_output_channels_list() { std::vector playback_controls = _device_playback_list.get_children(); while (playback_controls.size() != 0) { Gtk::Widget* item = playback_controls.back(); DeviceConnectionControl* control = dynamic_cast(item); if (control) { control->remove_data(DeviceConnectionControl::id_name); } playback_controls.pop_back(); _device_capture_list.remove(*item); delete item; } } void TracksControlPanel::cleanup_midi_device_list() { std::vector midi_device_controls = _midi_device_list.get_children(); while (midi_device_controls.size() != 0) { Gtk::Widget* item = midi_device_controls.back(); MidiDeviceConnectionControl* control = dynamic_cast(item); if (control) { control->remove_data(MidiDeviceConnectionControl::capture_id_name); control->remove_data(MidiDeviceConnectionControl::playback_id_name); } midi_device_controls.pop_back(); _midi_device_list.remove(*item); delete item; } } void TracksControlPanel::on_control_panel(WavesButton*) { } void TracksControlPanel::engine_changed () { if (_ignore_changes) { return; } std::string backend_name = _engine_combo.get_active_text(); if ( EngineStateController::instance()->set_new_backend_as_current (backend_name) ) { _have_control = EngineStateController::instance()->is_setup_required (); populate_device_combo(); return; } std::cerr << "\tfailed to set backend [" << backend_name << "]\n"; } void TracksControlPanel::device_changed (bool show_confirm_dial/*=true*/) { if (_ignore_changes) { return; } std::string device_name = _device_combo.get_active_text (); if( show_confirm_dial ) { std::string message = _("Would you like to switch to ") + device_name; MessageDialog msg (message, false, Gtk::MESSAGE_WARNING, Gtk::BUTTONS_YES_NO, true); msg.set_position (Gtk::WIN_POS_MOUSE); msg.set_keep_above(true); switch (msg.run()) { case RESPONSE_NO: // set _ignore_changes flag to ignore changes in combo-box callbacks PBD::Unwinder protect_ignore_changes (_ignore_changes, _ignore_changes + 1); _device_combo.set_active_text (EngineStateController::instance()->get_current_device_name()); return; } } if (EngineStateController::instance()->set_new_device_as_current(device_name) ) { populate_buffer_size_combo(); populate_sample_rate_combo(); return; } { // set _ignore_changes flag to ignore changes in combo-box callbacks PBD::Unwinder protect_ignore_changes (_ignore_changes, _ignore_changes + 1); // restore previous device name in combo box _device_combo.set_active_text (EngineStateController::instance()->get_current_device_name() ); } MessageDialog( _("Selected device is not available for current engine"), PROGRAM_NAME).run(); } void TracksControlPanel::on_all_inputs_on_button(WavesButton*) { EngineStateController::instance()->set_state_to_all_inputs(true); } void TracksControlPanel::on_name_tracks_after_driver(WavesButton*) { _yes_button.set_visible(true); _no_button.set_visible(true); _tracks_naming_rule = NameAfterDriver; } void TracksControlPanel::on_reset_tracks_name_to_default(WavesButton*) { _yes_button.set_visible(true); _no_button.set_visible(true); _tracks_naming_rule = UseDefaultNames; } void TracksControlPanel::on_yes_button(WavesButton*) { Config->set_tracks_auto_naming(_tracks_naming_rule); _yes_button.set_visible(false); _no_button.set_visible(false); } void TracksControlPanel::on_no_button(WavesButton*) { _yes_button.set_visible(false); _no_button.set_visible(false); } void TracksControlPanel::on_control_panel_button(WavesButton*) { boost::shared_ptr backend = AudioEngine::instance()->current_backend(); assert(backend); backend->launch_control_app (); } void TracksControlPanel::on_all_inputs_off_button(WavesButton*) { EngineStateController::instance()->set_state_to_all_inputs(false); } void TracksControlPanel::on_all_outputs_on_button(WavesButton*) { EngineStateController::instance()->set_state_to_all_outputs(true); } void TracksControlPanel::on_all_outputs_off_button(WavesButton*) { EngineStateController::instance()->set_state_to_all_outputs(false); } void TracksControlPanel::buffer_size_changed() { if (_ignore_changes) { return; } pframes_t new_buffer_size = get_buffer_size(); if (EngineStateController::instance()->set_new_buffer_size_in_controller(new_buffer_size) ) { show_buffer_duration(); return; } { // set _ignore_changes flag to ignore changes in combo-box callbacks PBD::Unwinder protect_ignore_changes (_ignore_changes, _ignore_changes + 1); // restore previous buffer size value in combo box std::string buffer_size_str = bufsize_as_string (EngineStateController::instance()->get_current_buffer_size() ); _buffer_size_combo.set_active_text(buffer_size_str); } MessageDialog( _("Buffer size set to the value which is not supported"), PROGRAM_NAME).run(); } void TracksControlPanel::sample_rate_changed() { if (_ignore_changes) { return; } framecnt_t new_sample_rate = get_sample_rate (); if (EngineStateController::instance()->set_new_sample_rate_in_controller(new_sample_rate) ) { show_buffer_duration(); return; } { // set _ignore_changes flag to ignore changes in combo-box callbacks PBD::Unwinder protect_ignore_changes (_ignore_changes, _ignore_changes + 1); // restore previous buffer size value in combo box std::string sample_rate_str = rate_as_string (EngineStateController::instance()->get_current_sample_rate() ); _sample_rate_combo.set_active_text(sample_rate_str); } MessageDialog( _("Sample rate set to the value which is not supported"), PROGRAM_NAME).run(); } void TracksControlPanel::engine_running () { _buffer_size_combo.set_active_text (bufsize_as_string (EngineStateController::instance()->get_current_buffer_size() ) ); _sample_rate_combo.set_active_text (rate_as_string (EngineStateController::instance()->get_current_sample_rate() ) ); _buffer_size_combo.set_sensitive (true); _sample_rate_combo.set_sensitive (true); } void TracksControlPanel::engine_stopped () { } void TracksControlPanel::on_audio_settings (WavesButton*) { _midi_settings_layout.hide (); _midi_settings_tab_button.set_active(false); _session_settings_layout.hide (); _session_settings_tab_button.set_active(false); _audio_settings_layout.show (); _audio_settings_tab_button.set_active(true); } void TracksControlPanel::on_midi_settings (WavesButton*) { _audio_settings_layout.hide (); _audio_settings_tab_button.set_active(false); _session_settings_layout.hide (); _session_settings_tab_button.set_active(false); _midi_settings_layout.show (); _midi_settings_tab_button.set_active(true); } void TracksControlPanel::on_session_settings (WavesButton*) { _audio_settings_layout.hide (); _audio_settings_tab_button.set_active(false); _midi_settings_layout.hide (); _midi_settings_tab_button.set_active(false); _session_settings_layout.show (); _session_settings_tab_button.set_active(true); } void TracksControlPanel::on_multi_out (WavesButton*) { if (Config->get_output_auto_connect() & AutoConnectPhysical) { return; } Config->set_output_auto_connect(AutoConnectPhysical); } void TracksControlPanel::on_stereo_out (WavesButton*) { if (Config->get_output_auto_connect() & AutoConnectMaster) { return; } Config->set_output_auto_connect(AutoConnectMaster); } void TracksControlPanel::on_browse_button (WavesButton*) { using namespace std; #ifdef __APPLE__ set_keep_above(false); _default_path_name = ARDOUR::choose_folder_dialog(Config->get_default_open_path(), _("Choose Default Path")); set_keep_above(true); if( !_default_path_name.empty() ) _default_open_path.set_text(_default_path_name); else _default_open_path.set_text(Config->get_default_open_path()); return; #endif #ifdef _WIN32 string fileTitle; set_keep_above(false); bool result = ARDOUR::choose_folder_dialog(fileTitle, _("Choose Default Path")); set_keep_above(true); // if path was chosen in dialog if (result) { _default_path_name = fileTitle; } if (!_default_path_name.empty()) _default_open_path.set_text(_default_path_name); else _default_open_path.set_text(Config->get_default_open_path()); return; #endif // _WIN32 } void TracksControlPanel::save_default_session_path() { if(!_default_path_name.empty()) { Config->set_default_open_path(_default_path_name); Config->save_state(); } } void TracksControlPanel::on_ok (WavesButton*) { hide(); EngineStateController::instance()->push_current_state_to_backend(true); response(Gtk::RESPONSE_OK); save_default_session_path(); } void TracksControlPanel::on_cancel (WavesButton*) { hide(); response(Gtk::RESPONSE_CANCEL); _default_open_path.set_text(Config->get_default_open_path()); } void TracksControlPanel::on_apply (WavesButton*) { EngineStateController::instance()->push_current_state_to_backend(true); response(Gtk::RESPONSE_APPLY); save_default_session_path(); } void TracksControlPanel::on_capture_active_changed(DeviceConnectionControl* capture_control, bool active) { const char * id_name = (char*)capture_control->get_data(DeviceConnectionControl::id_name); EngineStateController::instance()->set_physical_audio_input_state(id_name, active); } void TracksControlPanel::on_playback_active_changed(DeviceConnectionControl* playback_control, bool active) { const char * id_name = (char*)playback_control->get_data(DeviceConnectionControl::id_name); EngineStateController::instance()->set_physical_audio_output_state(id_name, active); } void TracksControlPanel::on_midi_capture_active_changed(MidiDeviceConnectionControl* control, bool active) { const char * id_name = (char*)control->get_data(MidiDeviceConnectionControl::capture_id_name); EngineStateController::instance()->set_physical_midi_input_state(id_name, active); } void TracksControlPanel::on_midi_playback_active_changed(MidiDeviceConnectionControl* control, bool active) { const char * id_name = (char*)control->get_data(MidiDeviceConnectionControl::playback_id_name); EngineStateController::instance()->set_physical_midi_output_state(id_name, active); } void TracksControlPanel::on_port_registration_update() { populate_input_channels(); populate_output_channels(); populate_midi_ports(); } void TracksControlPanel::on_buffer_size_update () { populate_buffer_size_combo(); } void TracksControlPanel::on_device_list_update (bool current_device_disconnected) { populate_device_combo(); if (current_device_disconnected) { std::string message = _("Audio device has been removed"); MessageDialog msg (message, false, Gtk::MESSAGE_WARNING, Gtk::BUTTONS_OK, true); msg.set_position (Gtk::WIN_POS_MOUSE); msg.set_keep_above(true); msg.run(); return; } } void TracksControlPanel::on_parameter_changed (const std::string& parameter_name) { if (parameter_name == "output-auto-connect") { populate_output_mode(); } else if (parameter_name == "tracks-auto-naming") { on_audio_input_configuration_changed (); } } void TracksControlPanel::on_audio_input_configuration_changed () { std::vector capture_controls = _device_capture_list.get_children(); std::vector::iterator control_iter = capture_controls.begin(); uint16_t number_count = 1; for (; control_iter != capture_controls.end(); ++control_iter) { DeviceConnectionControl* control = dynamic_cast (*control_iter); if (control) { const char* id_name = (char*)control->get_data(DeviceConnectionControl::id_name); if (id_name) { bool new_state = EngineStateController::instance()->get_physical_audio_input_state(id_name ); uint16_t number = DeviceConnectionControl::NoNumber; std::string track_name (""); if (new_state) { number = number_count++; if (Config->get_tracks_auto_naming() & UseDefaultNames) { track_name = string_compose ("%1 %2", Session::default_trx_track_name_pattern, number); } else if (Config->get_tracks_auto_naming() & NameAfterDriver) { track_name = control->get_port_name(); } } control->set_track_name(track_name); control->set_number(number); control->set_active(new_state); } } } } void TracksControlPanel::on_audio_output_configuration_changed() { std::vector playback_controls = _device_playback_list.get_children(); std::vector::iterator control_iter = playback_controls.begin(); uint16_t number_count = 1; for (; control_iter != playback_controls.end(); ++control_iter) { DeviceConnectionControl* control = dynamic_cast (*control_iter); if (control) { const char * id_name = (char*)control->get_data(DeviceConnectionControl::id_name); if (id_name != NULL) { bool new_state = EngineStateController::instance()->get_physical_audio_output_state(id_name ); uint16_t number = DeviceConnectionControl::NoNumber; if (new_state) { number = number_count++; } control->set_number(number); control->set_active(new_state); } } } } void TracksControlPanel::on_midi_input_configuration_changed () { std::vector midi_controls = _midi_device_list.get_children(); std::vector::iterator control_iter = midi_controls.begin(); for (; control_iter != midi_controls.end(); ++control_iter) { MidiDeviceConnectionControl* control = dynamic_cast (*control_iter); if (control && control->has_capture() ) { const char* capture_id_name = (char*)control->get_data(MidiDeviceConnectionControl::capture_id_name); if (capture_id_name != NULL) { bool new_state = EngineStateController::instance()->get_physical_midi_input_state(capture_id_name ); control->set_capture_active(new_state); } } } } void TracksControlPanel::on_midi_output_configuration_changed () { std::vector midi_controls = _midi_device_list.get_children(); std::vector::iterator control_iter = midi_controls.begin(); for (; control_iter != midi_controls.end(); ++control_iter) { MidiDeviceConnectionControl* control = dynamic_cast (*control_iter); if (control && control->has_playback() ) { const char* playback_id_name = (char*)control->get_data(MidiDeviceConnectionControl::playback_id_name); if (playback_id_name != NULL) { bool new_state = EngineStateController::instance()->get_physical_midi_output_state(playback_id_name); control->set_playback_active(new_state); } } } } std::string TracksControlPanel::bufsize_as_string (uint32_t sz) { /* Translators: "samples" is always plural here, so no need for plural+singular forms. */ char buf[32]; snprintf (buf, sizeof (buf), _("%u samples"), sz); return buf; } framecnt_t TracksControlPanel::get_sample_rate () const { float r = atof (_sample_rate_combo.get_active_text ()); /* the string may have been translated with an abbreviation for * thousands, so use a crude heuristic to fix this. */ if (r < 1000.0) { r *= 1000.0; } return r; } pframes_t TracksControlPanel::get_buffer_size() const { std::string bs_text = _buffer_size_combo.get_active_text (); pframes_t samples = atoi (bs_text); /* will ignore trailing text */ return samples; } void TracksControlPanel::show_buffer_duration () { float latency = (get_buffer_size() * 1000.0) / get_sample_rate(); char buf[256]; snprintf (buf, sizeof (buf), _("INPUT LATENCY: %.1f MS OUTPUT LATENCY: %.1f MS TOTAL LATENCY: %.1f MS"), latency, latency, 2*latency); _latency_label.set_text (buf); }