/* * Copyright (C) 2017 Robin Gareus * Copyright (C) 2015 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/error.h" #include "pbd/failed_constructor.h" #include "pbd/pthread_utils.h" #include "pbd/compose.h" #include "pbd/xml++.h" #include "midi++/port.h" #include "ardour/audioengine.h" #include "ardour/audio_track.h" #include "ardour/bundle.h" #include "ardour/debug.h" #include "ardour/midi_track.h" #include "ardour/midiport_manager.h" #include "ardour/plugin_insert.h" #include "ardour/processor.h" #include "ardour/rc_configuration.h" #include "ardour/route.h" #include "ardour/session.h" #include "ardour/session_configuration.h" #include "ardour/vca.h" #include "faderport8.h" using namespace ARDOUR; using namespace ArdourSurface; using namespace PBD; using namespace Glib; using namespace std; using namespace ArdourSurface::FP8Types; #include "pbd/i18n.h" #include "pbd/abstract_ui.cc" // instantiate template #ifndef NDEBUG //#define VERBOSE_DEBUG #endif static void debug_2byte_msg (std::string const& msg, int b0, int b1) { #ifndef NDEBUG if (DEBUG_ENABLED(DEBUG::FaderPort8)) { DEBUG_STR_DECL(a); DEBUG_STR_APPEND(a, "RECV: "); DEBUG_STR_APPEND(a, msg); DEBUG_STR_APPEND(a,' '); DEBUG_STR_APPEND(a,hex); DEBUG_STR_APPEND(a,"0x"); DEBUG_STR_APPEND(a, b0); DEBUG_STR_APPEND(a,' '); DEBUG_STR_APPEND(a,"0x"); DEBUG_STR_APPEND(a, b1); DEBUG_STR_APPEND(a,'\n'); DEBUG_TRACE (DEBUG::FaderPort8, DEBUG_STR(a).str()); } #endif } FaderPort8::FaderPort8 (Session& s) : ControlProtocol (s, _("PreSonus FaderPort8")) , AbstractUI (name()) , _connection_state (ConnectionState (0)) , _device_active (false) , _ctrls (*this) , _channel_off (0) , _plugin_off (0) , _parameter_off (0) , _blink_onoff (false) , _shift_lock (false) , _shift_pressed (false) , gui (0) { boost::shared_ptr inp; boost::shared_ptr outp; inp = AudioEngine::instance()->register_input_port (DataType::MIDI, "FaderPort8 Recv", true); outp = AudioEngine::instance()->register_output_port (DataType::MIDI, "FaderPort8 Send", true); _input_port = boost::dynamic_pointer_cast(inp); _output_port = boost::dynamic_pointer_cast(outp); if (_input_port == 0 || _output_port == 0) { throw failed_constructor(); } _input_bundle.reset (new ARDOUR::Bundle (_("FaderPort8 (Receive)"), true)); _output_bundle.reset (new ARDOUR::Bundle (_("FaderPort8 (Send) "), false)); _input_bundle->add_channel ( inp->name(), ARDOUR::DataType::MIDI, session->engine().make_port_name_non_relative (inp->name()) ); _output_bundle->add_channel ( outp->name(), ARDOUR::DataType::MIDI, session->engine().make_port_name_non_relative (outp->name()) ); ARDOUR::AudioEngine::instance()->PortConnectedOrDisconnected.connect (port_connection, MISSING_INVALIDATOR, boost::bind (&FaderPort8::connection_handler, this, _1, _2, _3, _4, _5), this); StripableSelectionChanged.connect (selection_connection, MISSING_INVALIDATOR, boost::bind (&FaderPort8::gui_track_selection_changed, this), this); setup_actions (); _ctrls.FaderModeChanged.connect_same_thread (modechange_connections, boost::bind (&FaderPort8::notify_fader_mode_changed, this)); _ctrls.MixModeChanged.connect_same_thread (modechange_connections, boost::bind (&FaderPort8::assign_strips, this, true)); } FaderPort8::~FaderPort8 () { cerr << "~FP8\n"; stop_midi_handling (); close (); if (_input_port) { DEBUG_TRACE (DEBUG::FaderPort8, string_compose ("unregistering input port %1\n", boost::shared_ptr(_input_port)->name())); AudioEngine::instance()->unregister_port (_input_port); _input_port.reset (); } if (_output_port) { _output_port->drain (10000, 250000); /* check every 10 msecs, wait up to 1/4 second for the port to drain */ DEBUG_TRACE (DEBUG::FaderPort8, string_compose ("unregistering output port %1\n", boost::shared_ptr(_output_port)->name())); AudioEngine::instance()->unregister_port (_output_port); _output_port.reset (); } tear_down_gui (); /* stop event loop */ DEBUG_TRACE (DEBUG::FaderPort8, "BaseUI::quit ()\n"); BaseUI::quit (); } /* **************************************************************************** * Event Loop */ void* FaderPort8::request_factory (uint32_t num_requests) { /* AbstractUI::request_buffer_factory() is a template method only * instantiated in this source module. To provide something visible for * use in the interface/descriptor, we have this static method that is * template-free. */ return request_buffer_factory (num_requests); } void FaderPort8::do_request (FaderPort8Request* req) { if (req->type == CallSlot) { call_slot (MISSING_INVALIDATOR, req->the_slot); } else if (req->type == Quit) { stop (); } } int FaderPort8::stop () { BaseUI::quit (); return 0; } void FaderPort8::thread_init () { struct sched_param rtparam; pthread_set_name (event_loop_name().c_str()); PBD::notify_event_loops_about_thread_creation (pthread_self(), event_loop_name(), 2048); ARDOUR::SessionEvent::create_per_thread_pool (event_loop_name(), 128); memset (&rtparam, 0, sizeof (rtparam)); rtparam.sched_priority = 9; /* XXX should be relative to audio (JACK) thread */ if (pthread_setschedparam (pthread_self(), SCHED_FIFO, &rtparam) != 0) { // do we care? not particularly. } } bool FaderPort8::periodic () { /* prepare TC display -- handled by stripable Periodic () */ if (_ctrls.display_timecode ()) { // TODO allow BBT, HHMMSS // used in FP8Strip::periodic_update_timecode Timecode::Time TC; session->timecode_time (TC); _timecode = Timecode::timecode_format_time(TC); } else { _timecode.clear (); } /* update stripables */ Periodic (); return true; } bool FaderPort8::blink_it () { _blink_onoff = !_blink_onoff; BlinkIt (_blink_onoff); return true; } /* **************************************************************************** * Port and Signal Connection Management */ int FaderPort8::set_active (bool yn) { DEBUG_TRACE (DEBUG::FaderPort8, string_compose("set_active init with yn: '%1'\n", yn)); if (yn == active()) { return 0; } if (yn) { /* start event loop */ BaseUI::run (); connect_session_signals (); } else { BaseUI::quit (); close (); } ControlProtocol::set_active (yn); DEBUG_TRACE (DEBUG::FaderPort8, string_compose("set_active done with yn: '%1'\n", yn)); return 0; } void FaderPort8::close () { _assigned_strips.clear (); stop_midi_handling (); session_connections.drop_connections (); automation_state_connections.drop_connections (); assigned_stripable_connections.drop_connections (); drop_ctrl_connections (); port_connection.disconnect (); selection_connection.disconnect (); } void FaderPort8::stop_midi_handling () { _periodic_connection.disconnect (); _blink_connection.disconnect (); midi_connections.drop_connections (); /* Note: the input handler is still active at this point, but we're no * longer connected to any of the parser signals */ } void FaderPort8::connected () { DEBUG_TRACE (DEBUG::FaderPort8, "initializing\n"); // ideally check firmware version >= 1.01 (USB bcdDevice 0x0101) (vendor 0x194f prod 0x0202) // but we don't have a handle to the underlying USB device here. _channel_off = _plugin_off = _parameter_off = 0; _blink_onoff = false; _shift_lock = false; _shift_pressed = false; start_midi_handling (); _ctrls.initialize (); /* highlight bound user-actions */ for (FP8Controls::UserButtonMap::const_iterator i = _ctrls.user_buttons ().begin (); i != _ctrls.user_buttons ().end (); ++i) { _ctrls.button (i->first).set_active (! _user_action_map[i->first].empty ()); } /* shift button lights */ tx_midi3 (0x90, 0x06, 0x00); tx_midi3 (0x90, 0x46, 0x00); send_session_state (); assign_strips (true); Glib::RefPtr blink_timer = Glib::TimeoutSource::create (200); _blink_connection = blink_timer->connect (sigc::mem_fun (*this, &FaderPort8::blink_it)); blink_timer->attach (main_loop()->get_context()); Glib::RefPtr periodic_timer = Glib::TimeoutSource::create (100); _periodic_connection = periodic_timer->connect (sigc::mem_fun (*this, &FaderPort8::periodic)); periodic_timer->attach (main_loop()->get_context()); } void FaderPort8::disconnected () { stop_midi_handling (); for (uint8_t id = 0; id < 8; ++id) { _ctrls.strip(id).unset_controllables (); } } bool FaderPort8::connection_handler (boost::weak_ptr, std::string name1, boost::weak_ptr, std::string name2, bool yn) { #ifdef VERBOSE_DEBUG DEBUG_TRACE (DEBUG::FaderPort8, "FaderPort8::connection_handler: start\n"); #endif if (!_input_port || !_output_port) { return false; } string ni = ARDOUR::AudioEngine::instance()->make_port_name_non_relative (boost::shared_ptr(_input_port)->name()); string no = ARDOUR::AudioEngine::instance()->make_port_name_non_relative (boost::shared_ptr(_output_port)->name()); if (ni == name1 || ni == name2) { if (yn) { _connection_state |= InputConnected; } else { _connection_state &= ~InputConnected; } } else if (no == name1 || no == name2) { if (yn) { _connection_state |= OutputConnected; } else { _connection_state &= ~OutputConnected; } } else { #ifdef VERBOSE_DEBUG DEBUG_TRACE (DEBUG::FaderPort8, string_compose ("Connections between %1 and %2 changed, but I ignored it\n", name1, name2)); #endif /* not our ports */ return false; } if ((_connection_state & (InputConnected|OutputConnected)) == (InputConnected|OutputConnected)) { /* XXX this is a horrible hack. Without a short sleep here, * something prevents the device wakeup messages from being * sent and/or the responses from being received. */ g_usleep (100000); DEBUG_TRACE (DEBUG::FaderPort8, "device now connected for both input and output\n"); connected (); _device_active = true; } else { DEBUG_TRACE (DEBUG::FaderPort8, "Device disconnected (input or output or both) or not yet fully connected\n"); disconnected (); _device_active = false; } ConnectionChange (); /* emit signal for our GUI */ #ifdef VERBOSE_DEBUG DEBUG_TRACE (DEBUG::FaderPort8, "FaderPort8::connection_handler: end\n"); #endif return true; /* connection status changed */ } list > FaderPort8::bundles () { list > b; if (_input_bundle) { b.push_back (_input_bundle); b.push_back (_output_bundle); } return b; } /* **************************************************************************** * MIDI I/O */ bool FaderPort8::midi_input_handler (Glib::IOCondition ioc, boost::weak_ptr wport) { boost::shared_ptr port (wport.lock()); if (!port) { return false; } #ifdef VERBOSE_DEBUG DEBUG_TRACE (DEBUG::FaderPort8, string_compose ("something happend on %1\n", boost::shared_ptr(port)->name())); #endif if (ioc & ~IO_IN) { return false; } if (ioc & IO_IN) { port->clear (); #ifdef VERBOSE_DEBUG DEBUG_TRACE (DEBUG::FaderPort8, string_compose ("data available on %1\n", boost::shared_ptr(port)->name())); #endif framepos_t now = session->engine().sample_time(); port->parse (now); } return true; } void FaderPort8::start_midi_handling () { _input_port->parser()->sysex.connect_same_thread (midi_connections, boost::bind (&FaderPort8::sysex_handler, this, _1, _2, _3)); _input_port->parser()->poly_pressure.connect_same_thread (midi_connections, boost::bind (&FaderPort8::polypressure_handler, this, _1, _2)); for (uint8_t i = 0; i < 16; ++i) { _input_port->parser()->channel_pitchbend[i].connect_same_thread (midi_connections, boost::bind (&FaderPort8::pitchbend_handler, this, _1, i, _2)); } _input_port->parser()->controller.connect_same_thread (midi_connections, boost::bind (&FaderPort8::controller_handler, this, _1, _2)); _input_port->parser()->note_on.connect_same_thread (midi_connections, boost::bind (&FaderPort8::note_on_handler, this, _1, _2)); _input_port->parser()->note_off.connect_same_thread (midi_connections, boost::bind (&FaderPort8::note_off_handler, this, _1, _2)); /* This connection means that whenever data is ready from the input * port, the relevant thread will invoke our ::midi_input_handler() * method, which will read the data, and invoke the parser. */ _input_port->xthread().set_receive_handler (sigc::bind (sigc::mem_fun (this, &FaderPort8::midi_input_handler), boost::weak_ptr (_input_port))); _input_port->xthread().attach (main_loop()->get_context()); } size_t FaderPort8::tx_midi (std::vector const& d) const { /* work around midi buffer overflow for batch changes */ if (d.size() == 3 && (d[0] == 0x91 || d[0] == 0x92)) { /* set colors triplet in one go */ } else if (d.size() == 3 && (d[0] == 0x93)) { g_usleep (1500); } else { g_usleep (400 * d.size()); } #ifndef NDEBUG size_t tx = _output_port->write (&d[0], d.size(), 0); assert (tx == d.size()); return tx; #else return _output_port->write (&d[0], d.size(), 0); #endif } /* **************************************************************************** * MIDI Callbacks */ void FaderPort8::polypressure_handler (MIDI::Parser &, MIDI::EventTwoBytes* tb) { debug_2byte_msg ("PP", tb->controller_number, tb->value); // outgoing only (meter) } void FaderPort8::pitchbend_handler (MIDI::Parser &, uint8_t chan, MIDI::pitchbend_t pb) { debug_2byte_msg ("PB", chan, pb); /* fader 0..16368 (0x3ff0 -- 1024 steps) */ bool handled = _ctrls.midi_fader (chan, pb); /* if Shift key is held while moving a fader (group override), don't lock shift. */ if (_shift_pressed && handled) { _shift_connection.disconnect (); _shift_lock = false; } } void FaderPort8::controller_handler (MIDI::Parser &, MIDI::EventTwoBytes* tb) { debug_2byte_msg ("CC", tb->controller_number, tb->value); // encoder // val Bit 7 = direction, Bits 0-6 = number of steps if (tb->controller_number == 0x3c) { encoder_navigate (tb->value & 0x40 ? true : false, tb->value & 0x3f); } if (tb->controller_number == 0x10) { encoder_parameter (tb->value & 0x40 ? true : false, tb->value & 0x3f); } } void FaderPort8::note_on_handler (MIDI::Parser &, MIDI::EventTwoBytes* tb) { debug_2byte_msg ("ON", tb->note_number, tb->velocity); /* fader touch */ if (tb->note_number >= 0x68 && tb->note_number <= 0x6f) { _ctrls.midi_touch (tb->note_number - 0x68, tb->velocity); return; } /* special case shift */ if (tb->note_number == 0x06 || tb->note_number == 0x46) { _shift_pressed = true; _shift_connection.disconnect (); if (_shift_lock) { _shift_lock = false; ShiftButtonChange (false); tx_midi3 (0x90, 0x06, 0x00); tx_midi3 (0x90, 0x46, 0x00); return; } Glib::RefPtr shift_timer = Glib::TimeoutSource::create (1000); shift_timer->attach (main_loop()->get_context()); _shift_connection = shift_timer->connect (sigc::mem_fun (*this, &FaderPort8::shift_timeout)); ShiftButtonChange (true); tx_midi3 (0x90, 0x06, 0x7f); tx_midi3 (0x90, 0x46, 0x7f); return; } _ctrls.midi_event (tb->note_number, tb->velocity); } void FaderPort8::note_off_handler (MIDI::Parser &, MIDI::EventTwoBytes* tb) { debug_2byte_msg ("OF", tb->note_number, tb->velocity); if (tb->note_number >= 0x68 && tb->note_number <= 0x6f) { // fader touch _ctrls.midi_touch (tb->note_number - 0x68, tb->velocity); return; } /* special case shift */ if (tb->note_number == 0x06 || tb->note_number == 0x46) { _shift_pressed = false; if (_shift_lock) { return; } ShiftButtonChange (false); tx_midi3 (0x90, 0x06, 0x00); tx_midi3 (0x90, 0x46, 0x00); /* just in case this happens concurrently */ _shift_connection.disconnect (); _shift_lock = false; return; } bool handled = _ctrls.midi_event (tb->note_number, tb->velocity); /* if Shift key is held while activating an action, don't lock shift. */ if (_shift_pressed && handled) { _shift_connection.disconnect (); _shift_lock = false; } } void FaderPort8::sysex_handler (MIDI::Parser &p, MIDI::byte *buf, size_t size) { #ifndef NDEBUG if (DEBUG_ENABLED(DEBUG::FaderPort8)) { DEBUG_STR_DECL(a); DEBUG_STR_APPEND(a, string_compose ("RECV sysex siz=%1", size)); for (size_t i=0; i < size; ++i) { DEBUG_STR_APPEND(a,hex); DEBUG_STR_APPEND(a,"0x"); DEBUG_STR_APPEND(a,(int)buf[i]); DEBUG_STR_APPEND(a,' '); } DEBUG_STR_APPEND(a,'\n'); DEBUG_TRACE (DEBUG::FaderPort8, DEBUG_STR(a).str()); } #endif } /* **************************************************************************** * User actions */ void FaderPort8::set_button_action (FP8Controls::ButtonId id, bool press, std::string const& action_name) { if (_ctrls.user_buttons().find (id) == _ctrls.user_buttons().end ()) { return; } _user_action_map[id].action (press).assign_action (action_name); if (!_device_active) { return; } _ctrls.button (id).set_active (!_user_action_map[id].empty ()); } std::string FaderPort8::get_button_action (FP8Controls::ButtonId id, bool press) { return _user_action_map[id].action(press)._action_name; } /* **************************************************************************** * Persistent State */ XMLNode& FaderPort8::get_state () { DEBUG_TRACE (DEBUG::FaderPort8, "FaderPort8::get_state\n"); XMLNode& node (ControlProtocol::get_state()); XMLNode* child; child = new XMLNode (X_("Input")); child->add_child_nocopy (boost::shared_ptr(_input_port)->get_state()); node.add_child_nocopy (*child); child = new XMLNode (X_("Output")); child->add_child_nocopy (boost::shared_ptr(_output_port)->get_state()); node.add_child_nocopy (*child); for (UserActionMap::const_iterator i = _user_action_map.begin (); i != _user_action_map.end (); ++i) { if (i->second.empty()) { continue; } std::string name; if (!_ctrls.button_enum_to_name (i->first, name)) { continue; } XMLNode* btn = new XMLNode (X_("Button")); btn->add_property (X_("id"), name); if (!i->second.action(true).empty ()) { btn->add_property ("press", i->second.action(true)._action_name); } if (!i->second.action(false).empty ()) { btn->add_property ("release", i->second.action(false)._action_name); } node.add_child_nocopy (*btn); } return node; } int FaderPort8::set_state (const XMLNode& node, int version) { DEBUG_TRACE (DEBUG::FaderPort8, "FaderPort8::set_state\n"); XMLNodeList nlist; XMLNodeConstIterator niter; XMLNode const* child; if (ControlProtocol::set_state (node, version)) { return -1; } if ((child = node.child (X_("Input"))) != 0) { XMLNode* portnode = child->child (Port::state_node_name.c_str()); if (portnode) { DEBUG_TRACE (DEBUG::FaderPort8, "FaderPort8::set_state Input\n"); boost::shared_ptr(_input_port)->set_state (*portnode, version); } } if ((child = node.child (X_("Output"))) != 0) { XMLNode* portnode = child->child (Port::state_node_name.c_str()); if (portnode) { DEBUG_TRACE (DEBUG::FaderPort8, "FaderPort8::set_state Output\n"); boost::shared_ptr(_output_port)->set_state (*portnode, version); } } _user_action_map.clear (); // TODO: When re-loading state w/o surface re-init becomes possible, // unset lights and reset colors of user buttons. for (XMLNodeList::const_iterator n = node.children().begin(); n != node.children().end(); ++n) { if ((*n)->name() != X_("Button")) { continue; } XMLProperty const* prop = (*n)->property (X_("id")); if (!prop) { continue; } FP8Controls::ButtonId id; if (!_ctrls.button_name_to_enum (prop->value(), id)) { continue; } prop = (*n)->property (X_("press")); if (prop) { set_button_action (id, true, prop->value()); } prop = (*n)->property (X_("release")); if (prop) { set_button_action (id, false, prop->value()); } } return 0; } /* **************************************************************************** * Stripable Assignment */ static bool flt_audio_track (boost::shared_ptr s) { return boost::dynamic_pointer_cast(s) != 0; } static bool flt_midi_track (boost::shared_ptr s) { return boost::dynamic_pointer_cast(s) != 0; } static bool flt_bus (boost::shared_ptr s) { if (boost::dynamic_pointer_cast(s) == 0) { return false; } #ifdef MIXBUS if (s->mixbus () == 0) { return false; } #endif return boost::dynamic_pointer_cast(s) == 0; } static bool flt_auxbus (boost::shared_ptr s) { if (boost::dynamic_pointer_cast(s) == 0) { return false; } #ifdef MIXBUS if (s->mixbus () > 0) { return false; } #endif return boost::dynamic_pointer_cast(s) == 0; } static bool flt_vca (boost::shared_ptr s) { return boost::dynamic_pointer_cast(s) != 0; } static bool flt_selected (boost::shared_ptr s) { return s->is_selected (); } static bool flt_mains (boost::shared_ptr s) { return (s->is_master() || s->is_monitor()); } static bool flt_all (boost::shared_ptr s) { return true; } static bool flt_rec_armed (boost::shared_ptr s) { boost::shared_ptr t = boost::dynamic_pointer_cast(s); if (!t) { return false; } return t->rec_enable_control ()->get_value () > 0.; } static bool flt_instrument (boost::shared_ptr s) { boost::shared_ptr r = boost::dynamic_pointer_cast(s); if (!r) { return false; } return 0 != r->the_instrument (); } struct FP8SortByNewDisplayOrder { // return (a < b) bool operator () (const boost::shared_ptr & a, const boost::shared_ptr & b) const { if (a->presentation_info().flags () == b->presentation_info().flags ()) { return a->presentation_info().order() < b->presentation_info().order(); } int cmp_a = 0; int cmp_b = 0; if (a->presentation_info().flags () & ARDOUR::PresentationInfo::VCA) { cmp_a = 1; } #ifdef MIXBUS else if (a->presentation_info().flags () & ARDOUR::PresentationInfo::MasterOut) { cmp_a = 3; } else if (a->presentation_info().flags () & ARDOUR::PresentationInfo::Mixbus || a->mixbus()) { cmp_a = 2; } #endif if (b->presentation_info().flags () & ARDOUR::PresentationInfo::VCA) { cmp_b = 1; } #ifdef MIXBUS else if (b->presentation_info().flags () & ARDOUR::PresentationInfo::MasterOut) { cmp_b = 3; } else if (b->presentation_info().flags () & ARDOUR::PresentationInfo::Mixbus || b->mixbus()) { cmp_b = 2; } #endif #ifdef MIXBUS // this can happen with older MB sessions (no PresentationInfo::Mixbus flag) if (cmp_a == cmp_b) { return a->presentation_info().order() < b->presentation_info().order(); } #endif return cmp_a < cmp_b; } }; void FaderPort8::filter_stripables (StripableList& strips) const { typedef bool (*FilterFunction)(boost::shared_ptr); FilterFunction flt; bool allow_master = false; bool allow_monitor = false; switch (_ctrls.mix_mode ()) { case MixAudio: flt = &flt_audio_track; break; case MixInstrument: flt = &flt_instrument; break; case MixBus: flt = &flt_bus; break; case MixVCA: flt = &flt_vca; break; case MixMIDI: flt = &flt_midi_track; break; case MixUser: allow_master = true; flt = &flt_selected; break; case MixOutputs: allow_master = true; allow_monitor = true; flt = &flt_mains; break; case MixInputs: flt = &flt_rec_armed; break; case MixFX: flt = &flt_auxbus; break; case MixAll: allow_master = true; flt = &flt_all; break; } StripableList all; session->get_stripables (all); for (StripableList::const_iterator s = all.begin(); s != all.end(); ++s) { if ((*s)->is_auditioner ()) { continue; } if ((*s)->is_hidden ()) { continue; } if (!allow_master && (*s)->is_master ()) { continue; } if (!allow_monitor && (*s)->is_monitor ()) { continue; } if ((*flt)(*s)) { strips.push_back (*s); } } strips.sort (FP8SortByNewDisplayOrder()); } /* Track/Pan mode: assign stripable to strips */ void FaderPort8::assign_stripables (bool select_only) { StripableList strips; filter_stripables (strips); if (!select_only) { set_periodic_display_mode (FP8Strip::Stripables); } int n_strips = strips.size(); _channel_off = std::min (_channel_off, n_strips - 8); _channel_off = std::max (0, _channel_off); uint8_t id = 0; int skip = _channel_off; for (StripableList::const_iterator s = strips.begin(); s != strips.end(); ++s) { if (skip > 0) { --skip; continue; } _assigned_strips[*s] = id; (*s)->DropReferences.connect (assigned_stripable_connections, MISSING_INVALIDATOR, boost::bind (&FaderPort8::notify_stripable_added_or_removed, this), this); (*s)->PropertyChanged.connect (assigned_stripable_connections, MISSING_INVALIDATOR, boost::bind (&FaderPort8::notify_stripable_property_changed, this, boost::weak_ptr (*s), _1), this); (*s)->presentation_info ().PropertyChanged.connect (assigned_stripable_connections, MISSING_INVALIDATOR, boost::bind (&FaderPort8::notify_stripable_property_changed, this, boost::weak_ptr (*s), _1), this); if (select_only) { _ctrls.strip(id).set_text_line (3, (*s)->name (), true); _ctrls.strip(id).select_button ().set_color ((*s)->presentation_info ().color()); /* update selection lights */ _ctrls.strip(id).select_button ().set_active ((*s)->is_selected ()); _ctrls.strip(id).select_button ().set_blinking (*s == first_selected_stripable ()); } else { _ctrls.strip(id).set_stripable (*s, _ctrls.fader_mode() == ModePan); } boost::function cb (boost::bind (&FaderPort8::select_strip, this, boost::weak_ptr (*s))); _ctrls.strip(id).set_select_cb (cb); if (++id == 8) { break; } } for (; id < 8; ++id) { _ctrls.strip(id).unset_controllables (select_only ? (FP8Strip::CTRL_SELECT | FP8Strip::CTRL_TEXT3) : FP8Strip::CTRL_ALL); } } void FaderPort8::assign_processor_ctrls () { int n_parameters = _proc_params.size(); if (n_parameters == 0) { _ctrls.set_fader_mode (ModeTrack); return; } set_periodic_display_mode (FP8Strip::PluginParam); _parameter_off = std::min (_parameter_off, n_parameters - 8); _parameter_off = std::max (0, _parameter_off); int skip = _parameter_off; uint8_t id = 0; for ( std::list ::iterator i = _proc_params.begin(); i != _proc_params.end(); ++i) { if (skip > 0) { --skip; continue; } _ctrls.strip(id).unset_controllables (FP8Strip::CTRL_ALL & ~FP8Strip::CTRL_FADER & ~FP8Strip::CTRL_TEXT0); _ctrls.strip(id).set_fader_controllable ((*i).ac); _ctrls.strip(id).set_text_line (0, (*i).name); if (++id == 8) { break; } } // clear remaining for (; id < 8; ++id) { _ctrls.strip(id).unset_controllables (); } } void FaderPort8::build_well_known_processor_ctrls (boost::shared_ptr s, bool eq) { #define PUSH_BACK_NON_NULL(N, C) do {if (C) { _proc_params.push_back (ProcessorCtrl (N, C)); }} while (0) _proc_params.clear (); if (eq) { int cnt = s->eq_band_cnt(); PUSH_BACK_NON_NULL ("Enable", s->eq_enable_controllable ()); PUSH_BACK_NON_NULL ("HPF", s->eq_hpf_controllable ()); for (int band = 0; band < cnt; ++band) { std::string bn = s->eq_band_name (band); PUSH_BACK_NON_NULL (string_compose ("Gain %1", bn), s->eq_gain_controllable (band)); PUSH_BACK_NON_NULL (string_compose ("Freq %1", bn), s->eq_freq_controllable (band)); PUSH_BACK_NON_NULL (string_compose ("Band %1", bn), s->eq_q_controllable (band)); PUSH_BACK_NON_NULL (string_compose ("Shape %1", bn), s->eq_shape_controllable (band)); } } else { PUSH_BACK_NON_NULL ("Enable", s->comp_enable_controllable ()); PUSH_BACK_NON_NULL ("Threshold", s->comp_threshold_controllable ()); PUSH_BACK_NON_NULL ("Speed", s->comp_speed_controllable ()); PUSH_BACK_NON_NULL ("Mode", s->comp_mode_controllable ()); } } void FaderPort8::select_plugin (int num) { // make sure drop_ctrl_connections() was called assert (_proc_params.size() == 0 && _showing_well_known == 0); boost::shared_ptr r = boost::dynamic_pointer_cast (first_selected_stripable()); if (!r) { _ctrls.set_fader_mode (ModeTrack); return; } if (num < 0) { build_well_known_processor_ctrls (r, num == -1); assign_processor_ctrls (); _showing_well_known = num; return; } _showing_well_known = 0; boost::shared_ptr proc = r->nth_plugin (num); if (!proc) { _ctrls.set_fader_mode (ModeTrack); return; } // switching to "Mode Track" -> calls FaderPort8::notify_fader_mode_changed() // which drops the references, disconnects the signal and re-spills tracks proc->DropReferences.connect (processor_connections, MISSING_INVALIDATOR, boost::bind (&FP8Controls::set_fader_mode, &_ctrls, ModeTrack), this); // build params _proc_params.clear(); set p = proc->what_can_be_automated (); for (set::iterator i = p.begin(); i != p.end(); ++i) { std::string n = proc->describe_parameter (*i); if (n == "hidden") { continue; } _proc_params.push_back (ProcessorCtrl (n, proc->automation_control (*i))); } // TODO: open plugin GUI if (_proc_params.size() > 0) // display assign_processor_ctrls (); } /* short 4 chars at most */ static std::string plugintype (ARDOUR::PluginType t) { switch (t) { case AudioUnit: return "AU"; case LADSPA: return "LV1"; case LV2: return "LV2"; case Windows_VST: case LXVST: case MacVST: return "VST"; case Lua: return "Lua"; default: break; } return enum_2_string (t); } void FaderPort8::spill_plugins () { boost::shared_ptr r = boost::dynamic_pointer_cast (first_selected_stripable()); if (!r) { _ctrls.set_fader_mode (ModeTrack); return; } drop_ctrl_connections (); // switching to "Mode Track" -> calls FaderPort8::notify_fader_mode_changed() // which drops the references, disconnects the signal and re-spills tracks r->DropReferences.connect (processor_connections, MISSING_INVALIDATOR, boost::bind (&FP8Controls::set_fader_mode, &_ctrls, ModeTrack), this); // update when processor change r->processors_changed.connect (processor_connections, MISSING_INVALIDATOR, boost::bind (&FaderPort8::spill_plugins, this), this); // count available boost::shared_ptr proc; std::vector procs; for (uint32_t i = 0; 0 != (proc = r->nth_plugin (i)); ++i) { if (!proc->display_to_user ()) { continue; } int n_controls = 0; set p = proc->what_can_be_automated (); for (set::iterator i = p.begin(); i != p.end(); ++i) { std::string n = proc->describe_parameter (*i); if (n == "hidden") { continue; } ++n_controls; } if (n_controls > 0) { procs.push_back (i); } } int n_plugins = procs.size(); int spillwidth = 8; bool have_well_known_eq = false; bool have_well_known_comp = false; // reserve last slot(s) for "well-known" if (r->eq_band_cnt() > 0) { --spillwidth; have_well_known_eq = true; } if (r->comp_enable_controllable ()) { --spillwidth; have_well_known_comp = true; } if (n_plugins == 0 && !have_well_known_eq && !have_well_known_comp) { _ctrls.set_fader_mode (ModeTrack); return; } set_periodic_display_mode (FP8Strip::PluginSelect); _plugin_off = std::min (_plugin_off, n_plugins - spillwidth); _plugin_off = std::max (0, _plugin_off); uint8_t id = 0; for (uint32_t i = _plugin_off; ; ++i) { if (i >= procs.size()) { break; } boost::shared_ptr proc = r->nth_plugin (procs[i]); if (!proc) { break; } boost::shared_ptr pi = boost::dynamic_pointer_cast (proc); boost::function cb (boost::bind (&FaderPort8::select_plugin, this, i)); _ctrls.strip(id).unset_controllables (FP8Strip::CTRL_ALL & ~FP8Strip::CTRL_TEXT & ~FP8Strip::CTRL_SELECT); _ctrls.strip(id).set_select_cb (cb); _ctrls.strip(id).select_button ().set_color (0x00ff00ff); _ctrls.strip(id).select_button ().set_active (true /*proc->enabled()*/); _ctrls.strip(id).select_button ().set_blinking (false); _ctrls.strip(id).set_text_line (0, proc->name()); _ctrls.strip(id).set_text_line (1, pi->plugin()->maker()); _ctrls.strip(id).set_text_line (2, plugintype (pi->type())); _ctrls.strip(id).set_text_line (3, ""); if (++id == spillwidth) { break; } } // clear remaining for (; id < spillwidth; ++id) { _ctrls.strip(id).unset_controllables (); } if (have_well_known_comp) { assert (id < 8); boost::function cb (boost::bind (&FaderPort8::select_plugin, this, -2)); _ctrls.strip(id).unset_controllables (FP8Strip::CTRL_ALL & ~FP8Strip::CTRL_TEXT & ~FP8Strip::CTRL_SELECT); _ctrls.strip(id).set_select_cb (cb); _ctrls.strip(id).select_button ().set_color (0xffff00ff); _ctrls.strip(id).select_button ().set_active (true); _ctrls.strip(id).select_button ().set_blinking (false); _ctrls.strip(id).set_text_line (0, "Comp"); _ctrls.strip(id).set_text_line (1, "Built-In"); _ctrls.strip(id).set_text_line (2, "--"); _ctrls.strip(id).set_text_line (3, ""); ++id; } if (have_well_known_eq) { assert (id < 8); boost::function cb (boost::bind (&FaderPort8::select_plugin, this, -1)); _ctrls.strip(id).unset_controllables (FP8Strip::CTRL_ALL & ~FP8Strip::CTRL_TEXT & ~FP8Strip::CTRL_SELECT); _ctrls.strip(id).set_select_cb (cb); _ctrls.strip(id).select_button ().set_color (0xffff00ff); _ctrls.strip(id).select_button ().set_active (true); _ctrls.strip(id).select_button ().set_blinking (false); _ctrls.strip(id).set_text_line (0, "EQ"); _ctrls.strip(id).set_text_line (1, "Built-In"); _ctrls.strip(id).set_text_line (2, "--"); _ctrls.strip(id).set_text_line (3, ""); ++id; } assert (id == 8); } void FaderPort8::assign_sends () { boost::shared_ptr s = first_selected_stripable(); if (!s) { _ctrls.set_fader_mode (ModeTrack); return; } int n_sends = 0; while (0 != s->send_level_controllable (n_sends)) { ++n_sends; } if (n_sends == 0) { _ctrls.set_fader_mode (ModeTrack); return; } drop_ctrl_connections (); s->DropReferences.connect (processor_connections, MISSING_INVALIDATOR, boost::bind (&FP8Controls::set_fader_mode, &_ctrls, ModeTrack), this); set_periodic_display_mode (FP8Strip::SendDisplay); _plugin_off = std::min (_plugin_off, n_sends - 8); _plugin_off = std::max (0, _plugin_off); uint8_t id = 0; int skip = _parameter_off; for (uint32_t i = _plugin_off; ; ++i) { if (skip > 0) { --skip; continue; } boost::shared_ptr send = s->send_level_controllable (i); if (!send) { break; } _ctrls.strip(id).unset_controllables (FP8Strip::CTRL_ALL & ~FP8Strip::CTRL_FADER & ~FP8Strip::CTRL_TEXT0 & ~FP8Strip::CTRL_TEXT1 & ~FP8Strip::CTRL_TEXT3 & ~FP8Strip::CTRL_SELECT); _ctrls.strip(id).set_fader_controllable (send); _ctrls.strip(id).set_text_line (0, s->send_name (i)); _ctrls.strip(id).set_mute_controllable (s->send_enable_controllable (i)); _ctrls.strip(id).set_solo_controllable (s->master_send_enable_controllable ()); // XXX if (++id == 8) { break; } } // clear remaining for (; id < 8; ++id) { _ctrls.strip(id).unset_controllables (FP8Strip::CTRL_ALL & ~FP8Strip::CTRL_TEXT3 & ~FP8Strip::CTRL_SELECT); } /* set select buttons */ assign_stripables (true); } void FaderPort8::set_periodic_display_mode (FP8Strip::DisplayMode m) { for (uint8_t id = 0; id < 8; ++id) { _ctrls.strip(id).set_periodic_display_mode (m); } } void FaderPort8::assign_strips (bool reset_bank) { if (reset_bank) { _channel_off = 0; } _assigned_strips.clear (); assigned_stripable_connections.drop_connections (); FaderMode fadermode = _ctrls.fader_mode (); switch (fadermode) { case ModeTrack: case ModePan: assign_stripables (); gui_track_selection_changed (); // update selection, automation-state break; case ModePlugins: if (_proc_params.size() > 0) { assign_processor_ctrls (); } else { spill_plugins (); } break; case ModeSend: assign_sends (); break; } } void FaderPort8::drop_ctrl_connections () { _proc_params.clear(); processor_connections.drop_connections (); _showing_well_known = 0; } void FaderPort8::notify_fader_mode_changed () { FaderMode fadermode = _ctrls.fader_mode (); boost::shared_ptr s = first_selected_stripable(); if (!s && (fadermode == ModePlugins || fadermode == ModeSend)) { _ctrls.set_fader_mode (ModeTrack); return; } drop_ctrl_connections (); switch (fadermode) { case ModeTrack: case ModePan: break; case ModePlugins: case ModeSend: _plugin_off = 0; _parameter_off = 0; // force unset rec-arm button, see also FaderPort8::button_arm _ctrls.button (FP8Controls::BtnArm).set_active (false); ARMButtonChange (false); break; } assign_strips (false); notify_automation_mode_changed (); } /* **************************************************************************** * Assigned Stripable Callbacks */ void FaderPort8::notify_stripable_added_or_removed () { /* called by * - DropReferences * - session->RouteAdded * - PresentationInfo::Change * - Properties::hidden * - Properties::order */ assign_strips (false); } /* functor for FP8Strip's select button */ void FaderPort8::select_strip (boost::weak_ptr ws) { boost::shared_ptr s = ws.lock(); if (!s) { return; } if (shift_mod ()) { if (s->is_selected ()) { RemoveStripableFromSelection (s); } else { SetStripableSelection (s); } return; } if (s->is_selected () && s != first_selected_stripable ()) { set_first_selected_stripable (s); gui_track_selection_changed (); } else { ToggleStripableSelection (s); } } /* called from static PresentationInfo::Change */ void FaderPort8::notify_pi_property_changed (const PropertyChange& what_changed) { if (what_changed.contains (Properties::hidden)) { notify_stripable_added_or_removed (); } if (what_changed.contains (Properties::order)) { notify_stripable_added_or_removed (); } // Properties::selected is handled via StripableSelectionChanged } void FaderPort8::notify_stripable_property_changed (boost::weak_ptr ws, const PropertyChange& what_changed) { boost::shared_ptr s = ws.lock(); if (!s) { assert (0); // this should not happen return; } assert (_assigned_strips.find (s) != _assigned_strips.end()); uint8_t id = _assigned_strips[s]; if (what_changed.contains (Properties::color)) { _ctrls.strip(id).select_button ().set_color (s->presentation_info ().color()); } if (what_changed.contains (Properties::name)) { switch (_ctrls.fader_mode ()) { case ModeSend: _ctrls.strip(id).set_text_line (0, s->name()); case ModeTrack: case ModePan: _ctrls.strip(id).set_text_line (3, s->name(), true); break; case ModePlugins: assert (0); break; } } } void FaderPort8::gui_track_selection_changed (/*ARDOUR::StripableNotificationListPtr*/) { automation_state_connections.drop_connections(); switch (_ctrls.fader_mode ()) { case ModePlugins: if (_proc_params.size () > 0 && _showing_well_known < 0) { /* w/well-known -> re-assign to new strip */ int wk = _showing_well_known; drop_ctrl_connections (); select_plugin (wk); } return; case ModeSend: _plugin_off = 0; assign_sends (); return; case ModeTrack: case ModePan: break; } /* update selection lights */ for (StripAssignmentMap::const_iterator i = _assigned_strips.begin(); i != _assigned_strips.end(); ++i) { boost::shared_ptr s = i->first; uint8_t id = i->second; bool sel = s->is_selected (); _ctrls.strip(id).select_button ().set_active (sel); _ctrls.strip(id).select_button ().set_blinking (sel && s == first_selected_stripable ()); } /* track automation-mode of primary selection */ boost::shared_ptr s = first_selected_stripable(); if (s) { boost::shared_ptr ac; ac = s->gain_control(); if (ac && ac->alist()) { ac->alist()->automation_state_changed.connect (automation_state_connections, MISSING_INVALIDATOR, boost::bind (&FaderPort8::notify_automation_mode_changed, this), this); } ac = s->pan_azimuth_control(); if (ac && ac->alist()) { ac->alist()->automation_state_changed.connect (automation_state_connections, MISSING_INVALIDATOR, boost::bind (&FaderPort8::notify_automation_mode_changed, this), this); } } /* set lights */ notify_automation_mode_changed (); } /* **************************************************************************** * Banking */ void FaderPort8::move_selected_into_view () { boost::shared_ptr selected = first_selected_stripable (); if (!selected) { return; } StripableList strips; filter_stripables (strips); StripableList::iterator it = std::find (strips.begin(), strips.end(), selected); if (it == strips.end()) { return; } int off = std::distance (strips.begin(), it); if (_channel_off <= off && off < _channel_off + 8) { return; } if (_channel_off > off) { _channel_off = off; } else { _channel_off = off - 7; } assign_strips (false); } void FaderPort8::select_prev_next (bool next) { StripableList strips; filter_stripables (strips); boost::shared_ptr selected = first_selected_stripable (); if (!selected) { if (strips.size() > 0) { if (next) { SetStripableSelection (strips.front ()); } else { SetStripableSelection (strips.back ()); } } return; } bool found = false; boost::shared_ptr toselect; for (StripableList::const_iterator s = strips.begin(); s != strips.end(); ++s) { if (*s == selected) { if (!next) { found = true; break; } ++s; if (s != strips.end()) { toselect = *s; found = true; } break; } if (!next) { toselect = *s; } } if (found && toselect) { SetStripableSelection (toselect); } } void FaderPort8::bank (bool down, bool page) { int dt = page ? 8 : 1; if (down) { dt *= -1; } _channel_off += dt; assign_strips (false); } void FaderPort8::bank_param (bool down, bool page) { int dt = page ? 8 : 1; if (down) { dt *= -1; } _channel_off += dt; switch (_ctrls.fader_mode ()) { case ModePlugins: if (_proc_params.size() > 0) { _parameter_off += dt; assign_processor_ctrls (); } else { _plugin_off += dt; spill_plugins (); } break; case ModeSend: assign_sends (); break; default: break; } }