/* * Copyright (C) 2007-2014 David Robillard * Copyright (C) 2007-2018 Paul Davis * Copyright (C) 2007 Doug McLain * Copyright (C) 2008-2012 Carl Hetherington * Copyright (C) 2013-2015 John Emmas * Copyright (C) 2013-2019 Robin Gareus * Copyright (C) 2014-2015 Ben Loftis * Copyright (C) 2014-2016 Tim Mayberry * Copyright (C) 2017 Johannes Mueller * Copyright (C) 2018 Len Ovens * * 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., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #ifdef WAF_BUILD #include "gtk2ardour-config.h" #endif #include #include #include #include #include #include #include #include "pbd/unwind.h" #include "gtkmm2ext/colors.h" #include "gtkmm2ext/gtk_ui.h" #include "gtkmm2ext/menu_elems.h" #include "gtkmm2ext/utils.h" #include "gtkmm2ext/doi.h" #include "gtkmm2ext/rgb_macros.h" #include "widgets/choice.h" #include "widgets/prompter.h" #include "widgets/tooltips.h" #include "ardour/amp.h" #include "ardour/audio_track.h" #include "ardour/audioengine.h" #ifdef HAVE_BEATBOX #include "ardour/beatbox.h" #endif #include "ardour/internal_return.h" #include "ardour/internal_send.h" #include "ardour/luaproc.h" #include "ardour/luascripting.h" #include "ardour/meter.h" #include "ardour/panner_shell.h" #include "ardour/plugin_insert.h" #include "ardour/pannable.h" #include "ardour/port_insert.h" #include "ardour/profile.h" #include "ardour/return.h" #include "ardour/route.h" #include "ardour/send.h" #include "ardour/session.h" #include "ardour/surround_send.h" #include "ardour/types.h" #include "ardour/value_as_string.h" #include "control_protocol/control_protocol.h" #include "LuaBridge/LuaBridge.h" #include "actions.h" #include "ardour_dialog.h" #include "ardour_ui.h" #include "gui_thread.h" #include "io_selector.h" #include "keyboard.h" #include "luainstance.h" #include "mixer_ui.h" #include "mixer_strip.h" #include "plugin_pin_dialog.h" #include "plugin_selector.h" #include "plugin_ui.h" #include "port_insert_ui.h" #include "processor_box.h" #include "processor_selection.h" #include "public_editor.h" #include "return_ui.h" #include "script_selector.h" #include "send_ui.h" #include "timers.h" #include "triggerbox_ui.h" #include "new_plugin_preset_dialog.h" #include "pbd/i18n.h" #ifdef AUDIOUNIT_SUPPORT class AUPluginUI; #endif #ifndef NDEBUG bool ProcessorBox::show_all_processors = false; #endif using namespace std; using namespace ARDOUR; using namespace PBD; using namespace Gtk; using namespace Glib; using namespace Gtkmm2ext; using namespace ArdourWidgets; ProcessorBox* ProcessorBox::_current_processor_box = 0; bool ProcessorBox::_ignore_rb_change = false; RefPtr ProcessorBox::paste_action; RefPtr ProcessorBox::cut_action; RefPtr ProcessorBox::copy_action; RefPtr ProcessorBox::rename_action; RefPtr ProcessorBox::delete_action; RefPtr ProcessorBox::backspace_action; RefPtr ProcessorBox::manage_pins_action; RefPtr ProcessorBox::disk_io_action; RefPtr ProcessorBox::edit_action; RefPtr ProcessorBox::edit_generic_action; RefPtr ProcessorBox::processor_box_actions; Gtkmm2ext::Bindings* ProcessorBox::bindings = 0; // TODO consolidate with PluginPinDialog::set_color static void set_routing_color (cairo_t* cr, bool midi) { static const uint32_t audio_port_color = 0x4A8A0EFF; // Green static const uint32_t midi_port_color = 0x960909FF; //Red if (midi) { cairo_set_source_rgb (cr, UINT_RGBA_R_FLT(midi_port_color), UINT_RGBA_G_FLT(midi_port_color), UINT_RGBA_B_FLT(midi_port_color)); } else { cairo_set_source_rgb (cr, UINT_RGBA_R_FLT(audio_port_color), UINT_RGBA_G_FLT(audio_port_color), UINT_RGBA_B_FLT(audio_port_color)); } } ProcessorEntry::ProcessorEntry (ProcessorBox* parent, std::shared_ptr p, Width w) : _button (ArdourButton::led_default_elements) , _position (PreFader) , _position_num(0) , _parent (parent) , _selectable(true) , _unknown_processor(false) , _ignore_preset_select(false) , _processor (p) , _width (w) , input_icon(true) , output_icon(false) , routing_icon(true) , output_routing_icon(false) , _plugin_display(0) { _vbox.show (); _button.set_distinct_led_click (true); _button.set_fallthrough_to_parent(true); _button.set_led_left (true); _button.signal_led_clicked.connect (sigc::mem_fun (*this, &ProcessorEntry::led_clicked)); _button.set_text (name (_width)); if (std::dynamic_pointer_cast (_processor)) { _button.set_elements(ArdourButton::Element(_button.elements() & ~ArdourButton::Indicator)); } if (std::dynamic_pointer_cast (_processor) && std::dynamic_pointer_cast (_processor)->gain_control()->parameter().type() != GainAutomation) { /* Trim, Volume */ _button.set_elements(ArdourButton::Element(_button.elements() & ~ArdourButton::Indicator)); } if (std::dynamic_pointer_cast (_processor)) { _button.set_elements(ArdourButton::Element(_button.elements() & ~ArdourButton::Indicator)); _unknown_processor = true; } { std::shared_ptr pi = std::dynamic_pointer_cast (_processor); if (pi && pi->plugin()) { _plugin_preset_pointer = PluginPresetPtr (new PluginPreset (pi->plugin()->get_info())); } } if (_processor) { _vbox.pack_start (routing_icon); _vbox.pack_start (input_icon); _vbox.pack_start (_button, true, true); std::shared_ptr pi = std::dynamic_pointer_cast (_processor); if (pi && pi->plugin() && pi->plugin()->has_inline_display()) { if (pi->plugin()->get_info()->type != ARDOUR::Lua) { _plugin_display = new PluginInlineDisplay (*this, pi->plugin(), std::max (60.f, rintf(112.f * UIConfiguration::instance().get_ui_scale()))); } else { assert (std::dynamic_pointer_cast(pi->plugin())); _plugin_display = new LuaPluginDisplay (*this, std::dynamic_pointer_cast(pi->plugin()), std::max (60.f, rintf(112.f * UIConfiguration::instance().get_ui_scale()))); } _vbox.pack_start (*_plugin_display); _plugin_display->set_no_show_all (true); if (UIConfiguration::instance().get_show_inline_display_by_default ()) { _plugin_display->show (); } } _vbox.pack_end (output_routing_icon); _vbox.pack_end (output_icon); _button.set_active (_processor->enabled ()); input_icon.set_no_show_all(true); routing_icon.set_no_show_all(true); output_icon.set_no_show_all(true); output_routing_icon.set_no_show_all(true); _button.show (); input_icon.hide(); output_icon.show(); routing_icon.hide(); output_routing_icon.hide(); _processor->ActiveChanged.connect (active_connection, invalidator (*this), boost::bind (&ProcessorEntry::processor_active_changed, this), gui_context()); _processor->PropertyChanged.connect (name_connection, invalidator (*this), boost::bind (&ProcessorEntry::processor_property_changed, this, _1), gui_context()); _processor->ConfigurationChanged.connect (config_connection, invalidator (*this), boost::bind (&ProcessorEntry::processor_configuration_changed, this, _1, _2), gui_context()); const uint32_t limit_inline_controls = UIConfiguration::instance().get_max_inline_controls (); set p = _processor->what_can_be_automated (); for (set::iterator i = p.begin(); i != p.end(); ++i) { std::string label = _processor->describe_parameter (*i); if (label == X_("hidden")) { continue; } if (std::dynamic_pointer_cast (_processor)) { label = _("Return"); } Control* c = new Control (*this, _processor->automation_control (*i), label); _controls.push_back (c); if (std::dynamic_pointer_cast (_processor) == 0) { /* Add non-Amp (Fader & Trim) controls to the processor box */ _vbox.pack_start (c->box); } if (limit_inline_controls > 0 && _controls.size() >= limit_inline_controls) { break; } } setup_tooltip (); setup_visuals (); } else { _vbox.set_size_request (-1, _button.size_request().height); } } ProcessorEntry::~ProcessorEntry () { for (list::iterator i = _controls.begin(); i != _controls.end(); ++i) { delete *i; } delete _plugin_display; } EventBox& ProcessorEntry::action_widget () { return _button; } Gtk::Widget& ProcessorEntry::widget () { return _vbox; } string ProcessorEntry::drag_text () const { return name (Wide); } bool ProcessorEntry::can_copy_state (Gtkmm2ext::DnDVBoxChild* o) const { ProcessorEntry *other = dynamic_cast (o); if (!other) { return false; } std::shared_ptr otherproc = other->processor(); std::shared_ptr my_pi = std::dynamic_pointer_cast (_processor); std::shared_ptr ot_pi = std::dynamic_pointer_cast (otherproc); if (std::dynamic_pointer_cast (_processor)) { return false; } if (std::dynamic_pointer_cast (otherproc)) { return false; } if (!my_pi || !ot_pi) { return false; } if (my_pi->type() != ot_pi->type()) { return false; } std::shared_ptr my_p = my_pi->plugin(); std::shared_ptr ot_p = ot_pi->plugin(); if (!my_p || !ot_p) { return false; } if (my_p->unique_id() != ot_p->unique_id()) { return false; } return true; } bool ProcessorEntry::drag_data_get (Glib::RefPtr const, Gtk::SelectionData &data) { if (data.get_target() == "x-ardour/plugin.preset") { std::shared_ptr pi = std::dynamic_pointer_cast (_processor); if (!_plugin_preset_pointer || !pi) { data.set (data.get_target(), 8, NULL, 0); return true; } std::shared_ptr plugin = pi->plugin(); assert (plugin); PluginManager& manager (PluginManager::instance()); bool fav = manager.get_status (_plugin_preset_pointer->_pip) == PluginManager::Favorite; NewPluginPresetDialog d (plugin, string_compose(_("New Favorite Preset for \"%1\""),_plugin_preset_pointer->_pip->name), !fav); _plugin_preset_pointer->_preset.valid = false; switch (d.run ()) { default: case Gtk::RESPONSE_CANCEL: data.set (data.get_target(), 8, NULL, 0); return true; break; case Gtk::RESPONSE_NO: break; case Gtk::RESPONSE_ACCEPT: if (d.name().empty()) { break; } if (d.replace ()) { plugin->remove_preset (d.name ()); } Plugin::PresetRecord const r = plugin->save_preset (d.name()); if (!r.uri.empty ()) { _plugin_preset_pointer->_preset.uri = r.uri; _plugin_preset_pointer->_preset.label = r.label; _plugin_preset_pointer->_preset.user = r.user; _plugin_preset_pointer->_preset.valid = r.valid; } } data.set (data.get_target(), 8, (const guchar *) &_plugin_preset_pointer, sizeof (PluginPresetPtr)); return true; } return false; } void ProcessorEntry::set_position (ProcessorPosition p, uint32_t num) { _position = p; _position_num = num; setup_visuals (); } void ProcessorEntry::set_visual_state (Gtkmm2ext::VisualState s, bool yn) { if (yn) { _button.set_visual_state (Gtkmm2ext::VisualState (_button.visual_state() | s)); } else { _button.set_visual_state (Gtkmm2ext::VisualState (_button.visual_state() & ~s)); } } void ProcessorEntry::setup_visuals () { if (_unknown_processor) { _button.set_name ("processor stub"); return; } std::shared_ptr send; if ((send = std::dynamic_pointer_cast (_processor))) { if (send->remove_on_disconnect ()) { _button.set_name ("processor sidechain"); return; } std::shared_ptr aux; if ((aux = std::dynamic_pointer_cast (_processor))) { if (aux->allow_feedback ()) { _button.set_name ("processor auxfeedback"); return; } } } switch (_position) { case PreFader: if (_plugin_display) { _plugin_display->set_name ("processor prefader"); } _button.set_name ("processor prefader"); break; case Fader: _button.set_name ("processor fader"); break; case PostFader: if (_plugin_display) { _plugin_display->set_name ("processor postfader"); } _button.set_name ("processor postfader"); break; } } std::shared_ptr ProcessorEntry::processor () const { if (!_processor) { return std::shared_ptr(); } return _processor; } void ProcessorEntry::set_enum_width (Width w) { _width = w; _button.set_text (name (_width)); } void ProcessorEntry::led_clicked(GdkEventButton *ev) { bool ctrl_shift_pressed = false; Keyboard::ModifierMask ctrl_shift_mask = Keyboard::ModifierMask (Keyboard::PrimaryModifier|Keyboard::TertiaryModifier); if (Keyboard::modifier_state_equals (ev->state, ctrl_shift_mask)) { ctrl_shift_pressed = true; } if (_processor) { if (_button.get_active ()) { if (ctrl_shift_pressed) { _parent->all_visible_processors_active(false); if (_position == Fader) { _processor->enable (false); } } else { _processor->enable (false); } } else { if (ctrl_shift_pressed) { _parent->all_visible_processors_active(true); if (_position == Fader) { _processor->enable (true); } } else { _processor->enable (true); } } } } void ProcessorEntry::processor_active_changed () { if (_processor) { _button.set_active (_processor->enabled ()); } } void ProcessorEntry::processor_property_changed (const PropertyChange& what_changed) { if (what_changed.contains (ARDOUR::Properties::name)) { _button.set_text (name (_width)); setup_tooltip (); } else if (std::dynamic_pointer_cast (_processor) != 0) { /* Any property change for a send needs to trigger an update. * e.g. target-bus is updated, panner-link changes, etc */ _button.set_text (name (_width)); setup_tooltip (); } } void ProcessorEntry::processor_configuration_changed (const ChanCount in, const ChanCount out) { _parent->setup_routing_feeds (); input_icon.queue_draw(); output_icon.queue_draw(); routing_icon.queue_draw(); output_routing_icon.queue_draw(); } void ProcessorEntry::setup_tooltip () { if (_processor) { std::shared_ptr pi = std::dynamic_pointer_cast (_processor); if (pi) { std::string postfix = ""; uint32_t replicated; if (pi->plugin()->has_inline_display()) { postfix += string_compose(_("\n%1+double-click to toggle inline-display"), Keyboard::tertiary_modifier_name ()); } if ((replicated = pi->get_count()) > 1) { postfix += string_compose(_("\nThis plugin has been replicated %1 times."), replicated); } if (pi->plugin()->has_editor()) { set_tooltip (_button, string_compose (_("%1\nDouble-click to show GUI.\n%2+double-click to show generic GUI.%3"), name (Wide), Keyboard::secondary_modifier_name (), postfix)); } else { set_tooltip (_button, string_compose (_("%1\nDouble-click to show generic GUI.%2"), name (Wide), postfix)); } return; } if(std::dynamic_pointer_cast (_processor)) { ARDOUR_UI::instance()->set_tip (_button, string_compose (_("%1\nThe Plugin is not available on this system\nand has been replaced by a stub."), name (Wide))); return; } std::shared_ptr send; if ((send = std::dynamic_pointer_cast (_processor)) != 0) { std::string pan_suffix; if (send->has_panner ()) { bool panlinked = send->panner_linked_to_route(); pan_suffix = panlinked ? "\n(Send panner is linked)" : "\n(Send has independent panner)"; } std::shared_ptr aux; if ((aux = std::dynamic_pointer_cast (_processor)) != 0) { if (aux->target_route() && aux->target_route()->name() != aux->display_name()) { set_tooltip (_button, string_compose ("Aux: %1\nsend to '%2'%3", aux->display_name(), aux->target_route()->name(), pan_suffix)); } else { set_tooltip (_button, string_compose ("Aux: %1%2", aux->display_name(), pan_suffix)); } } else { if (send->remove_on_disconnect ()) { set_tooltip (_button, string_compose ("> %1\nThis (sidechain) send will be removed when disconnected.%2", _processor->name(), pan_suffix)); } else { set_tooltip (_button, string_compose ("> %1%2", _processor->name(), pan_suffix)); } } return; } } set_tooltip (_button, string_compose ("%1", name (Wide))); } string ProcessorEntry::name (Width w) const { if (!_processor) { return string(); } string name_display; std::shared_ptr send; std::shared_ptr aux; if ((aux = std::dynamic_pointer_cast (_processor)) != 0) { if (aux->has_panner () && !aux->panner_linked_to_route()) { switch (w) { case Wide: name_display += "^ "; break; case Narrow: name_display += "^"; break; } } switch (w) { case Wide: name_display += aux->display_name(); break; case Narrow: name_display += PBD::short_version (aux->display_name(), 5); break; } } else if ((send = std::dynamic_pointer_cast (_processor)) != 0) { name_display += '>'; std::string send_name; bool pretty_ok = true; // TODO, subscribe to PortPrettyNameChanged if (send->remove_on_disconnect ()) { // assume it's a sidechain, find pretty name of connected port(s) shared_ptr ps (send->output ()->ports ()); for (auto i = ps->begin (); i != ps->end () && pretty_ok; ++i) { vector connections; if (i->get_connections (connections)) { vector::const_iterator ci; for (ci = connections.begin(); ci != connections.end(); ++ci) { std::string pn = AudioEngine::instance()->get_pretty_name_by_name (*ci); if (pn.empty ()) { continue; } if (send_name.empty ()) { send_name = pn; } else if (send_name != pn) { // pretty names don't match pretty_ok = false; break; } } } } } if (!pretty_ok) { send_name = ""; } /* grab the send name out of its overall name */ if (send_name.empty()) { send_name = send->name(); string::size_type lbracket, rbracket; lbracket = send_name.find ('['); rbracket = send_name.find (']'); send_name = send_name.substr (lbracket+1, lbracket-rbracket-1); } switch (w) { case Wide: name_display += send_name; break; case Narrow: name_display += PBD::short_version (send_name, 5); break; } } else { std::shared_ptr pi; if ((pi = std::dynamic_pointer_cast (_processor)) != 0 && pi->get_count() > 1) { switch (w) { case Wide: name_display += "* "; break; case Narrow: name_display += "*"; break; } } switch (w) { case Wide: name_display += _processor->display_name(); break; case Narrow: name_display += PBD::short_version (_processor->display_name(), 5); break; } } return name_display; } void ProcessorEntry::show_all_controls () { for (list::iterator i = _controls.begin(); i != _controls.end(); ++i) { (*i)->set_visible (true); } _parent->update_gui_object_state (this); } void ProcessorEntry::hide_all_controls () { for (list::iterator i = _controls.begin(); i != _controls.end(); ++i) { (*i)->set_visible (false); } _parent->update_gui_object_state (this); } void ProcessorEntry::add_control_state (XMLNode* node) const { for (list::const_iterator i = _controls.begin(); i != _controls.end(); ++i) { (*i)->add_state (node); } if (_plugin_display) { XMLNode* c = new XMLNode (X_("Object")); c->set_property (X_("id"), X_("InlineDisplay")); c->set_property (X_("visible"), _plugin_display->get_visible ()); node->add_child_nocopy (*c); } } void ProcessorEntry::set_control_state (XMLNode const * node) { for (list::const_iterator i = _controls.begin(); i != _controls.end(); ++i) { (*i)->set_state (node); } if (_plugin_display) { XMLNode* n = GUIObjectState::get_node (node, X_("InlineDisplay")); if (!n) return; bool visible; if (n->get_property (X_("visible"), visible)) { if (visible) { _plugin_display->show (); } else { _plugin_display->hide (); } } } } string ProcessorEntry::state_id () const { return string_compose ("processor %1", _processor->id().to_s()); } void ProcessorEntry::hide_things () { for (list::iterator i = _controls.begin(); i != _controls.end(); ++i) { (*i)->hide_things (); } } Menu* ProcessorEntry::build_controls_menu () { using namespace Menu_Helpers; if (!_plugin_display && _controls.empty ()) { return NULL; } Menu* menu = manage (new Menu); MenuList& items = menu->items (); if (_plugin_display) { items.push_back (CheckMenuElem (_("Inline Display"))); Gtk::CheckMenuItem* c = dynamic_cast (&items.back ()); c->set_active (_plugin_display->get_visible ()); c->signal_toggled().connect (sigc::mem_fun (*this, &ProcessorEntry::toggle_inline_display_visibility)); } if (_controls.empty ()) { return menu; } else { items.push_back (SeparatorElem ()); } items.push_back ( MenuElem (_("Show All Controls"), sigc::mem_fun (*this, &ProcessorEntry::show_all_controls)) ); items.push_back ( MenuElem (_("Hide All Controls"), sigc::mem_fun (*this, &ProcessorEntry::hide_all_controls)) ); items.push_back (SeparatorElem ()); for (list::iterator i = _controls.begin(); i != _controls.end(); ++i) { items.push_back (CheckMenuElemNoMnemonic ((*i)->name ())); Gtk::CheckMenuItem* c = dynamic_cast (&items.back ()); c->set_active ((*i)->visible ()); c->signal_toggled().connect (sigc::bind (sigc::mem_fun (*this, &ProcessorEntry::toggle_control_visibility), *i)); } return menu; } void ProcessorEntry::plugin_preset_selected (ARDOUR::Plugin::PresetRecord preset) { if (_ignore_preset_select) { return; } std::shared_ptr pi = std::dynamic_pointer_cast (_processor); assert (pi); if (!preset.label.empty()) { pi->load_preset (preset); } else { pi->plugin()->clear_preset(); } } void ProcessorEntry::reset_plugin () { /* compare to PlugUIBase::add_plugin_setting */ std::shared_ptr pi = std::dynamic_pointer_cast (_processor); pi->reset_parameters_to_default(); } void ProcessorEntry::plugin_preset_add () { /* compare to PlugUIBase::add_plugin_setting */ std::shared_ptr pi = std::dynamic_pointer_cast (_processor); std::shared_ptr plugin = pi->plugin (); NewPluginPresetDialog d (plugin, _("New Preset")); Gtk::Window* tlw = dynamic_cast (_parent->get_toplevel ()); d.set_keep_above (true); if (tlw) { d.set_transient_for (*tlw); } switch (d.run ()) { case Gtk::RESPONSE_ACCEPT: if (d.name().empty()) { break; } Plugin::PresetRecord const r = plugin->save_preset (d.name()); if (!r.uri.empty ()) { plugin->Plugin::load_preset (r); } break; } } void ProcessorEntry::plugin_preset_delete () { std::shared_ptr pi = std::dynamic_pointer_cast (_processor); std::shared_ptr plugin = pi->plugin (); Plugin::PresetRecord pset = plugin->last_preset(); if (!pset.uri.empty ()) { plugin->remove_preset (pset.label); } } Menu* ProcessorEntry::build_presets_menu () { using namespace Menu_Helpers; std::shared_ptr pi = std::dynamic_pointer_cast (_processor); if (!pi) { return NULL; } std::shared_ptr plugin = pi->plugin(); vector presets = plugin->get_presets(); Plugin::PresetRecord pset = plugin->last_preset(); Menu* menu = manage (new Menu); MenuList& items = menu->items (); if (pi->ui_elements () & PlugInsertBase::PluginPreset) { items.push_back (MenuElem (_("New Preset..."), sigc::mem_fun (*this, &ProcessorEntry::plugin_preset_add))); if (!pset.uri.empty ()) { items.push_back (MenuElem (_("Delete the current preset"), sigc::mem_fun (*this, &ProcessorEntry::plugin_preset_delete))); } items.push_back (SeparatorElem ()); items.push_back (MenuElem (_("Reset Plugin"), sigc::mem_fun (*this, &ProcessorEntry::reset_plugin))); if (!presets.empty ()) { items.push_back (SeparatorElem ()); } } PBD::Unwinder uw (_ignore_preset_select, true); for (auto const& p : presets) { items.push_back (CheckMenuElem (p.label, sigc::bind (sigc::mem_fun (*this, &ProcessorEntry::plugin_preset_selected), p))); if (p.uri == pset.uri) { Gtk::CheckMenuItem* c = dynamic_cast (&items.back ()); if (plugin->parameter_changed_since_last_preset ()) { c->set_inconsistent (true); } else { c->set_active (true); } } } return menu; } void ProcessorEntry::toggle_inline_display_visibility () { if (_plugin_display->get_visible ()) { _plugin_display->hide(); } else { _plugin_display->show(); } _parent->update_gui_object_state (this); } void ProcessorEntry::toggle_control_visibility (Control* c) { c->set_visible (!c->visible ()); _parent->update_gui_object_state (this); } Menu* ProcessorEntry::build_send_options_menu () { using namespace Menu_Helpers; Menu* menu = manage (new Menu); MenuList& items = menu->items (); std::shared_ptr send = std::dynamic_pointer_cast (_processor); if (send) { items.push_back (CheckMenuElem (_("Link panner controls"))); Gtk::CheckMenuItem* c = dynamic_cast (&items.back ()); c->set_active (send->panner_linked_to_route ()); c->signal_toggled().connect (sigc::mem_fun (*this, &ProcessorEntry::toggle_panner_link)); } std::shared_ptr aux = std::dynamic_pointer_cast (_processor); if (aux) { items.push_back (CheckMenuElem (_("Allow Feedback Loop"))); Gtk::CheckMenuItem* c = dynamic_cast (&items.back ()); c->set_active (aux->allow_feedback()); c->signal_toggled().connect (sigc::mem_fun (*this, &ProcessorEntry::toggle_allow_feedback)); } return menu; } void ProcessorEntry::toggle_panner_link () { std::shared_ptr send = std::dynamic_pointer_cast (_processor); if (send) { send->set_panner_linked_to_route (!send->panner_linked_to_route ()); } } void ProcessorEntry::toggle_allow_feedback () { std::shared_ptr aux = std::dynamic_pointer_cast (_processor); if (aux) { aux->set_allow_feedback (!aux->allow_feedback ()); } } ProcessorEntry::Control::Control (ProcessorEntry& e,std::shared_ptr c, string const & n) : _entry (e) , _control (c) , _adjustment (gain_to_slider_position_with_max (1.0, Config->get_max_gain()), 0, 1, 0.01, 0.1) , _slider (&_adjustment, std::shared_ptr(), 0, max(13.f, rintf(13.f * UIConfiguration::instance().get_ui_scale()))) , _slider_persistant_tooltip (&_slider) , _button (ArdourButton::led_default_elements) , _ignore_ui_adjustment (false) , _visible (false) , _name (n) { box.set_padding(0, 0, 4, 4); if (c->toggled()) { _button.set_text (_name); _button.set_led_left (true); _button.set_name ("processor control button"); _button.set_controllable (c); box.add (_button); _button.show (); _button.signal_clicked.connect (sigc::mem_fun (*this, &Control::button_clicked)); _button.signal_led_clicked.connect (sigc::mem_fun (*this, &Control::button_clicked_event)); c->Changed.connect (_connections, invalidator (*this), boost::bind (&Control::control_changed, this), gui_context ()); if (c->alist ()) { c->alist()->automation_state_changed.connect (_connections, invalidator (*this), boost::bind (&Control::control_automation_state_changed, this), gui_context()); control_automation_state_changed (); } _button.set_fallthrough_to_parent (true); _button.signal_button_release_event().connect (sigc::mem_fun(*this, &Control::button_released)); } else { _slider.set_name ("ProcessorControlSlider"); _slider.set_text (_name); _slider.set_controllable (c); box.add (_slider); _slider.show (); const ARDOUR::ParameterDescriptor& desc = c->desc(); double const lo = c->internal_to_interface (desc.lower, true); double const up = c->internal_to_interface (desc.upper, true); double const normal = c->internal_to_interface (desc.normal, true); double const smallstep = fabs (c->internal_to_interface (desc.lower + desc.smallstep, true) - lo); double const largestep = fabs (c->internal_to_interface (desc.lower + desc.largestep, true) - lo); _adjustment.set_lower (lo); _adjustment.set_upper (up); _adjustment.set_step_increment (smallstep); _adjustment.set_page_increment (largestep); _slider.set_default_value (normal); _slider.StartGesture.connect(sigc::mem_fun(*this, &Control::start_touch)); _slider.StopGesture.connect(sigc::mem_fun(*this, &Control::end_touch)); _slider.signal_button_release_event().connect (sigc::mem_fun(*this, &Control::button_released)); _adjustment.signal_value_changed().connect (sigc::mem_fun (*this, &Control::slider_adjusted)); c->Changed.connect (_connections, invalidator (*this), boost::bind (&Control::control_changed, this), gui_context ()); if (c->alist ()) { c->alist()->automation_state_changed.connect (_connections, invalidator (*this), boost::bind (&Control::control_automation_state_changed, this), gui_context()); control_automation_state_changed (); } } control_changed (); set_tooltip (); /* We're providing our own PersistentTooltip */ set_no_tooltip_whatsoever (_slider); } ProcessorEntry::Control::~Control () { } void ProcessorEntry::Control::set_tooltip () { std::shared_ptr c = _control.lock (); if (!c) { return; } std::string tt = _name + ": " + ARDOUR::value_as_string (c->desc(), c->get_value ()); string sm = Gtkmm2ext::markup_escape_text (tt); _slider_persistant_tooltip.set_tip (sm); ArdourWidgets::set_tooltip (_button, Gtkmm2ext::markup_escape_text (sm)); } void ProcessorEntry::Control::slider_adjusted () { if (_ignore_ui_adjustment) { return; } std::shared_ptr c = _control.lock (); if (!c) { return; } c->set_value ( c->interface_to_internal(_adjustment.get_value (), true) , Controllable::NoGroup); set_tooltip (); } void ProcessorEntry::Control::start_touch (int) { std::shared_ptr c = _control.lock (); if (!c) { return; } c->start_touch (timepos_t (c->session().transport_sample())); } void ProcessorEntry::Control::end_touch (int) { std::shared_ptr c = _control.lock (); if (!c) { return; } c->stop_touch (timepos_t (c->session().transport_sample())); } bool ProcessorEntry::Control::button_released (GdkEventButton* ev) { if (Keyboard::is_delete_event (ev)) { _entry.toggle_control_visibility (this); return true; } return false; } void ProcessorEntry::Control::button_clicked () { std::shared_ptr c = _control.lock (); if (!c) { return; } bool const n = _button.get_active (); c->set_value (n ? 0 : 1, Controllable::NoGroup); _button.set_active (!n); set_tooltip (); } void ProcessorEntry::Control::button_clicked_event (GdkEventButton *ev) { (void) ev; button_clicked (); } void ProcessorEntry::Control::control_automation_state_changed () { std::shared_ptr c = _control.lock (); if (!c) { return; } bool x = c->alist()->automation_state() & Play; if (c->toggled ()) { _button.set_sensitive (!x); } else { _slider.set_sensitive (!x); } } void ProcessorEntry::Control::control_changed () { std::shared_ptr c = _control.lock (); if (!c) { return; } _ignore_ui_adjustment = true; if (c->toggled ()) { _button.set_active (c->get_value() > 0.5); } else { // Note: the _slider watches the controllable by itself const double nval = c->internal_to_interface (c->get_value (), true); if (_adjustment.get_value() != nval) { _adjustment.set_value (nval); set_tooltip (); } } _ignore_ui_adjustment = false; } void ProcessorEntry::Control::add_state (XMLNode* node) const { XMLNode* c = new XMLNode (X_("Object")); c->set_property (X_("id"), state_id ()); c->set_property (X_("visible"), _visible); node->add_child_nocopy (*c); } void ProcessorEntry::Control::set_state (XMLNode const * node) { XMLNode* n = GUIObjectState::get_node (node, state_id ()); if (n) { bool visible; if (n->get_property (X_("visible"), visible)) { set_visible (visible); } } else { std::shared_ptr c = _control.lock (); set_visible (c && (c->flags () & Controllable::InlineControl)); } } void ProcessorEntry::Control::set_visible (bool v) { if (v) { box.show (); } else { box.hide (); } _visible = v; } /** Called when the Editor might have re-shown things that we want hidden. */ void ProcessorEntry::Control::hide_things () { if (!_visible) { box.hide (); } } string ProcessorEntry::Control::state_id () const { std::shared_ptr c = _control.lock (); assert (c); return string_compose (X_("control %1"), c->id().to_s ()); } PluginInsertProcessorEntry::PluginInsertProcessorEntry (ProcessorBox* b, std::shared_ptr p, Width w) : ProcessorEntry (b, p, w) , _plugin_insert (p) { p->PluginIoReConfigure.connect ( _iomap_connection, invalidator (*this), boost::bind (&PluginInsertProcessorEntry::iomap_changed, this), gui_context() ); p->PluginMapChanged.connect ( _iomap_connection, invalidator (*this), boost::bind (&PluginInsertProcessorEntry::iomap_changed, this), gui_context() ); p->PluginConfigChanged.connect ( _iomap_connection, invalidator (*this), boost::bind (&PluginInsertProcessorEntry::iomap_changed, this), gui_context() ); } void PluginInsertProcessorEntry::iomap_changed () { _parent->setup_routing_feeds (); routing_icon.queue_draw(); output_routing_icon.queue_draw(); } void PluginInsertProcessorEntry::hide_things () { ProcessorEntry::hide_things (); } ProcessorEntry::PortIcon::PortIcon(bool input) { _input = input; _ports = ARDOUR::ChanCount(ARDOUR::DataType::AUDIO, 1); set_size_request (-1, std::max (2.f, rintf(2.f * UIConfiguration::instance().get_ui_scale()))); } bool ProcessorEntry::PortIcon::on_expose_event (GdkEventExpose* ev) { cairo_t* cr = gdk_cairo_create (get_window()->gobj()); cairo_rectangle (cr, ev->area.x, ev->area.y, ev->area.width, ev->area.height); cairo_clip (cr); Gtk::Allocation a = get_allocation(); double const width = a.get_width(); double const height = a.get_height(); Gdk::Color const bg = get_style()->get_bg (STATE_NORMAL); cairo_set_source_rgb (cr, bg.get_red_p (), bg.get_green_p (), bg.get_blue_p ()); cairo_rectangle (cr, 0, 0, width, height); cairo_fill (cr); const double dx = rint(max(2., 2. * UIConfiguration::instance().get_ui_scale())); for (uint32_t i = 0; i < _ports.n_total(); ++i) { set_routing_color (cr, i < _ports.n_midi()); const double x = ProcessorEntry::RoutingIcon::pin_x_pos (i, width, _ports.n_total(), 0 , false); cairo_rectangle (cr, x + .5 - dx * .5, 0, 1 + dx, height); cairo_fill(cr); } cairo_destroy(cr); return true; } ProcessorEntry::RoutingIcon::RoutingIcon (bool input) : _fed_by (false) , _input (input) { set_terminal (false); } void ProcessorEntry::RoutingIcon::set_terminal (bool b) { _terminal = b; int h = std::max (8.f, rintf(8.f * sqrt (UIConfiguration::instance().get_ui_scale()))); if (_terminal) { h += std::max (4.f, rintf(4.f * sqrt (UIConfiguration::instance().get_ui_scale()))); } set_size_request (-1, h); } void ProcessorEntry::RoutingIcon::set ( const ARDOUR::ChanCount& in, const ARDOUR::ChanCount& out, const ARDOUR::ChanCount& sinks, const ARDOUR::ChanCount& sources, const ARDOUR::ChanMapping& in_map, const ARDOUR::ChanMapping& out_map, const ARDOUR::ChanMapping& thru_map) { _in = in; _out = out; _sources = sources; _sinks = sinks; _in_map = in_map; _out_map = out_map; _thru_map = thru_map; } bool ProcessorEntry::RoutingIcon::in_identity () const { if (_thru_map.n_total () > 0) { return false; } if (!_in_map.is_monotonic () || !_in_map.is_identity ()) { return false; } if (_in_map.n_total () != _sinks.n_total () || _in.n_total () != _sinks.n_total ()) { return false; } return true; } bool ProcessorEntry::RoutingIcon::out_identity () const { if (_thru_map.n_total () > 0) { // TODO skip if trhu is not connected to any of next's inputs return false; } if (!_out_map.is_monotonic () || !_out_map.is_identity ()) { return false; } if (_out_map.n_total () != _sources.n_total () || _out.n_total () != _sources.n_total ()) { return false; } return true; } bool ProcessorEntry::RoutingIcon::can_coalesce () const { if (_thru_map.n_total () > 0) { return false; } if (_fed_by && _f_out != _f_sources) { return false; } if (_fed_by && !_f_out_map.is_identity () && !_in_map.is_identity ()) { return false; } if (_input && _sinks == _in && (!_fed_by || _f_out == _in)) { return true; } return false; } void ProcessorEntry::RoutingIcon::set_fed_by ( const ARDOUR::ChanCount& out, const ARDOUR::ChanCount& sources, const ARDOUR::ChanMapping& out_map, const ARDOUR::ChanMapping& thru_map) { _f_out = out; _f_sources = sources; _f_out_map = out_map; _f_thru_map = thru_map; _fed_by = true; } void ProcessorEntry::RoutingIcon::set_feeding ( const ARDOUR::ChanCount& in, const ARDOUR::ChanCount& sinks, const ARDOUR::ChanMapping& in_map, const ARDOUR::ChanMapping& thru_map) { _i_in = in; _i_sinks = sinks; _i_in_map = in_map; _i_thru_map = thru_map; _feeding = true; } double ProcessorEntry::RoutingIcon::pin_x_pos (uint32_t i, double width, uint32_t n_total, uint32_t n_midi, bool midi) { if (!midi) { i += n_midi; } if (n_total == 1) { assert (i == 0); return rint (width * .5) +.5; } return rint (width * (.15 + .7 * i / (n_total - 1))) + .5; } void ProcessorEntry::RoutingIcon::draw_gnd (cairo_t* cr, double x0, double y0, double height, bool midi) { const double dx = 1 + rint (max(2., 2. * UIConfiguration::instance().get_ui_scale())); const double y1 = rint (height * .66) + .5; cairo_save (cr); cairo_translate (cr, x0, y0); cairo_move_to (cr, 0, height); cairo_line_to (cr, 0, y1); cairo_move_to (cr, 0 - dx, y1); cairo_line_to (cr, 0 + dx, y1); set_routing_color (cr, midi); cairo_set_line_width (cr, 1.0); cairo_stroke (cr); cairo_restore (cr); } void ProcessorEntry::RoutingIcon::draw_sidechain (cairo_t* cr, double x0, double y0, double height, bool midi) { const double dx = 1 + rint (max(2., 2. * UIConfiguration::instance().get_ui_scale())); const double y1 = rint (height * .5) + .5; cairo_save (cr); cairo_translate (cr, x0, y0); cairo_move_to (cr, 0 - dx, height); cairo_line_to (cr, 0, y1); cairo_line_to (cr, 0 + dx, height); cairo_close_path (cr); set_routing_color (cr, midi); cairo_fill (cr); cairo_restore (cr); } void ProcessorEntry::RoutingIcon::draw_thru_src (cairo_t* cr, double x0, double y0, double height, bool midi) { const double rad = 1; const double y1 = height - rad - 1.5; cairo_arc (cr, x0, y0 + y1, rad, 0, 2. * M_PI); cairo_move_to (cr, x0, y0 + height - 1.5); cairo_line_to (cr, x0, y0 + height); set_routing_color (cr, midi); cairo_set_line_width (cr, 1.0); cairo_stroke (cr); } void ProcessorEntry::RoutingIcon::draw_thru_sink (cairo_t* cr, double x0, double y0, double height, bool midi) { const double rad = 1; const double y1 = rad + 1; cairo_arc (cr, x0, y0 + y1, rad, 0, 2. * M_PI); cairo_move_to (cr, x0, y0); cairo_line_to (cr, x0, y0 + 1); set_routing_color (cr, midi); cairo_set_line_width (cr, 1.0); cairo_stroke (cr); } void ProcessorEntry::RoutingIcon::draw_connection (cairo_t* cr, double x0, double x1, double y0, double y1, bool midi, bool dashed) { double bz = abs (y1 - y0); cairo_move_to (cr, x0, y0); cairo_curve_to (cr, x0, y0 + bz, x1, y1 - bz, x1, y1); cairo_set_line_width (cr, 1.0); cairo_set_line_cap (cr, CAIRO_LINE_CAP_ROUND); cairo_set_source_rgb (cr, 1, 0, 0); if (dashed) { const double dashes[] = { 2, 3 }; cairo_set_dash (cr, dashes, 2, 0); } set_routing_color (cr, midi); cairo_stroke (cr); if (dashed) { cairo_set_dash (cr, 0, 0, 0); } } bool ProcessorEntry::RoutingIcon::on_expose_event (GdkEventExpose* ev) { cairo_t* cr = gdk_cairo_create (get_window()->gobj()); cairo_rectangle (cr, ev->area.x, ev->area.y, ev->area.width, ev->area.height); cairo_clip (cr); cairo_set_line_cap (cr, CAIRO_LINE_CAP_ROUND); Gtk::Allocation a = get_allocation(); double const width = a.get_width(); double const height = a.get_height(); Gdk::Color const bg = get_style()->get_bg (STATE_NORMAL); cairo_set_source_rgb (cr, bg.get_red_p (), bg.get_green_p (), bg.get_blue_p ()); cairo_rectangle (cr, 0, 0, width, height); cairo_fill (cr); if (_input) { if (can_coalesce ()) { expose_coalesced_input_map (cr, width, height); } else { expose_input_map (cr, width, height); } } else { expose_output_map (cr, width, height); } cairo_destroy(cr); return true; } void ProcessorEntry::RoutingIcon::expose_coalesced_input_map (cairo_t* cr, const double width, const double height) { const uint32_t pc_in = _sinks.n_total(); const uint32_t pc_in_midi = _sinks.n_midi(); for (uint32_t i = 0; i < pc_in; ++i) { const bool is_midi = i < pc_in_midi; bool valid_in; uint32_t pn = is_midi ? i : i - pc_in_midi; DataType dt = is_midi ? DataType::MIDI : DataType::AUDIO; uint32_t idx = _in_map.get (dt, pn, &valid_in); if (!valid_in) { double x = pin_x_pos (i, width, pc_in, 0, is_midi); draw_gnd (cr, x, 0, height, is_midi); continue; } if (idx >= _in.get (dt)) { // side-chain, probably double x = pin_x_pos (i, width, pc_in, 0, is_midi); draw_sidechain (cr, x, 0, height, is_midi); continue; } double c_x0; double c_x1 = pin_x_pos (i, width, pc_in, 0, false); if (_fed_by) { bool valid_src; uint32_t src = _f_out_map.get_src (dt, idx, &valid_src); if (!valid_src) { double x = pin_x_pos (i, width, pc_in, 0, false); bool valid_thru; _f_thru_map.get (dt, idx, &valid_thru); if (valid_thru) { draw_thru_src (cr, x, 0, height, is_midi); } else { draw_gnd (cr, x, 0, height, is_midi); } continue; } c_x0 = pin_x_pos (src, width, _f_sources.n_total(), _f_sources.n_midi(), is_midi); } else { c_x0 = pin_x_pos (idx, width, _in.n_total(), _in.n_midi(), is_midi); } draw_connection (cr, c_x0, c_x1, 0, height, is_midi); } } void ProcessorEntry::RoutingIcon::expose_input_map (cairo_t* cr, const double width, const double height) { const uint32_t n_in = _in.n_total(); const uint32_t n_in_midi = _in.n_midi(); const uint32_t pc_in = _sinks.n_total(); const uint32_t pc_in_midi = _sinks.n_midi(); // draw inputs to this for (uint32_t i = 0; i < pc_in; ++i) { const bool is_midi = i < pc_in_midi; bool valid_in; uint32_t pn = is_midi ? i : i - pc_in_midi; DataType dt = is_midi ? DataType::MIDI : DataType::AUDIO; uint32_t idx = _in_map.get (dt, pn, &valid_in); // check if it's fed bool valid_src = true; if (valid_in && idx < _in.get (dt) && _fed_by) { bool valid_out; bool valid_thru; _f_out_map.get_src (dt, idx, &valid_out); _f_thru_map.get (dt, idx, &valid_thru); if (!valid_out && !valid_thru) { valid_src = false; } } if (!valid_in || !valid_src) { double x = pin_x_pos (i, width, pc_in, 0, is_midi); draw_gnd (cr, x, 0, height, is_midi); continue; } if (idx >= _in.get (dt)) { // side-chain, probably double x = pin_x_pos (i, width, pc_in, 0, is_midi); draw_sidechain (cr, x, 0, height, is_midi); continue; } double c_x1 = pin_x_pos (i, width, pc_in, 0, false); double c_x0 = pin_x_pos (idx, width, n_in, n_in_midi, is_midi); draw_connection (cr, c_x0, c_x1, 0, height, is_midi); } // draw reverse thru for (uint32_t i = 0; i < n_in; ++i) { const bool is_midi = i < n_in_midi; bool valid_thru; uint32_t pn = is_midi ? i : i - n_in_midi; DataType dt = is_midi ? DataType::MIDI : DataType::AUDIO; _thru_map.get_src (dt, pn, &valid_thru); if (!valid_thru) { continue; } double x = pin_x_pos (i, width, n_in, 0, is_midi); draw_thru_sink (cr, x, 0, height, is_midi); } } void ProcessorEntry::RoutingIcon::expose_output_map (cairo_t* cr, const double width, const double height) { int dh = std::max (4.f, rintf(4.f * UIConfiguration::instance().get_ui_scale())); double ht = _terminal ? height - dh : height; // draw outputs of this const uint32_t pc_out = _sources.n_total(); const uint32_t pc_out_midi = _sources.n_midi(); const uint32_t n_out = _out.n_total(); const uint32_t n_out_midi = _out.n_midi(); for (uint32_t i = 0; i < pc_out; ++i) { const bool is_midi = i < pc_out_midi; bool valid_out; uint32_t pn = is_midi ? i : i - pc_out_midi; DataType dt = is_midi ? DataType::MIDI : DataType::AUDIO; uint32_t idx = _out_map.get (dt, pn, &valid_out); if (!valid_out) { continue; } // skip connections that are not used in the next's input if (_feeding) { bool valid_thru, valid_sink; _i_in_map.get_src (dt, idx, &valid_sink); _i_thru_map.get_src (dt, idx, &valid_thru); if (!valid_thru && !valid_sink) { if (!is_midi || i != 0) { // special case midi-bypass continue; } } } double c_x0 = pin_x_pos (i, width, pc_out, 0, false); double c_x1 = pin_x_pos (idx, width, n_out, n_out_midi, is_midi); draw_connection (cr, c_x0, c_x1, 0, ht, is_midi); } for (uint32_t i = 0; i < n_out; ++i) { const bool is_midi = i < n_out_midi; uint32_t pn = is_midi ? i : i - n_out_midi; DataType dt = is_midi ? DataType::MIDI : DataType::AUDIO; double x = pin_x_pos (i, width, n_out, 0, is_midi); if (!_terminal) { bool valid_thru_f = false; // skip connections that are not used in the next's input if (_feeding) { bool valid_sink; _i_in_map.get_src (dt, pn, &valid_sink); _i_thru_map.get_src (dt, pn, &valid_thru_f); if (!valid_thru_f && !valid_sink) { if (!is_midi || i != 0) { // special case midi-bypass continue; } } } bool valid_src; _out_map.get_src (dt, pn, &valid_src); if (!valid_src) { bool valid_thru; uint32_t idx = _thru_map.get (dt, pn, &valid_thru); if (valid_thru) { if (idx >= _in.get (dt)) { draw_sidechain (cr, x, 0, height, is_midi); } else { draw_thru_src (cr, x, 0, height, is_midi); } } else if (valid_thru_f){ // gnd is part of input, unless it's a thru input // (also only true if !coalesced into one small display) draw_gnd (cr, x, 0, height, is_midi); } } } else { // terminal node, add arrows bool valid_src; _out_map.get_src (dt, pn, &valid_src); if (!valid_src) { bool valid_thru; uint32_t idx = _thru_map.get (dt, pn, &valid_thru); if (valid_thru) { if (idx >= _in.get (dt)) { draw_sidechain (cr, x, 0, height - dh, is_midi); } else { draw_thru_src (cr, x, 0, height - dh, is_midi); } } else { draw_gnd (cr, x, 0, height - dh, is_midi); } } set_routing_color (cr, is_midi); cairo_set_line_width (cr, 1.0); cairo_move_to (cr, x, height - dh); cairo_line_to (cr, x, height - 2); cairo_stroke (cr); const double ar = dh - 1; cairo_move_to (cr, x - ar, height - ar); cairo_line_to (cr, x , height - .5); cairo_line_to (cr, x + ar, height - ar); cairo_line_to (cr, x , height - ar * .5); cairo_close_path (cr); cairo_fill_preserve (cr); cairo_stroke (cr); } } } ProcessorEntry::PluginInlineDisplay::PluginInlineDisplay (ProcessorEntry& e, std::shared_ptr p, uint32_t max_height) : PluginDisplay (p, max_height) , _entry (e) , _scroll (false) , _given_max_height (max_height) { std::string postfix = string_compose(_("\n%1+double-click to toggle inline-display"), Keyboard::tertiary_modifier_name ()); if (_plug->has_editor()) { set_tooltip (*this, string_compose (_("%1\nDouble-click to show GUI.\n%2+double-click to show generic GUI.%3"), e.name (Wide), Keyboard::primary_modifier_name (), postfix)); } else { set_tooltip (*this, string_compose (_("%1\nDouble-click to show generic GUI.%2"), e.name (Wide), postfix)); } } bool ProcessorEntry::PluginInlineDisplay::on_button_press_event (GdkEventButton *ev) { assert (_entry.processor ()); std::shared_ptr pi = std::dynamic_pointer_cast (_entry.processor()); // duplicated code :( // consider some tweaks to pass this up to the DnDVBox somehow: // select processor, then call (private) //_entry._parent->processor_button_press_event (ev, &_entry); if (pi && pi->plugin() && pi->plugin()->has_inline_display() && Keyboard::modifier_state_equals (ev->state, Keyboard::TertiaryModifier) && ev->button == 1 && ev->type == GDK_2BUTTON_PRESS) { _entry.toggle_inline_display_visibility (); return true; } else if (Keyboard::is_edit_event (ev) || (ev->button == 1 && ev->type == GDK_2BUTTON_PRESS)) { if (Keyboard::modifier_state_equals (ev->state, Keyboard::SecondaryModifier)) { _entry._parent->generic_edit_processor (_entry.processor ()); } else { _entry._parent->edit_processor (_entry.processor ()); } return true; } return false; } void ProcessorEntry::PluginInlineDisplay::on_size_request (Requisition* req) { req->width = 56; req->height = _cur_height; } void ProcessorEntry::PluginInlineDisplay::update_height_alloc (uint32_t inline_height) { /* work-around scroll-bar + aspect ratio * show inline-view -> height changes -> scrollbar gets added * -> width changes -> inline-view, fixed aspect ratio -> height changes * -> scroll bar is removed [-> width changes ; repeat ] */ uint32_t shm = std::min (_max_height, inline_height); bool sc = false; Gtk::Container* pr = get_parent(); for (uint32_t i = 0; i < 4 && pr; ++i) { // VBox, EventBox, ViewPort, ScrolledWindow pr = pr->get_parent(); } Gtk::ScrolledWindow* sw = dynamic_cast (pr); if (sw) { const Gtk::VScrollbar* vsb = sw->get_vscrollbar(); sc = vsb && vsb->get_visible(); } if (shm != _cur_height) { queue_resize (); if (!_scroll && sc) { _max_height = shm; } else { _max_height = _given_max_height; } _cur_height = shm; } _scroll = sc; } void ProcessorEntry::PluginInlineDisplay::display_frame (cairo_t* cr, double w, double h) { Gtkmm2ext::rounded_rectangle (cr, 1.5, -0.5, w - 3, h - 1.0, 2.5); } ProcessorEntry::LuaPluginDisplay::LuaPluginDisplay (ProcessorEntry& e, std::shared_ptr p, uint32_t max_height) : PluginInlineDisplay (e, p, max_height) , _luaproc (p) , lua_gui (true, true) , _lua_render_inline (0) { p->setup_lua_inline_gui (&lua_gui); lua_State* LG = lua_gui.getState (); LuaInstance::bind_cairo (LG); luabridge::LuaRef lua_render = luabridge::getGlobal (LG, "render_inline"); assert (lua_render.isFunction ()); _lua_render_inline = new luabridge::LuaRef (lua_render); } ProcessorEntry::LuaPluginDisplay::~LuaPluginDisplay () { delete (_lua_render_inline); } uint32_t ProcessorEntry::LuaPluginDisplay::render_inline (cairo_t *cr, uint32_t width) { Cairo::Context ctx (cr); try { luabridge::LuaRef rv = (*_lua_render_inline)((Cairo::Context *)&ctx, width, _max_height); lua_gui.collect_garbage_step (); if (rv.isTable ()) { uint32_t h = rv[2]; return h; } } catch (luabridge::LuaException const& e) { #ifndef NDEBUG cerr << "LuaException:" << e.what () << endl; #endif PBD::warning << "LuaException: " << e.what () << endmsg; } catch (...) { } return 0; } static std::list drop_targets() { std::list tmp; tmp.push_back (Gtk::TargetEntry ("x-ardour/processor", Gtk::TARGET_SAME_APP)); // from processor-box to processor-box tmp.push_back (Gtk::TargetEntry ("x-ardour/plugin.info", Gtk::TARGET_SAME_APP)); // from plugin-manager tmp.push_back (Gtk::TargetEntry ("x-ardour/plugin.favorite", Gtk::TARGET_SAME_APP)); // from sidebar return tmp; } static std::list drag_targets() { std::list tmp; tmp.push_back (Gtk::TargetEntry ("x-ardour/processor", Gtk::TARGET_SAME_APP)); // to processor-box (copy) tmp.push_back (Gtk::TargetEntry ("x-ardour/plugin.preset", Gtk::TARGET_SAME_APP)); // to sidebar (optional preset) return tmp; } static std::list drag_targets_noplugin() { std::list tmp; tmp.push_back (Gtk::TargetEntry ("x-ardour/processor", Gtk::TARGET_SAME_APP)); // to processor box (sends, faders re-order) return tmp; } ProcessorBox::ProcessorBox (ARDOUR::Session* sess, boost::function get_plugin_selector, ProcessorSelection& psel, MixerStrip* parent, bool owner_is_mixer) : _parent_strip (parent) , _owner_is_mixer (owner_is_mixer) , ab_direction (true) , _get_plugin_selector (get_plugin_selector) , _placement (-1) , _p_selection(psel) , processor_display (drop_targets()) , _redisplay_pending (false) { if (!processor_box_actions) { register_actions (); } set_session (sess); /* ProcessorBox actions and bindings created statically by call to * ProcessorBox::register_actions(), made by ARDOUR_UI so that actions * are available for context menus. */ processor_display.set_data ("ardour-bindings", bindings); processor_display.SelectionAdded.connect (sigc::mem_fun (*this, &ProcessorBox::selection_added)); _width = Wide; processor_menu = 0; no_processor_redisplay = false; processor_scroller.set_policy (Gtk::POLICY_NEVER, Gtk::POLICY_AUTOMATIC); processor_scroller.set_name ("ProcessorScroller"); processor_scroller.add (processor_display); pack_start (processor_scroller, true, true); processor_display.set_can_focus (); processor_display.set_name ("ProcessorList"); processor_display.set_data ("processorbox", this); processor_display.set_size_request (48, -1); processor_display.set_spacing (0); processor_display.signal_enter_notify_event().connect (sigc::mem_fun(*this, &ProcessorBox::enter_notify), false); processor_display.signal_leave_notify_event().connect (sigc::mem_fun(*this, &ProcessorBox::leave_notify), false); processor_display.ButtonPress.connect (sigc::mem_fun (*this, &ProcessorBox::processor_button_press_event)); processor_display.ButtonRelease.connect (sigc::mem_fun (*this, &ProcessorBox::processor_button_release_event)); processor_display.Reordered.connect (sigc::mem_fun (*this, &ProcessorBox::reordered)); processor_display.DropFromAnotherBox.connect (sigc::mem_fun (*this, &ProcessorBox::object_drop)); processor_display.DropFromExternal.connect (sigc::mem_fun (*this, &ProcessorBox::plugin_drop)); processor_scroller.show (); processor_display.show (); if (parent) { parent->DeliveryChanged.connect ( _mixer_strip_connections, invalidator (*this), boost::bind (&ProcessorBox::mixer_strip_delivery_changed, this, _1), gui_context () ); } set_tooltip (processor_display, _("Right-click to add/remove/edit\nplugins,inserts,sends and more")); } ProcessorBox::~ProcessorBox () { /* it may appear as if we should delete processor_menu but that is a * pointer to a widget owned by the UI Manager, and has potentially * be returned to many other ProcessorBoxes. GTK doesn't really make * clear the ownership of this widget, which is a menu and thus is * never packed into any container other than an implicit GtkWindow. * * For now, until or if we ever get clarification over the ownership * story just let it continue to exist. At worst, its a small memory leak. */ } void ProcessorBox::set_route (std::shared_ptr r) { if (_route == r) { return; } _route_connections.drop_connections(); /* new route: any existing block on processor redisplay must be meaningless */ no_processor_redisplay = false; _route = r; _route->processors_changed.connect ( _route_connections, invalidator (*this), boost::bind (&ProcessorBox::route_processors_changed, this, _1), gui_context() ); _route->DropReferences.connect ( _route_connections, invalidator (*this), boost::bind (&ProcessorBox::route_going_away, this), gui_context() ); _route->PropertyChanged.connect ( _route_connections, invalidator (*this), boost::bind (&ProcessorBox::route_property_changed, this, _1), gui_context() ); redisplay_processors (); } void ProcessorBox::route_going_away () { no_processor_redisplay = true; processor_display.clear (); _route.reset (); } std::shared_ptr ProcessorBox::find_drop_position (ProcessorEntry* position) { std::shared_ptr p; if (position) { p = position->processor (); if (!p) { /* dropped on the blank entry (which will be before the fader), so use the first non-blank child as our `dropped on' processor */ list c = processor_display.children (); list::iterator i = c.begin (); assert (i != c.end ()); p = (*i)->processor (); assert (p); } } return p; } void ProcessorBox::_drop_plugin_preset (Gtk::SelectionData const &data, Route::ProcessorList &pl) { const void * d = data.get_data(); const Gtkmm2ext::DnDTreeView* tv = reinterpret_cast*>(d); PluginPresetList nfos; TreeView* source; tv->get_object_drag_data (nfos, &source); for (list::const_iterator i = nfos.begin(); i != nfos.end(); ++i) { PluginPresetPtr ppp = (*i); PluginInfoPtr pip = ppp->_pip; PluginPtr p = pip->load (*_session); if (!p) { continue; } if (ppp->_preset.valid) { p->load_preset (ppp->_preset); } std::shared_ptr processor (new PluginInsert (*_session, *_route, p)); if (Config->get_new_plugins_active ()) { processor->enable (true); } pl.push_back (processor); } } void ProcessorBox::_drop_plugin (Gtk::SelectionData const &data, Route::ProcessorList &pl) { const void * d = data.get_data(); const Gtkmm2ext::DnDTreeView* tv = reinterpret_cast*>(d); PluginInfoList nfos; TreeView* source; tv->get_object_drag_data (nfos, &source); for (list::const_iterator i = nfos.begin(); i != nfos.end(); ++i) { PluginPtr p = (*i)->load (*_session); if (!p) { continue; } std::shared_ptr processor (new PluginInsert (*_session, *_route, p)); if (Config->get_new_plugins_active ()) { processor->enable (true); } pl.push_back (processor); } } void ProcessorBox::plugin_drop (Gtk::SelectionData const &data, ProcessorEntry* position, Glib::RefPtr const & context) { if (!_session) { return; } std::shared_ptr p = find_drop_position (position); Route::ProcessorList pl; if (data.get_target() == "x-ardour/plugin.info") { _drop_plugin (data, pl); } else if (data.get_target() == "x-ardour/plugin.favorite") { _drop_plugin_preset (data, pl); } else { return; } Route::ProcessorStreams err; if (_route->add_processors (pl, p, &err)) { string msg = _( "Processor Drag/Drop failed. Probably because\n\ the I/O configuration of the plugins could\n\ not match the configuration of this track."); MessageDialog am (msg); am.run (); } } void ProcessorBox::object_drop (DnDVBox* source, ProcessorEntry* position, Glib::RefPtr const & context) { if (Gdk::ACTION_LINK == context->get_selected_action()) { list children = source->selection (); assert (children.size() == 1); ProcessorEntry* other = *children.begin(); assert (other->can_copy_state (position)); std::shared_ptr otherproc = other->processor(); std::shared_ptr proc = position->processor(); std::shared_ptr opi = std::dynamic_pointer_cast (otherproc); std::shared_ptr pi = std::dynamic_pointer_cast (proc); assert (otherproc && proc && pi && opi); PBD::ID id = pi->id(); XMLNode& state = otherproc->get_state (); /* strip side-chain state (processor inside processor must be a side-chain) * otherwise we'll end up with duplicate ports-names. * (this needs a better solution which retains connections) * * see also ProcessorBox::paste_processor_state */ state.remove_nodes_and_delete ("Processor"); state.remove_property ("count"); if (pi->get_count () != opi->get_count ()) { state.remove_property ("custom"); state.remove_nodes_and_delete ("ConfiguredInput"); state.remove_nodes_and_delete ("CustomSinks"); state.remove_nodes_and_delete ("ConfiguredOutput"); state.remove_nodes_and_delete ("PresetOutput"); state.remove_nodes_and_delete ("ThruMap"); for (uint32_t i = 0; i < opi->get_count (); ++i) { state.remove_nodes_and_delete (string_compose ("InputMap-%1", i)); state.remove_nodes_and_delete (string_compose ("OutputMap-%1", i)); } } /* Controllable and automation IDs should not be copied */ PBD::Stateful::ForceIDRegeneration force_ids; proc->set_state (state, Stateful::current_state_version); /* but retain the processor's ID (LV2 state save) */ std::dynamic_pointer_cast(proc)->update_id (id); return; } std::shared_ptr p = find_drop_position (position); list children = source->selection (true); list > procs; for (list::const_iterator i = children.begin(); i != children.end(); ++i) { if ((*i)->processor ()) { if (std::dynamic_pointer_cast ((*i)->processor())) { continue; } if (std::dynamic_pointer_cast ((*i)->processor())) { continue; } procs.push_back ((*i)->processor ()); } } for (list >::const_iterator i = procs.begin(); i != procs.end(); ++i) { XMLNode& state = (*i)->get_state (); XMLNodeList nlist; nlist.push_back (&state); paste_processor_state (nlist, p); delete &state; } /* since the dndvbox doesn't take care of this properly, we have to delete the originals ourselves. */ if ((context->get_suggested_action() == Gdk::ACTION_MOVE) && source) { ProcessorBox* other = reinterpret_cast (source->get_data ("processorbox")); if (other) { other->delete_dragged_processors (procs); } } } void ProcessorBox::set_width (Width w) { if (_width == w) { return; } _width = w; list children = processor_display.children (); for (list::iterator i = children.begin(); i != children.end(); ++i) { (*i)->set_enum_width (w); } queue_resize (); } Gtk::Menu* ProcessorBox::build_possible_aux_menu () { std::shared_ptr rl = _session->get_routes_with_internal_returns(); if (rl->empty()) { /* No aux sends if there are no busses */ return 0; } if (_route->is_main_bus ()) { return 0; } using namespace Menu_Helpers; Menu* menu = manage (new Menu); MenuList& items = menu->items(); for (RouteList::iterator r = rl->begin(); r != rl->end(); ++r) { if ((*r)->is_main_bus() || *r == _route) { /* don't allow sending to master, monitor, folback, surround or to self */ continue; } if (_route->internal_send_for (*r)) { /* aux-send to target already exists */ continue; } items.push_back (MenuElemNoMnemonic ((*r)->name(), sigc::bind (sigc::ptr_fun (ProcessorBox::rb_choose_aux), std::weak_ptr(*r)))); } return menu; } Gtk::Menu* ProcessorBox::build_possible_listener_menu () { std::shared_ptr rl = _session->get_routes_with_internal_returns(); if (rl->empty()) { /* No aux sends if there are no busses */ return 0; } if (_route->is_monitor () || _route->is_foldbackbus () || _route->is_surround_master ()) { return 0; } using namespace Menu_Helpers; Menu* menu = manage (new Menu); MenuList& items = menu->items(); for (RouteList::iterator r = rl->begin(); r != rl->end(); ++r) { if ((*r)->is_singleton () || *r == _route) { /* don't allow sending to master or monitor, surround or to self */ continue; } if (!(*r)->is_foldbackbus ()) { continue; } if (_route->internal_send_for (*r)) { /* aux-send to target already exists */ continue; } items.push_back (MenuElemNoMnemonic ((*r)->name(), sigc::bind (sigc::ptr_fun (ProcessorBox::rb_choose_aux), std::weak_ptr(*r)))); } return menu; } Gtk::Menu* ProcessorBox::build_possible_remove_listener_menu () { std::shared_ptr rl = _session->get_routes_with_internal_returns(); if (rl->empty()) { /* No aux sends if there are no busses */ return 0; } if (_route->is_monitor () || _route->is_foldbackbus () || _route->is_surround_master ()) { return 0; } using namespace Menu_Helpers; Menu* menu = manage (new Menu); MenuList& items = menu->items(); for (RouteList::iterator r = rl->begin(); r != rl->end(); ++r) { if ((*r)->is_singleton() || *r == _route) { /* don't allow sending to master or monitor or to self */ continue; } if (!(*r)->is_foldbackbus ()) { continue; } if (!_route->internal_send_for (*r)) { /* aux-send to target already exists */ continue; } items.push_back (MenuElemNoMnemonic ((*r)->name(), sigc::bind (sigc::ptr_fun (ProcessorBox::rb_remove_aux), std::weak_ptr(*r)))); } return menu; } void ProcessorBox::show_processor_menu (int arg) { if (processor_menu == 0) { processor_menu = build_processor_menu (); processor_menu->signal_unmap().connect (sigc::mem_fun (*this, &ProcessorBox::processor_menu_unmapped)); } /* Sort out the plugin submenu */ Gtk::MenuItem* plugin_menu_item = dynamic_cast(ActionManager::get_widget("/ProcessorMenu/newplugin")); if (plugin_menu_item) { plugin_menu_item->set_submenu (*_get_plugin_selector()->plugin_menu()); } /* And the aux submenu */ Gtk::MenuItem* aux_menu_item = dynamic_cast(ActionManager::get_widget("/ProcessorMenu/newaux")); if (aux_menu_item) { Menu* m = build_possible_aux_menu(); if (m && !m->items().empty()) { aux_menu_item->set_submenu (*m); aux_menu_item->set_sensitive (true); } else { delete m; /* stupid gtkmm: we need to pass a null reference here */ gtk_menu_item_set_submenu (aux_menu_item->gobj(), 0); aux_menu_item->set_sensitive (false); } } Gtk::MenuItem* listen_menu_item = dynamic_cast(ActionManager::get_widget("/ProcessorMenu/newlisten")); if (listen_menu_item) { Menu* m = build_possible_listener_menu(); if (m && !m->items().empty()) { listen_menu_item->set_submenu (*m); listen_menu_item->set_sensitive (true); } else { delete m; /* stupid gtkmm: we need to pass a null reference here */ gtk_menu_item_set_submenu (listen_menu_item->gobj(), 0); listen_menu_item->set_sensitive (false); } } Gtk::MenuItem* remove_listen_menu_item = dynamic_cast(ActionManager::get_widget("/ProcessorMenu/removelisten")); if (remove_listen_menu_item) { Menu* m = build_possible_remove_listener_menu(); if (m && !m->items().empty()) { remove_listen_menu_item->set_submenu (*m); remove_listen_menu_item->set_sensitive (true); } else { delete m; /* stupid gtkmm: we need to pass a null reference here */ gtk_menu_item_set_submenu (remove_listen_menu_item->gobj(), 0); remove_listen_menu_item->set_sensitive (false); } } ActionManager::get_action (X_("ProcessorMenu"), "newplugin")->set_sensitive (!_route->is_surround_master ()); ActionManager::get_action (X_("ProcessorMenu"), "newinsert")->set_sensitive (!_route->is_monitor () && !_route->is_foldbackbus () && !_route->is_surround_master ()); ActionManager::get_action (X_("ProcessorMenu"), "newsend")->set_sensitive (!_route->is_monitor () && !_route->is_foldbackbus () && !_route->is_surround_master ()); ProcessorEntry* single_selection = 0; if (processor_display.selection().size() == 1) { single_selection = processor_display.selection().front(); } /* And the controls submenu */ Gtk::MenuItem* controls_menu_item = dynamic_cast(ActionManager::get_widget("/ProcessorMenu/controls")); if (controls_menu_item) { if (single_selection) { Menu* m = single_selection->build_controls_menu (); if (m && !m->items().empty()) { controls_menu_item->set_submenu (*m); controls_menu_item->set_sensitive (true); } else { delete m; gtk_menu_item_set_submenu (controls_menu_item->gobj(), 0); controls_menu_item->set_sensitive (false); } } else { controls_menu_item->set_sensitive (false); } } Gtk::MenuItem* send_menu_item = dynamic_cast(ActionManager::get_widget("/ProcessorMenu/send_options")); if (send_menu_item) { if (single_selection && !_route->is_monitor()) { Menu* m = single_selection->build_send_options_menu (); if (m && !m->items().empty()) { send_menu_item->set_submenu (*m); send_menu_item->set_sensitive (true); } else { delete m; gtk_menu_item_set_submenu (send_menu_item->gobj(), 0); send_menu_item->set_sensitive (false); } } else { send_menu_item->set_sensitive (false); } } Gtk::MenuItem* presets_menu_item = dynamic_cast(ActionManager::get_widget("/ProcessorMenu/presets")); if (presets_menu_item) { if (single_selection) { Menu* m = single_selection->build_presets_menu (); if (m && !m->items().empty()) { presets_menu_item->set_submenu (*m); presets_menu_item->set_sensitive (true); } else { delete m; gtk_menu_item_set_submenu (presets_menu_item->gobj(), 0); presets_menu_item->set_sensitive (false); } } else { presets_menu_item->set_sensitive (false); } } /* Sensitise actions as approprioate */ const bool sensitive = !processor_display.selection().empty() && ! stub_processor_selected () && !channelstrip_selected() && !surrsend_selected (); paste_action->set_sensitive (!_p_selection.processors.empty()); cut_action->set_sensitive (sensitive && can_cut ()); copy_action->set_sensitive (sensitive); delete_action->set_sensitive (sensitive || stub_processor_selected ()); backspace_action->set_sensitive (sensitive || stub_processor_selected ()); std::shared_ptr pi; if (single_selection) { pi = std::dynamic_pointer_cast (single_selection->processor ()); } manage_pins_action->set_sensitive (pi != 0 && !channelstrip_selected ()); if (std::dynamic_pointer_cast(_route)) { disk_io_action->set_sensitive (true); PBD::Unwinder uw (_ignore_rb_change, true); ActionManager::get_toggle_action (X_("ProcessorMenu"), "disk-io-prefader")->set_active (_route->disk_io_point () == DiskIOPreFader); ActionManager::get_toggle_action (X_("ProcessorMenu"), "disk-io-postfader")->set_active (_route->disk_io_point () == DiskIOPostFader); ActionManager::get_toggle_action (X_("ProcessorMenu"), "disk-io-custom")->set_active (_route->disk_io_point () == DiskIOCustom); } else { disk_io_action->set_sensitive (false); } RefPtr volume_pos_action = ActionManager::get_toggle_action (X_("ProcessorMenu"), "custom-volume-pos"); if (_route->is_master () && Config->get_use_master_volume ()) { PBD::Unwinder uw (_ignore_rb_change, true); volume_pos_action->set_sensitive (true); volume_pos_action->set_active (!_route->volume_applies_to_output ()); } else { volume_pos_action->set_sensitive (false); } /* allow editing with an Ardour-generated UI for plugin inserts with editors */ edit_generic_action->set_sensitive (one_processor_can_be_edited ()); edit_action->set_sensitive (pi && pi->plugin()->has_editor ()); /* disallow rename for multiple selections, for plugin inserts and for the fader */ rename_action->set_sensitive (single_selection #ifdef MIXBUS && !mixbus_is_channelstrip (single_selection->processor ()) #endif /* aux-send names are kept in sync with the target bus name */ && !std::dynamic_pointer_cast (single_selection->processor ()) && !std::dynamic_pointer_cast (single_selection->processor ()) && !std::dynamic_pointer_cast (single_selection->processor ()) && !std::dynamic_pointer_cast (single_selection->processor ())); processor_menu->popup (3, arg); /* Add a placeholder gap to the processor list to indicate where a processor would be inserted were one chosen from the menu. */ int x, y; processor_display.get_pointer (x, y); _placement = processor_display.add_placeholder (y); } bool ProcessorBox::enter_notify (GdkEventCrossing*) { processor_display.grab_focus (); _current_processor_box = this; return false; } bool ProcessorBox::leave_notify (GdkEventCrossing* ev) { if (ev->detail == GDK_NOTIFY_INFERIOR) { return false; } Widget* top = get_toplevel(); if (top->get_is_toplevel()) { Window* win = dynamic_cast (top); gtk_window_set_focus (win->gobj(), 0); } if (ev->detail != GDK_NOTIFY_NONLINEAR && ev->detail != GDK_NOTIFY_NONLINEAR_VIRTUAL) { processor_display.select_none (); } return false; } bool ProcessorBox::processor_operation (ProcessorOperation op) { ProcSelection targets; get_selected_processors (targets); /* if (targets.empty()) { int x, y; processor_display.get_pointer (x, y); pair const pointer = processor_display.get_child_at_position (y); if (pointer.first && pointer.first->processor()) { targets.push_back (pointer.first->processor ()); } } */ if ((op == ProcessorsDelete) && targets.empty()) { return false; //nothing to delete. return false so the editor-mixer, because the user was probably intending to delete something in the editor } switch (op) { case ProcessorsSelectAll: processor_display.select_all (); break; case ProcessorsSelectNone: processor_display.select_none (); break; case ProcessorsCopy: copy_processors (targets); break; case ProcessorsCut: cut_processors (targets); break; case ProcessorsPaste: // some processors are not selectable (e.g fader, meter), target is empty. if (targets.empty() && _placement >= 0) { assert (_route); std::shared_ptr proc = _route->before_processor_for_index (_placement); if (proc) { targets.push_back (proc); } } if (targets.empty()) { paste_processors (); } else { paste_processors (targets.front()); } break; case ProcessorsDelete: delete_processors (targets); break; case ProcessorsToggleActive: for (ProcSelection::iterator i = targets.begin(); i != targets.end(); ++i) { if (!(*i)->display_to_user ()) { assert (0); // these should not be selectable to begin with. continue; } if (!std::dynamic_pointer_cast (*i)) { continue; } if (std::dynamic_pointer_cast (*i) && std::dynamic_pointer_cast (*i)->gain_control()->parameter().type() != GainAutomation) { /* Trim, Volume */ continue; } #ifdef MIXBUS if (std::dynamic_pointer_cast (*i)->is_channelstrip()) { continue; } #endif (*i)->enable (!(*i)->enabled ()); } break; case ProcessorsAB: ab_plugins (); break; default: break; } return true; } ProcessorWindowProxy* ProcessorBox::find_window_proxy (std::shared_ptr processor) const { return processor->window_proxy(); } bool ProcessorBox::processor_button_press_event (GdkEventButton *ev, ProcessorEntry* child) { std::shared_ptr processor; if (child) { processor = child->processor (); } int ret = false; bool selected = processor_display.selected (child); std::shared_ptr pi = std::dynamic_pointer_cast (processor); if (pi && pi->plugin() && pi->plugin()->has_inline_display() && Keyboard::modifier_state_equals (ev->state, Keyboard::TertiaryModifier) && ev->button == 1 && ev->type == GDK_2BUTTON_PRESS) { child->toggle_inline_display_visibility (); return true; } if (processor && (Keyboard::is_edit_event (ev) || (ev->button == 1 && ev->type == GDK_2BUTTON_PRESS))) { if (!one_processor_can_be_edited ()) { return true; } if (!ARDOUR_UI_UTILS::engine_is_running ()) { return true; } if (Keyboard::modifier_state_equals (ev->state, Keyboard::SecondaryModifier)) { generic_edit_processor (processor); } else { edit_processor (processor); } ret = true; } else if (Keyboard::is_context_menu_event (ev)) { show_processor_menu (ev->time); ret = true; } else if (processor && ev->button == 1 && selected) { // this is purely informational but necessary for route params UI ProcessorSelected (processor); // emit } else if (!processor && ev->button == 1 && ev->type == GDK_2BUTTON_PRESS) { choose_plugin (); _get_plugin_selector()->show_manager (); } return ret; } bool ProcessorBox::processor_button_release_event (GdkEventButton *ev, ProcessorEntry* child) { std::shared_ptr processor; if (child) { processor = child->processor (); } if (std::dynamic_pointer_cast (processor) && std::dynamic_pointer_cast (processor)->gain_control()->parameter().type() != GainAutomation) { /* Volume */ return false; } if (processor && Keyboard::is_delete_event (ev)) { Glib::signal_idle().connect (sigc::bind ( sigc::mem_fun(*this, &ProcessorBox::idle_delete_processor), std::weak_ptr(processor))); } else if (processor && Keyboard::is_button2_event (ev) #ifndef __APPLE__ && (Keyboard::no_modifier_keys_pressed (ev) && ((ev->state & Gdk::BUTTON2_MASK) == Gdk::BUTTON2_MASK)) #endif ) { /* button2-click with no/appropriate modifiers */ processor->enable (!processor->enabled ()); } return false; } Menu * ProcessorBox::build_processor_menu () { processor_menu = dynamic_cast(ActionManager::get_widget("/ProcessorMenu") ); processor_menu->set_name ("ArdourContextMenu"); return processor_menu; } void ProcessorBox::select_all_processors () { processor_display.select_all (); } void ProcessorBox::deselect_all_processors () { processor_display.select_none (); } void ProcessorBox::choose_plugin () { _get_plugin_selector()->set_interested_object (*this); } /** @return true if an error occurred, otherwise false */ bool ProcessorBox::use_plugins (const SelectedPlugins& plugins) { for (SelectedPlugins::const_iterator p = plugins.begin(); p != plugins.end(); ++p) { std::shared_ptr processor (new PluginInsert (*_session, *_route, *p)); Route::ProcessorStreams err_streams; if (_route->add_processor_by_index (processor, _placement, &err_streams, Config->get_new_plugins_active ())) { weird_plugin_dialog (**p, err_streams); return true; // XXX SHAREDPTR delete plugin here .. do we even need to care? } else if (plugins.size() == 1 && UIConfiguration::instance().get_open_gui_after_adding_plugin()) { if (processor->what_can_be_automated ().size () == 0) { ; /* plugin without controls, don't show ui */ } else if (std::dynamic_pointer_cast(processor)->plugin()->has_inline_display() && UIConfiguration::instance().get_prefer_inline_over_gui()) { ; /* only show inline display */ } else if (processor_can_be_edited (processor)) { if (!ARDOUR_UI_UTILS::engine_is_running()) { return true; } else if ((*p)->has_editor ()) { edit_processor (processor); } else if (std::dynamic_pointer_cast(processor)->plugin()->parameter_count() > 0) { generic_edit_processor (processor); } } } /* add next processor below the currently added. * Note: placement < 0: add the bottom */ if (_placement >= 0) { ++_placement; } } return false; } void ProcessorBox::weird_plugin_dialog (Plugin& p, Route::ProcessorStreams streams) { /* XXX this needs to be re-worked! * * With new pin-management "streams" is no longer correct. * p.get_info () is also incorrect for variable i/o plugins (always -1,-1). * * Since pin-management was added, this dialog will only show in a very rare * condition (non-replicated variable i/o configuration failed). * * TODO: simplify the message after the string-freeze is lifted. */ ArdourDialog dialog (_("Plugin Incompatibility")); Label label; string text = string_compose(_("You attempted to add the plugin \"%1\" in slot %2.\n"), p.name(), streams.index); bool has_midi = streams.count.n_midi() > 0 || p.get_info()->n_inputs.n_midi() > 0; bool has_audio = streams.count.n_audio() > 0 || p.get_info()->n_inputs.n_audio() > 0; text += _("\nThis plugin has:\n"); if (has_midi) { uint32_t const n = p.get_info()->n_inputs.n_midi (); text += string_compose (ngettext ("\t%1 MIDI input\n", "\t%1 MIDI inputs\n", n), n); } if (has_audio) { uint32_t const n = p.get_info()->n_inputs.n_audio (); text += string_compose (ngettext ("\t%1 audio input\n", "\t%1 audio inputs\n", n), n); } text += _("\nbut at the insertion point, there are:\n"); if (has_midi) { uint32_t const n = streams.count.n_midi (); text += string_compose (ngettext ("\t%1 MIDI channel\n", "\t%1 MIDI channels\n", n), n); } if (has_audio) { uint32_t const n = streams.count.n_audio (); text += string_compose (ngettext ("\t%1 audio channel\n", "\t%1 audio channels\n", n), n); } text += string_compose (_("\n%1 is unable to insert this plugin here.\n"), PROGRAM_NAME); label.set_text(text); dialog.get_vbox()->pack_start (label); dialog.add_button (Stock::OK, RESPONSE_ACCEPT); dialog.set_name (X_("PluginIODialog")); dialog.set_modal (true); dialog.show_all (); dialog.run (); } void ProcessorBox::choose_insert () { std::shared_ptr processor (new PortInsert (*_session, _route->pannable(), _route->mute_master())); _route->add_processor_by_index (processor, _placement); } /* Caller must not hold process lock */ void ProcessorBox::choose_send () { std::shared_ptr send (new Send (*_session, _route->pannable (), _route->mute_master())); /* make an educated guess at the initial number of outputs for the send */ ChanCount outs = (_route->n_outputs().n_audio() && _session->master_out()) ? _session->master_out()->n_outputs() : _route->n_outputs(); /* XXX need processor lock on route */ try { Glib::Threads::Mutex::Lock lm (AudioEngine::instance()->process_lock()); send->output()->ensure_io (outs, false, this); } catch (AudioEngine::PortRegistrationFailure& err) { error << string_compose (_("Cannot set up new send: %1"), err.what()) << endmsg; return; } /* let the user adjust the IO setup before creation. Note: this dialog is NOT modal - we just leave it to run and it will return when its Finished signal is emitted - typically when the window is closed. */ IOSelectorWindow *ios = new IOSelectorWindow (_session, send->output(), true); ios->show (); /* keep a reference to the send so it doesn't get deleted while the IOSelectorWindow is doing its stuff */ _processor_being_created = send; ios->selector().Finished.connect (sigc::bind ( sigc::mem_fun(*this, &ProcessorBox::send_io_finished), std::weak_ptr(send), ios)); } void ProcessorBox::send_io_finished (IOSelector::Result r, std::weak_ptr weak_processor, IOSelectorWindow* ios) { std::shared_ptr processor (weak_processor.lock()); /* drop our temporary reference to the new send */ _processor_being_created.reset (); if (!processor) { return; } switch (r) { case IOSelector::Cancelled: // processor will go away when all shared_ptrs to it vanish break; case IOSelector::Accepted: _route->add_processor_by_index (processor, _placement); break; } delete_when_idle (ios); } void ProcessorBox::return_io_finished (IOSelector::Result r, std::weak_ptr weak_processor, IOSelectorWindow* ios) { std::shared_ptr processor (weak_processor.lock()); /* drop our temporary reference to the new return */ _processor_being_created.reset (); if (!processor) { return; } switch (r) { case IOSelector::Cancelled: // processor will go away when all shared_ptrs to it vanish break; case IOSelector::Accepted: _route->add_processor_by_index (processor, _placement); break; } delete_when_idle (ios); } void ProcessorBox::choose_aux (std::weak_ptr wr) { if (!_route) { return; } std::shared_ptr target = wr.lock(); if (!target) { return; } if (target->is_foldbackbus ()) { _route->add_foldback_send (target, false); } else { _session->add_internal_send (target, _placement, _route); } } void ProcessorBox::remove_aux (std::weak_ptr wr) { if (!_route) { return; } std::shared_ptr target = wr.lock(); if (!target) { return; } std::shared_ptr send = _route->internal_send_for (target); std::shared_ptr proc = std::dynamic_pointer_cast (send); _route->remove_processor (proc); } void ProcessorBox::route_processors_changed (RouteProcessorChange c) { if (c.type == RouteProcessorChange::MeterPointChange && c.meter_visibly_changed == false) { /* the meter has moved, but it was and still is invisible to the user, so nothing to do */ return; } redisplay_processors (); } void ProcessorBox::redisplay_processors () { ENSURE_GUI_THREAD (*this, &ProcessorBox::redisplay_processors); if (no_processor_redisplay) { return; } processor_display.clear (); _route->foreach_processor (sigc::mem_fun (*this, &ProcessorBox::add_processor_to_display)); _route->foreach_processor (sigc::mem_fun (*this, &ProcessorBox::maybe_add_processor_to_ui_list)); _route->foreach_processor (sigc::mem_fun (*this, &ProcessorBox::maybe_add_processor_pin_mgr)); setup_entry_positions (); } /** Add a ProcessorWindowProxy for a processor to our list, if that processor does * not already have one. */ void ProcessorBox::maybe_add_processor_to_ui_list (std::weak_ptr w) { std::shared_ptr p = w.lock (); if (!p) { return; } if (p->window_proxy()) { return; } /* see also ProcessorBox::get_editor_window */ bool have_ui = false; if (std::dynamic_pointer_cast (p)) { have_ui = true; } else if (std::dynamic_pointer_cast (p)) { have_ui = true; } else if (std::dynamic_pointer_cast (p)) { if (!std::dynamic_pointer_cast (p)) { have_ui = true; } } else if (std::dynamic_pointer_cast (p)) { if (!std::dynamic_pointer_cast (p)) { have_ui = true; } } #ifdef HAVE_BEATBOX else if (std::dynamic_pointer_cast (p)) { cerr << "Have UI for beatbox\n"; have_ui = true; } #endif if (!have_ui) { return; } ProcessorWindowProxy* wp = new ProcessorWindowProxy ( string_compose ("P-%1-%2", _route->id(), p->id()), this, w); const XMLNode* ui_xml = _session->extra_xml (X_("UI")); if (ui_xml) { wp->set_state (*ui_xml, 0); } p->set_window_proxy (wp); WM::Manager::instance().register_window (wp); } void ProcessorBox::maybe_add_processor_pin_mgr (std::weak_ptr w) { std::shared_ptr p = w.lock (); if (!p || p->pinmgr_proxy ()) { return; } if (!std::dynamic_pointer_cast (p)) { return; } PluginPinWindowProxy* wp = new PluginPinWindowProxy ( string_compose ("PM-%1-%2", _route->id(), p->id()), w); wp->set_session (_session); const XMLNode* ui_xml = _session->extra_xml (X_("UI")); if (ui_xml) { wp->set_state (*ui_xml, 0); } p->set_pingmgr_proxy (wp); WM::Manager::instance().register_window (wp); } void ProcessorBox::add_processor_to_display (std::weak_ptr p) { std::shared_ptr processor (p.lock ()); if (!processor || ( !processor->display_to_user() #ifndef NDEBUG && !show_all_processors #endif ) ) { return; } std::shared_ptr plugin_insert = std::dynamic_pointer_cast (processor); ProcessorEntry* e = 0; if (plugin_insert) { e = new PluginInsertProcessorEntry (this, plugin_insert, _width); } else { e = new ProcessorEntry (this, processor, _width); } std::shared_ptr send = std::dynamic_pointer_cast (processor); std::shared_ptr ext = std::dynamic_pointer_cast (processor); #ifdef HAVE_BEATBOX std::shared_ptr bb = std::dynamic_pointer_cast (processor); #endif std::shared_ptr stub = std::dynamic_pointer_cast (processor); std::shared_ptr sursend = std::dynamic_pointer_cast (processor); //faders and meters are not deletable, copy/paste-able, so they shouldn't be selectable #ifdef HAVE_BEATBOX if (!send && !plugin_insert && !ext && !stub && !bb && !sursend) { #else if (!send && !plugin_insert && !ext && !stub && !sursend) { #endif e->set_selectable(false); } /* Set up this entry's state from the GUIObjectState */ XMLNode* proc = entry_gui_object_state (e); if (proc) { e->set_control_state (proc); update_gui_object_state (e); /* save updated state (InlineControl) */ } if (plugin_insert #ifdef MIXBUS && !plugin_insert->plugin(0)->is_channelstrip() #endif ) { processor_display.add_child (e, drag_targets()); } else { processor_display.add_child (e, drag_targets_noplugin()); } } void ProcessorBox::reordered () { compute_processor_sort_keys (); setup_entry_positions (); } void ProcessorBox::setup_routing_feeds () { list children = processor_display.children (); /* first set the i/o maps for every processor */ list::iterator prev = children.begin(); for (list::iterator i = children.begin(); i != children.end(); ++i) { std::shared_ptr p = (*i)->processor(); std::shared_ptr pi = std::dynamic_pointer_cast (p); list::iterator next = i; next++; if (pi) { ChanCount sinks = pi->natural_input_streams (); ChanCount sources = pi->natural_output_streams (); uint32_t count = pi->get_count (); ChanCount in, out; pi->configured_io (in, out); ChanCount midi_thru; ChanCount midi_bypass; ChanMapping input_map (pi->input_map ()); if (pi->has_midi_thru ()) { midi_thru.set(DataType::MIDI, 1); input_map.set (DataType::MIDI, 0, 0); } if (pi->has_midi_bypass ()) { midi_bypass.set(DataType::MIDI, 1); } (*i)->input_icon.set_ports (sinks * count + midi_thru); (*i)->output_icon.set_ports (sources * count + midi_bypass); (*i)->routing_icon.set ( in, out, sinks * count + midi_thru, sources * count + midi_bypass, input_map, pi->output_map (), pi->thru_map ()); if (next != children.end()) { (*next)->routing_icon.set_fed_by (out, sources * count + midi_bypass, pi->output_map (), pi->thru_map ()); } if (prev != i) { (*prev)->routing_icon.set_feeding (in, sinks * count + midi_thru, pi->input_map (), pi->thru_map ()); } } else { (*i)->input_icon.set_ports (p->input_streams()); (*i)->output_icon.set_ports (p->output_streams()); ChanMapping inmap (p->input_streams ()); ChanMapping outmap (p->output_streams ()); ChanMapping thrumap; (*i)->routing_icon.set ( p->input_streams(), p->output_streams(), p->input_streams(), p->output_streams(), inmap, outmap, thrumap); if (next != children.end()) { (*next)->routing_icon.set_fed_by ( p->output_streams(), p->output_streams(), outmap, thrumap); } if (prev != i) { (*prev)->routing_icon.set_feeding ( p->input_streams(), p->output_streams(), inmap, thrumap); } } if (i == children.begin()) { (*i)->routing_icon.unset_fed_by (); } prev = i; (*i)->input_icon.hide(); } /* now set which icons need to be displayed */ for (list::iterator i = children.begin(); i != children.end(); ++i) { (*i)->output_routing_icon.copy_state ((*i)->routing_icon); if ((*i)->routing_icon.in_identity ()) { (*i)->routing_icon.hide(); if (i == children.begin()) { (*i)->input_icon.show(); } } else { (*i)->routing_icon.show(); (*i)->routing_icon.queue_draw(); (*i)->input_icon.show(); } list::iterator next = i; if (++next == children.end()) { // last processor in the chain (*i)->output_routing_icon.set_terminal(true); (*i)->output_routing_icon.unset_feeding (); if ((*i)->routing_icon.out_identity ()) { (*i)->output_routing_icon.hide(); } else { (*i)->output_routing_icon.show(); (*i)->output_routing_icon.queue_draw(); } } else { (*i)->output_routing_icon.set_terminal(false); if ( !(*i)->routing_icon.out_identity () && !(*next)->routing_icon.in_identity () && (*next)->routing_icon.can_coalesce ()) { (*i)->output_routing_icon.hide(); } else if (!(*i)->routing_icon.out_identity ()) { (*i)->output_routing_icon.show(); (*i)->output_routing_icon.queue_draw(); (*next)->input_icon.show(); } else { (*i)->output_routing_icon.hide(); } } } } void ProcessorBox::setup_entry_positions () { list children = processor_display.children (); bool pre_fader = true; uint32_t num = 0; for (list::iterator i = children.begin(); i != children.end(); ++i) { if (std::dynamic_pointer_cast((*i)->processor()) && std::dynamic_pointer_cast((*i)->processor())->gain_control()->parameter().type() == GainAutomation) { pre_fader = false; (*i)->set_position (ProcessorEntry::Fader, num++); } else { if (pre_fader) { (*i)->set_position (ProcessorEntry::PreFader, num++); } else { (*i)->set_position (ProcessorEntry::PostFader, num++); } } } setup_routing_feeds (); } void ProcessorBox::compute_processor_sort_keys () { list children = processor_display.children (); Route::ProcessorList our_processors; for (list::iterator i = children.begin(); i != children.end(); ++i) { if ((*i)->processor()) { our_processors.push_back ((*i)->processor ()); } } if (_route->reorder_processors (our_processors)) { /* Reorder failed, so report this to the user. As far as I can see this must be done in an idle handler: it seems that the redisplay_processors() that happens below destroys widgets that were involved in the drag-and-drop on the processor list, which causes problems when the drag is torn down after this handler function is finished. */ Glib::signal_idle().connect_once (sigc::mem_fun (*this, &ProcessorBox::report_failed_reorder)); } } void ProcessorBox::report_failed_reorder () { /* reorder failed, so redisplay */ redisplay_processors (); /* now tell them about the problem */ ArdourDialog dialog (_("Plugin Incompatibility")); Label label; label.set_text (_("\ You cannot reorder these plugins/sends/inserts\n\ in that way because the inputs and\n\ outputs will not work correctly.")); dialog.get_vbox()->set_border_width (12); dialog.get_vbox()->pack_start (label); dialog.add_button (Stock::OK, RESPONSE_ACCEPT); dialog.set_name (X_("PluginIODialog")); dialog.set_modal (true); dialog.show_all (); dialog.run (); } void ProcessorBox::rename_processors () { ProcSelection to_be_renamed; get_selected_processors (to_be_renamed); if (to_be_renamed.empty()) { return; } for (ProcSelection::iterator i = to_be_renamed.begin(); i != to_be_renamed.end(); ++i) { rename_processor (*i); } } bool ProcessorBox::can_cut () const { vector > sel; get_selected_processors (sel); /* cut_processors () does not cut inserts */ for (vector >::const_iterator i = sel.begin (); i != sel.end (); ++i) { if (std::dynamic_pointer_cast((*i)) != 0 || (std::dynamic_pointer_cast((*i)) != 0) || (std::dynamic_pointer_cast((*i)) != 0)) { return true; } } return false; } bool ProcessorBox::stub_processor_selected () const { vector > sel; get_selected_processors (sel); for (vector >::const_iterator i = sel.begin (); i != sel.end (); ++i) { if (std::dynamic_pointer_cast((*i)) != 0) { return true; } } return false; } bool ProcessorBox::surrsend_selected () const { vector > sel; get_selected_processors (sel); for (vector >::const_iterator i = sel.begin (); i != sel.end (); ++i) { if (std::dynamic_pointer_cast((*i)) != 0) { return true; } } return false; } bool ProcessorBox::channelstrip_selected () const { return false; } void ProcessorBox::cut_processors (const ProcSelection& to_be_removed) { if (to_be_removed.empty()) { return; } XMLNode* node = new XMLNode (X_("cut")); Route::ProcessorList to_cut; no_processor_redisplay = true; for (ProcSelection::const_iterator i = to_be_removed.begin(); i != to_be_removed.end(); ++i) { // Cut only plugins, sends and returns if (std::dynamic_pointer_cast((*i)) != 0 || (std::dynamic_pointer_cast((*i)) != 0) || (std::dynamic_pointer_cast((*i)) != 0)) { Window* w = get_processor_ui (*i); if (w) { w->hide (); } XMLNode& child ((*i)->get_state()); node->add_child_nocopy (child); to_cut.push_back (*i); } } if (_route->remove_processors (to_cut) != 0) { delete node; no_processor_redisplay = false; return; } _p_selection.set (node); no_processor_redisplay = false; redisplay_processors (); } void ProcessorBox::copy_processors (const ProcSelection& to_be_copied) { if (to_be_copied.empty()) { return; } XMLNode* node = new XMLNode (X_("copy")); for (ProcSelection::const_iterator i = to_be_copied.begin(); i != to_be_copied.end(); ++i) { // Copy only plugins, sends, returns if (std::dynamic_pointer_cast((*i)) != 0 || (std::dynamic_pointer_cast((*i)) != 0) || (std::dynamic_pointer_cast((*i)) != 0)) { node->add_child_nocopy ((*i)->get_state()); } } _p_selection.set (node); } void ProcessorBox::delete_processors (const ProcSelection& targets) { if (targets.empty()) { return; } no_processor_redisplay = true; for (ProcSelection::const_iterator i = targets.begin(); i != targets.end(); ++i) { Window* w = get_processor_ui (*i); if (w) { w->hide (); } _route->remove_processor(*i); } no_processor_redisplay = false; redisplay_processors (); } void ProcessorBox::delete_dragged_processors (const list >& procs) { list >::const_iterator x; no_processor_redisplay = true; for (x = procs.begin(); x != procs.end(); ++x) { Window* w = get_processor_ui (*x); if (w) { w->hide (); } _route->remove_processor(*x); } no_processor_redisplay = false; redisplay_processors (); } gint ProcessorBox::idle_delete_processor (std::weak_ptr weak_processor) { std::shared_ptr processor (weak_processor.lock()); if (!processor) { return false; } /* NOT copied to _mixer.selection() */ no_processor_redisplay = true; _route->remove_processor (processor); no_processor_redisplay = false; redisplay_processors (); return false; } void ProcessorBox::rename_processor (std::shared_ptr processor) { shared_ptr pi = std::dynamic_pointer_cast (processor); Prompter name_prompter (true); name_prompter.set_title (pi ? _("Rename Processor") : _("Rename Plugin")); name_prompter.set_prompt (_("New name:")); name_prompter.set_initial_text (processor->name()); name_prompter.add_button (_("Rename"), Gtk::RESPONSE_ACCEPT); name_prompter.set_response_sensitive (Gtk::RESPONSE_ACCEPT, false); name_prompter.show_all (); if (pi) { name_prompter.set_default_text (pi->plugin ()->name ()); } if (name_prompter.run () != Gtk::RESPONSE_ACCEPT) { return; } string result; name_prompter.get_result (result); if (0 == result.length() || result == processor->name ()) { return; } if (pi) { processor->set_name (result); PluginUIWindow* plugin_ui = dynamic_cast (get_processor_ui (pi)); if (plugin_ui) { plugin_ui->set_title (generate_processor_title (pi)); } return; } /* for sends and inserts, check if the name is legal */ int tries = 0; string test = result; while (tries < 100) { if (_session->io_name_is_legal (test)) { result = test; break; } tries++; test = string_compose ("%1-%2", result, tries); } if (tries < 100) { processor->set_name (result); } else { /* unlikely! */ ARDOUR_UI::instance()->popup_error (string_compose (_("At least 100 IO objects exist with a name like %1 - name not changed"), result)); } } void ProcessorBox::paste_processors () { if (_p_selection.processors.empty()) { return; } paste_processor_state (_p_selection.processors.get_node().children(), std::shared_ptr()); } void ProcessorBox::paste_processors (std::shared_ptr before) { if (_p_selection.processors.empty()) { return; } paste_processor_state (_p_selection.processors.get_node().children(), before); } void ProcessorBox::paste_processor_state (const XMLNodeList& nlist, std::shared_ptr p) { XMLNodeConstIterator niter; list > copies; if (nlist.empty()) { return; } for (niter = nlist.begin(); niter != nlist.end(); ++niter) { XMLProperty const * type = (*niter)->property ("type"); XMLProperty const * role = (*niter)->property ("role"); assert (type); std::shared_ptr p; try { if (type->value() == "meter" || type->value() == "main-outs" || type->value() == "amp" || type->value() == "sursend" || type->value() == "intreturn") { /* do not paste meter, main outs, amp or internal returns */ continue; } else if (type->value() == "intsend") { /* aux sends are OK, but those used for * other purposes, are not. */ assert (role); if (role->value() != "Aux") { continue; } /* compare to ProcessorBox::build_possible_aux_menu */ if (_route->is_monitor () || _route->is_foldbackbus () || _route->is_master ()) { continue; } XMLNode n (**niter); InternalSend* s = new InternalSend (*_session, _route->pannable(), _route->mute_master(), _route, std::shared_ptr(), Delivery::Aux); PBD::Stateful::ForceIDRegeneration force_ids; if (s->set_state (n, Stateful::current_state_version)) { delete s; return; } std::shared_ptr target = s->target_route(); if (_route->internal_send_for (target) || target == _route) { /* aux-send to target already exists */ delete s; continue; } p.reset (s); } else if (type->value() == "send") { XMLNode n (**niter); Send* s = new Send (*_session, _route->pannable(), _route->mute_master()); IOProcessor::prepare_for_reset (n, s->name()); if (s->set_state (n, Stateful::current_state_version)) { delete s; return; } p.reset (s); } else if (type->value() == "return") { XMLNode n (**niter); Return* r = new Return (*_session); IOProcessor::prepare_for_reset (n, r->name()); if (r->set_state (n, Stateful::current_state_version)) { delete r; return; } p.reset (r); } else if (type->value() == "port") { XMLNode n (**niter); PortInsert* pi = new PortInsert (*_session, _route->pannable (), _route->mute_master ()); IOProcessor::prepare_for_reset (n, pi->name()); if (pi->set_state (n, Stateful::current_state_version)) { return; } p.reset (pi); } else if (type->value() == "beatbox") { /* XXX do something */ } else { /* XXX its a bit limiting to assume that everything else is a plugin. */ p.reset (new PluginInsert (*_session, *_route)); /* we can't use RAII Stateful::ForceIDRegeneration * because that'd void copying the state and wrongly bump * the state-version counter. * we need to load the state (incl external files) first and * only then update the ID) */ PBD::ID id = p->id(); XMLNode state (**niter); /* strip side-chain state (processor inside processor must be a side-chain) * otherwise we'll end up with duplicate ports-names. * (this needs a better solution which retains connections) * * see also ProcessorBox::object_drop */ state.remove_nodes_and_delete ("Processor"); uint32_t count = 0; state.get_property ("count", count); state.remove_property ("count"); state.remove_property ("custom"); state.remove_nodes_and_delete ("ConfiguredInput"); state.remove_nodes_and_delete ("CustomSinks"); state.remove_nodes_and_delete ("ConfiguredOutput"); state.remove_nodes_and_delete ("PresetOutput"); state.remove_nodes_and_delete ("ThruMap"); for (uint32_t i = 0; i < count; ++i) { state.remove_nodes_and_delete (string_compose ("InputMap-%1", i)); state.remove_nodes_and_delete (string_compose ("OutputMap-%1", i)); } /* Controllable and automation IDs should not be copied */ PBD::Stateful::ForceIDRegeneration force_ids; p->set_state (state, Stateful::current_state_version); /* but retain the processor's ID (LV2 state save) */ std::dynamic_pointer_cast(p)->update_id (id); } copies.push_back (p); } catch (...) { error << _("plugin insert constructor failed") << endmsg; } } if (copies.empty()) { return; } if (_route->add_processors (copies, p)) { string msg = _( "Copying the set of processors on the clipboard failed,\n\ probably because the I/O configuration of the plugins\n\ could not match the configuration of this track."); MessageDialog am (msg); am.run (); } } void ProcessorBox::get_selected_processors (ProcSelection& processors) const { const list selection = processor_display.selection (true); for (list::const_iterator i = selection.begin(); i != selection.end(); ++i) { processors.push_back ((*i)->processor ()); } } void ProcessorBox::for_selected_processors (void (ProcessorBox::*method)(std::shared_ptr)) { list selection = processor_display.selection (); for (list::iterator i = selection.begin(); i != selection.end(); ++i) { (this->*method) ((*i)->processor ()); } } void ProcessorBox::all_visible_processors_active (bool state) { _route->all_visible_processors_active (state); } void ProcessorBox::ab_plugins () { _route->ab_plugins (ab_direction); ab_direction = !ab_direction; } void ProcessorBox::set_disk_io_position (DiskIOPoint diop) { std::shared_ptr t = std::dynamic_pointer_cast (_route); if (t) { t->set_disk_io_point (diop); } } void ProcessorBox::toggle_custom_loudness_pos () { _route->set_volume_applies_to_output (!_route->volume_applies_to_output ()); } void ProcessorBox::clear_processors () { string prompt; vector choices; prompt = string_compose (_("Do you really want to remove all processors from %1?\n" "(this cannot be undone)"), _route->name()); choices.push_back (_("Cancel")); choices.push_back (_("Yes, remove them all")); ArdourWidgets::Choice prompter (_("Remove processors"), prompt, choices); if (prompter.run () == 1) { _route->clear_processors (PreFader); _route->clear_processors (PostFader); } } void ProcessorBox::clear_processors (Placement p) { string prompt; vector choices; if (p == PreFader) { prompt = string_compose (_("Do you really want to remove all pre-fader processors from %1?\n" "(this cannot be undone)"), _route->name()); } else { prompt = string_compose (_("Do you really want to remove all post-fader processors from %1?\n" "(this cannot be undone)"), _route->name()); } choices.push_back (_("Cancel")); choices.push_back (_("Yes, remove them all")); ArdourWidgets::Choice prompter (_("Remove processors"), prompt, choices); if (prompter.run () == 1) { _route->clear_processors (p); } } bool ProcessorBox::processor_can_be_edited (std::shared_ptr processor) { std::shared_ptr at = std::dynamic_pointer_cast (_route); if (at && at->freeze_state() == AudioTrack::Frozen) { return false; } if (std::dynamic_pointer_cast (processor) || std::dynamic_pointer_cast (processor) || std::dynamic_pointer_cast (processor) || std::dynamic_pointer_cast (processor) #ifdef HAVE_BEATBOX || std::dynamic_pointer_cast (processor) #endif ) { return true; } return false; } bool ProcessorBox::one_processor_can_be_edited () { list selection = processor_display.selection (); list::iterator i = selection.begin(); while (i != selection.end() && processor_can_be_edited ((*i)->processor()) == false) { ++i; } return (i != selection.end()); } Gtk::Window* ProcessorBox::get_editor_window (std::shared_ptr processor, bool use_custom) { std::shared_ptr send; std::shared_ptr internal_send; std::shared_ptr retrn; std::shared_ptr plugin_insert; std::shared_ptr port_insert; #ifdef HAVE_BEATBOX std::shared_ptr beatbox; #endif Window* gidget = 0; /* This method may or may not return a Window, but if it does not it * will modify the parent mixer strip appearance layout to allow * "editing" the @p processor that was passed in. * * So for example, if the processor is an Amp (gain), the parent strip * will be forced back into a model where the fader controls the main gain. * If the processor is a send, then we map the send controls onto the * strip. * * Plugins and others will return a window for control. */ if (std::dynamic_pointer_cast(_route) != 0) { if (std::dynamic_pointer_cast (_route)->freeze_state() == AudioTrack::Frozen) { return 0; } } if (std::dynamic_pointer_cast (processor) && std::dynamic_pointer_cast (processor)->gain_control()->parameter().type() == GainAutomation) { if (_parent_strip) { _parent_strip->revert_to_default_display (); } } else if ((send = std::dynamic_pointer_cast (processor)) != 0) { if (!ARDOUR_UI_UTILS::engine_is_running ()) { return 0; } if (std::dynamic_pointer_cast (processor) == 0) { Gtk::Window* tlw = dynamic_cast (get_toplevel ()); if (tlw) { gidget = new SendUIWindow (*tlw, _session, send); } else { gidget = new SendUIWindow (_session, send); } } } else if ((retrn = std::dynamic_pointer_cast (processor)) != 0) { if (std::dynamic_pointer_cast (retrn)) { /* no GUI for these */ return 0; } if (!ARDOUR_UI_UTILS::engine_is_running ()) { return 0; } std::shared_ptr retrn = std::dynamic_pointer_cast (processor); ReturnUIWindow *return_ui; Window* w = get_processor_ui (retrn); if (w == 0) { return_ui = new ReturnUIWindow (retrn, _session); return_ui->set_title (retrn->name ()); set_processor_ui (send, return_ui); } else { return_ui = dynamic_cast (w); } gidget = return_ui; } else if ((plugin_insert = std::dynamic_pointer_cast (processor)) != 0) { PluginUIWindow *plugin_ui; /* these are both allowed to be null */ Window* w = get_processor_ui (plugin_insert); if (w == 0) { plugin_ui = new PluginUIWindow (plugin_insert, false, use_custom); plugin_ui->set_title (generate_processor_title (plugin_insert)); set_processor_ui (plugin_insert, plugin_ui); } else { plugin_ui = dynamic_cast (w); } gidget = plugin_ui; } else if ((port_insert = std::dynamic_pointer_cast (processor)) != 0) { if (!ARDOUR_UI_UTILS::engine_is_running ()) { return 0; } PortInsertWindow *io_selector; Window* w = get_processor_ui (port_insert); if (w == 0) { Gtk::Window* tlw = dynamic_cast (get_toplevel ()); if (tlw) { io_selector = new PortInsertWindow (*tlw, _session, port_insert); } else { io_selector = new PortInsertWindow (_session, port_insert); } set_processor_ui (port_insert, io_selector); } else { io_selector = dynamic_cast (w); } gidget = io_selector; #ifdef HAVE_BEATBOX } else if ((beatbox = std::dynamic_pointer_cast (processor)) != 0) { Window* w = get_processor_ui (beatbox); BBGUI* bbg = 0; if (!w) { bbg = new BBGUI (beatbox); set_processor_ui (beatbox, bbg); } else { bbg = dynamic_cast (w); } gidget = bbg; #endif } return gidget; } Gtk::Window* ProcessorBox::get_generic_editor_window (std::shared_ptr processor) { std::shared_ptr plugin_insert = std::dynamic_pointer_cast(processor); if (!plugin_insert) { return 0; } PluginUIWindow* win = new PluginUIWindow (plugin_insert, true, false); win->set_title (generate_processor_title (plugin_insert)); return win; } void ProcessorBox::register_actions () { /* We need to use a static object as the owner, since these actions need to be considered ownable by all ProcessorBox objects */ load_bindings (); processor_box_actions = ActionManager::create_action_group (bindings, X_("ProcessorMenu")); Glib::RefPtr act; /* new stuff */ ActionManager::register_action (processor_box_actions, X_("newplugin"), _("New Plugin"), sigc::ptr_fun (ProcessorBox::rb_choose_plugin)); act = ActionManager::register_action (processor_box_actions, X_("newinsert"), _("New Insert"), sigc::ptr_fun (ProcessorBox::rb_choose_insert)); ActionManager::engine_sensitive_actions.push_back (act); act = ActionManager::register_action (processor_box_actions, X_("newsend"), _("New External Send ..."), sigc::ptr_fun (ProcessorBox::rb_choose_send)); ActionManager::engine_sensitive_actions.push_back (act); ActionManager::register_action (processor_box_actions, X_("newaux"), _("New Aux Send ...")); ActionManager::register_action (processor_box_actions, X_("newlisten"), _("New Foldback Send ...")); ActionManager::register_action (processor_box_actions, X_("removelisten"), _("Remove Foldback Send ...")); ActionManager::register_action (processor_box_actions, X_("controls"), _("Inline Controls")); ActionManager::register_action (processor_box_actions, X_("send_options"), _("Send Options")); ActionManager::register_action (processor_box_actions, X_("presets"), _("Presets")); ActionManager::register_action (processor_box_actions, X_("clear"), _("Clear (all)"), sigc::ptr_fun (ProcessorBox::rb_clear)); ActionManager::register_action (processor_box_actions, X_("clear_pre"), _("Clear (pre-fader)"), sigc::ptr_fun (ProcessorBox::rb_clear_pre)); ActionManager::register_action (processor_box_actions, X_("clear_post"), _("Clear (post-fader)"), sigc::ptr_fun (ProcessorBox::rb_clear_post)); /* standard editing stuff */ cut_action = ActionManager::register_action (processor_box_actions, X_("cut"), _("Cut"), sigc::ptr_fun (ProcessorBox::rb_cut)); copy_action = ActionManager::register_action (processor_box_actions, X_("copy"), _("Copy"), sigc::ptr_fun (ProcessorBox::rb_copy)); delete_action = ActionManager::register_action (processor_box_actions, X_("delete"), _("Delete"), sigc::ptr_fun (ProcessorBox::rb_delete)); backspace_action = ActionManager::register_action (processor_box_actions, X_("backspace"), _("Delete"), sigc::ptr_fun (ProcessorBox::rb_delete)); ActionManager::plugin_selection_sensitive_actions.push_back (cut_action); ActionManager::plugin_selection_sensitive_actions.push_back (copy_action); ActionManager::plugin_selection_sensitive_actions.push_back (delete_action); ActionManager::plugin_selection_sensitive_actions.push_back (backspace_action); paste_action = ActionManager::register_action (processor_box_actions, X_("paste"), _("Paste"), sigc::ptr_fun (ProcessorBox::rb_paste)); rename_action = ActionManager::register_action (processor_box_actions, X_("rename"), _("Rename"), sigc::ptr_fun (ProcessorBox::rb_rename)); ActionManager::register_action (processor_box_actions, X_("selectall"), _("Select All"), sigc::ptr_fun (ProcessorBox::rb_select_all)); ActionManager::register_action (processor_box_actions, X_("deselectall"), _("Deselect All"), sigc::ptr_fun (ProcessorBox::rb_deselect_all)); /* activation etc. */ ActionManager::register_action (processor_box_actions, X_("activate_all"), _("Activate All"), sigc::ptr_fun (ProcessorBox::rb_activate_all)); ActionManager::register_action (processor_box_actions, X_("deactivate_all"), _("Deactivate All"), sigc::ptr_fun (ProcessorBox::rb_deactivate_all)); ActionManager::register_action (processor_box_actions, X_("ab_plugins"), _("A/B Plugins"), sigc::ptr_fun (ProcessorBox::rb_ab_plugins)); manage_pins_action = ActionManager::register_action ( processor_box_actions, X_("manage-pins"), _("Pin Connections..."), sigc::ptr_fun (ProcessorBox::rb_manage_pins)); /* Disk IO stuff */ disk_io_action = ActionManager::register_action (processor_box_actions, X_("disk-io-menu"), _("Disk I/O ...")); ActionManager::register_toggle_action (processor_box_actions, X_("disk-io-prefader"), _("Pre-Fader"), sigc::bind (sigc::ptr_fun (ProcessorBox::rb_set_disk_io_position), DiskIOPreFader)); ActionManager::register_toggle_action (processor_box_actions, X_("disk-io-postfader"), _("Post-Fader"), sigc::bind (sigc::ptr_fun (ProcessorBox::rb_set_disk_io_position), DiskIOPostFader)); ActionManager::register_toggle_action (processor_box_actions, X_("disk-io-custom"), _("Custom"), sigc::bind (sigc::ptr_fun (ProcessorBox::rb_set_disk_io_position), DiskIOCustom)); /* Loudness Volume Control */ ActionManager::register_toggle_action (processor_box_actions, X_("custom-volume-pos"), _("Custom LAN Amp Position"), sigc::ptr_fun (ProcessorBox::rb_toggle_custom_loudness_pos)); /* show editors */ edit_action = ActionManager::register_action ( processor_box_actions, X_("edit"), _("Edit..."), sigc::ptr_fun (ProcessorBox::rb_edit)); edit_generic_action = ActionManager::register_action ( processor_box_actions, X_("edit-generic"), _("Edit with generic controls..."), sigc::ptr_fun (ProcessorBox::rb_edit_generic)); } void ProcessorBox::rb_edit_generic () { if (_current_processor_box == 0) { return; } _current_processor_box->for_selected_processors (&ProcessorBox::generic_edit_processor); } void ProcessorBox::rb_ab_plugins () { if (_current_processor_box == 0) { return; } _current_processor_box->ab_plugins (); } void ProcessorBox::rb_set_disk_io_position (DiskIOPoint diop) { if (_current_processor_box == 0 || _ignore_rb_change) { return; } _current_processor_box->set_disk_io_position (diop); } void ProcessorBox::rb_toggle_custom_loudness_pos () { if (_current_processor_box == 0 || _ignore_rb_change) { return; } _current_processor_box->toggle_custom_loudness_pos (); } void ProcessorBox::rb_manage_pins () { if (_current_processor_box == 0) { return; } _current_processor_box->for_selected_processors (&ProcessorBox::manage_pins); } void ProcessorBox::rb_choose_plugin () { if (_current_processor_box == 0) { return; } _current_processor_box->choose_plugin (); } void ProcessorBox::rb_choose_insert () { if (_current_processor_box == 0) { return; } _current_processor_box->choose_insert (); } void ProcessorBox::rb_choose_send () { if (_current_processor_box == 0) { return; } _current_processor_box->choose_send (); } void ProcessorBox::rb_choose_aux (std::weak_ptr wr) { if (_current_processor_box == 0) { return; } _current_processor_box->choose_aux (wr); } void ProcessorBox::rb_remove_aux (std::weak_ptr wr) { if (_current_processor_box == 0) { return; } _current_processor_box->remove_aux (wr); } void ProcessorBox::rb_clear () { if (_current_processor_box == 0) { return; } _current_processor_box->clear_processors (); } void ProcessorBox::rb_clear_pre () { if (_current_processor_box == 0) { return; } _current_processor_box->clear_processors (PreFader); } void ProcessorBox::rb_clear_post () { if (_current_processor_box == 0) { return; } _current_processor_box->clear_processors (PostFader); } void ProcessorBox::rb_cut () { if (_current_processor_box == 0) { return; } _current_processor_box->processor_operation (ProcessorsCut); } void ProcessorBox::rb_delete () { if (_current_processor_box == 0) { return; } _current_processor_box->processor_operation (ProcessorsDelete); } void ProcessorBox::rb_copy () { if (_current_processor_box == 0) { return; } _current_processor_box->processor_operation (ProcessorsCopy); } void ProcessorBox::rb_paste () { if (_current_processor_box == 0) { return; } _current_processor_box->processor_operation (ProcessorsPaste); } void ProcessorBox::rb_rename () { if (_current_processor_box == 0) { return; } _current_processor_box->rename_processors (); } void ProcessorBox::rb_select_all () { if (_current_processor_box == 0) { return; } _current_processor_box->processor_operation (ProcessorsSelectAll); } void ProcessorBox::rb_deselect_all () { if (_current_processor_box == 0) { return; } _current_processor_box->deselect_all_processors (); } void ProcessorBox::rb_activate_all () { if (_current_processor_box == 0) { return; } _current_processor_box->all_visible_processors_active (true); } void ProcessorBox::rb_deactivate_all () { if (_current_processor_box == 0) { return; } _current_processor_box->all_visible_processors_active (false); } void ProcessorBox::rb_edit () { if (_current_processor_box == 0) { return; } _current_processor_box->for_selected_processors (&ProcessorBox::edit_processor); } bool ProcessorBox::edit_aux_send (std::shared_ptr processor) { if (std::dynamic_pointer_cast (processor) == 0) { return false; } if (_parent_strip) { std::shared_ptr send = std::dynamic_pointer_cast (processor); if (_parent_strip->current_delivery() == send) { _parent_strip->revert_to_default_display (); } else { _parent_strip->show_send(send); } } return true; } void ProcessorBox::edit_processor (std::shared_ptr processor) { if (!processor) { return; } if (edit_aux_send (processor)) { return; } if (!ARDOUR_UI_UTILS::engine_is_running ()) { return; } ProcessorWindowProxy* proxy = find_window_proxy (processor); if (proxy) { proxy->set_custom_ui_mode (true); proxy->show_the_right_window (); Gtk::Window* tlw = dynamic_cast (get_toplevel ()); if (tlw) { proxy->set_transient_for (*tlw); } } } void ProcessorBox::generic_edit_processor (std::shared_ptr processor) { if (!processor) { return; } if (edit_aux_send (processor)) { return; } if (!ARDOUR_UI_UTILS::engine_is_running ()) { return; } ProcessorWindowProxy* proxy = find_window_proxy (processor); if (proxy) { proxy->set_custom_ui_mode (false); proxy->show_the_right_window (); Gtk::Window* tlw = dynamic_cast (get_toplevel ()); if (tlw) { proxy->set_transient_for (*tlw); } } } void ProcessorBox::manage_pins (std::shared_ptr processor) { if (!processor) { return; } PluginPinWindowProxy* proxy = processor->pinmgr_proxy (); if (proxy) { proxy->get (true); Gtk::Window* tlw = dynamic_cast (get_toplevel ()); if (tlw) { proxy->set_transient_for (*tlw); } proxy->present(); } } void ProcessorBox::route_property_changed (const PropertyChange& what_changed) { if (!what_changed.contains (ARDOUR::Properties::name)) { return; } ENSURE_GUI_THREAD (*this, &ProcessorBox::route_property_changed, what_changed); std::shared_ptr processor; std::shared_ptr plugin_insert; std::shared_ptr send; list children = processor_display.children(); for (list::iterator iter = children.begin(); iter != children.end(); ++iter) { processor = (*iter)->processor (); if (!processor) { continue; } Window* w = get_processor_ui (processor); if (!w) { continue; } /* rename editor windows for sends and plugins */ if ((send = std::dynamic_pointer_cast (processor)) != 0) { w->set_title (send->name ()); } else if ((plugin_insert = std::dynamic_pointer_cast (processor)) != 0) { w->set_title (generate_processor_title (plugin_insert)); } } } string ProcessorBox::generate_processor_title (std::shared_ptr pi) { string maker = pi->plugin()->maker() ? pi->plugin()->maker() : ""; string::size_type email_pos; if ((email_pos = maker.find_first_of ('<')) != string::npos) { maker = maker.substr (0, email_pos - 1); } if (maker.length() > 32) { maker = maker.substr (0, 32); maker += " ..."; } SessionObject* owner = pi->owner (); std::string type = PluginManager::plugin_type_name (pi->type ()); if (owner) { return string_compose(_("%1: %2 (by %3) [%4]"), owner->name(), pi->name(), maker, type); } else { return string_compose(_("%1 (by %2) [%3]"), pi->name(), maker, type); } } /** @param p Processor. * @return the UI window for \a p. */ Window * ProcessorBox::get_processor_ui (std::shared_ptr p) const { ProcessorWindowProxy* wp = p->window_proxy(); if (wp) { return wp->get (); } return 0; } /** Make a note of the UI window that a processor is using. * @param p Processor. * @param w UI window. */ void ProcessorBox::set_processor_ui (std::shared_ptr p, Gtk::Window* w) { assert (p->window_proxy()); p->window_proxy()->use_window (*w); } void ProcessorBox::mixer_strip_delivery_changed (std::weak_ptr w) { std::shared_ptr d = w.lock (); if (!d) { return; } list children = processor_display.children (); list::const_iterator i = children.begin(); while (i != children.end() && (*i)->processor() != d) { ++i; } if (i == children.end()) { processor_display.set_active (0); } else { processor_display.set_active (*i); } } /** Called to repair the damage of Editor::show_window doing a show_all() */ void ProcessorBox::hide_things () { list c = processor_display.children (); for (list::iterator i = c.begin(); i != c.end(); ++i) { (*i)->hide_things (); } } void ProcessorBox::processor_menu_unmapped () { processor_display.remove_placeholder (); /* make all possibly-desensitized actions sensitive again so that they be activated by other means (e.g. bindings) */ ActionManager::set_sensitive (ActionManager::plugin_selection_sensitive_actions, true); } XMLNode * ProcessorBox::entry_gui_object_state (ProcessorEntry* entry) { if (!_parent_strip) { return 0; } GUIObjectState& st = _parent_strip->gui_object_state (); XMLNode* strip = st.get_or_add_node (_parent_strip->state_id ()); assert (strip); return st.get_or_add_node (strip, entry->state_id()); } void ProcessorBox::update_gui_object_state (ProcessorEntry* entry) { XMLNode* proc = entry_gui_object_state (entry); if (!proc) { return; } /* XXX: this is a bit inefficient; we just remove all child nodes and re-add them */ proc->remove_nodes_and_delete (X_("Object")); entry->add_control_state (proc); } bool ProcessorBox::is_editor_mixer_strip() const { return _parent_strip && !_parent_strip->mixer_owned(); } static bool idle_drop_window (WM::ProxyBase* s) { s->drop_window (); return false; } ProcessorWindowProxy::ProcessorWindowProxy (string const & name, ProcessorBox* box, std::weak_ptr processor) : WM::ProxyBase (name, string()) , _processor_box (box) , _processor (processor) , is_custom (true) , want_custom (true) { std::shared_ptr p = _processor.lock (); if (!p) { return; } p->DropReferences.connect (going_away_connection, MISSING_INVALIDATOR, boost::bind (&ProcessorWindowProxy::processor_going_away, this), gui_context()); p->ToggleUI.connect (gui_connections, invalidator (*this), boost::bind (&ProcessorWindowProxy::show_the_right_window, this, false), gui_context()); p->ShowUI.connect (gui_connections, invalidator (*this), boost::bind (&ProcessorWindowProxy::show_the_right_window, this, true), gui_context()); p->HideUI.connect (gui_connections, invalidator (*this), boost::bind (&ProcessorWindowProxy::hide, this), gui_context()); std::shared_ptr pi = std::dynamic_pointer_cast (p); if (pi) { _unmap_connection = signal_unmap.connect (sigc::bind ([] (ProxyBase* self, PluginType type) { ProcessorWindowProxy* me = dynamic_cast (self); if (!me->is_custom || type == Lua) { return; } switch (UIConfiguration::instance ().get_plugin_gui_behavior ()) { case PluginGUIHide: return; case PluginGUIDestroyVST: if (type != Windows_VST && type != LXVST && type != MacVST && type != VST3) { return; } default: break; } me->_drop_window_connection = Glib::signal_idle ().connect (sigc::bind (&idle_drop_window, self)/*, G_PRIORITY_HIGH_IDLE*/); }, this, pi->type ())); } } ProcessorWindowProxy::~ProcessorWindowProxy() { /* processor window proxies do not own the windows they create with * ::get(), so set _window to null before the normal WindowProxy method * deletes it. */ _window = 0; } void ProcessorWindowProxy::processor_going_away () { gui_connections.drop_connections (); _unmap_connection.disconnect (); _drop_window_connection.disconnect (); Gtk::Window* w = _window; /* Unset _window, any allbacks triggered by `delete _window`, will see _window = 0; */ _window = 0; delete w; WM::Manager::instance().remove (this); /* should be no real reason to do this, since the object that would send DropReferences is about to be deleted, but lets do it anyway. */ going_away_connection.disconnect(); delete this; } ARDOUR::SessionHandlePtr* ProcessorWindowProxy::session_handle() { /* we don't care */ return 0; } bool ProcessorWindowProxy::visible () const { PluginUIWindow* puiw = dynamic_cast (_window); if (puiw && puiw->pluginui().is_external ()) { return puiw->pluginui().is_external_visible (); } return WM::ProxyBase::visible (); } bool ProcessorWindowProxy::fully_visible () const { PluginUIWindow* puiw = dynamic_cast (_window); if (puiw && puiw->pluginui().is_external ()) { return puiw->pluginui().is_external_visible (); } return WM::ProxyBase::fully_visible (); } XMLNode& ProcessorWindowProxy::get_state () const { PluginUIWindow* puiw = dynamic_cast (_window); XMLNode *node; node = &ProxyBase::get_state(); if (puiw && puiw->pluginui().is_external ()) { node->set_property (X_("visible"), puiw->pluginui().is_external_visible ()); } node->set_property (X_("custom-ui"), is_custom); return *node; } int ProcessorWindowProxy::set_state (const XMLNode& node, int /*version*/) { XMLNodeList children = node.children (); XMLNodeList::const_iterator i = children.begin (); while (i != children.end()) { std::string name; if ((*i)->name() == X_("Window") && (*i)->get_property (X_("name"), name) && name == _name) { break; } ++i; } if (i != children.end()) { (*i)->get_property (X_("custom-ui"), want_custom); } return ProxyBase::set_state (node, 0); } Gtk::Window* ProcessorWindowProxy::get (bool create) { std::shared_ptr p = _processor.lock (); if (!p) { return 0; } if (_window && (is_custom != want_custom)) { /* drop existing window - wrong type */ set_state_mask (Gtkmm2ext::WindowProxy::StateMask (state_mask () & ~WindowProxy::Size)); _unmap_connection.block (); _drop_window_connection.disconnect (); drop_window (); _unmap_connection.unblock (); } if (!_window) { if (!create) { return 0; } is_custom = want_custom; _window = _processor_box->get_editor_window (p, is_custom); if (_window) { setup (); _window->show_all (); // XXX } } return _window; } void ProcessorWindowProxy::show_the_right_window (bool show_not_toggle) { if (_window && (is_custom != want_custom)) { /* drop existing window - wrong type */ set_state_mask (Gtkmm2ext::WindowProxy::StateMask (state_mask () & ~WindowProxy::Size)); _unmap_connection.block (); _drop_window_connection.disconnect (); drop_window (); _unmap_connection.unblock (); } if (_window && fully_visible () && show_not_toggle) { return; } if (_window) { _window->unset_transient_for (); } toggle (); } PluginPinWindowProxy::PluginPinWindowProxy(std::string const &name, std::weak_ptr processor) : WM::ProxyBase (name, string()) , _processor (processor) { std::shared_ptr p = _processor.lock (); if (!p) { return; } p->DropReferences.connect (going_away_connection, MISSING_INVALIDATOR, boost::bind (&PluginPinWindowProxy::processor_going_away, this), gui_context()); } PluginPinWindowProxy::~PluginPinWindowProxy() { _window = 0; } ARDOUR::SessionHandlePtr* PluginPinWindowProxy::session_handle () { ArdourWindow* aw = dynamic_cast (_window); if (aw) { return aw; } return 0; } Gtk::Window* PluginPinWindowProxy::get (bool create) { std::shared_ptr p = _processor.lock (); std::shared_ptr pi = std::dynamic_pointer_cast (p); if (!p || !pi) { return 0; } if (!_window) { if (!create) { return 0; } _window = new PluginPinDialog (pi); ArdourWindow* aw = dynamic_cast (_window); if (aw) { aw->set_session (_session); } _window->show_all (); } return _window; } void PluginPinWindowProxy::processor_going_away () { delete _window; _window = 0; WM::Manager::instance().remove (this); going_away_connection.disconnect(); delete this; } void ProcessorBox::load_bindings () { bindings = Bindings::get_bindings (X_("Processor Box")); } void ProcessorBox::selection_added (ProcessorEntry& pe) { std::shared_ptr proc = pe.processor (); std::shared_ptr pi = std::dynamic_pointer_cast (proc); if (pi) { /* be explicit here about the fact that we're using a weak pointer, even though we probably don't need to be. */ std::weak_ptr wpi = pi; ControlProtocol::PluginSelected (wpi); } }