/* Copyright (C) 2016 Paul Davis This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include "ardour/debug.h" #include "ardour/mute_control.h" #include "ardour/session.h" #include "ardour/solo_control.h" #include "launch_control_xl.h" using namespace ArdourSurface; using namespace ARDOUR; using namespace PBD; using std::cerr; void LaunchControlXL::build_maps () { /* Knobs */ Knob* knob; #define MAKE_KNOB(i,cc, index, color) \ knob = new Knob ((i), (cc), (index), (color), (*this)); \ cc_knob_map.insert (std::make_pair (knob->controller_number(), knob)); \ id_knob_map.insert (std::make_pair (knob->id(), knob)) for (uint8_t n = 0; n < 8; ++n) { MAKE_KNOB (static_cast(n), (n + 13), n, LEDColor::RedFull); MAKE_KNOB (static_cast(n + 8), (n + 29), (n + 8), LEDColor::GreenFull); MAKE_KNOB (static_cast(n + 16), (n + 49), (n + 16), LEDColor::Yellow); } /* Faders */ Fader* fader; #define MAKE_FADER(i,cc) \ fader = new Fader ((i), (cc)); \ cc_fader_map.insert (std::make_pair (fader->controller_number(), fader)); \ id_fader_map.insert (std::make_pair (fader->id(), fader)) for (uint8_t n = 0; n < 8; ++n) { MAKE_FADER (static_cast(n), (n + 77) ); } /* Buttons */ ControllerButton *controller_button; NoteButton *note_button; #define MAKE_TRACK_BUTTON_PRESS(i,nn,index,color,p) \ note_button = new TrackButton ((i), (nn), (index), (color), (p), (*this)); \ nn_note_button_map.insert (std::make_pair (note_button->note_number(), note_button)); \ id_note_button_map.insert (std::make_pair (note_button->id(), note_button)) #define MAKE_SELECT_BUTTON_PRESS(i,cc,index,p) \ controller_button = new SelectButton ((i), (cc), (index), (p), (*this)); \ cc_controller_button_map.insert (std::make_pair (controller_button->controller_number(), controller_button)); \ id_controller_button_map.insert (std::make_pair (controller_button->id(), controller_button)) #define MAKE_TRACK_STATE_BUTTON_PRESS(i,nn,index,p) \ note_button = new TrackStateButton ((i), (nn), (index), (p), (*this)); \ nn_note_button_map.insert (std::make_pair (note_button->note_number(), note_button)); \ id_note_button_map.insert (std::make_pair (note_button->id(), note_button)) #define MAKE_TRACK_STATE_BUTTON_PRESS_RELEASE_LONG(i,nn,index, p,r,l) \ note_button = new TrackStateButton ((i), (nn), (index), (p), (r), (l), (*this)); \ nn_note_button_map.insert (std::make_pair (note_button->note_number(), note_button)); \ id_note_button_map.insert (std::make_pair (note_button->id(), note_button)) MAKE_TRACK_BUTTON_PRESS(Focus1, 41, 24, LEDColor::GreenFull, &LaunchControlXL::button_track_focus_1); MAKE_TRACK_BUTTON_PRESS(Focus2, 42, 25, LEDColor::GreenFull, &LaunchControlXL::button_track_focus_2); MAKE_TRACK_BUTTON_PRESS(Focus3, 43, 26, LEDColor::GreenFull, &LaunchControlXL::button_track_focus_3); MAKE_TRACK_BUTTON_PRESS(Focus4, 44, 27, LEDColor::GreenFull, &LaunchControlXL::button_track_focus_4); MAKE_TRACK_BUTTON_PRESS(Focus5, 57, 28, LEDColor::GreenFull, &LaunchControlXL::button_track_focus_5); MAKE_TRACK_BUTTON_PRESS(Focus6, 58, 29, LEDColor::GreenFull, &LaunchControlXL::button_track_focus_6); MAKE_TRACK_BUTTON_PRESS(Focus7, 59, 30, LEDColor::GreenFull, &LaunchControlXL::button_track_focus_7); MAKE_TRACK_BUTTON_PRESS(Focus8, 60, 31, LEDColor::GreenFull, &LaunchControlXL::button_track_focus_8); MAKE_TRACK_BUTTON_PRESS(Control1, 73, 32, LEDColor::Yellow, &LaunchControlXL::button_track_control_1); MAKE_TRACK_BUTTON_PRESS(Control2, 74, 33, LEDColor::Yellow, &LaunchControlXL::button_track_control_2); MAKE_TRACK_BUTTON_PRESS(Control3, 75, 34, LEDColor::Yellow, &LaunchControlXL::button_track_control_3); MAKE_TRACK_BUTTON_PRESS(Control4, 76, 35, LEDColor::Yellow, &LaunchControlXL::button_track_control_4); MAKE_TRACK_BUTTON_PRESS(Control5, 89, 36, LEDColor::Yellow, &LaunchControlXL::button_track_control_5); MAKE_TRACK_BUTTON_PRESS(Control6, 90, 37, LEDColor::Yellow, &LaunchControlXL::button_track_control_6); MAKE_TRACK_BUTTON_PRESS(Control7, 91, 38, LEDColor::Yellow, &LaunchControlXL::button_track_control_7); MAKE_TRACK_BUTTON_PRESS(Control8, 92, 39, LEDColor::Yellow, &LaunchControlXL::button_track_control_8); MAKE_SELECT_BUTTON_PRESS(SelectUp, 104, 44, &LaunchControlXL::button_select_up); MAKE_SELECT_BUTTON_PRESS(SelectDown, 105, 45, &LaunchControlXL::button_select_down); MAKE_SELECT_BUTTON_PRESS(SelectLeft, 106, 46, &LaunchControlXL::button_select_left); MAKE_SELECT_BUTTON_PRESS(SelectRight, 107, 47, &LaunchControlXL::button_select_right); MAKE_TRACK_STATE_BUTTON_PRESS_RELEASE_LONG(Device, 105, 40, &LaunchControlXL::relax, &LaunchControlXL::button_device, &LaunchControlXL::button_device_long_press);; MAKE_TRACK_STATE_BUTTON_PRESS(Mute, 106, 41, &LaunchControlXL::button_mute); MAKE_TRACK_STATE_BUTTON_PRESS(Solo, 107, 42, &LaunchControlXL::button_solo); MAKE_TRACK_STATE_BUTTON_PRESS(Record, 108, 43, &LaunchControlXL::button_record); } std::string LaunchControlXL::button_name_by_id (ButtonID id) { switch (id) { case Device: return "Device"; case Mute: return "Mute"; case Solo: return "Solo"; case Record: return "Record"; case SelectUp: return "Select Up"; case SelectDown: return "Select Down"; case SelectRight: return "Select Right"; case SelectLeft: return "Select Left"; case Focus1: return "Focus 1"; case Focus2: return "Focus 2"; case Focus3: return "Focus 3"; case Focus4: return "Focus 4"; case Focus5: return "Focus 5"; case Focus6: return "Focus 6"; case Focus7: return "Focus 7"; case Focus8: return "Focus 8"; case Control1: return "Control 1"; case Control2: return "Control 2"; case Control3: return "Control 3"; case Control4: return "Control 4"; case Control5: return "Control 5"; case Control6: return "Control 6"; case Control7: return "Control 7"; case Control8: return "Control 8"; default: break; } return "???"; } std::string LaunchControlXL::knob_name_by_id (KnobID id) { switch (id) { case SendA1: return "SendA 1"; case SendA2: return "SendA 2"; case SendA3: return "SendA 3"; case SendA4: return "SendA 4"; case SendA5: return "SendA 5"; case SendA6: return "SendA 6"; case SendA7: return "SendA 7"; case SendA8: return "SendA 8"; case SendB1: return "SendB 1"; case SendB2: return "SendB 2"; case SendB3: return "SendB 3"; case SendB4: return "SendB 4"; case SendB5: return "SendB 5"; case SendB6: return "SendB 6"; case SendB7: return "SendB 7"; case SendB8: return "SendB 8"; case Pan1: return "Pan 1"; case Pan2: return "Pan 2"; case Pan3: return "Pan 3"; case Pan4: return "Pan 4"; case Pan5: return "Pan 5"; case Pan6: return "Pan 6"; case Pan7: return "Pan 7"; case Pan8: return "Pan 8"; default: break; } return "???"; } std::string LaunchControlXL::fader_name_by_id (FaderID id) { switch (id) { case Fader1: return "Fader 1"; case Fader2: return "Fader 2"; case Fader3: return "Fader 3"; case Fader4: return "Fader 4"; case Fader5: return "Fader 5"; case Fader6: return "Fader 6"; case Fader7: return "Fader 7"; case Fader8: return "Fader 8"; default: break; } return "???"; } LaunchControlXL::TrackButton* LaunchControlXL::track_button_by_number(uint8_t n, uint8_t first, uint8_t middle) { NNNoteButtonMap::iterator b; if ( n < 5) { b = nn_note_button_map.find (first + n); } else { b = nn_note_button_map.find (middle + n); } TrackButton* button; if (b != nn_note_button_map.end()) { button = static_cast(b->second); } return button; } void LaunchControlXL::button_track_focus(uint8_t n) { if (!stripable[n]) { return; } TrackButton* b = focus_button_by_number(n); if (b == 0) { return; } if ( stripable[n]->is_selected() ) { b->set_color(LEDColor::AmberFull); } else { b->set_color(LEDColor::AmberLow); } write (b->state_msg()); } boost::shared_ptr LaunchControlXL::get_ac_by_state(uint8_t n) { boost::shared_ptr ac; switch(track_mode()) { case TrackMute: ac = stripable[n]->mute_control(); break; case TrackSolo: ac = stripable[n]->solo_control(); break; case TrackRecord: ac = stripable[n]->rec_enable_control(); break; default: break; } return ac; } void LaunchControlXL::update_track_control_led(uint8_t n) { TrackButton* b = control_button_by_number(n); if (!stripable[n] || !b) { return; } boost::shared_ptr ac = get_ac_by_state(n); switch(track_mode()) { case TrackMute: if (ac->get_value()) { b->set_color(LEDColor::AmberFull); } else { b->set_color(LEDColor::AmberLow); } break; case TrackSolo: if (ac && stripable[n] != master ) { if (ac->get_value()) { b->set_color(LEDColor::GreenFull); } else { b->set_color(LEDColor::GreenLow); } } else { b->set_color(LEDColor::Off); } break; case TrackRecord: if (ac) { if (ac->get_value()) { b->set_color(LEDColor::RedFull); } else { b->set_color(LEDColor::RedLow); } } else { } break; default: break; } if (ac) { write (b->state_msg()); } } void LaunchControlXL::solo_mute_rec_changed(uint32_t n) { if (!stripable[n]) { return; } update_track_control_led(n); } void LaunchControlXL::button_track_control(uint8_t n) { if (!stripable[n]) { return; } boost::shared_ptr ac = get_ac_by_state(n); if (ac) { session->set_control (ac, !ac->get_value(), PBD::Controllable::UseGroup); } } void LaunchControlXL::button_track_mode(TrackMode state) { set_track_mode(state); for (uint8_t n = 0; n < 8; ++n) { update_track_control_led(n); } TrackStateButton* mute = static_cast(id_note_button_map[Mute]); TrackStateButton* solo = static_cast(id_note_button_map[Solo]); TrackStateButton* record = static_cast(id_note_button_map[Record]); write(mute->state_msg( (state == TrackMute) )); write(solo->state_msg( (state == TrackSolo) )); write(record->state_msg( (state == TrackRecord) )); } void LaunchControlXL::button_select_left() { switch_bank (max (0, bank_start - 1)); } void LaunchControlXL::button_select_right() { switch_bank (max (0, bank_start + 1)); } void LaunchControlXL::button_select_up() { } void LaunchControlXL::button_select_down() { } void LaunchControlXL::button_device() { } void LaunchControlXL::button_device_long_press() { } bool LaunchControlXL::button_long_press_timeout (ButtonID id, Button* button) { if (buttons_down.find (id) != buttons_down.end()) { DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose ("long press timeout for %1, invoking method\n", id)); (this->*button->long_press_method) (); } else { DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose ("long press timeout for %1, expired/cancelled\n", id)); /* release happened and somehow we were not cancelled */ } /* whichever button this was, we've used it ... don't invoke the release action. */ consumed.insert (id); return false; /* don't get called again */ } void LaunchControlXL::start_press_timeout (Button* button, ButtonID id) { Glib::RefPtr timeout = Glib::TimeoutSource::create (500); // milliseconds button->timeout_connection = timeout->connect (sigc::bind (sigc::mem_fun (*this, &LaunchControlXL::button_long_press_timeout), id, button)); timeout->attach (main_loop()->get_context()); }