/* * Copyright (C) 2016 Robin Gareus * Copyright (C) 2011 Paul Davis * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include "pbd/replace_all.h" #include "gtkmm2ext/utils.h" #include "gtkmm2ext/rgb_macros.h" #include "ardour/amp.h" #include "ardour/audioengine.h" #include "ardour/pannable.h" #include "ardour/plugin.h" #include "ardour/port.h" #include "ardour/profile.h" #include "ardour/send.h" #include "ardour/session.h" #include "plugin_pin_dialog.h" #include "gui_thread.h" #include "timers.h" #include "tooltips.h" #include "ui_config.h" #include "pbd/i18n.h" using namespace ARDOUR; using namespace PBD; using namespace std; using namespace Gtk; using namespace Gtkmm2ext; PluginPinWidget::PluginPinWidget (boost::shared_ptr pi) : _set_config (_("Manual Config"), ArdourButton::led_default_elements) , _tgl_sidechain (_("Sidechain"), ArdourButton::led_default_elements) , _add_plugin (_("+")) , _del_plugin (_("-")) , _add_input_audio (_("+")) , _del_input_audio (_("-")) , _add_input_midi (_("+")) , _del_input_midi (_("-")) , _add_output_audio (_("+")) , _del_output_audio (_("-")) , _add_output_midi (_("+")) , _del_output_midi (_("-")) , _add_sc_audio (_("Audio")) , _add_sc_midi (_("MIDI")) , _pi (pi) , _pin_box_size (10) , _width (0) , _height (0) , _innerwidth (0) , _margin_x (28) , _margin_y (40) , _min_width (300) , _min_height (200) , _n_inputs (0) , _n_sidechains (0) , _position_valid (false) , _ignore_updates (false) , _sidechain_selector (0) , _dragging (false) { assert (pi->owner ()); // Route _pi->PluginIoReConfigure.connect ( _plugin_connections, invalidator (*this), boost::bind (&PluginPinWidget::queue_idle_update, this), gui_context () ); _pi->PluginMapChanged.connect ( _plugin_connections, invalidator (*this), boost::bind (&PluginPinWidget::queue_idle_update, this), gui_context () ); _pi->PluginConfigChanged.connect ( _plugin_connections, invalidator (*this), boost::bind (&PluginPinWidget::queue_idle_update, this), gui_context () ); _pin_box_size = 2 * ceil (max (8., 10. * UIConfiguration::instance ().get_ui_scale ()) * .5); _margin_x = 2 * ceil (max (24., 28. * UIConfiguration::instance ().get_ui_scale ()) * .5); _margin_y = 2 * ceil (max (36., 40. * UIConfiguration::instance ().get_ui_scale ()) * .5); _tgl_sidechain.set_name ("pinrouting sidechain"); _set_config.set_name ("pinrouting custom"); Menu_Helpers::MenuList& citems = reset_menu.items (); reset_menu.set_name ("ArdourContextMenu"); citems.clear (); citems.push_back (Menu_Helpers::MenuElem (_("Reset"), sigc::mem_fun (*this, &PluginPinWidget::reset_mapping))); _pm_size_group = SizeGroup::create (SIZE_GROUP_BOTH); _add_plugin.set_tweaks (ArdourButton::Square); _del_plugin.set_tweaks (ArdourButton::Square); if (_pi->plugin (0)->get_info()->reconfigurable_io ()) { _pm_size_group->add_widget (_add_input_audio); _pm_size_group->add_widget (_del_input_audio); _pm_size_group->add_widget (_add_input_midi); _pm_size_group->add_widget (_del_input_midi); } else { _pm_size_group->add_widget (_add_plugin); _pm_size_group->add_widget (_del_plugin); } _pm_size_group->add_widget (_add_output_audio); _pm_size_group->add_widget (_del_output_audio); _pm_size_group->add_widget (_add_output_midi); _pm_size_group->add_widget (_del_output_midi); Box* box; Frame *f; VBox* tl = manage (new VBox ()); tl->set_border_width (2); tl->set_spacing (2); VBox* tr = manage (new VBox ()); tr->set_border_width (2); tr->set_spacing (2); /* left side */ tl->pack_start (_set_config, false, false); if (_pi->plugin (0)->get_info()->reconfigurable_io ()) { box = manage (new HBox ()); box->set_border_width (2); box->pack_start (_add_input_audio, true, false); box->pack_start (_del_input_audio, true, false); f = manage (new Frame ()); f->set_label (_("Audio Input Pins")); f->add (*box); tl->pack_start (*f, false, false); box = manage (new HBox ()); box->set_border_width (2); box->pack_start (_add_input_midi, true, false); box->pack_start (_del_input_midi, true, false); f = manage (new Frame ()); f->set_label (_("MIDI Input Pins")); f->add (*box); tl->pack_start (*f, false, false); } else { box = manage (new HBox ()); box->set_border_width (2); box->pack_start (_add_plugin, true, false); box->pack_start (_del_plugin, true, false); f = manage (new Frame ()); f->set_label (_("Instances")); f->add (*box); tl->pack_start (*f, false, false); } box = manage (new HBox ()); box->set_border_width (2); box->pack_start (_add_output_audio, true, false); box->pack_start (_del_output_audio, true, false); f = manage (new Frame ()); f->set_label (_("Audio Out")); f->add (*box); tl->pack_start (*f, false, false); box = manage (new HBox ()); box->set_border_width (2); box->pack_start (_add_output_midi, true, false); box->pack_start (_del_output_midi, true, false); f = manage (new Frame ()); f->set_label (_("MIDI Out")); f->add (*box); tl->pack_start (*f, false, false); tl->pack_start (*manage (new Label ("")), true, true); // invisible separator tl->pack_start (*manage (new HSeparator ()), false, false, 4); _out_presets.disable_scrolling (); ARDOUR_UI_UTILS::set_tooltip (_out_presets, _("Output Presets")); tl->pack_start (_out_presets, false, false); /* right side */ _sidechain_tbl = manage (new Gtk::Table ()); _sidechain_tbl->set_spacings (2); tr->pack_start (_tgl_sidechain, false, false); tr->pack_start (*_sidechain_tbl, true, true); box = manage (new VBox ()); box->set_border_width (2); box->set_spacing (2); box->pack_start (_add_sc_audio, false, false); box->pack_start (_add_sc_midi , false, false); f = manage (new Frame ()); f->set_label (_("Add Sidechain Input")); f->add (*box); tr->pack_start (*f, false, false); /* global packing */ HBox* hbox = manage (new HBox ()); hbox->set_spacing (4); hbox->pack_start (*tl, false, false); hbox->pack_start (darea, true, true); hbox->pack_start (*tr, false, false); pack_start (*hbox, true, true); set_border_width (4); show_all (); plugin_reconfigured (); darea.add_events (Gdk::BUTTON_PRESS_MASK|Gdk::BUTTON_RELEASE_MASK|Gdk::POINTER_MOTION_MASK); darea.signal_size_request ().connect (sigc::mem_fun (*this, &PluginPinWidget::darea_size_request)); darea.signal_size_allocate ().connect (sigc::mem_fun (*this, &PluginPinWidget::darea_size_allocate)); darea.signal_expose_event ().connect (sigc::mem_fun (*this, &PluginPinWidget::darea_expose_event)); darea.signal_button_press_event ().connect (sigc::mem_fun (*this, &PluginPinWidget::darea_button_press_event)); darea.signal_button_release_event ().connect (sigc::mem_fun (*this, &PluginPinWidget::darea_button_release_event)); darea.signal_motion_notify_event ().connect (sigc::mem_fun (*this, &PluginPinWidget::darea_motion_notify_event)); _tgl_sidechain.signal_clicked.connect (sigc::mem_fun (*this, &PluginPinWidget::toggle_sidechain)); _set_config.signal_clicked.connect (sigc::mem_fun (*this, &PluginPinWidget::reset_configuration)); _add_plugin.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_plugin_clicked), true)); _del_plugin.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_plugin_clicked), false)); _add_input_audio.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_inpin_clicked), true, DataType::AUDIO)); _del_input_audio.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_inpin_clicked), false, DataType::AUDIO)); _add_input_midi.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_inpin_clicked), true, DataType::MIDI)); _del_input_midi.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_inpin_clicked), false, DataType::MIDI)); _add_output_audio.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_port_clicked), true, DataType::AUDIO)); _del_output_audio.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_port_clicked), false, DataType::AUDIO)); _add_output_midi.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_port_clicked), true, DataType::MIDI)); _del_output_midi.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_remove_port_clicked), false, DataType::MIDI)); _add_sc_audio.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_sidechain_port), DataType::AUDIO)); _add_sc_midi.signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_sidechain_port), DataType::MIDI)); AudioEngine::instance ()->PortConnectedOrDisconnected.connect ( _io_connection, invalidator (*this), boost::bind (&PluginPinWidget::port_connected_or_disconnected, this, _1, _3), gui_context () ); } PluginPinWidget::~PluginPinWidget () { delete _sidechain_selector; } void PluginPinWidget::set_session (ARDOUR::Session *s) { SessionHandlePtr::set_session (s); plugin_reconfigured (); } void PluginPinWidget::queue_idle_update () { /* various actions here are directly executed, in the GUI thread, * with the GUI-thread eventually taking the process and processor lock. * "connect gui_context()" will call back immediately and this * signal-handler will run with the locks held. * * This will lead to a crash with calling nth_send() which takes * a processor read-lock while holding a write lock in the same thread. * * decouple update to GUI idle. * * BUT, do delete existing controls here (in case they're affected by * the change and hit by the Timer before idle comes around) */ for (list::iterator i = _controls.begin (); i != _controls.end (); ++i) { _sidechain_tbl->remove ((*i)->box); delete *i; } _controls.clear (); Glib::signal_idle().connect (sigc::mem_fun(*this, &PluginPinWidget::idle_update)); } bool PluginPinWidget::idle_update () { plugin_reconfigured (); return false; } void PluginPinWidget::plugin_reconfigured () { ENSURE_GUI_THREAD (*this, &PluginPinWidget::plugin_reconfigured); if (_ignore_updates) { return; } _n_plugins = _pi->get_count (); _pi->configured_io (_in, _out); _ins = _pi->internal_streams (); // with sidechain _sinks = _pi->natural_input_streams (); _sources = _pi->natural_output_streams (); _tgl_sidechain.set_active (_pi->has_sidechain ()); _add_sc_audio.set_sensitive (_pi->has_sidechain ()); _add_sc_midi.set_sensitive (_pi->has_sidechain ()); if (_pi->custom_cfg ()) { _set_config.set_active (true); _add_plugin.set_sensitive (true); _del_plugin.set_sensitive (_n_plugins > 1); _add_output_audio.set_sensitive (true); _add_output_midi.set_sensitive (true); _del_output_audio.set_sensitive (_out.n_audio () > 0 && _out.n_total () > 1); _del_output_midi.set_sensitive (_out.n_midi () > 0 && _out.n_total () > 1); _add_input_audio.set_sensitive (true); _add_input_midi.set_sensitive (true); _del_input_audio.set_sensitive (_sinks.n_audio () > 0 && _sinks.n_total () > 1); _del_input_midi.set_sensitive (_sinks.n_midi () > 0 && _sinks.n_total () > 1); _out_presets.set_sensitive (false); _out_presets.set_text (_("Manual")); } else { _set_config.set_active (false); _add_plugin.set_sensitive (false); _del_plugin.set_sensitive (false); _add_input_audio.set_sensitive (false); _add_input_midi.set_sensitive (false); _del_input_audio.set_sensitive (false); _del_input_midi.set_sensitive (false); _add_output_audio.set_sensitive (false); _add_output_midi.set_sensitive (false); _del_output_audio.set_sensitive (false); _del_output_midi.set_sensitive (false); _out_presets.set_sensitive (true); refill_output_presets (); } if (!_pi->has_sidechain () && _sidechain_selector) { delete _sidechain_selector; _sidechain_selector = 0; } refill_sidechain_table (); /* update elements */ _elements.clear (); _hover.reset (); _actor.reset (); _selection.reset (); _drag_dst.reset (); _dragging = false; _n_inputs = _n_sidechains = 0; for (uint32_t i = 0; i < _ins.n_total (); ++i) { DataType dt = i < _ins.n_midi () ? DataType::MIDI : DataType::AUDIO; uint32_t id = dt == DataType::MIDI ? i : i - _ins.n_midi (); bool sidechain = id >= _in.get (dt) ? true : false; if (sidechain) { ++_n_sidechains; } else { ++_n_inputs; } CtrlWidget cw (CtrlWidget ("", Input, dt, id, 0, sidechain)); _elements.push_back (cw); } for (uint32_t i = 0; i < _out.n_total (); ++i) { int id = (i < _out.n_midi ()) ? i : i - _out.n_midi (); _elements.push_back (CtrlWidget ("", Output, (i < _out.n_midi () ? DataType::MIDI : DataType::AUDIO), id)); } _in_map.clear (); _out_map.clear (); for (uint32_t n = 0; n < _n_plugins; ++n) { boost::shared_ptr plugin = _pi->plugin (n); for (uint32_t i = 0; i < _sinks.n_total (); ++i) { DataType dt (i < _sinks.n_midi () ? DataType::MIDI : DataType::AUDIO); int idx = (dt == DataType::MIDI) ? i : i - _sinks.n_midi (); const Plugin::IOPortDescription& iod (plugin->describe_io_port (dt, true, idx)); CtrlWidget cw (CtrlWidget (iod.name, Sink, dt, idx, n, iod.is_sidechain)); _elements.push_back (cw); } for (uint32_t i = 0; i < _sources.n_total (); ++i) { DataType dt (i < _sources.n_midi () ? DataType::MIDI : DataType::AUDIO); int idx = (dt == DataType::MIDI) ? i : i - _sources.n_midi (); const Plugin::IOPortDescription& iod (plugin->describe_io_port (dt, false, idx)); _elements.push_back (CtrlWidget (iod.name, Source, dt, idx, n)); } _in_map[n] = _pi->input_map (n); _out_map[n] = _pi->output_map (n); } _has_midi_bypass = _pi->has_midi_bypass (); _thru_map = _pi->thru_map (); /* cache maps */ /* calc minimum size */ const uint32_t max_ports = std::max (_ins.n_total (), _out.n_total ()); const uint32_t max_pins = std::max ((_sinks * _n_plugins).n_total (), (_sources * _n_plugins).n_total ()); uint32_t min_width = std::max (25 * max_ports, (uint32_t)(20 + _pin_box_size) * max_pins); min_width = std::max (min_width, (uint32_t)ceilf (_margin_y * .45 * _n_plugins * 16. / 9.)); // 16 : 9 aspect min_width = std::max ((uint32_t)300, min_width); min_width = 50 + 10 * ceilf (min_width / 10.f); uint32_t min_height = 3.5 * _margin_y + 2 * (_n_sidechains + 1) * _pin_box_size; min_height = std::max ((uint32_t)200, min_height); min_height = 4 * ceilf (min_height / 4.f); if (min_width != _min_width || min_height != _min_height) { _min_width = min_width; _min_height = min_height; darea.queue_resize (); } _position_valid = false; darea.queue_draw (); } void PluginPinWidget::refill_sidechain_table () { Table_Helpers::TableList& kids = _sidechain_tbl->children (); for (Table_Helpers::TableList::iterator i = kids.begin (); i != kids.end ();) { i = kids.erase (i); } _sidechain_tbl->resize (1, 1); for (list::iterator i = _controls.begin (); i != _controls.end (); ++i) { delete *i; } _controls.clear (); if (!_pi->has_sidechain () && _sidechain_selector) { return; } boost::shared_ptr io = _pi->sidechain_input (); if (!io) { return; } uint32_t r = 0; PortSet& p (io->ports ()); bool can_remove = p.num_ports () > 1; for (PortSet::iterator i = p.begin (DataType::MIDI); i != p.end (DataType::MIDI); ++i) { r += add_port_to_table (*i, r, can_remove); } for (PortSet::iterator i = p.begin (DataType::AUDIO); i != p.end (DataType::AUDIO); ++i) { r += add_port_to_table (*i, r, can_remove); } _sidechain_tbl->show_all (); } void PluginPinWidget::refill_output_presets () { using namespace Menu_Helpers; _out_presets.clear_items (); bool need_dropdown = _pi->has_output_presets (); if (!need_dropdown) { _out_presets.set_sensitive (false); _out_presets.set_text (_("Automatic")); return; } _out_presets.AddMenuElem (MenuElem (_("Automatic"), sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::select_output_preset), 0))); const uint32_t n_audio = _pi->preset_out ().n_audio (); if (n_audio == 0) { _out_presets.set_text (_("Automatic")); } PluginOutputConfiguration ppc (_pi->plugin (0)->possible_output ()); if (ppc.find (0) != ppc.end ()) { // anyting goes ppc.clear (); if (n_audio != 0) { ppc.insert (n_audio); } ppc.insert (1); ppc.insert (2); ppc.insert (8); ppc.insert (16); ppc.insert (24); ppc.insert (32); } for (PluginOutputConfiguration::const_iterator i = ppc.begin () ; i != ppc.end (); ++i) { assert (*i > 0); std::string tmp; switch (*i) { case 1: tmp = _("Mono"); break; case 2: tmp = _("Stereo"); break; default: tmp = string_compose (P_("%1 Channel", "%1 Channels", *i), *i); break; } _out_presets.AddMenuElem (MenuElem (tmp, sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::select_output_preset), *i))); if (n_audio == *i) { _out_presets.set_text (tmp); } } } std::string PluginPinWidget::port_label (const std::string& portname, bool strip) { // compare to MixerStrip::update_io_button() string lpn (PROGRAM_NAME); boost::to_lower (lpn); std::string program_port_prefix = lpn + ":"; // e.g. "ardour:" std::string pn = AudioEngine::instance ()->get_pretty_name_by_name (portname); if (!pn.empty ()) { string::size_type slash = pn.find ("/"); if (slash != string::npos) { pn = pn.substr (0, slash); } return pn; } std::string label (portname); if (label.find ("system:capture_") == 0) { if (label.empty ()) { label = portname.substr (15); } } else if (label.find ("system:midi_capture_") == 0) { if (label.empty ()) { // "system:midi_capture_123" -> "123" label = "M " + portname.substr (20); } } else if (label.find (program_port_prefix) == 0) { label = label.substr (program_port_prefix.size ()); if (strip) { string::size_type slash = label.find ("/"); if (slash != string::npos) { label = label.substr (0, slash); } } } return label; } uint32_t PluginPinWidget::add_port_to_table (boost::shared_ptr p, uint32_t r, bool can_remove) { std::string lbl; std::string tip = p->name (); std::vector cns; bool single_source = true; p->get_connections (cns); for (std::vector::const_iterator i = cns.begin (); i != cns.end (); ++i) { if (lbl.empty ()) { lbl = port_label (*i, true); continue; } if (port_label (*i, true) != lbl) { lbl = "..."; single_source = false; break; } } if (cns.size () == 0) { lbl = "-"; single_source = false; } else if (cns.size () == 1) { tip += " <- "; lbl = port_label (cns[0], false); } else { tip += " <- "; } replace_all (lbl, "_", " "); for (std::vector::const_iterator i = cns.begin (); i != cns.end (); ++i) { tip += *i; tip += " "; } ArdourButton *pb = manage (new ArdourButton (lbl)); pb->set_text_ellipsize (Pango::ELLIPSIZE_MIDDLE); pb->set_layout_ellipsize_width (108 * PANGO_SCALE); ARDOUR_UI_UTILS::set_tooltip (*pb, tip); _sidechain_tbl->attach (*pb, 0, 1, r, r +1 , EXPAND|FILL, SHRINK); pb->signal_button_press_event ().connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::sc_input_press), boost::weak_ptr (p)), false); pb->signal_button_release_event ().connect (sigc::mem_fun (*this, &PluginPinWidget::sc_input_release), false); pb = manage (new ArdourButton ("-")); _sidechain_tbl->attach (*pb, 1, 2, r, r + 1, FILL, SHRINK); if (can_remove) { pb->signal_clicked.connect (sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::remove_port), boost::weak_ptr (p))); } else { pb->set_sensitive (false); } uint32_t rv = 1; if (single_source && _session) { /* check if it's an Ardour Send feeding.. */ boost::shared_ptr routes = _session->get_routes (); for (ARDOUR::RouteList::const_iterator i = routes->begin (); i != routes->end (); ++i) { uint32_t nth = 0; boost::shared_ptr proc; /* nth_send () takes a processor read-lock */ while ((proc = (*i)->nth_send (nth))) { boost::shared_ptr send = boost::dynamic_pointer_cast (proc); if (!send || !send->output ()) { ++nth; continue; } if (!send->output ()->connected_to (p->name ())) { ++nth; continue; } /* if processor goes away, we're notified by the port disconnect, * there should be no need to explicily connect to proc->DropReferences */ set p = proc->what_can_be_automated (); for (set::iterator i = p.begin (); i != p.end (); ++i) { Control* c = new Control (proc->automation_control (*i), _("Send")); _controls.push_back (c); ++r; ++rv; _sidechain_tbl->attach (c->box, 0, 2, r, r + 1, EXPAND|FILL, SHRINK); } break; } } } return rv; } void PluginPinWidget::update_element_pos () { /* layout sizes */ _innerwidth = _width - 2. * _margin_x; const double yc = rint (_height * .5); const double bxh2 = rint (_margin_y * .45); // TODO grow? const double bxw = rint ((_innerwidth * .95) / ((_n_plugins) + .2 * (_n_plugins - 1))); const double bxw2 = rint (bxw * .5); const double y_in = _margin_y; const double y_out = _height - _margin_y; _bxw2 = bxw2; _bxh2 = bxh2; const double dx = _pin_box_size * .5; uint32_t sc_cnt = 0; for (CtrlElemList::iterator i = _elements.begin (); i != _elements.end (); ++i) { switch (i->e->ct) { case Input: if (i->e->sc) { i->x = _innerwidth + _margin_x - dx; i->y = y_in + (sc_cnt + .5) * _pin_box_size; i->h = _pin_box_size; i->w = 1.5 * _pin_box_size; ++ sc_cnt; } else { uint32_t idx = i->e->id; if (i->e->dt == DataType::AUDIO) { idx += _in.n_midi (); } i->x = rint ((idx + 1) * _width / (1. + _n_inputs)) - 0.5 - dx; i->w = _pin_box_size; i->h = 1.5 * _pin_box_size; i->y = y_in - i->h; } break; case Output: { uint32_t idx = i->e->id; if (i->e->dt == DataType::AUDIO) { idx += _out.n_midi (); } i->x = rint ((idx + 1) * _width / (1. + _out.n_total ())) - 0.5 - dx; i->y = y_out; i->w = _pin_box_size; i->h = 1.5 * _pin_box_size; } break; case Sink: { uint32_t idx = i->e->id; if (i->e->dt == DataType::AUDIO) { idx += _sinks.n_midi (); } const double x0 = rint ((i->e->ip + .5) * _innerwidth / (double)(_n_plugins)) - .5 - bxw2; i->x = _margin_x + rint (x0 + (idx + 1) * bxw / (1. + _sinks.n_total ())) - .5 - dx; i->y = yc - bxh2 - dx; i->w = _pin_box_size; i->h = _pin_box_size; } break; case Source: { uint32_t idx = i->e->id; if (i->e->dt == DataType::AUDIO) { idx += _sources.n_midi (); } const double x0 = rint ((i->e->ip + .5) * _innerwidth / (double)(_n_plugins)) - .5 - bxw2; i->x = _margin_x + rint (x0 + (idx + 1) * bxw / (1. + _sources.n_total ())) - .5 - dx; i->y = yc + bxh2 - dx; i->w = _pin_box_size; i->h = _pin_box_size; } break; } } } void PluginPinWidget::set_color (cairo_t* cr, bool midi) { // see also gtk2_ardour/processor_box.cc 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)); } } void PluginPinWidget::draw_io_pin (cairo_t* cr, const CtrlWidget& w) { if (w.e->sc) { const double dy = w.h * .5; const double dx = w.w - dy; cairo_move_to (cr, w.x, w.y + dy); cairo_rel_line_to (cr, dy, -dy); cairo_rel_line_to (cr, dx, 0); cairo_rel_line_to (cr, 0, w.h); cairo_rel_line_to (cr, -dx, 0); } else { const double dir = (w.e->ct == Input) ? 1 : -1; const double dx = w.w * .5; const double dy = w.h - dx; cairo_move_to (cr, w.x + dx, w.y + ((w.e->ct == Input) ? w.h : 0)); cairo_rel_line_to (cr, -dx, -dx * dir); cairo_rel_line_to (cr, 0., -dy * dir); cairo_rel_line_to (cr, 2. * dx, 0.); cairo_rel_line_to (cr, 0., dy * dir); } cairo_close_path (cr); cairo_set_line_width (cr, 1.0); cairo_set_source_rgb (cr, 0, 0, 0); cairo_stroke_preserve (cr); set_color (cr, w.e->dt == DataType::MIDI); if (w.e->sc) { assert (w.e->ct == Input); cairo_fill_preserve (cr); cairo_set_source_rgba (cr, 0.0, 0.0, 1.0, 0.4); } if (w.e == _selection || w.e == _actor) { cairo_fill_preserve (cr); cairo_set_source_rgba (cr, 0.9, 0.9, 1.0, 0.6); } else if (w.prelight) { cairo_fill_preserve (cr); cairo_set_source_rgba (cr, 0.9, 0.9, 0.9, 0.3); } cairo_fill (cr); } void PluginPinWidget::draw_plugin_pin (cairo_t* cr, const CtrlWidget& w) { const double dx = w.w * .5; const double dy = w.h * .5; cairo_move_to (cr, w.x + dx, w.y); cairo_rel_line_to (cr, -dx, dy); cairo_rel_line_to (cr, dx, dy); cairo_rel_line_to (cr, dx, -dy); cairo_close_path (cr); cairo_set_line_width (cr, 1.0); cairo_set_source_rgb (cr, 0, 0, 0); cairo_stroke_preserve (cr); set_color (cr, w.e->dt == DataType::MIDI); if (w.e->sc) { assert (w.e->ct == Sink); cairo_fill_preserve (cr); cairo_set_source_rgba (cr, 0.0, 0.0, 1.0, 0.4); } if (w.e == _selection || w.e == _actor) { cairo_fill_preserve (cr); cairo_set_source_rgba (cr, 0.9, 0.9, 1.0, 0.6); } else if (w.prelight) { cairo_fill_preserve (cr); cairo_set_source_rgba (cr, 0.9, 0.9, 0.9, 0.3); } cairo_fill (cr); if ((w.prelight || w.e == _selection) && !w.name.empty ()) { int text_width; int text_height; Glib::RefPtr layout; layout = Pango::Layout::create (get_pango_context ()); layout->set_text (w.name); layout->get_pixel_size (text_width, text_height); rounded_rectangle (cr, w.x + dx - .5 * text_width - 2, w.y - text_height - 2, text_width + 4, text_height + 2, 7); cairo_set_source_rgba (cr, 0, 0, 0, .5); cairo_fill (cr); cairo_move_to (cr, w.x + dx - .5 * text_width, w.y - text_height - 1); cairo_set_source_rgba (cr, 1., 1., 1., 1.); pango_cairo_show_layout (cr, layout->gobj ()); } } double PluginPinWidget::pin_x_pos (uint32_t i, double x0, double width, uint32_t n_total, uint32_t n_midi, bool midi) { if (!midi) { i += n_midi; } return rint (x0 + (i + 1) * width / (1. + n_total)) - .5; } const PluginPinWidget::CtrlWidget& PluginPinWidget::get_io_ctrl (CtrlType ct, DataType dt, uint32_t id, uint32_t ip) const { for (CtrlElemList::const_iterator i = _elements.begin (); i != _elements.end (); ++i) { if (i->e->ct == ct && i->e->dt == dt && i->e->id == id && i->e->ip == ip) { return *i; } } assert (0); fatal << string_compose (_("programming error: %1"), X_("Invalid Plugin I/O Port.")) << endmsg; abort (); /*NOTREACHED*/ static CtrlWidget screw_old_compilers ("", Input, DataType::NIL, 0); return screw_old_compilers; } void PluginPinWidget::edge_coordinates (const CtrlWidget& w, double &x, double &y) { switch (w.e->ct) { case Input: if (w.e->sc) { x = w.x; y = w.y + w.h * .5; } else { x = w.x + w.w * .5; y = w.y + w.h; } break; case Output: x = w.x + w.w * .5; y = w.y; break; case Sink: x = w.x + w.w * .5; y = w.y; break; case Source: x = w.x + w.w * .5; y = w.y + w.h; break; } } void PluginPinWidget::draw_connection (cairo_t* cr, double x0, double x1, double y0, double y1, bool midi, bool horiz, bool dashed) { const double bz = 2 * _pin_box_size; double bc = (dashed && x0 == x1) ? 1.25 * _pin_box_size : 0; if (x0 > _width * .5) { bc *= -1; } cairo_move_to (cr, x0, y0); if (horiz) { cairo_curve_to (cr, x0 - bz, y0 + bc, x1 - bc, y1 - bz, x1, y1); } else { cairo_curve_to (cr, x0 - bc, y0 + bz, x1 - bc, y1 - bz, x1, y1); } cairo_set_line_width (cr, 3.0); cairo_set_line_cap (cr, CAIRO_LINE_CAP_ROUND); cairo_set_source_rgb (cr, 1, 0, 0); if (dashed) { const double dashes[] = { 5, 7 }; cairo_set_dash (cr, dashes, 2, 0); } set_color (cr, midi); cairo_stroke (cr); if (dashed) { cairo_set_dash (cr, 0, 0, 0); } } void PluginPinWidget::draw_connection (cairo_t* cr, const CtrlWidget& w0, const CtrlWidget& w1, bool dashed) { double x0, x1, y0, y1; edge_coordinates (w0, x0, y0); edge_coordinates (w1, x1, y1); assert (w0.e->dt == w1.e->dt); draw_connection (cr, x0, x1, y0, y1, w0.e->dt == DataType::MIDI, w0.e->sc, dashed); } bool PluginPinWidget::darea_expose_event (GdkEventExpose* ev) { Gtk::Allocation a = darea.get_allocation (); double const width = a.get_width (); double const height = a.get_height (); if (!_position_valid) { _width = width; _height = height; update_element_pos (); _position_valid = true; } cairo_t* cr = gdk_cairo_create (darea.get_window ()->gobj ()); cairo_rectangle (cr, ev->area.x, ev->area.y, ev->area.width, ev->area.height); cairo_clip (cr); 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 yc = rint (_height * .5); /* processor box */ rounded_rectangle (cr, _margin_x, _margin_y - _pin_box_size * .5, _innerwidth, _height - 2 * _margin_y + _pin_box_size, 7); cairo_set_line_width (cr, 1.0); cairo_set_source_rgb (cr, .1, .1, .3); cairo_stroke_preserve (cr); cairo_set_source_rgb (cr, .3, .3, .3); cairo_fill (cr); /* labels */ Glib::RefPtr layout; layout = Pango::Layout::create (get_pango_context ()); layout->set_ellipsize (Pango::ELLIPSIZE_MIDDLE); layout->set_width (_height * PANGO_SCALE); int text_width; int text_height; layout->set_text (_route ()->name ()); layout->get_pixel_size (text_width, text_height); cairo_save (cr); cairo_move_to (cr, .5 * (_margin_x - text_height), .5 * (_height + text_width)); cairo_rotate (cr, M_PI * -.5); cairo_set_source_rgba (cr, 1., 1., 1., 1.); pango_cairo_show_layout (cr, layout->gobj ()); cairo_new_path (cr); cairo_restore (cr); layout->set_width ((_innerwidth - 2 * _pin_box_size) * PANGO_SCALE); layout->set_text (_pi->name ()); layout->get_pixel_size (text_width, text_height); cairo_move_to (cr, _margin_x + _innerwidth - text_width - _pin_box_size * .5, _height - _margin_y - text_height); cairo_set_source_rgba (cr, 1., 1., 1., 1.); pango_cairo_show_layout (cr, layout->gobj ()); #ifndef NDEBUG if (_pi->signal_latency () > 0 || !_pi->inplace()) { layout->set_width ((_innerwidth - 2 * _pin_box_size) * PANGO_SCALE); if (_pi->signal_latency () > 0 && !_pi->inplace()) { layout->set_text (string_compose (_("Latency %1 spl%2 %3"), _pi->signal_latency (), ", ", _("no-inplace"))); } else if (_pi->signal_latency () > 0) { layout->set_text (string_compose (_("Latency %1 spl"), _pi->signal_latency ())); } else { layout->set_text (_("no-inplace")); } layout->get_pixel_size (text_width, text_height); cairo_move_to (cr, _margin_x + _pin_box_size * .5, _margin_y + 2); cairo_set_source_rgba (cr, 1., 1., 1., 1.); pango_cairo_show_layout (cr, layout->gobj ()); } #endif if (_pi->strict_io () && !Profile->get_mixbus ()) { layout->set_text (_("Strict I/O")); layout->get_pixel_size (text_width, text_height); const double sx0 = _margin_x + .5 * (_innerwidth - text_width); const double sy0 = _height - 3 - text_height; rounded_rectangle (cr, sx0 - 2, sy0 - 1, text_width + 4, text_height + 2, 7); cairo_set_source_rgba (cr, .4, .3, .1, 1.); cairo_fill (cr); cairo_set_source_rgba (cr, 1., 1., 1., 1.); cairo_move_to (cr, sx0, sy0); cairo_set_source_rgba (cr, 1., 1., 1., 1.); pango_cairo_show_layout (cr, layout->gobj ()); } /* draw midi-bypass (behind) */ if (_has_midi_bypass) { const CtrlWidget& cw0 = get_io_ctrl (Input, DataType::MIDI, 0); const CtrlWidget& cw1 = get_io_ctrl (Output, DataType::MIDI, 0); draw_connection (cr, cw0, cw1, true); } /* thru connections */ const ChanMapping::Mappings thru_map (_thru_map.mappings ()); for (ChanMapping::Mappings::const_iterator t = thru_map.begin (); t != thru_map.end (); ++t) { for (ChanMapping::TypeMapping::const_iterator c = (*t).second.begin (); c != (*t).second.end () ; ++c) { const CtrlWidget& cw0 = get_io_ctrl (Output, t->first, c->first); const CtrlWidget& cw1 = get_io_ctrl (Input, t->first, c->second); if (!(_dragging && cw1.e == _selection && cw0.e == _drag_dst)) { draw_connection (cr, cw1, cw0, true); } } } /* plugins & connection wires */ for (uint32_t i = 0; i < _n_plugins; ++i) { double x0 = _margin_x + rint ((i + .5) * _innerwidth / (double)(_n_plugins)) - .5; /* plugin box */ cairo_set_source_rgb (cr, .5, .5, .5); rounded_rectangle (cr, x0 - _bxw2, yc - _bxh2, 2 * _bxw2, 2 * _bxh2, 7); cairo_fill (cr); layout->set_width (1.9 * _bxw2 * PANGO_SCALE); layout->set_text (string_compose (_("Instance #%1"), i + 1)); layout->get_pixel_size (text_width, text_height); cairo_move_to (cr, x0 - text_width * .5, yc - text_height * .5); cairo_set_source_rgba (cr, 1., 1., 1., 1.); pango_cairo_show_layout (cr, layout->gobj ()); const ChanMapping::Mappings in_map = _in_map[i].mappings (); const ChanMapping::Mappings out_map = _out_map[i].mappings (); for (ChanMapping::Mappings::const_iterator t = in_map.begin (); t != in_map.end (); ++t) { for (ChanMapping::TypeMapping::const_iterator c = (*t).second.begin (); c != (*t).second.end () ; ++c) { const CtrlWidget& cw0 = get_io_ctrl (Input, t->first, c->second); const CtrlWidget& cw1 = get_io_ctrl (Sink, t->first, c->first, i); if (!(_dragging && cw0.e == _selection && cw1.e == _drag_dst)) { draw_connection (cr, cw0, cw1); } } } for (ChanMapping::Mappings::const_iterator t = out_map.begin (); t != out_map.end (); ++t) { for (ChanMapping::TypeMapping::const_iterator c = (*t).second.begin (); c != (*t).second.end () ; ++c) { const CtrlWidget& cw0 = get_io_ctrl (Source, t->first, c->first, i); const CtrlWidget& cw1 = get_io_ctrl (Output, t->first, c->second); if (!(_dragging && cw0.e == _selection && cw1.e == _drag_dst)) { draw_connection (cr, cw0, cw1); } } } } /* pins and ports */ for (CtrlElemList::const_iterator i = _elements.begin (); i != _elements.end (); ++i) { switch (i->e->ct) { case Input: case Output: draw_io_pin (cr, *i); break; case Sink: case Source: draw_plugin_pin (cr, *i); break; } } /* DnD wire */ CtrlWidget *drag_src = NULL; if (_dragging) { for (CtrlElemList::iterator i = _elements.begin (); i != _elements.end (); ++i) { if (i->e == _selection ) { drag_src = &(*i); } } } if (drag_src) { double x0, y0; if (_selection->ct == Input || _selection->ct == Source) { edge_coordinates (*drag_src, x0, y0); draw_connection (cr, x0, _drag_x, y0, _drag_y, _selection->dt == DataType::MIDI, _selection->sc); } else { edge_coordinates (*drag_src, x0, y0); draw_connection (cr, _drag_x, x0, _drag_y, y0, _selection->dt == DataType::MIDI, _selection->sc); } } cairo_destroy (cr); return true; } void PluginPinWidget::darea_size_request (Gtk::Requisition* req) { req->width = _min_width; req->height = _min_height; } void PluginPinWidget::darea_size_allocate (Gtk::Allocation&) { _position_valid = false; } bool PluginPinWidget::drag_type_matches (const CtrlElem& e) { if (!_dragging || !_selection) { return true; } if (_selection->dt != e->dt) { return false; } if (_selection->ct == Input && e->ct == Sink) { return true; } if (_selection->ct == Sink && e->ct == Input) { return true; } if (_selection->ct == Output && e->ct == Source) { return true; } if (_selection->ct == Source && e->ct == Output) { return true; } if (_selection->ct == Input && e->ct == Output) { return true; } if (_selection->ct == Output && e->ct == Input) { return true; } return false; } void PluginPinWidget::start_drag (const CtrlElem& e, double x, double y) { assert (_selection == e); _drag_dst.reset (); if (e->ct == Sink) { bool valid; const ChanMapping& map (_in_map[e->ip]); uint32_t idx = map.get (e->dt, e->id, &valid); if (valid) { const CtrlWidget& cw = get_io_ctrl (Input, e->dt, idx, 0); _drag_dst = e; _selection = cw.e; } } else if (e->ct == Output) { for (uint32_t i = 0; i < _n_plugins; ++i) { bool valid; const ChanMapping& map (_out_map[i]); uint32_t idx = map.get_src (e->dt, e->id, &valid); if (valid) { const CtrlWidget& cw = get_io_ctrl (Source, e->dt, idx, i); _drag_dst = e; _selection = cw.e; break; } } if (!_drag_dst) { bool valid; const ChanMapping& map (_thru_map); uint32_t idx = map.get (e->dt, e->id, &valid); if (valid) { const CtrlWidget& cw = get_io_ctrl (Input, e->dt, idx, 0); _drag_dst = e; _selection = cw.e; } } } _dragging = true; _drag_x = x; _drag_y = y; } bool PluginPinWidget::darea_motion_notify_event (GdkEventMotion* ev) { bool changed = false; _hover.reset (); for (CtrlElemList::iterator i = _elements.begin (); i != _elements.end (); ++i) { if (ev->x >= i->x && ev->x <= i->x + i->w && ev->y >= i->y && ev->y <= i->y + i->h && drag_type_matches (i->e)) { if (!i->prelight) changed = true; i->prelight = true; _hover = i->e; } else { if (i->prelight) changed = true; i->prelight = false; } } if (_dragging) { _drag_x = ev->x; _drag_y = ev->y; } if (changed || _dragging) { darea.queue_draw (); } return true; } bool PluginPinWidget::darea_button_press_event (GdkEventButton* ev) { if (ev->type != GDK_BUTTON_PRESS) { return false; } switch (ev->button) { case 1: _drag_dst.reset (); if (!_selection || (_selection && !_hover)) { _selection = _hover; _actor.reset (); if (_selection) { start_drag (_selection, ev->x, ev->y); } else { darea.queue_draw (); } } else if (_selection && _hover && _selection != _hover) { if (_selection->dt != _hover->dt) { _actor.reset (); } else if (_selection->ct == Input && _hover->ct == Sink) { _actor = _hover; } else if (_selection->ct == Sink && _hover->ct == Input) { _actor = _hover; } else if (_selection->ct == Output && _hover->ct == Source) { _actor = _hover; } else if (_selection->ct == Source && _hover->ct == Output) { _actor = _hover; } else if (_selection->ct == Input && _hover->ct == Output) { _actor = _hover; } else if (_selection->ct == Output && _hover->ct == Input) { _actor = _hover; } if (!_actor) { _selection = _hover; start_drag (_selection, ev->x, ev->y); } else { darea.queue_draw (); } } else if (_hover) { _selection = _hover; _actor.reset (); start_drag (_selection, ev->x, ev->y); } break; case 3: _drag_dst.reset (); if (_selection != _hover) { _selection = _hover; darea.queue_draw (); } _actor.reset (); break; default: break; } return true; } bool PluginPinWidget::darea_button_release_event (GdkEventButton* ev) { if (_dragging && _selection && _drag_dst && _drag_dst == _hover) { // select click. (or re-connect same) assert (_selection != _hover); _actor.reset (); _dragging = false; _drag_dst.reset (); _selection =_hover; darea.queue_draw (); return true; } if (_dragging && _hover && _hover != _selection) { _actor = _hover; } if (_hover == _actor && _actor && ev->button == 1) { assert (_selection); assert (_selection->dt == _actor->dt); if (_drag_dst) { assert (_dragging && _selection != _drag_dst); handle_disconnect (_drag_dst, true); } if (_selection->ct == Input && _actor->ct == Sink) { handle_input_action (_actor, _selection); } else if (_selection->ct == Sink && _actor->ct == Input) { handle_input_action (_selection, _actor); } else if (_selection->ct == Output && _actor->ct == Source) { handle_output_action (_actor, _selection); } else if (_selection->ct == Source && _actor->ct == Output) { handle_output_action (_selection, _actor); } else if (_selection->ct == Input && _actor->ct == Output) { handle_thru_action (_actor, _selection); } else if (_selection->ct == Output && _actor->ct == Input) { handle_thru_action (_selection, _actor); } _selection.reset (); } else if (_hover == _selection && _selection && ev->button == 3) { handle_disconnect (_selection); } else if (!_hover && ev->button == 3) { reset_menu.popup (1, ev->time); } if (_dragging && _hover != _selection) { _selection.reset (); } _actor.reset (); _dragging = false; _drag_dst.reset (); darea.queue_draw (); return true; } void PluginPinWidget::handle_input_action (const CtrlElem &s, const CtrlElem &i) { const int pc = s->ip; bool valid; ChanMapping in_map (_pi->input_map (pc)); uint32_t idx = in_map.get (s->dt, s->id, &valid); if (valid && idx == i->id) { // disconnect if (!_dragging) { in_map.unset (s->dt, s->id); _pi->set_input_map (pc, in_map); } else { plugin_reconfigured (); } } else if (!valid) { // connect in_map.set (s->dt, s->id, i->id); _pi->set_input_map (pc, in_map); } else { // reconnect in_map.unset (s->dt, s->id); in_map.set (s->dt, s->id, i->id); _pi->set_input_map (pc, in_map); } } void PluginPinWidget::disconnect_other_outputs (uint32_t skip_pc, DataType dt, uint32_t id) { _ignore_updates = true; for (uint32_t n = 0; n < _n_plugins; ++n) { if (n == skip_pc) { continue; } bool valid; ChanMapping n_out_map (_pi->output_map (n)); uint32_t idx = n_out_map.get_src (dt, id, &valid); if (valid) { n_out_map.unset (dt, idx); _pi->set_output_map (n, n_out_map); } } _ignore_updates = false; } void PluginPinWidget::disconnect_other_thru (DataType dt, uint32_t id) { _ignore_updates = true; bool valid; ChanMapping n_thru_map (_pi->thru_map ()); n_thru_map.get (dt, id, &valid); if (valid) { n_thru_map.unset (dt, id); _pi->set_thru_map (n_thru_map); } _ignore_updates = false; } void PluginPinWidget::handle_output_action (const CtrlElem &s, const CtrlElem &o) { const uint32_t pc = s->ip; bool valid; ChanMapping out_map (_pi->output_map (pc)); uint32_t idx = out_map.get (s->dt, s->id, &valid); if (valid && idx == o->id) { // disconnect if (!_dragging) { out_map.unset (s->dt, s->id); _pi->set_output_map (pc, out_map); } else { plugin_reconfigured (); } } else { // disconnect source disconnect_other_outputs (pc, s->dt, o->id); disconnect_other_thru (s->dt, o->id); out_map = _pi->output_map (pc); // re-read map if (valid) { out_map.unset (s->dt, s->id); } idx = out_map.get_src (s->dt, o->id, &valid); if (valid) { out_map.unset (s->dt, idx); } // connect out_map.set (s->dt, s->id, o->id); _pi->set_output_map (pc, out_map); } } void PluginPinWidget::handle_thru_action (const CtrlElem &o, const CtrlElem &i) { bool valid; ChanMapping thru_map (_pi->thru_map ()); uint32_t idx = thru_map.get (o->dt, o->id, &valid); if (valid && idx == i->id) { if (!_dragging) { thru_map.unset (o->dt, o->id); } } else { // disconnect other outputs first disconnect_other_outputs (UINT32_MAX, o->dt, o->id); disconnect_other_thru (o->dt, o->id); thru_map = _pi->thru_map (); // re-read map thru_map.set (o->dt, o->id, i->id); } _pi->set_thru_map (thru_map); } bool PluginPinWidget::handle_disconnect (const CtrlElem &e, bool no_signal) { _ignore_updates = true; bool changed = false; bool valid; switch (e->ct) { case Input: { ChanMapping n_thru_map (_pi->thru_map ()); for (uint32_t i = 0; i < _sources.n_total (); ++i) { uint32_t idx = n_thru_map.get (e->dt, i, &valid); if (valid && idx == e->id) { n_thru_map.unset (e->dt, i); changed = true; } } if (changed) { _pi->set_thru_map (n_thru_map); } } for (uint32_t n = 0; n < _n_plugins; ++n) { ChanMapping map (_pi->input_map (n)); for (uint32_t i = 0; i < _sinks.n_total (); ++i) { uint32_t idx = map.get (e->dt, i, &valid); if (valid && idx == e->id) { map.unset (e->dt, i); changed = true; } } _pi->set_input_map (n, map); } break; case Sink: { ChanMapping map (_pi->input_map (e->ip)); map.get (e->dt, e->id, &valid); if (valid) { map.unset (e->dt, e->id); _pi->set_input_map (e->ip, map); changed = true; } } break; case Source: { ChanMapping map (_pi->output_map (e->ip)); map.get (e->dt, e->id, &valid); if (valid) { map.unset (e->dt, e->id); _pi->set_output_map (e->ip, map); changed = true; } } break; case Output: for (uint32_t n = 0; n < _n_plugins; ++n) { ChanMapping map (_pi->output_map (n)); for (uint32_t i = 0; i < _sources.n_total (); ++i) { uint32_t idx = map.get (e->dt, i, &valid); if (valid && idx == e->id) { map.unset (e->dt, i); changed = true; } } if (changed) { _pi->set_output_map (n, map); } } { ChanMapping n_thru_map (_pi->thru_map ()); n_thru_map.get (e->dt, e->id, &valid); if (valid) { n_thru_map.unset (e->dt, e->id); changed = true; _pi->set_thru_map (n_thru_map); } } break; } _ignore_updates = false; if (changed && !no_signal) { plugin_reconfigured (); } return changed; } void PluginPinWidget::toggle_sidechain () { if (_session && _session->actively_recording ()) { return; } _route ()->add_remove_sidechain (_pi, !_pi->has_sidechain ()); } void PluginPinWidget::connect_sidechain () { if (!_session) { return; } if (_sidechain_selector == 0) { _sidechain_selector = new IOSelectorWindow (_session, _pi->sidechain_input ()); } if (_sidechain_selector->is_visible ()) { _sidechain_selector->get_toplevel ()->get_window ()->raise (); } else { _sidechain_selector->present (); } } void PluginPinWidget::reset_configuration () { if (_set_config.get_active ()) { _route ()->reset_plugin_insert (_pi); } else { _route ()->customize_plugin_insert (_pi, _n_plugins, _out, _sinks); } } void PluginPinWidget::reset_mapping () { _pi->reset_map (); } void PluginPinWidget::select_output_preset (uint32_t n_audio) { if (_session && _session->actively_recording ()) { return; } ChanCount out (DataType::AUDIO, n_audio); _route ()->plugin_preset_output (_pi, out); } void PluginPinWidget::add_remove_plugin_clicked (bool add) { if (_session && _session->actively_recording ()) { return; } ChanCount out = _out; ChanCount sinks = _sinks; assert (add || _n_plugins > 0); _route ()->customize_plugin_insert (_pi, _n_plugins + (add ? 1 : -1), out, sinks); } void PluginPinWidget::add_remove_port_clicked (bool add, ARDOUR::DataType dt) { if (_session && _session->actively_recording ()) { return; } ChanCount out = _out; ChanCount sinks = _sinks; assert (add || out.get (dt) > 0); out.set (dt, out.get (dt) + (add ? 1 : -1)); _route ()->customize_plugin_insert (_pi, _n_plugins, out, sinks); } void PluginPinWidget::add_remove_inpin_clicked (bool add, ARDOUR::DataType dt) { if (_session && _session->actively_recording ()) { return; } ChanCount out = _out; ChanCount sinks = _sinks; assert (add || sinks.get (dt) > 0); sinks.set (dt, sinks.get (dt) + (add ? 1 : -1)); _route ()->customize_plugin_insert (_pi, _n_plugins, out, sinks); } void PluginPinWidget::add_sidechain_port (DataType dt) { if (_session && _session->actively_recording ()) { return; } boost::shared_ptr io = _pi->sidechain_input (); if (!io) { return; } // this triggers a PluginIoReConfigure with process and processor write lock held // from /this/ thread. io->add_port ("", this, dt); } void PluginPinWidget::remove_port (boost::weak_ptr wp) { if (_session && _session->actively_recording ()) { return; } boost::shared_ptr p = wp.lock (); boost::shared_ptr io = _pi->sidechain_input (); if (!io || !p) { return; } io->remove_port (p, this); } void PluginPinWidget::disconnect_port (boost::weak_ptr wp) { if (_session && _session->actively_recording ()) { return; } boost::shared_ptr p = wp.lock (); boost::shared_ptr io = _pi->sidechain_input (); if (!io || !p) { return; } p->disconnect_all (); } void PluginPinWidget::connect_port (boost::weak_ptr wp0, boost::weak_ptr wp1) { if (_session && _session->actively_recording ()) { return; } boost::shared_ptr p0 = wp0.lock (); boost::shared_ptr p1 = wp1.lock (); boost::shared_ptr io = _pi->sidechain_input (); if (!io || !p0 || !p1) { return; } _ignore_updates = true; p0->disconnect_all (); _ignore_updates = false; p0->connect (p1->name ()); } void PluginPinWidget::add_send_from (boost::weak_ptr wp, boost::weak_ptr wr) { if (_session && _session->actively_recording ()) { return; } boost::shared_ptr p = wp.lock (); boost::shared_ptr r = wr.lock (); boost::shared_ptr io = _pi->sidechain_input (); if (!p || !r || !io || !_session) { return; } boost::shared_ptr sendpan (new Pannable (*_session)); boost::shared_ptr send (new Send (*_session, r->pannable (), r->mute_master ())); const ChanCount& outs (r->amp ()->input_streams ()); 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; } std::string sendname = send->name (); string::size_type last_letter = sendname.find_last_not_of ("0123456789"); if (last_letter != string::npos) { send->output ()->set_pretty_name (string_compose (_("SC %1 (%2)"), r->name (), sendname.substr (last_letter + 1))); } _ignore_updates = true; p->disconnect_all (); DataType dt = p->type (); PortSet& ps (send->output ()->ports ()); for (PortSet::iterator i = ps.begin (dt); i != ps.end (dt); ++i) { p->connect (&(**i)); } send->set_remove_on_disconnect (true); r->add_processor (send, PreFader); _ignore_updates = false; queue_idle_update (); } bool PluginPinWidget::sc_input_release (GdkEventButton *ev) { if (_session && _session->actively_recording ()) { return false; } if (ev->button == 3) { connect_sidechain (); } return false; } struct RouteCompareByName { bool operator() (boost::shared_ptr a, boost::shared_ptr b) { return a->name ().compare (b->name ()) < 0; } }; bool PluginPinWidget::sc_input_press (GdkEventButton *ev, boost::weak_ptr wp) { using namespace Menu_Helpers; if (!_session || _session->actively_recording ()) { return false; } if (!_session->engine ().connected ()) { return false; } if (ev->button == 1) { MenuList& citems = input_menu.items (); input_menu.set_name ("ArdourContextMenu"); citems.clear (); boost::shared_ptr p = wp.lock (); if (p && p->connected ()) { citems.push_back (MenuElem (_("Disconnect"), sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::disconnect_port), wp))); citems.push_back (SeparatorElem ()); } #if 0 // TODO add system inputs, too ?! boost::shared_ptr b = _session->bundles (); for (ARDOUR::BundleList::iterator i = b->begin(); i != b->end(); ++i) { for (uint32_t j = 0; j < i->nchannels ().n_total (); ++j) { } //maybe_add_bundle_to_input_menu (*i, current); } #endif boost::shared_ptr routes = _session->get_routes (); RouteList copy = *routes; copy.sort (RouteCompareByName ()); uint32_t added = 0; for (ARDOUR::RouteList::const_iterator i = copy.begin (); i != copy.end (); ++i) { added += maybe_add_route_to_input_menu (*i, p->type (), wp); } if (added > 0) { citems.push_back (SeparatorElem ()); } citems.push_back (MenuElem (_("Routing Grid"), sigc::mem_fun (*this, &PluginPinWidget::connect_sidechain))); input_menu.popup (1, ev->time); } return false; } uint32_t PluginPinWidget::maybe_add_route_to_input_menu (boost::shared_ptr r, DataType dt, boost::weak_ptr wp) { uint32_t added = 0; using namespace Menu_Helpers; if (r->output () == _route ()->output ()) { return added; } if (_route ()->feeds_according_to_graph (r)) { return added; } MenuList& citems = input_menu.items (); /*check if there's already a send.. */ bool already_present = false; uint32_t nth = 0; boost::shared_ptr proc; /* Note: nth_send () takes a processor read-lock */ while ((proc = r->nth_send (nth))) { boost::shared_ptr send = boost::dynamic_pointer_cast (proc); if (!send || !send->output ()) { ++nth; continue; } if (send->output ()->connected_to (_pi->sidechain_input ())) { // only if (send->remove_on_disconnect ()) ?? already_present = true; break; } ++nth; } /* we're going to create the new send pre-fader, so check the route amp's data type. */ const ChanCount& rc (r->amp ()->input_streams ()); if (!already_present && rc.get (dt) > 0) { citems.push_back (MenuElem (r->name (), sigc::bind (sigc::mem_fun (*this, &PluginPinWidget::add_send_from), wp, boost::weak_ptr (r)))); ++added; } return added; } void PluginPinWidget::port_connected_or_disconnected (boost::weak_ptr w0, boost::weak_ptr w1) { boost::shared_ptr p0 = w0.lock (); boost::shared_ptr p1 = w1.lock (); boost::shared_ptr io = _pi->sidechain_input (); if (!io) { return; } if (p0 && io->has_port (p0)) { queue_idle_update (); } else if (p1 && io->has_port (p1)) { queue_idle_update (); } } /* lifted from ProcessorEntry::Control */ PluginPinWidget::Control::Control (boost::shared_ptr c, string const & n) : _control (c) , _adjustment (gain_to_slider_position_with_max (1.0, Config->get_max_gain ()), 0, 1, 0.01, 0.1) , _slider (&_adjustment, boost::shared_ptr (), 0, max (13.f, rintf (13.f * UIConfiguration::instance ().get_ui_scale ()))) , _slider_persistant_tooltip (&_slider) , _ignore_ui_adjustment (false) , _name (n) { _slider.set_controllable (c); box.set_padding (0, 0, 4, 4); _slider.set_name ("ProcessorControlSlider"); _slider.set_text (_name); box.add (_slider); _slider.show (); const ARDOUR::ParameterDescriptor& desc = c->desc (); double const lo = c->internal_to_interface (desc.lower); double const up = c->internal_to_interface (desc.upper); double const normal = c->internal_to_interface (desc.normal); double smallstep = desc.smallstep; double largestep = desc.largestep; if (smallstep == 0.0) { smallstep = up / 1000.; } else { smallstep = c->internal_to_interface (desc.lower + smallstep); } if (largestep == 0.0) { largestep = up / 40.; } else { largestep = c->internal_to_interface (desc.lower + largestep); } _adjustment.set_lower (lo); _adjustment.set_upper (up); _adjustment.set_step_increment (smallstep); _adjustment.set_page_increment (largestep); _slider.set_default_value (normal); _adjustment.signal_value_changed ().connect (sigc::mem_fun (*this, &Control::slider_adjusted)); // dup. currently timers are used :( //c->Changed.connect (_connection, MISSING_INVALIDATOR, boost::bind (&Control::control_changed, this), gui_context ()); // yuck, do we really need to do this? // according to c404374 this is only needed for send automation timer_connection = Timers::rapid_connect (sigc::mem_fun (*this, &Control::control_changed)); control_changed (); set_tooltip (); /* We're providing our own PersistentTooltip */ set_no_tooltip_whatsoever (_slider); } PluginPinWidget::Control::~Control () { timer_connection.disconnect (); } void PluginPinWidget::Control::set_tooltip () { boost::shared_ptr c = _control.lock (); if (!c) { return; } char tmp[256]; snprintf (tmp, sizeof (tmp), "%s: %.2f", _name.c_str (), c->internal_to_user (c->get_value ())); string sm = Gtkmm2ext::markup_escape_text (tmp); _slider_persistant_tooltip.set_tip (sm); } void PluginPinWidget::Control::slider_adjusted () { if (_ignore_ui_adjustment) { return; } boost::shared_ptr c = _control.lock (); if (!c) { return; } c->set_value ( c->interface_to_internal (_adjustment.get_value ()) , Controllable::NoGroup); set_tooltip (); } void PluginPinWidget::Control::control_changed () { boost::shared_ptr c = _control.lock (); if (!c) { return; } _ignore_ui_adjustment = true; // as long as rapid timers are used, only update the tooltip // if the value has changed. const double nval = c->internal_to_interface (c->get_value ()); if (_adjustment.get_value () != nval) { _adjustment.set_value (nval); set_tooltip (); } _ignore_ui_adjustment = false; } PluginPinDialog::PluginPinDialog (boost::shared_ptr pi) : ArdourWindow (string_compose (_("Pin Configuration: %1"), pi->name ())) { ppw.push_back (PluginPinWidgetPtr(new PluginPinWidget (pi))); add (*ppw.back()); } PluginPinDialog::PluginPinDialog (boost::shared_ptr r) : ArdourWindow (string_compose (_("Pin Configuration: %1"), r->name ())) , _route (r) , _height_mapped (false) { vbox = manage (new VBox ()); vbox->signal_size_allocate().connect (sigc::mem_fun (*this, &PluginPinDialog::map_height)); scroller = manage (new ScrolledWindow); scroller->set_policy (Gtk::POLICY_NEVER, Gtk::POLICY_AUTOMATIC); scroller->set_shadow_type (Gtk::SHADOW_NONE); scroller->show (); vbox->show (); scroller->add (*vbox); add (*scroller); _route->foreach_processor (sigc::mem_fun (*this, &PluginPinDialog::add_processor)); _route->processors_changed.connect ( _route_connections, invalidator (*this), boost::bind (&PluginPinDialog::route_processors_changed, this, _1), gui_context() ); _route->DropReferences.connect ( _route_connections, invalidator (*this), boost::bind (&PluginPinDialog::route_going_away, this), gui_context() ); } void PluginPinDialog::set_session (ARDOUR::Session *s) { SessionHandlePtr::set_session (s); for (PluginPinWidgetList::iterator i = ppw.begin(); i != ppw.end(); ++i) { (*i)->set_session (s); } } void PluginPinDialog::map_height (Gtk::Allocation&) { if (!_height_mapped) { scroller->set_size_request (-1, std::min (600, 2 + vbox->get_height())); _height_mapped = true; } } void PluginPinDialog::route_processors_changed (ARDOUR::RouteProcessorChange) { ppw.clear (); _height_mapped = false; scroller->remove (); vbox = manage (new VBox ()); vbox->signal_size_allocate().connect (sigc::mem_fun (*this, &PluginPinDialog::map_height)); scroller->add (*vbox); _route->foreach_processor (sigc::mem_fun (*this, &PluginPinDialog::add_processor)); vbox->show (); } void PluginPinDialog::route_going_away () { ppw.clear (); _route.reset (); remove (); } void PluginPinDialog::add_processor (boost::weak_ptr p) { boost::shared_ptr proc = p.lock (); if (!proc || !proc->display_to_user ()) { return; } boost::shared_ptr pi = boost::dynamic_pointer_cast (proc); #ifdef MIXBUS if (pi && pi->is_channelstrip ()) { pi.reset (); } #endif if (pi) { ppw.push_back (PluginPinWidgetPtr(new PluginPinWidget (pi))); vbox->pack_start (*ppw.back()); } else { HBox* hbox = manage (new HBox ()); hbox->pack_start (*manage (new HSeparator ())); hbox->pack_start (*manage (new Label (proc->display_name ()))); hbox->pack_start (*manage (new HSeparator ())); vbox->pack_start (*hbox, false, false); hbox->show_all (); } }