/* Copyright (C) 2010 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 #include #include #include #include #include "pbd/error.h" #include "pbd/unwind.h" #include "pbd/strsplit.h" #include "pbd/stacktrace.h" #include "gtkmm2ext/actions.h" #include "gtkmm2ext/bindings.h" #include "gtkmm2ext/gui_thread.h" #include "gtkmm2ext/utils.h" #include "ardour/audioengine.h" #include "ardour/port.h" #include "ardour/rc_configuration.h" #include "mackie_control_protocol.h" #include "device_info.h" #include "gui.h" #include "surface.h" #include "surface_port.h" #include "pbd/i18n.h" using namespace std; using namespace Gtk; using namespace ArdourSurface; using namespace Mackie; void* MackieControlProtocol::get_gui () const { if (!_gui) { const_cast(this)->build_gui (); } static_cast(_gui)->show_all(); return _gui; } void MackieControlProtocol::tear_down_gui () { if (_gui) { Gtk::Widget *w = static_cast(_gui)->get_parent(); if (w) { w->hide(); delete w; } } delete (MackieControlProtocolGUI*) _gui; _gui = 0; } void MackieControlProtocol::build_gui () { _gui = (void *) new MackieControlProtocolGUI (*this); } MackieControlProtocolGUI::MackieControlProtocolGUI (MackieControlProtocol& p) : _cp (p) , table (2, 9) , touch_sensitivity_adjustment (0, 0, 9, 1, 4) , touch_sensitivity_scale (touch_sensitivity_adjustment) , recalibrate_fader_button (_("Recalibrate Faders")) , ipmidi_base_port_adjustment (_cp.ipmidi_base(), 0, 32767, 1, 1000) , discover_button (_("Discover Mackie Devices")) , _device_dependent_widget (0) , _ignore_profile_changed (false) , ignore_active_change (false) { Gtk::Label* l; Gtk::Alignment* align; int row = 0; set_border_width (12); table.set_row_spacings (4); table.set_col_spacings (6); table.set_border_width (12); table.set_homogeneous (false); l = manage (new Gtk::Label (_("Device Type:"))); l->set_alignment (1.0, 0.5); table.attach (*l, 0, 1, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions(0)); table.attach (_surface_combo, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions(0), 0, 0); row++; vector surfaces; for (std::map::iterator i = DeviceInfo::device_info.begin(); i != DeviceInfo::device_info.end(); ++i) { surfaces.push_back (i->first); } Gtkmm2ext::set_popdown_strings (_surface_combo, surfaces); _surface_combo.signal_changed().connect (sigc::mem_fun (*this, &MackieControlProtocolGUI::surface_combo_changed)); _cp.DeviceChanged.connect (device_change_connection, invalidator (*this), boost::bind (&MackieControlProtocolGUI::device_changed, this), gui_context()); _cp.ConnectionChange.connect (connection_change_connection, invalidator (*this), boost::bind (&MackieControlProtocolGUI::connection_handler, this), gui_context()); ipmidi_base_port_adjustment.signal_value_changed().connect (sigc::mem_fun (*this, &MackieControlProtocolGUI::ipmidi_spinner_changed)); /* device-dependent part */ device_dependent_row = row; if (_device_dependent_widget) { table.remove (*_device_dependent_widget); _device_dependent_widget = 0; } _device_dependent_widget = device_dependent_widget (); table.attach (*_device_dependent_widget, 0, 12, row, row+1, AttachOptions(0), AttachOptions(0), 0, 0); row++; /* back to the boilerplate */ RadioButtonGroup rb_group = absolute_touch_mode_button.get_group(); touch_move_mode_button.set_group (rb_group); recalibrate_fader_button.signal_clicked().connect (sigc::mem_fun (*this, &MackieControlProtocolGUI::recalibrate_faders)); backlight_button.signal_clicked().connect (sigc::mem_fun (*this, &MackieControlProtocolGUI::toggle_backlight)); touch_sensitivity_adjustment.signal_value_changed().connect (sigc::mem_fun (*this, &MackieControlProtocolGUI::touch_sensitive_change)); touch_sensitivity_scale.set_update_policy (Gtk::UPDATE_DISCONTINUOUS); l = manage (new Gtk::Label (_("Button click"))); l->set_alignment (1.0, 0.5); table.attach (*l, 0, 1, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); align = manage (new Alignment); align->set (0.0, 0.5); align->add (relay_click_button); table.attach (*align, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); row++; l = manage (new Gtk::Label (_("Backlight"))); l->set_alignment (1.0, 0.5); table.attach (*l, 0, 1, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); align = manage (new Alignment); align->set (0.0, 0.5); align->add (backlight_button); table.attach (*align, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); row++; l = manage (new Gtk::Label (_("Send Fader Position Only When Touched"))); l->set_alignment (1.0, 0.5); table.attach (*l, 0, 1, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); align = manage (new Alignment); align->set (0.0, 0.5); align->add (absolute_touch_mode_button); table.attach (*align, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); row++; l = manage (new Gtk::Label (_("Send Fader Position When Moved"))); l->set_alignment (1.0, 0.5); table.attach (*l, 0, 1, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); align = manage (new Alignment); align->set (0.0, 0.5); align->add (touch_move_mode_button); table.attach (*align, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); row++; l = manage (new Gtk::Label (_("Fader Touch Sense Sensitivity"))); l->set_alignment (1.0, 0.5); table.attach (*l, 0, 1, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); touch_sensitivity_scale.property_digits() = 0; touch_sensitivity_scale.property_draw_value() = false; table.attach (touch_sensitivity_scale, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); row++; table.attach (recalibrate_fader_button, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); row++; table.attach (discover_button, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); discover_button.signal_clicked().connect (sigc::mem_fun (*this, &MackieControlProtocolGUI::discover_clicked)); row++; vector profiles; for (std::map::iterator i = DeviceProfile::device_profiles.begin(); i != DeviceProfile::device_profiles.end(); ++i) { cerr << "add discovered profile " << i->first << endl; profiles.push_back (i->first); } Gtkmm2ext::set_popdown_strings (_profile_combo, profiles); cerr << "set active profile from " << p.device_profile().name() << endl; _profile_combo.set_active_text (p.device_profile().name()); _profile_combo.signal_changed().connect (sigc::mem_fun (*this, &MackieControlProtocolGUI::profile_combo_changed)); append_page (table, _("Device Setup")); table.show_all(); /* function key editor */ VBox* fkey_packer = manage (new VBox); HBox* profile_packer = manage (new HBox); HBox* observation_packer = manage (new HBox); l = manage (new Gtk::Label (_("Profile/Settings:"))); profile_packer->pack_start (*l, false, false); profile_packer->pack_start (_profile_combo, true, true); profile_packer->set_spacing (12); profile_packer->set_border_width (12); l = manage (new Gtk::Label (_("* Button available at the original Mackie MCU PRO or current device if enabled (NOT implemented yet). Device specific name presented."))); observation_packer->pack_start (*l, false, false); fkey_packer->pack_start (*profile_packer, false, false); fkey_packer->pack_start (function_key_scroller, true, true); fkey_packer->pack_start (*observation_packer, false, false); fkey_packer->set_spacing (12); function_key_scroller.property_shadow_type() = Gtk::SHADOW_NONE; function_key_scroller.add (function_key_editor); append_page (*fkey_packer, _("Function Keys")); build_available_action_menu (); build_function_key_editor (); refresh_function_key_editor (); fkey_packer->show_all(); } void MackieControlProtocolGUI::connection_handler () { /* ignore all changes to combobox active strings here, because we're updating them to match a new ("external") reality - we were called because port connections have changed. */ PBD::Unwinder ici (ignore_active_change, true); vector::iterator ic; vector::iterator oc; vector midi_inputs; vector midi_outputs; ARDOUR::AudioEngine::instance()->get_ports ("", ARDOUR::DataType::MIDI, ARDOUR::PortFlags (ARDOUR::IsOutput|ARDOUR::IsTerminal), midi_inputs); ARDOUR::AudioEngine::instance()->get_ports ("", ARDOUR::DataType::MIDI, ARDOUR::PortFlags (ARDOUR::IsInput|ARDOUR::IsTerminal), midi_outputs); for (ic = input_combos.begin(), oc = output_combos.begin(); ic != input_combos.end() && oc != output_combos.end(); ++ic, ++oc) { boost::shared_ptr surface = _cp.get_surface_by_raw_pointer ((*ic)->get_data ("surface")); if (surface) { update_port_combos (midi_inputs, midi_outputs, *ic, *oc, surface); } } } void MackieControlProtocolGUI::update_port_combos (vector const& midi_inputs, vector const& midi_outputs, Gtk::ComboBox* input_combo, Gtk::ComboBox* output_combo, boost::shared_ptr surface) { Glib::RefPtr input = build_midi_port_list (midi_inputs, true); Glib::RefPtr output = build_midi_port_list (midi_outputs, false); bool input_found = false; bool output_found = false; int n; input_combo->set_model (input); output_combo->set_model (output); Gtk::TreeModel::Children children = input->children(); Gtk::TreeModel::Children::iterator i; i = children.begin(); ++i; /* skip "Disconnected" */ for (n = 1; i != children.end(); ++i, ++n) { string port_name = (*i)[midi_port_columns.full_name]; if (surface->port().input().connected_to (port_name)) { input_combo->set_active (n); input_found = true; break; } } if (!input_found) { input_combo->set_active (0); /* disconnected */ } children = output->children(); i = children.begin(); ++i; /* skip "Disconnected" */ for (n = 1; i != children.end(); ++i, ++n) { string port_name = (*i)[midi_port_columns.full_name]; if (surface->port().output().connected_to (port_name)) { output_combo->set_active (n); output_found = true; break; } } if (!output_found) { output_combo->set_active (0); /* disconnected */ } } Gtk::Widget* MackieControlProtocolGUI::device_dependent_widget () { Gtk::Table* dd_table; Gtk::Label* l; int row = 0; uint32_t n_surfaces = 1 + _cp.device_info().extenders(); uint32_t main_pos = _cp.device_info().master_position(); if (!_cp.device_info().uses_ipmidi()) { dd_table = Gtk::manage (new Gtk::Table (n_surfaces, 2)); } else { dd_table = Gtk::manage (new Gtk::Table (1, 2)); } dd_table = Gtk::manage (new Gtk::Table (2, n_surfaces)); dd_table->set_row_spacings (4); dd_table->set_col_spacings (6); dd_table->set_border_width (12); _surface_combo.set_active_text (_cp.device_info().name()); vector midi_inputs; vector midi_outputs; ARDOUR::AudioEngine::instance()->get_ports ("", ARDOUR::DataType::MIDI, ARDOUR::PortFlags (ARDOUR::IsOutput|ARDOUR::IsPhysical), midi_inputs); ARDOUR::AudioEngine::instance()->get_ports ("", ARDOUR::DataType::MIDI, ARDOUR::PortFlags (ARDOUR::IsInput|ARDOUR::IsPhysical), midi_outputs); input_combos.clear (); output_combos.clear (); if (!_cp.device_info().uses_ipmidi()) { for (uint32_t n = 0; n < n_surfaces; ++n) { boost::shared_ptr surface = _cp.nth_surface (n); if (!surface) { PBD::fatal << string_compose (_("programming error: %1\n"), string_compose ("n=%1 surface not found!", n)) << endmsg; /*NOTREACHED*/ } Gtk::ComboBox* input_combo = manage (new Gtk::ComboBox); Gtk::ComboBox* output_combo = manage (new Gtk::ComboBox); update_port_combos (midi_inputs, midi_outputs, input_combo, output_combo, surface); input_combo->pack_start (midi_port_columns.short_name); input_combo->set_data ("surface", surface.get()); input_combos.push_back (input_combo); output_combo->pack_start (midi_port_columns.short_name); output_combo->set_data ("surface", surface.get()); output_combos.push_back (output_combo); boost::weak_ptr ws (surface); input_combo->signal_changed().connect (sigc::bind (sigc::mem_fun (*this, &MackieControlProtocolGUI::active_port_changed), input_combo, ws, true)); output_combo->signal_changed().connect (sigc::bind (sigc::mem_fun (*this, &MackieControlProtocolGUI::active_port_changed), output_combo, ws, false)); string send_string; string receive_string; if (n_surfaces > 1) { if (n == main_pos) { send_string = string_compose(_("Main surface at position %1 sends via:"), n + 1); receive_string = string_compose(_("Main surface at position %1 receives via:"), n + 1); } else { send_string = string_compose (_("Extender at position %1 sends via:"), n + 1); receive_string = string_compose (_("Extender at position %1 receives via:"), n + 1); } } else { send_string = _("Surface sends via:"); receive_string = _("Surface receives via:"); } l = manage (new Gtk::Label (send_string)); l->set_alignment (1.0, 0.5); dd_table->attach (*l, 0, 1, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions(0)); dd_table->attach (*input_combo, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions(0), 0, 0); row++; l = manage (new Gtk::Label (receive_string)); l->set_alignment (1.0, 0.5); dd_table->attach (*l, 0, 1, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions(0)); dd_table->attach (*output_combo, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions(0), 0, 0); row++; } } else { l = manage (new Gtk::Label (_("ipMIDI Port (lowest)"))); l->set_alignment (1.0, 0.5); Gtk::SpinButton* ipmidi_base_port_spinner = manage (new Gtk::SpinButton (ipmidi_base_port_adjustment)); dd_table->attach (*l, 0, 1, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); dd_table->attach (*ipmidi_base_port_spinner, 1, 2, row, row+1, AttachOptions(FILL|EXPAND), AttachOptions (0)); row++; } return dd_table; } CellRendererCombo* MackieControlProtocolGUI::make_action_renderer (Glib::RefPtr model, Gtk::TreeModelColumnBase column) { CellRendererCombo* renderer = manage (new CellRendererCombo); renderer->property_model() = model; renderer->property_editable() = true; renderer->property_text_column() = 0; renderer->property_has_entry() = false; renderer->signal_edited().connect (sigc::bind (sigc::mem_fun(*this, &MackieControlProtocolGUI::action_changed), column)); return renderer; } void MackieControlProtocolGUI::build_available_action_menu () { /* build a model of all available actions (needs to be tree structured * more) */ available_action_model = TreeStore::create (available_action_columns); vector paths; vector labels; vector tooltips; vector keys; vector > actions; typedef std::map NodeMap; NodeMap nodes; NodeMap::iterator r; ActionManager::get_all_actions (paths, labels, tooltips, keys, actions); vector::iterator k; vector::iterator p; vector::iterator t; vector::iterator l; available_action_model->clear (); /* Because there are button bindings built in that are not in the key binding map, there needs to be a way to undo a profile edit. */ TreeIter rowp; TreeModel::Row parent; rowp = available_action_model->append(); parent = *(rowp); parent[available_action_columns.name] = _("Remove Binding"); /* Key aliasing */ rowp = available_action_model->append(); parent = *(rowp); parent[available_action_columns.name] = _("Shift"); rowp = available_action_model->append(); parent = *(rowp); parent[available_action_columns.name] = _("Control"); rowp = available_action_model->append(); parent = *(rowp); parent[available_action_columns.name] = _("Option"); rowp = available_action_model->append(); parent = *(rowp); parent[available_action_columns.name] = _("CmdAlt"); for (l = labels.begin(), k = keys.begin(), p = paths.begin(), t = tooltips.begin(); l != labels.end(); ++k, ++p, ++t, ++l) { TreeModel::Row row; vector parts; parts.clear (); split (*p, parts, '/'); if (parts.empty()) { continue; } //kinda kludgy way to avoid displaying menu items as mappable if ( parts[1] == _("Main_menu") ) continue; if ( parts[1] == _("JACK") ) continue; if ( parts[1] == _("redirectmenu") ) continue; if ( parts[1] == _("Editor_menus") ) continue; if ( parts[1] == _("RegionList") ) continue; if ( parts[1] == _("ProcessorMenu") ) continue; if ((r = nodes.find (parts[1])) == nodes.end()) { /* top level is missing */ TreeIter rowp; TreeModel::Row parent; rowp = available_action_model->append(); nodes[parts[1]] = rowp; parent = *(rowp); parent[available_action_columns.name] = parts[1]; row = *(available_action_model->append (parent.children())); } else { row = *(available_action_model->append ((*r->second)->children())); } /* add this action */ if (l->empty ()) { row[available_action_columns.name] = *t; action_map[*t] = *p; } else { row[available_action_columns.name] = *l; action_map[*l] = *p; } row[available_action_columns.path] = (*p); } } void MackieControlProtocolGUI::build_function_key_editor () { function_key_editor.append_column (_("Key"), function_key_columns.name); TreeViewColumn* col; CellRendererCombo* renderer; renderer = make_action_renderer (available_action_model, function_key_columns.plain); col = manage (new TreeViewColumn (_("Plain"), *renderer)); col->add_attribute (renderer->property_text(), function_key_columns.plain); function_key_editor.append_column (*col); renderer = make_action_renderer (available_action_model, function_key_columns.shift); col = manage (new TreeViewColumn (_("Shift"), *renderer)); col->add_attribute (renderer->property_text(), function_key_columns.shift); function_key_editor.append_column (*col); renderer = make_action_renderer (available_action_model, function_key_columns.control); col = manage (new TreeViewColumn (_("Control"), *renderer)); col->add_attribute (renderer->property_text(), function_key_columns.control); function_key_editor.append_column (*col); renderer = make_action_renderer (available_action_model, function_key_columns.option); col = manage (new TreeViewColumn (_("Option"), *renderer)); col->add_attribute (renderer->property_text(), function_key_columns.option); function_key_editor.append_column (*col); renderer = make_action_renderer (available_action_model, function_key_columns.cmdalt); col = manage (new TreeViewColumn (_("Cmd/Alt"), *renderer)); col->add_attribute (renderer->property_text(), function_key_columns.cmdalt); function_key_editor.append_column (*col); renderer = make_action_renderer (available_action_model, function_key_columns.shiftcontrol); col = manage (new TreeViewColumn (_("Shift+Control"), *renderer)); col->add_attribute (renderer->property_text(), function_key_columns.shiftcontrol); function_key_editor.append_column (*col); function_key_model = ListStore::create (function_key_columns); function_key_editor.set_model (function_key_model); } void MackieControlProtocolGUI::refresh_function_key_editor () { function_key_editor.set_model (Glib::RefPtr()); function_key_model->clear (); /* now fill with data */ TreeModel::Row row; DeviceProfile dp (_cp.device_profile()); DeviceInfo di; for (int n = 0; n < Mackie::Button::FinalGlobalButton; ++n) { Mackie::Button::ID bid = (Mackie::Button::ID) n; row = *(function_key_model->append()); if (di.global_buttons().find (bid) == di.global_buttons().end()) { row[function_key_columns.name] = Mackie::Button::id_to_name (bid); } else { row[function_key_columns.name] = di.get_global_button_name (bid) + "*"; } row[function_key_columns.id] = bid; Glib::RefPtr act; string action; const string defstring = "\u2022"; /* We only allow plain bindings for Fn keys. All others are * reserved for hard-coded actions. */ if (bid >= Mackie::Button::F1 && bid <= Mackie::Button::F8) { action = dp.get_button_action (bid, 0); if (action.empty()) { row[function_key_columns.plain] = defstring; } else { if (action.find ('/') == string::npos) { /* Probably a key alias */ row[function_key_columns.plain] = action; } else { act = ActionManager::get_action (action.c_str(), false); if (act) { row[function_key_columns.plain] = act->get_label(); } else { row[function_key_columns.plain] = defstring; } } } } /* We only allow plain bindings for Fn keys. All others are * reserved for hard-coded actions. */ if (bid >= Mackie::Button::F1 && bid <= Mackie::Button::F8) { action = dp.get_button_action (bid, MackieControlProtocol::MODIFIER_SHIFT); if (action.empty()) { row[function_key_columns.shift] = defstring; } else { if (action.find ('/') == string::npos) { /* Probably a key alias */ row[function_key_columns.shift] = action; } else { act = ActionManager::get_action (action.c_str(), false); if (act) { row[function_key_columns.shift] = act->get_label(); } else { row[function_key_columns.shift] = defstring; } } } } action = dp.get_button_action (bid, MackieControlProtocol::MODIFIER_CONTROL); if (action.empty()) { row[function_key_columns.control] = defstring; } else { if (action.find ('/') == string::npos) { /* Probably a key alias */ row[function_key_columns.control] = action; } else { act = ActionManager::get_action (action.c_str(), false); if (act) { row[function_key_columns.control] = act->get_label(); } else { row[function_key_columns.control] = defstring; } } } action = dp.get_button_action (bid, MackieControlProtocol::MODIFIER_OPTION); if (action.empty()) { row[function_key_columns.option] = defstring; } else { if (action.find ('/') == string::npos) { /* Probably a key alias */ row[function_key_columns.option] = action; } else { act = ActionManager::get_action (action.c_str(), false); if (act) { row[function_key_columns.option] = act->get_label(); } else { row[function_key_columns.option] = defstring; } } } action = dp.get_button_action (bid, MackieControlProtocol::MODIFIER_CMDALT); if (action.empty()) { row[function_key_columns.cmdalt] = defstring; } else { if (action.find ('/') == string::npos) { /* Probably a key alias */ row[function_key_columns.cmdalt] = action; } else { act = ActionManager::get_action (action.c_str(), false); if (act) { row[function_key_columns.cmdalt] = act->get_label(); } else { row[function_key_columns.cmdalt] = defstring; } } } action = dp.get_button_action (bid, (MackieControlProtocol::MODIFIER_SHIFT|MackieControlProtocol::MODIFIER_CONTROL)); if (action.empty()) { row[function_key_columns.shiftcontrol] = defstring; } else { act = ActionManager::get_action (action.c_str(), false); if (act) { row[function_key_columns.shiftcontrol] = act->get_label(); } else { row[function_key_columns.shiftcontrol] = defstring; } } } function_key_editor.set_model (function_key_model); } void MackieControlProtocolGUI::action_changed (const Glib::ustring &sPath, const Glib::ustring &text, TreeModelColumnBase col) { // Remove Binding is not in the action map but still valid bool remove (false); if ( text == "Remove Binding") { remove = true; } Gtk::TreePath path(sPath); Gtk::TreeModel::iterator row = function_key_model->get_iter(path); if (row) { std::map::iterator i = action_map.find (text); if (i == action_map.end()) { if (!remove) { return; } } Glib::RefPtr act = ActionManager::get_action (i->second.c_str(), false); if (act || remove) { /* update visible text, using string supplied by available action model so that it matches and is found within the model. */ if (remove) { Glib::ustring dot = "\u2022"; (*row).set_value (col.index(), dot); } else { (*row).set_value (col.index(), text); } /* update the current DeviceProfile, using the full * path */ int modifier; switch (col.index()) { case 3: modifier = MackieControlProtocol::MODIFIER_SHIFT; break; case 4: modifier = MackieControlProtocol::MODIFIER_CONTROL; break; case 5: modifier = MackieControlProtocol::MODIFIER_OPTION; break; case 6: modifier = MackieControlProtocol::MODIFIER_CMDALT; break; case 7: modifier = (MackieControlProtocol::MODIFIER_SHIFT|MackieControlProtocol::MODIFIER_CONTROL); break; default: modifier = 0; } if (remove) { _cp.device_profile().set_button_action ((*row)[function_key_columns.id], modifier, ""); } else { _cp.device_profile().set_button_action ((*row)[function_key_columns.id], modifier, i->second); } _ignore_profile_changed = true; _profile_combo.set_active_text ( _cp.device_profile().name() ); _ignore_profile_changed = false; } else { std::cerr << "no such action\n"; } } } void MackieControlProtocolGUI::surface_combo_changed () { _cp.set_device (_surface_combo.get_active_text(), false); } void MackieControlProtocolGUI::device_changed () { if (_device_dependent_widget) { table.remove (*_device_dependent_widget); _device_dependent_widget = 0; } _device_dependent_widget = device_dependent_widget (); _device_dependent_widget->show_all (); table.attach (*_device_dependent_widget, 0, 12, device_dependent_row, device_dependent_row+1, AttachOptions(0), AttachOptions(0), 0, 0); } void MackieControlProtocolGUI::profile_combo_changed () { if (!_ignore_profile_changed) { string profile = _profile_combo.get_active_text(); _cp.set_profile (profile); refresh_function_key_editor (); } } void MackieControlProtocolGUI::ipmidi_spinner_changed () { _cp.set_ipmidi_base ((int16_t) lrintf (ipmidi_base_port_adjustment.get_value())); } void MackieControlProtocolGUI::discover_clicked () { /* this should help to get things started */ _cp.ping_devices (); } void MackieControlProtocolGUI::recalibrate_faders () { _cp.recalibrate_faders (); } void MackieControlProtocolGUI::toggle_backlight () { _cp.toggle_backlight (); } void MackieControlProtocolGUI::touch_sensitive_change () { int sensitivity = (int) touch_sensitivity_adjustment.get_value (); _cp.set_touch_sensitivity (sensitivity); } Glib::RefPtr MackieControlProtocolGUI::build_midi_port_list (vector const & ports, bool for_input) { Glib::RefPtr store = ListStore::create (midi_port_columns); TreeModel::Row row; row = *store->append (); row[midi_port_columns.full_name] = string(); row[midi_port_columns.short_name] = _("Disconnected"); for (vector::const_iterator p = ports.begin(); p != ports.end(); ++p) { row = *store->append (); row[midi_port_columns.full_name] = *p; std::string pn = ARDOUR::AudioEngine::instance()->get_pretty_name_by_name (*p); if (pn.empty ()) { pn = (*p).substr ((*p).find (':') + 1); } row[midi_port_columns.short_name] = pn; } return store; } void MackieControlProtocolGUI::active_port_changed (Gtk::ComboBox* combo, boost::weak_ptr ws, bool for_input) { if (ignore_active_change) { return; } boost::shared_ptr surface = ws.lock(); if (!surface) { return; } TreeModel::iterator active = combo->get_active (); string new_port = (*active)[midi_port_columns.full_name]; if (new_port.empty()) { if (for_input) { surface->port().input().disconnect_all (); } else { surface->port().output().disconnect_all (); } return; } if (for_input) { if (!surface->port().input().connected_to (new_port)) { surface->port().input().disconnect_all (); surface->port().input().connect (new_port); } } else { if (!surface->port().output().connected_to (new_port)) { surface->port().output().disconnect_all (); surface->port().output().connect (new_port); } } }