/* 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. */ #ifndef __ardour_launch_control_h__ #define __ardour_launch_control_h__ #include #include #include #include #include #define ABSTRACT_UI_EXPORTS #include "pbd/abstract_ui.h" #include "midi++/types.h" #include "ardour/mode.h" #include "ardour/types.h" #include "control_protocol/control_protocol.h" #include "control_protocol/types.h" #include "midi_byte_array.h" namespace MIDI { class Parser; class Port; } // namespace MIDI namespace ARDOUR { class AsyncMIDIPort; class Port; class MidiBuffer; class MidiTrack; } // namespace ARDOUR namespace ArdourSurface { struct LaunchControlRequest : public BaseUI::BaseRequestObject { public: LaunchControlRequest() {} ~LaunchControlRequest() {} }; class LCXLGUI; class LaunchControlMenu; class LaunchControlXL : public ARDOUR::ControlProtocol, public AbstractUI { public: enum TrackMode { TrackMute, TrackSolo, TrackRecord }; enum ButtonID { Focus1 = 0, Focus2, Focus3, Focus4, Focus5, Focus6, Focus7, Focus8, Control1, Control2, Control3, Control4, Control5, Control6, Control7, Control8, Device, Mute, Solo, Record, SelectUp, SelectDown, SelectLeft, SelectRight }; enum FaderID { Fader1 = 0, Fader2, Fader3, Fader4, Fader5, Fader6, Fader7, Fader8 }; enum KnobID { SendA1 = 0, SendA2, SendA3, SendA4, SendA5, SendA6, SendA7, SendA8, SendB1, SendB2, SendB3, SendB4, SendB5, SendB6, SendB7, SendB8, Pan1, Pan2, Pan3, Pan4, Pan5, Pan6, Pan7, Pan8 }; enum LEDFlag { Normal = 0xC, Blink = 0x8, DoubleBuffering = 0x0 }; enum LEDColor { Off=0, RedLow = 1, RedFull = 3, GreenLow = 16, GreenFull = 48, Yellow = 50, AmberLow = 17, AmberFull = 51}; struct Controller { Controller(uint8_t cn, uint8_t val = 0) : _controller_number(cn), _value(val) {} uint8_t controller_number() const { return _controller_number; } uint8_t value() const { return _value; } void set_value(uint8_t val) { _value = val; } protected: uint8_t _controller_number; uint8_t _value; }; struct LED { LED(uint8_t i, LEDColor c, LaunchControlXL& l) : _index(i), _color(c), _flag(Normal), lcxl(&l) {} LED(uint8_t i, LEDColor c, LEDFlag f, LaunchControlXL& lcxl) : _index(i), _color(c), _flag(f) {} virtual ~LED() {} LEDColor color() const { return _color; } LEDFlag flag() const { return _flag; } uint8_t index() const { return _index; } void set_flag(LEDFlag f) { _flag = f; } virtual MidiByteArray state_msg(bool light) const = 0; protected: uint8_t _index; LEDColor _color; LEDFlag _flag; MidiByteArray _state_msg; LaunchControlXL* lcxl; }; struct MultiColorLED : public LED { MultiColorLED (uint8_t i, LEDColor c, LaunchControlXL& l) : LED(i, c, l) {} MultiColorLED (uint8_t i, LEDColor c, LEDFlag f, LaunchControlXL& l) : LED(i, c, f, l) {} void set_color(LEDColor c) { _color = c; } }; struct Button { Button(ButtonID id) : press_method(&LaunchControlXL::relax) , release_method(&LaunchControlXL::relax) , long_press_method(&LaunchControlXL::relax), _id(id) {} Button(ButtonID id, void (LaunchControlXL::*press)()) : press_method(press) , release_method(&LaunchControlXL::relax) , long_press_method(&LaunchControlXL::relax), _id(id) {} Button(ButtonID id, void (LaunchControlXL::*press)(), void (LaunchControlXL::*release)()) : press_method(press), release_method(release) , long_press_method(&LaunchControlXL::relax), _id(id) {} Button(ButtonID id, void (LaunchControlXL::*press)(), void (LaunchControlXL::*release)(), void (LaunchControlXL::*long_press)()) : press_method(press), release_method(release) , long_press_method(long_press), _id(id) {} virtual ~Button() {} ButtonID id() const { return _id; } void (LaunchControlXL::*press_method)(); void (LaunchControlXL::*release_method)(); void (LaunchControlXL::*long_press_method)(); sigc::connection timeout_connection; protected: ButtonID _id; }; struct ControllerButton : public Button { ControllerButton(ButtonID id, uint8_t cn, void (LaunchControlXL::*press)()) : Button(id, press), _controller_number(cn) {} ControllerButton(ButtonID id, uint8_t cn, void (LaunchControlXL::*press)(), void (LaunchControlXL::*release)()) : Button(id, press, release), _controller_number(cn) {} uint8_t controller_number() const { return _controller_number; } private: uint8_t _controller_number; }; struct NoteButton : public Button { NoteButton(ButtonID id, uint8_t cn, void (LaunchControlXL::*press)()) : Button(id, press), _note_number(cn) {} NoteButton(ButtonID id, uint8_t cn, void (LaunchControlXL::*press)(), void (LaunchControlXL::*release)()) : Button(id, press, release), _note_number(cn) {} NoteButton(ButtonID id, uint8_t cn, void (LaunchControlXL::*press)(), void (LaunchControlXL::*release)(), void (LaunchControlXL::*release_long)()) : Button(id, press, release, release_long), _note_number(cn) {} uint8_t note_number() const { return _note_number; } private: uint8_t _note_number; }; struct TrackButton : public NoteButton, public MultiColorLED { TrackButton(ButtonID id, uint8_t nn, uint8_t index, LEDColor color, void (LaunchControlXL::*press)(), LaunchControlXL& l) : NoteButton(id, nn, press), MultiColorLED(index, color, l) {} TrackButton(ButtonID id, uint8_t nn, uint8_t index, LEDColor color, void (LaunchControlXL::*press)(), void (LaunchControlXL::*release)(), LaunchControlXL& l) : NoteButton(id, nn, press, release), MultiColorLED(index, color, l) {} MidiByteArray state_msg(bool light = true) const; }; struct SelectButton : public ControllerButton, public LED { SelectButton(ButtonID id, uint8_t cn, uint8_t index, void (LaunchControlXL::*press)(), LaunchControlXL& l) : ControllerButton(id, cn, press), LED(index, RedFull, l) {} MidiByteArray state_msg(bool light) const; }; struct TrackStateButton : public NoteButton, public LED { TrackStateButton(ButtonID id, uint8_t nn, uint8_t index, void (LaunchControlXL::*press)(), LaunchControlXL& l) : NoteButton(id, nn, press) , LED(index, Yellow, l) {} TrackStateButton(ButtonID id, uint8_t nn, uint8_t index, void (LaunchControlXL::*press)(), void (LaunchControlXL::*release)(), LaunchControlXL& l) : NoteButton(id, nn, press, release) , LED(index, Yellow, l) {} TrackStateButton(ButtonID id, uint8_t nn, uint8_t index, void (LaunchControlXL::*press)(), void (LaunchControlXL::*release)(), void (LaunchControlXL::*release_long)(), LaunchControlXL& l) : NoteButton(id, nn, press, release, release_long) , LED(index, Yellow, l) {} MidiByteArray state_msg(bool light) const; }; struct Fader : public Controller { Fader(FaderID id, uint8_t cn) : Controller(cn, 0), _id(id) {} // minimal value FaderID id() const { return _id; } void controller_changed(Controller* controller); private: FaderID _id; }; struct Knob : public Controller, public MultiColorLED { Knob(KnobID id, uint8_t cn, uint8_t index, LEDColor color, LaunchControlXL& l) : Controller(cn, 64) , MultiColorLED(index, color, l) , _id(id) {} // knob 50/50 value KnobID id() const { return _id; } MidiByteArray state_msg(bool light = true) const; private: KnobID _id; }; public: LaunchControlXL(ARDOUR::Session &); ~LaunchControlXL(); static bool probe(); static void *request_factory(uint32_t); std::list > bundles(); bool has_editor() const { return true; } void *get_gui() const; void tear_down_gui(); int set_active(bool yn); XMLNode &get_state(); int set_state(const XMLNode &node, int version); PBD::Signal0 ConnectionChange; boost::shared_ptr input_port(); boost::shared_ptr output_port(); Button *button_by_id(ButtonID); static std::string button_name_by_id(ButtonID); static std::string knob_name_by_id(KnobID); static std::string fader_name_by_id(FaderID); void write(const MidiByteArray &); void reset(uint8_t chan); TrackMode track_mode() const { return _track_mode; } void set_track_mode(TrackMode mode); uint8_t template_number() const { return _template_number; } private: bool in_use; TrackMode _track_mode; uint8_t _template_number; void do_request(LaunchControlRequest *); int begin_using_device(); int stop_using_device(); int ports_acquire(); void ports_release(); void run_event_loop(); void stop_event_loop(); void relax() {} /* map of NoteButtons by NoteNumber */ typedef std::map NNNoteButtonMap; NNNoteButtonMap nn_note_button_map; /* map of NoteButtons by ButtonID */ typedef std::map IDNoteButtonMap; IDNoteButtonMap id_note_button_map; /* map of ControllerNoteButtons by CC */ typedef std::map CCControllerButtonMap; CCControllerButtonMap cc_controller_button_map; /* map of ControllerButtons by ButtonID */ typedef std::map IDControllerButtonMap; IDControllerButtonMap id_controller_button_map; /* map of Fader by CC */ typedef std::map CCFaderMap; CCFaderMap cc_fader_map; /* map of Fader by FaderID */ typedef std::map IDFaderMap; IDFaderMap id_fader_map; /* map of Knob by CC */ typedef std::map CCKnobMap; CCKnobMap cc_knob_map; /* map of Knob by KnobID */ typedef std::map IDKnobMap; IDKnobMap id_knob_map; std::set buttons_down; std::set consumed; bool button_long_press_timeout(ButtonID id, Button *button); void start_press_timeout(Button *, ButtonID); void init_buttons(bool startup); void switch_template(uint8_t t); void build_maps(); // Bundle to represent our input ports boost::shared_ptr _input_bundle; // Bundle to represent our output ports boost::shared_ptr _output_bundle; MIDI::Port *_input_port; MIDI::Port *_output_port; boost::shared_ptr _async_in; boost::shared_ptr _async_out; void connect_to_parser(); void handle_button_message(Button* button, MIDI::EventTwoBytes *); void handle_fader_message(Fader* fader); void handle_knob_message(Knob* knob); bool check_pick_up(Controller* controller, boost::shared_ptr ac); void handle_midi_controller_message(MIDI::Parser &, MIDI::EventTwoBytes *, MIDI::channel_t chan); void handle_midi_note_on_message(MIDI::Parser &, MIDI::EventTwoBytes *, MIDI::channel_t chan); void handle_midi_note_off_message(MIDI::Parser &, MIDI::EventTwoBytes *, MIDI::channel_t chan); void handle_midi_sysex(MIDI::Parser &, MIDI::byte *, size_t count); bool midi_input_handler(Glib::IOCondition ioc, MIDI::Port *port); void thread_init(); PBD::ScopedConnectionList session_connections; void connect_session_signals(); void notify_transport_state_changed(); void notify_loop_state_changed(); void notify_parameter_changed(std::string); /* Button methods */ TrackButton* track_button_by_range(uint8_t n, uint8_t first, uint8_t middle); TrackButton* focus_button_by_collumn(uint8_t col) { return track_button_by_range(col, 41, 57) ; } TrackButton* control_button_by_collumn(uint8_t col) { return track_button_by_range(col, 73, 89) ; } void button_device(); void button_device_long_press(); void button_track_mode(TrackMode state); void button_mute(); void button_solo(); void button_record(); void button_select_up(); void button_select_down(); void button_select_left(); void button_select_right(); void button_track_focus(uint8_t n); void button_track_control(uint8_t n); boost::shared_ptr get_ac_by_state(uint8_t n); void update_track_control_led(uint8_t n); void button_track_focus_1() { ControlProtocol::ToggleStripableSelection (stripable[0]); } void button_track_focus_2() { ControlProtocol::ToggleStripableSelection (stripable[1]); } void button_track_focus_3() { ControlProtocol::ToggleStripableSelection (stripable[2]); } void button_track_focus_4() { ControlProtocol::ToggleStripableSelection (stripable[3]); } void button_track_focus_5() { ControlProtocol::ToggleStripableSelection (stripable[4]); } void button_track_focus_6() { ControlProtocol::ToggleStripableSelection (stripable[5]); } void button_track_focus_7() { ControlProtocol::ToggleStripableSelection (stripable[6]); } void button_track_focus_8() { ControlProtocol::ToggleStripableSelection (stripable[7]); } void button_track_control_1() { button_track_control(0); } void button_track_control_2() { button_track_control(1); } void button_track_control_3() { button_track_control(2); } void button_track_control_4() { button_track_control(3); } void button_track_control_5() { button_track_control(4); } void button_track_control_6() { button_track_control(5); } void button_track_control_7() { button_track_control(6); } void button_track_control_8() { button_track_control(7); } /* stripables */ int32_t bank_start; PBD::ScopedConnectionList stripable_connections; boost::shared_ptr stripable[8]; void stripables_added (); void stripable_property_change (PBD::PropertyChange const& what_changed, uint32_t which); void switch_bank (uint32_t base); void solo_changed (uint32_t n) { solo_mute_rec_changed(n); } void mute_changed (uint32_t n) { solo_mute_rec_changed(n); } void rec_changed (uint32_t n) { solo_mute_rec_changed(n); } void solo_mute_rec_changed (uint32_t n); /* special Stripable */ boost::shared_ptr master; PBD::ScopedConnection port_reg_connection; void port_registration_handler(); enum ConnectionState { InputConnected = 0x1, OutputConnected = 0x2 }; int connection_state; bool connection_handler(boost::weak_ptr, std::string name1, boost::weak_ptr, std::string name2, bool yn); PBD::ScopedConnection port_connection; void connected(); /* GUI */ mutable LCXLGUI *gui; void build_gui(); void stripable_selection_changed(); bool in_range_select; }; } // namespace ArdourSurface #endif /* __ardour_launch_control_h__ */