/* Copyright (C) 2005 Paul Davis 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 "ardour_ui.h" #include "actions.h" #include "gui_thread.h" #include "i18n.h" using namespace Gtk; using namespace Gtkmm2ext; using namespace ARDOUR; using namespace PBD; using namespace sigc; void ARDOUR_UI::toggle_time_master () { ActionManager::toggle_config_state ("Transport", "ToggleTimeMaster", &Configuration::set_jack_time_master, &Configuration::get_jack_time_master); } void ARDOUR_UI::toggle_send_mtc () { ActionManager::toggle_config_state ("options", "SendMTC", &Configuration::set_send_mtc, &Configuration::get_send_mtc); } void ARDOUR_UI::toggle_send_mmc () { ActionManager::toggle_config_state ("options", "SendMMC", &Configuration::set_send_mmc, &Configuration::get_send_mmc); } void ARDOUR_UI::toggle_use_mmc () { ActionManager::toggle_config_state ("options", "UseMMC", &Configuration::set_mmc_control, &Configuration::get_mmc_control); } void ARDOUR_UI::toggle_use_midi_control () { ActionManager::toggle_config_state ("options", "UseMIDIcontrol", &Configuration::set_midi_control, &Configuration::get_midi_control); } void ARDOUR_UI::toggle_send_midi_feedback () { ActionManager::toggle_config_state ("options", "SendMIDIfeedback", &Configuration::set_midi_feedback, &Configuration::get_midi_feedback); } void ARDOUR_UI::set_native_file_header_format (HeaderFormat hf) { const char *action = 0; switch (hf) { case BWF: action = X_("FileHeaderFormatBWF"); break; case WAVE: action = X_("FileHeaderFormatWAVE"); break; case WAVE64: action = X_("FileHeaderFormatWAVE64"); break; case iXML: action = X_("FileHeaderFormatiXML"); break; case RF64: action = X_("FileHeaderFormatRF64"); break; case CAF: action = X_("FileHeaderFormatCAF"); break; case AIFF: action = X_("FileHeaderFormatAIFF"); break; default: fatal << string_compose (_("programming error: %1"), "illegal file header format in ::set_native_file_header_format") << endmsg; /*NOTREACHED*/ } Glib::RefPtr act = ActionManager::get_action ("options", action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && ract->get_active() && Config->get_native_file_header_format() != hf) { Config->set_native_file_header_format (hf); } } } void ARDOUR_UI::set_native_file_data_format (SampleFormat sf) { const char* action = 0; switch (sf) { case FormatFloat: action = X_("FileDataFormatFloat"); break; case FormatInt24: action = X_("FileDataFormat24bit"); break; default: fatal << string_compose (_("programming error: %1"), "illegal file data format in ::set_native_file_data_format") << endmsg; /*NOTREACHED*/ } Glib::RefPtr act = ActionManager::get_action ("options", action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && ract->get_active() && Config->get_native_file_data_format() != sf) { Config->set_native_file_data_format (sf); } } } void ARDOUR_UI::set_input_auto_connect (AutoConnectOption option) { const char* action; switch (option) { case AutoConnectPhysical: action = X_("InputAutoConnectPhysical"); break; default: action = X_("InputAutoConnectManual"); } Glib::RefPtr act = ActionManager::get_action ("options", action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && ract->get_active() && Config->get_input_auto_connect() != option) { Config->set_input_auto_connect (option); } } } void ARDOUR_UI::set_output_auto_connect (AutoConnectOption option) { const char* action; switch (option) { case AutoConnectPhysical: action = X_("OutputAutoConnectPhysical"); break; case AutoConnectMaster: action = X_("OutputAutoConnectMaster"); break; default: action = X_("OutputAutoConnectManual"); } Glib::RefPtr act = ActionManager::get_action ("options", action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && ract->get_active() && Config->get_output_auto_connect() != option) { Config->set_output_auto_connect (option); } } } void ARDOUR_UI::set_solo_model (SoloModel model) { const char* action = 0; switch (model) { case SoloBus: action = X_("SoloViaBus"); break; case InverseMute: action = X_("SoloInPlace"); break; default: fatal << string_compose (_("programming error: unknown solo model in ARDOUR_UI::set_solo_model: %1"), model) << endmsg; /*NOTREACHED*/ } Glib::RefPtr act = ActionManager::get_action ("options", action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && ract->get_active() && Config->get_solo_model() != model) { Config->set_solo_model (model); } } } void ARDOUR_UI::set_remote_model (RemoteModel model) { const char* action = 0; switch (model) { case UserOrdered: action = X_("RemoteUserDefined"); break; case MixerOrdered: action = X_("RemoteMixerDefined"); break; case EditorOrdered: action = X_("RemoteEditorDefined"); break; default: fatal << string_compose (_("programming error: unknown remote model in ARDOUR_UI::set_remote_model: %1"), model) << endmsg; /*NOTREACHED*/ } Glib::RefPtr act = ActionManager::get_action ("options", action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && ract->get_active() && Config->get_remote_model() != model) { Config->set_remote_model (model); } } } void ARDOUR_UI::set_monitor_model (MonitorModel model) { const char* action = 0; switch (model) { case HardwareMonitoring: action = X_("UseHardwareMonitoring"); break; case SoftwareMonitoring: action = X_("UseSoftwareMonitoring"); break; case ExternalMonitoring: action = X_("UseExternalMonitoring"); break; default: fatal << string_compose (_("programming error: unknown monitor model in ARDOUR_UI::set_monitor_model: %1"), model) << endmsg; /*NOTREACHED*/ } Glib::RefPtr act = ActionManager::get_action ("options", action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && ract->get_active() && Config->get_monitoring_model() != model) { Config->set_monitoring_model (model); } } } void ARDOUR_UI::toggle_auto_input () { ActionManager::toggle_config_state ("Transport", "ToggleAutoInput", &Configuration::set_auto_input, &Configuration::get_auto_input); } void ARDOUR_UI::toggle_auto_play () { ActionManager::toggle_config_state ("Transport", "ToggleAutoPlay", &Configuration::set_auto_play, &Configuration::get_auto_play); } void ARDOUR_UI::toggle_auto_return () { ActionManager::toggle_config_state ("Transport", "ToggleAutoReturn", &Configuration::set_auto_return, &Configuration::get_auto_return); } void ARDOUR_UI::toggle_click () { ActionManager::toggle_config_state ("Transport", "ToggleClick", &Configuration::set_clicking, &Configuration::get_clicking); } void ARDOUR_UI::toggle_session_auto_loop () { if (session) { if (session->get_play_loop()) { if (session->transport_rolling()) { transport_roll(); } else { session->request_play_loop (false); } } else { session->request_play_loop (true); } } } void ARDOUR_UI::toggle_punch_in () { ActionManager::toggle_config_state ("Transport", "TogglePunchIn", &Configuration::set_punch_in, &Configuration::get_punch_in); } void ARDOUR_UI::toggle_punch_out () { ActionManager::toggle_config_state ("Transport", "TogglePunchOut", &Configuration::set_punch_out, &Configuration::get_punch_out); } void ARDOUR_UI::toggle_video_sync() { Glib::RefPtr act = ActionManager::get_action ("Transport", "ToggleVideoSync"); if (act) { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic(act); Config->set_use_video_sync (tact->get_active()); } } void ARDOUR_UI::toggle_editing_space() { Glib::RefPtr act = ActionManager::get_action ("Common", "ToggleMaximalEditor"); if (act) { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic(act); if (tact->get_active()) { maximise_editing_space (); } else { restore_editing_space (); } } } void ARDOUR_UI::toggle_StopPluginsWithTransport() { ActionManager::toggle_config_state ("options", "StopPluginsWithTransport", &Configuration::set_plugins_stop_with_transport, &Configuration::get_plugins_stop_with_transport); } void ARDOUR_UI::toggle_LatchedRecordEnable() { ActionManager::toggle_config_state ("options", "LatchedRecordEnable", &Configuration::set_latched_record_enable, &Configuration::get_latched_record_enable); } void ARDOUR_UI::toggle_RegionEquivalentsOverlap() { ActionManager::toggle_config_state ("options", "RegionEquivalentsOverlap", &Configuration::set_use_overlap_equivalency, &Configuration::get_use_overlap_equivalency); } void ARDOUR_UI::toggle_DoNotRunPluginsWhileRecording() { ActionManager::toggle_config_state ("options", "DoNotRunPluginsWhileRecording", &Configuration::set_do_not_record_plugins, &Configuration::get_do_not_record_plugins); } void ARDOUR_UI::toggle_VerifyRemoveLastCapture() { ActionManager::toggle_config_state ("options", "VerifyRemoveLastCapture", &Configuration::set_verify_remove_last_capture, &Configuration::get_verify_remove_last_capture); } void ARDOUR_UI::toggle_StopRecordingOnXrun() { ActionManager::toggle_config_state ("options", "StopRecordingOnXrun", &Configuration::set_stop_recording_on_xrun, &Configuration::get_stop_recording_on_xrun); } void ARDOUR_UI::toggle_StopTransportAtEndOfSession() { ActionManager::toggle_config_state ("options", "StopTransportAtEndOfSession", &Configuration::set_stop_at_session_end, &Configuration::get_stop_at_session_end); } void ARDOUR_UI::toggle_GainReduceFastTransport() { ActionManager::toggle_config_state ("options", "GainReduceFastTransport", &Configuration::set_quieten_at_speed, &Configuration::get_quieten_at_speed); } void ARDOUR_UI::toggle_LatchedSolo() { ActionManager::toggle_config_state ("options", "LatchedSolo", &Configuration::set_solo_latched, &Configuration::get_solo_latched); } void ARDOUR_UI::toggle_ShowSoloMutes() { ActionManager::toggle_config_state ("options", "ShowSoloMutes", &Configuration::set_show_solo_mutes, &Configuration::get_show_solo_mutes); } void ARDOUR_UI::mtc_port_changed () { bool have_mtc; if (session) { if (session->mtc_port()) { have_mtc = true; } else { have_mtc = false; } } else { have_mtc = false; } positional_sync_strings.clear (); positional_sync_strings.push_back (slave_source_to_string (None)); if (have_mtc) { positional_sync_strings.push_back (slave_source_to_string (MTC)); } positional_sync_strings.push_back (slave_source_to_string (JACK)); set_popdown_strings (sync_option_combo, positional_sync_strings); } void ARDOUR_UI::setup_session_options () { mtc_port_changed (); Config->ParameterChanged.connect (mem_fun (*this, &ARDOUR_UI::parameter_changed)); } void ARDOUR_UI::map_solo_model () { const char* on; if (Config->get_solo_model() == InverseMute) { on = X_("SoloInPlace"); } else { on = X_("SoloViaBus"); } Glib::RefPtr act = ActionManager::get_action ("options", on); if (act) { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic(act); if (tact && !tact->get_active()) { tact->set_active (true); } } } void ARDOUR_UI::map_monitor_model () { const char* on = 0; switch (Config->get_monitoring_model()) { case HardwareMonitoring: on = X_("UseHardwareMonitoring"); break; case SoftwareMonitoring: on = X_("UseSoftwareMonitoring"); break; case ExternalMonitoring: on = X_("UseExternalMonitoring"); break; } Glib::RefPtr act = ActionManager::get_action ("options", on); if (act) { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic(act); if (tact && !tact->get_active()) { tact->set_active (true); } } } void ARDOUR_UI::map_remote_model () { const char* on = 0; switch (Config->get_remote_model()) { case UserOrdered: on = X_("RemoteUserDefined"); break; case MixerOrdered: on = X_("RemoteMixerDefined"); break; case EditorOrdered: on = X_("RemoteEditorDefined"); break; } Glib::RefPtr act = ActionManager::get_action ("options", on); if (act) { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic(act); if (tact && !tact->get_active()) { tact->set_active (true); } } } void ARDOUR_UI::map_file_header_format () { const char* action = 0; switch (Config->get_native_file_header_format()) { case BWF: action = X_("FileHeaderFormatBWF"); break; case WAVE: action = X_("FileHeaderFormatWAVE"); break; case WAVE64: action = X_("FileHeaderFormatWAVE64"); break; case iXML: action = X_("FileHeaderFormatiXML"); break; case RF64: action = X_("FileHeaderFormatRF64"); break; case CAF: action = X_("FileHeaderFormatCAF"); break; default: fatal << string_compose (_("programming error: unknown file header format passed to ARDOUR_UI::map_file_data_format: %1"), Config->get_native_file_header_format()) << endmsg; /*NOTREACHED*/ } Glib::RefPtr act = ActionManager::get_action ("options", action); if (act) { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic(act); if (tact && !tact->get_active()) { tact->set_active (true); } } } void ARDOUR_UI::map_file_data_format () { const char* action = 0; switch (Config->get_native_file_data_format()) { case FormatFloat: action = X_("FileDataFormatFloat"); break; case FormatInt24: action = X_("FileDataFormat24bit"); break; default: fatal << string_compose (_("programming error: unknown file data format passed to ARDOUR_UI::map_file_data_format: %1"), Config->get_native_file_data_format()) << endmsg; /*NOTREACHED*/ } Glib::RefPtr act = ActionManager::get_action ("options", action); if (act) { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic(act); if (tact && !tact->get_active()) { tact->set_active (true); } } } void ARDOUR_UI::map_input_auto_connect () { const char* on; if (Config->get_input_auto_connect() == (AutoConnectOption) 0) { on = "InputAutoConnectManual"; } else { on = "InputAutoConnectPhysical"; } Glib::RefPtr act = ActionManager::get_action ("options", on); if (act) { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic(act); if (tact && !tact->get_active()) { tact->set_active (true); } } } void ARDOUR_UI::map_output_auto_connect () { const char* on; if (Config->get_output_auto_connect() == (AutoConnectOption) 0) { on = "OutputAutoConnectManual"; } else if (Config->get_output_auto_connect() == AutoConnectPhysical) { on = "OutputAutoConnectPhysical"; } else { on = "OutputAutoConnectMaster"; } Glib::RefPtr act = ActionManager::get_action ("options", on); if (act) { Glib::RefPtr tact = Glib::RefPtr::cast_dynamic(act); if (tact && !tact->get_active()) { tact->set_active (true); } } } void ARDOUR_UI::map_meter_falloff () { const char* action = X_("MeterFalloffMedium"); float val = Config->get_meter_falloff (); MeterFalloff code = meter_falloff_from_float(val); switch (code) { case MeterFalloffOff: action = X_("MeterFalloffOff"); break; case MeterFalloffSlowest: action = X_("MeterFalloffSlowest"); break; case MeterFalloffSlow: action = X_("MeterFalloffSlow"); break; case MeterFalloffMedium: action = X_("MeterFalloffMedium"); break; case MeterFalloffFast: action = X_("MeterFalloffFast"); break; case MeterFalloffFaster: action = X_("MeterFalloffFaster"); break; case MeterFalloffFastest: action = X_("MeterFalloffFastest"); break; } Glib::RefPtr act = ActionManager::get_action (X_("options"), action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && !ract->get_active()) { ract->set_active (true); } } } void ARDOUR_UI::map_meter_hold () { const char* action = X_("MeterHoldMedium"); /* XXX hack alert. Fix this. Please */ float val = Config->get_meter_hold (); MeterHold code = (MeterHold) (int) (floor (val)); switch (code) { case MeterHoldOff: action = X_("MeterHoldOff"); break; case MeterHoldShort: action = X_("MeterHoldShort"); break; case MeterHoldMedium: action = X_("MeterHoldMedium"); break; case MeterHoldLong: action = X_("MeterHoldLong"); break; } Glib::RefPtr act = ActionManager::get_action (X_("options"), action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && !ract->get_active()) { ract->set_active (true); } } } void ARDOUR_UI::set_meter_hold (MeterHold val) { const char* action = 0; float fval; fval = meter_hold_to_float (val); switch (val) { case MeterHoldOff: action = X_("MeterHoldOff"); break; case MeterHoldShort: action = X_("MeterHoldShort"); break; case MeterHoldMedium: action = X_("MeterHoldMedium"); break; case MeterHoldLong: action = X_("MeterHoldLong"); break; } Glib::RefPtr act = ActionManager::get_action (X_("options"), action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && ract->get_active() && Config->get_meter_hold() != fval) { Config->set_meter_hold (fval); } } } void ARDOUR_UI::set_meter_falloff (MeterFalloff val) { const char* action = 0; float fval; fval = meter_falloff_to_float (val); switch (val) { case MeterFalloffOff: action = X_("MeterFalloffOff"); break; case MeterFalloffSlowest: action = X_("MeterFalloffSlowest"); break; case MeterFalloffSlow: action = X_("MeterFalloffSlow"); break; case MeterFalloffMedium: action = X_("MeterFalloffMedium"); break; case MeterFalloffFast: action = X_("MeterFalloffFast"); break; case MeterFalloffFaster: action = X_("MeterFalloffFaster"); break; case MeterFalloffFastest: action = X_("MeterFalloffFastest"); break; } Glib::RefPtr act = ActionManager::get_action (X_("options"), action); if (act) { Glib::RefPtr ract = Glib::RefPtr::cast_dynamic(act); if (ract && ract->get_active() && Config->get_meter_falloff () != fval) { Config->set_meter_falloff (fval); } } } void ARDOUR_UI::parameter_changed (const char* parameter_name) { ENSURE_GUI_THREAD (bind (mem_fun (*this, &ARDOUR_UI::parameter_changed), parameter_name)); #define PARAM_IS(x) (!strcmp (parameter_name, (x))) if (PARAM_IS ("slave-source")) { sync_option_combo.set_active_text (slave_source_to_string (Config->get_slave_source())); switch (Config->get_slave_source()) { case None: ActionManager::get_action ("Transport", "ToggleAutoPlay")->set_sensitive (true); ActionManager::get_action ("Transport", "ToggleAutoReturn")->set_sensitive (true); break; default: /* XXX need to make auto-play is off as well as insensitive */ ActionManager::get_action ("Transport", "ToggleAutoPlay")->set_sensitive (false); ActionManager::get_action ("Transport", "ToggleAutoReturn")->set_sensitive (false); break; } } else if (PARAM_IS ("send-mtc")) { ActionManager::map_some_state ("options", "SendMTC", &Configuration::get_send_mtc); } else if (PARAM_IS ("send-mmc")) { ActionManager::map_some_state ("options", "SendMMC", &Configuration::get_send_mmc); } else if (PARAM_IS ("mmc-control")) { ActionManager::map_some_state ("options", "UseMMC", &Configuration::get_mmc_control); } else if (PARAM_IS ("midi-feedback")) { ActionManager::map_some_state ("options", "SendMIDIfeedback", &Configuration::get_midi_feedback); } else if (PARAM_IS ("midi-control")) { ActionManager::map_some_state ("options", "UseMIDIcontrol", &Configuration::get_midi_control); } else if (PARAM_IS ("do-not-record-plugins")) { ActionManager::map_some_state ("options", "DoNotRunPluginsWhileRecording", &Configuration::get_do_not_record_plugins); } else if (PARAM_IS ("latched-record-enable")) { ActionManager::map_some_state ("options", "LatchedRecordEnable", &Configuration::get_latched_record_enable); } else if (PARAM_IS ("solo-latched")) { ActionManager::map_some_state ("options", "LatchedSolo", &Configuration::get_solo_latched); } else if (PARAM_IS ("show-solo-mutes")) { ActionManager::map_some_state ("options", "ShowSoloMutes", &Configuration::get_show_solo_mutes); } else if (PARAM_IS ("solo-model")) { map_solo_model (); } else if (PARAM_IS ("auto-play")) { ActionManager::map_some_state ("Transport", "ToggleAutoPlay", &Configuration::get_auto_play); } else if (PARAM_IS ("auto-return")) { ActionManager::map_some_state ("Transport", "ToggleAutoReturn", &Configuration::get_auto_return); } else if (PARAM_IS ("auto-input")) { ActionManager::map_some_state ("Transport", "ToggleAutoInput", &Configuration::get_auto_input); } else if (PARAM_IS ("punch-out")) { ActionManager::map_some_state ("Transport", "TogglePunchOut", &Configuration::get_punch_out); } else if (PARAM_IS ("punch-in")) { ActionManager::map_some_state ("Transport", "TogglePunchIn", &Configuration::get_punch_in); } else if (PARAM_IS ("clicking")) { ActionManager::map_some_state ("Transport", "ToggleClick", &Configuration::get_clicking); } else if (PARAM_IS ("jack-time-master")) { ActionManager::map_some_state ("Transport", "ToggleTimeMaster", &Configuration::get_jack_time_master); } else if (PARAM_IS ("plugins-stop-with-transport")) { ActionManager::map_some_state ("options", "StopPluginsWithTransport", &Configuration::get_plugins_stop_with_transport); } else if (PARAM_IS ("latched-record-enable")) { ActionManager::map_some_state ("options", "LatchedRecordEnable", &Configuration::get_latched_record_enable); } else if (PARAM_IS ("verify-remove-last-capture")) { ActionManager::map_some_state ("options", "VerifyRemoveLastCapture", &Configuration::get_verify_remove_last_capture); } else if (PARAM_IS ("stop-recording-on-xrun")) { ActionManager::map_some_state ("options", "StopRecordingOnXrun", &Configuration::get_stop_recording_on_xrun); } else if (PARAM_IS ("stop-at-session-end")) { ActionManager::map_some_state ("options", "StopTransportAtEndOfSession", &Configuration::get_stop_at_session_end); } else if (PARAM_IS ("monitoring-model")) { map_monitor_model (); } else if (PARAM_IS ("remote-model")) { map_remote_model (); } else if (PARAM_IS ("use-video-sync")) { ActionManager::map_some_state ("Transport", "ToggleVideoSync", &Configuration::get_use_video_sync); } else if (PARAM_IS ("quieten-at-speed")) { ActionManager::map_some_state ("options", "GainReduceFastTransport", &Configuration::get_quieten_at_speed); } else if (PARAM_IS ("shuttle-behaviour")) { switch (Config->get_shuttle_behaviour ()) { case Sprung: shuttle_style_button.set_active_text (_("sprung")); shuttle_fract = 0.0; shuttle_box.queue_draw (); if (session) { if (session->transport_rolling()) { shuttle_fract = SHUTTLE_FRACT_SPEED1; session->request_transport_speed (1.0); } } break; case Wheel: shuttle_style_button.set_active_text (_("wheel")); break; } } else if (PARAM_IS ("shuttle-units")) { switch (Config->get_shuttle_units()) { case Percentage: shuttle_units_button.set_label("% "); break; case Semitones: shuttle_units_button.set_label(_("ST")); break; } } else if (PARAM_IS ("input-auto-connect")) { map_input_auto_connect (); } else if (PARAM_IS ("output-auto-connect")) { map_output_auto_connect (); } else if (PARAM_IS ("native-file-header-format")) { map_file_header_format (); } else if (PARAM_IS ("native-file-data-format")) { map_file_data_format (); } else if (PARAM_IS ("meter-hold")) { map_meter_hold (); } else if (PARAM_IS ("meter-falloff")) { map_meter_falloff (); } else if (PARAM_IS ("verify-remove-last-capture")) { ActionManager::map_some_state ("options", "VerifyRemoveLastCapture", &Configuration::get_verify_remove_last_capture); } else if (PARAM_IS ("video-pullup") || PARAM_IS ("smpte-format")) { if (session) { primary_clock.set (session->audible_frame(), true); secondary_clock.set (session->audible_frame(), true); } else { primary_clock.set (0, true); secondary_clock.set (0, true); } } else if (PARAM_IS ("use-overlap-equivalency")) { ActionManager::map_some_state ("options", "RegionEquivalentsOverlap", &Configuration::get_use_overlap_equivalency); } #undef PARAM_IS }