/* * Copyright (C) 2020-2021 Luciano Iam * * 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 "ardour/plugin_insert.h" #include "ardour/session.h" #include "ardour/tempo.h" #include "pbd/abstract_ui.cc" // instantiate template #include "feedback.h" #include "transport.h" #include "server.h" #include "state.h" // TO DO: make this configurable #define POLL_INTERVAL_MS 100 using namespace ARDOUR; using namespace ArdourSurface; struct TransportObserver { void operator() (ArdourFeedback* p) { p->update_all (Node::transport_roll, p->transport ().roll ()); } }; struct RecordStateObserver { void operator() (ArdourFeedback* p) { p->update_all (Node::transport_record, p->transport ().record ()); } }; struct TempoObserver { void operator() (ArdourFeedback* p) { p->update_all (Node::transport_tempo, p->transport ().tempo ()); } }; struct StripGainObserver { void operator() (ArdourFeedback* p, uint32_t strip_id) { // fires multiple times (4x as of ardour 6.0) p->update_all (Node::strip_gain, strip_id, p->mixer ().strip (strip_id).gain ()); } }; struct StripPanObserver { void operator() (ArdourFeedback* p, uint32_t strip_id) { p->update_all (Node::strip_pan, strip_id, p->mixer ().strip (strip_id).pan ()); } }; struct StripMuteObserver { void operator() (ArdourFeedback* p, uint32_t strip_id) { p->update_all (Node::strip_mute, strip_id, p->mixer ().strip (strip_id).mute ()); } }; struct PluginBypassObserver { void operator() (ArdourFeedback* p, uint32_t strip_id, uint32_t plugin_id) { p->update_all (Node::strip_plugin_enable, strip_id, plugin_id, p->mixer ().strip (strip_id).plugin (plugin_id).enabled ()); } }; struct PluginParamValueObserver { void operator() (ArdourFeedback* p, uint32_t strip_id, uint32_t plugin_id, uint32_t param_id, std::weak_ptr ctrl) { std::shared_ptr control = ctrl.lock (); if (!control) { return; } p->update_all (Node::strip_plugin_param_value, strip_id, plugin_id, param_id, ArdourMixerPlugin::param_value (control)); } }; FeedbackHelperUI::FeedbackHelperUI() : AbstractUI ("WS_FeedbackHelperUI") { // This renames and changes the event loop for the main thread, presumably // this is not the actually desired behavior. If this is intentional, at // least the event loop should be set back when this FeedbackHelperUI is // destroyed, as otherwise future access to the event loop is likely going // to crash. char name[64]; snprintf (name, 64, "WS-%p", (void*)DEBUG_THREAD_SELF); pthread_set_name (name); set_event_loop_for_thread (this); } void FeedbackHelperUI::do_request (BaseUI::BaseRequestObject* req) { if (req->type == CallSlot) { call_slot (MISSING_INVALIDATOR, req->the_slot); } else if (req->type == Quit) { quit (); } }; int ArdourFeedback::start () { observe_transport (); observe_mixer (); // some values need polling like the strip meters Glib::RefPtr periodic_timeout = Glib::TimeoutSource::create (POLL_INTERVAL_MS); _periodic_connection = periodic_timeout->connect (sigc::mem_fun (*this, &ArdourFeedback::poll)); // server must be started before feedback otherwise // read_blocks_event_loop() will always return false if (server ().read_blocks_event_loop ()) { _helper.run(); periodic_timeout->attach (_helper.main_loop()->get_context ()); } else { periodic_timeout->attach (main_loop ()->get_context ()); } return 0; } int ArdourFeedback::stop () { if (server ().read_blocks_event_loop ()) { _helper.quit(); } _periodic_connection.disconnect (); _transport_connections.drop_connections (); return 0; } void ArdourFeedback::update_all (std::string node, TypedValue value) const { update_all (node, ADDR_NONE, ADDR_NONE, ADDR_NONE, value); } void ArdourFeedback::update_all (std::string node, uint32_t strip_id, TypedValue value) const { update_all (node, strip_id, ADDR_NONE, ADDR_NONE, value); } void ArdourFeedback::update_all (std::string node, uint32_t strip_id, uint32_t plugin_id, TypedValue value) const { update_all (node, strip_id, plugin_id, ADDR_NONE, value); } void ArdourFeedback::update_all (std::string node, uint32_t strip_id, uint32_t plugin_id, uint32_t param_id, TypedValue value) const { AddressVector addr = AddressVector (); if (strip_id != ADDR_NONE) { addr.push_back (strip_id); } if (plugin_id != ADDR_NONE) { addr.push_back (plugin_id); } if (param_id != ADDR_NONE) { addr.push_back (param_id); } ValueVector val = ValueVector (); val.push_back (value); server ().update_all_clients (NodeState (node, addr, val), false); } PBD::EventLoop* ArdourFeedback::event_loop () const { if (server ().read_blocks_event_loop ()) { return static_cast (&_helper); } else { return SurfaceComponent::event_loop (); } } bool ArdourFeedback::poll () const { update_all (Node::transport_time, transport ().time ()); update_all (Node::transport_bbt, transport ().bbt ()); Glib::Threads::Mutex::Lock lock (mixer ().mutex ()); for (ArdourMixer::StripMap::iterator it = mixer ().strips ().begin (); it != mixer ().strips ().end (); ++it) { double db = it->second->meter_level_db (); update_all (Node::strip_meter, it->first, db); } return true; } void ArdourFeedback::observe_transport () { ARDOUR::Session& sess = session (); sess.TransportStateChange.connect (_transport_connections, MISSING_INVALIDATOR, boost::bind (TransportObserver (), this), event_loop ()); sess.RecordStateChanged.connect (_transport_connections, MISSING_INVALIDATOR, boost::bind (RecordStateObserver (), this), event_loop ()); Temporal::TempoMap::MapChanged.connect (_transport_connections, MISSING_INVALIDATOR, boost::bind (TempoObserver (), this), event_loop ()); } void ArdourFeedback::observe_mixer () { for (ArdourMixer::StripMap::iterator it = mixer().strips().begin(); it != mixer().strips().end(); ++it) { uint32_t strip_id = it->first; std::shared_ptr strip = it->second; std::shared_ptr stripable = strip->stripable (); stripable->gain_control ()->Changed.connect (*it->second, MISSING_INVALIDATOR, boost::bind (StripGainObserver (), this, strip_id), event_loop ()); if (stripable->pan_azimuth_control ()) { stripable->pan_azimuth_control ()->Changed.connect (*it->second, MISSING_INVALIDATOR, boost::bind (StripPanObserver (), this, strip_id), event_loop ()); } stripable->mute_control ()->Changed.connect (*it->second, MISSING_INVALIDATOR, boost::bind (StripMuteObserver (), this, strip_id), event_loop ()); observe_strip_plugins (strip_id, strip->plugins ()); } } void ArdourFeedback::observe_strip_plugins (uint32_t strip_id, ArdourMixerStrip::PluginMap& plugins) { for (ArdourMixerStrip::PluginMap::iterator it = plugins.begin(); it != plugins.end(); ++it) { uint32_t plugin_id = it->first; std::shared_ptr plugin = it->second; std::shared_ptr insert = plugin->insert (); uint32_t bypass = insert->plugin ()->designated_bypass_port (); Evoral::Parameter param = Evoral::Parameter (PluginAutomation, 0, bypass); std::shared_ptr control = insert->automation_control (param); if (control) { control->Changed.connect (*plugin, MISSING_INVALIDATOR, boost::bind (PluginBypassObserver (), this, strip_id, plugin_id), event_loop ()); } for (uint32_t param_id = 0; param_id < plugin->param_count (); ++param_id) { try { std::shared_ptr control = plugin->param_control (param_id); control->Changed.connect (*plugin, MISSING_INVALIDATOR, boost::bind (PluginParamValueObserver (), this, strip_id, plugin_id, param_id, std::weak_ptr(control)), event_loop ()); } catch (ArdourMixerNotFoundException& e) { /* ignore */ } } } }