def _setup_transport(self):
is_momentary = True
transport = TransportComponent()
studiotransport = MaschineTransport()
playButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 108)
stopButton = StateButton(not is_momentary, MIDI_CC_TYPE, 0, 110)
recordButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 109)
overdubButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 107)
metrononmeButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 104)
eventRecButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 98)
playButton.name = 'Play'
stopButton.name = 'Stop'
recordButton.name = 'Record'
overdubButton.name = 'Overdub'
metrononmeButton.name = 'Metronome'
transport.set_play_button(playButton)
transport.set_stop_button(stopButton)
transport.set_record_button(recordButton)
transport.set_overdub_button(overdubButton)
transport.set_metronome_button(metrononmeButton)
studiotransport.set_session_auto_button(eventRecButton)
studiotransport.set_arrangement_overdub_button(
StateButton(is_momentary, MIDI_CC_TYPE, 0, 106))
studiotransport.set_back_arrange_button(
StateButton(is_momentary, MIDI_CC_TYPE, 0, 105))
transport.set_nudge_buttons(
StateButton(is_momentary, MIDI_CC_TYPE, 1, 51),
StateButton(is_momentary, MIDI_CC_TYPE, 1, 50))
punchinbutton = ToggleButton(MIDI_CC_TYPE, 1, 52)
punchoutbutton = ToggleButton(MIDI_CC_TYPE, 1, 53)
punchinbutton.name = 'Punch In'
punchoutbutton.name = 'Punch Out'
transport.set_punch_buttons(punchinbutton, punchoutbutton)
transport.set_loop_button(
StateButton(is_momentary, MIDI_CC_TYPE, 1, 54))
self.song_follow_button = ButtonElement(True, MIDI_CC_TYPE, 2, 98)
self._do_song_follow.subject = self.song_follow_button
self._song_follow_changed.subject = self.song().view
self._song_follow_changed()
self.transp_ff_button = ButtonElement(True, MIDI_CC_TYPE, 1, 59)
self.transp_rw_button = ButtonElement(True, MIDI_CC_TYPE, 1, 58)
transport.set_seek_buttons(self.transp_ff_button,
self.transp_rw_button)
self.xfadeKnob = SliderElement(MIDI_CC_TYPE, 1, 105)
self.xfadeKnob.connect_to(
self.song().master_track.mixer_device.crossfader)
self.master_knob = SliderElement(MIDI_CC_TYPE, 0, 99)
self.master_knob.connect_to(
self.song().master_track.mixer_device.volume)
self.tap_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 88)
self._do_tap_tempo.subject = self.tap_button
self.cue_add_delete_button = StateButton(is_momentary, MIDI_CC_TYPE, 1,
55)
self.cue_prev_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 56)
self.cue_next_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 57)
self._do_toggle_cue.subject = self.cue_add_delete_button
self._do_toggle_prev_cue.subject = self.cue_prev_button
self._do_toggle_next_cue.subject = self.cue_next_button
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
is_momentary = True
self._suggested_input_port = 'Oxygen'
self._suggested_output_port = 'Oxygen'
self._has_slider_section = True
self._shift_button = ButtonElement(is_momentary, MIDI_CC_TYPE,
GLOBAL_CHANNEL, 57)
self._shift_button.add_value_listener(self._shift_value)
self._mixer = SpecialMixerComponent(NUM_TRACKS)
self._mute_solo_buttons = []
self._track_up_button = ButtonElement(is_momentary, MIDI_CC_TYPE,
GLOBAL_CHANNEL, 111)
self._track_down_button = ButtonElement(is_momentary, MIDI_CC_TYPE,
GLOBAL_CHANNEL, 110)
self._master_slider = SliderElement(MIDI_CC_TYPE, GLOBAL_CHANNEL,
41)
for index in range(NUM_TRACKS):
self._mute_solo_buttons.append(
ButtonElement(is_momentary, MIDI_CC_TYPE, GLOBAL_CHANNEL,
49 + index))
self._mixer.channel_strip(index).set_volume_control(
SliderElement(MIDI_CC_TYPE, GLOBAL_CHANNEL, 33 + index))
self._shift_value(0)
self._mixer.master_strip().set_volume_control(self._master_slider)
self._mixer.selected_strip().set_volume_control(None)
device = DeviceComponent(
device_selection_follows_track_selection=True)
device.set_parameter_controls(
tuple([
EncoderElement(MIDI_CC_TYPE, GLOBAL_CHANNEL, 17 + index,
Live.MidiMap.MapMode.absolute)
for index in range(8)
]))
self.set_device_component(device)
ffwd_button = ButtonElement(is_momentary, MIDI_CC_TYPE,
GLOBAL_CHANNEL, 115)
rwd_button = ButtonElement(is_momentary, MIDI_CC_TYPE,
GLOBAL_CHANNEL, 114)
loop_button = ButtonElement(is_momentary, MIDI_CC_TYPE,
GLOBAL_CHANNEL, 113)
transport = TransportComponent()
transport.set_stop_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, GLOBAL_CHANNEL, 116))
transport.set_play_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, GLOBAL_CHANNEL, 117))
transport.set_record_button(
ButtonElement(is_momentary, MIDI_CC_TYPE, GLOBAL_CHANNEL, 118))
session = SessionComponent(0, 0)
transport_view_modes = TransportViewModeSelector(
transport, session, ffwd_button, rwd_button, loop_button)
def _setup_transport(self):
rwd_button = make_button(112, 'Rwd_Button')
ffwd_button = make_button(113, 'FFwd_Button')
stop_button = make_button(114, 'Stop_Button')
play_button = make_button(115, 'Play_Button')
loop_button = make_button(116, 'Loop_Button')
rec_button = make_button(117, 'Record_Button')
transport = TransportComponent()
transport.name = 'Transport'
transport.set_stop_button(stop_button)
transport.set_play_button(play_button)
transport.set_record_button(rec_button)
transport.set_loop_button(loop_button)
self._transport_view_modes = TransportViewModeSelector(
transport, self._session, ffwd_button, rwd_button)
self._transport_view_modes.name = 'Transport_View_Modes'
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self._suggested_input_port = 'HyperControl'
self._suggested_output_port = 'HyperControl'
self.set_pad_translations(PAD_TRANSLATIONS)
stop_button = make_button(116)
play_button = make_button(117)
record_button = make_button(118)
select_button = make_button(98)
nav_left_button = make_button(99)
nav_right_button = make_button(100)
nav_up_button = make_button(101)
nav_down_button = make_button(102)
mixer_modes_toggle = make_button(58)
mixer_or_device_toggle = make_button(59)
hypercontrol_mode_toggle = make_button(60)
encoders = tuple([make_encoder(33 + index) for index in range(8)])
transport = TransportComponent()
transport.set_stop_button(stop_button)
transport.set_play_button(play_button)
transport.set_record_button(record_button)
session = SessionComponent(8, 0)
device = BestBankDeviceComponent(
device_selection_follows_track_selection=True)
self.set_device_component(device)
device_nav = DeviceNavComponent()
mixer = SpecialMixerComponent(NUM_TRACKS)
session.set_mixer(mixer)
mixer_encoder_modes = EncoderMixerModeSelector(mixer)
mixer_encoder_modes.set_mode_toggle(mixer_modes_toggle)
mixer_or_device = MixerOrDeviceModeSelector(
encoders, select_button, nav_up_button, nav_down_button,
nav_left_button, nav_right_button, mixer, session, device,
mixer_encoder_modes, device_nav)
mixer_or_device.set_mode_buttons(
(mixer_modes_toggle, mixer_or_device_toggle,
hypercontrol_mode_toggle))
class FocusControl(ControlSurface):
controlled_track = None
def __init__(self, c_instance):
super().__init__(c_instance)
self.song().add_is_playing_listener(
self._FocusControl__update_play_button_led)
register_sender(self)
self._active = False
self._tracks = []
self.rewind_button_down = False
self.forward_button_down = False
with self.component_guard():
self._set_suppress_rebuild_requests(True)
self._suppress_send_midi = True
device = SimpleDeviceComponent()
self.set_device_component(device)
self._on_selected_track_changed()
self.set_up_controls()
self.request_rebuild_midi_map()
self._set_suppress_rebuild_requests(False)
self._active = True
self._suppress_send_midi = False
self.transport = TransportComponent()
self.transport.set_play_button(
ButtonElement(False, MIDI_NOTE_TYPE, 0, SID_TRANSPORT_PLAY))
self.transport.set_record_button(
ButtonElement(False, MIDI_NOTE_TYPE, 0, SID_TRANSPORT_RECORD))
self.transport.set_seek_buttons(
ButtonElement(True, MIDI_NOTE_TYPE, 0,
SID_TRANSPORT_FAST_FORWARD),
ButtonElement(True, MIDI_NOTE_TYPE, 0, SID_TRANSPORT_REWIND))
self.transport.set_loop_button(
ButtonElement(False, MIDI_NOTE_TYPE, 0, SID_TRANSPORT_LOOP))
self._assign_tracks()
ctrack = self.get_controlled_track()
if ctrack:
track = ctrack[0]
instr = ctrack[1]
self.controlled_track = track
index = list(self.song().tracks).index(track)
self.update_status_midi(index, track, instr, 1)
self.refresh_state()
def refresh_state(self):
self._FocusControl__update_play_button_led()
def receive_midi(self, midi_bytes):
if midi_bytes[0] & 240 == MIDI_NOTE_ON_STATUS or midi_bytes[
0] & 240 == MIDI_NOTE_OFF_STATUS:
note = midi_bytes[1]
value = BUTTON_PRESSED if midi_bytes[2] > 0 else BUTTON_RELEASED
if note in transport_control_switch_ids:
self.handle_transport_switch_ids(note, value)
super().receive_midi(midi_bytes)
def handle_transport_switch_ids(self, switch_id, value):
if switch_id == SID_TRANSPORT_REWIND:
if value == BUTTON_PRESSED:
self.rewind_button_down = True
else:
if value == BUTTON_RELEASED:
self.rewind_button_down = False
self._FocusControl__update_forward_rewind_leds()
else:
if switch_id == SID_TRANSPORT_FAST_FORWARD:
if value == BUTTON_PRESSED:
self.forward_button_down = True
else:
if value == BUTTON_RELEASED:
self.forward_button_down = False
self._FocusControl__update_forward_rewind_leds()
else:
if switch_id == SID_TRANSPORT_STOP:
if value == BUTTON_PRESSED:
self._FocusControl__stop_song()
def __stop_song(self):
self.song().stop_playing()
self._FocusControl__update_play_button_led()
def __update_play_button_led(self):
if self.song().is_playing:
self._send_midi(
(MIDI_NOTE_ON_STATUS, SID_TRANSPORT_PLAY, BUTTON_STATE_ON))
self._send_midi(
(MIDI_NOTE_ON_STATUS, SID_TRANSPORT_STOP, BUTTON_STATE_OFF))
else:
self._send_midi(
(MIDI_NOTE_ON_STATUS, SID_TRANSPORT_PLAY, BUTTON_STATE_OFF))
self._send_midi(
(MIDI_NOTE_ON_STATUS, SID_TRANSPORT_STOP, BUTTON_STATE_ON))
def __update_forward_rewind_leds(self):
if self.forward_button_down:
self._send_midi((MIDI_NOTE_ON_STATUS, SID_TRANSPORT_FAST_FORWARD,
BUTTON_STATE_ON))
else:
self._send_midi((MIDI_NOTE_ON_STATUS, SID_TRANSPORT_FAST_FORWARD,
BUTTON_STATE_OFF))
if self.rewind_button_down:
self._send_midi(
(MIDI_NOTE_ON_STATUS, SID_TRANSPORT_REWIND, BUTTON_STATE_ON))
else:
self._send_midi(
(MIDI_NOTE_ON_STATUS, SID_TRANSPORT_REWIND, BUTTON_STATE_OFF))
def set_up_controls(self):
is_momentary = True
self.left_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0,
SID_NAV_LEFT)
self.right_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0,
SID_NAV_RIGHT)
self._do_left.subject = self.left_button
self._do_right.subject = self.right_button
self.stop_button = ButtonElement(False, MIDI_NOTE_TYPE, 0,
SID_TRANSPORT_STOP)
self._do_stop.subject = self.stop_button
@subject_slot('value')
def _do_stop(self, value):
self._FocusControl__stop_song()
@subject_slot('value')
def _do_left(self, value):
assert value in range(128)
if value != 0:
self.navigate_midi_track(-1)
@subject_slot('value')
def _do_right(self, value):
assert value in range(128)
if value != 0:
self.navigate_midi_track(1)
def navigate_midi_track(self, direction):
tracks = self.song().tracks
seltrack = self.song().view.selected_track
index = vindexof(tracks, seltrack)
nxttrack = self.get_next_track(direction, index, tracks)
if nxttrack:
self.song().view.selected_track = nxttrack
arm_exclusive(self.song(), nxttrack)
def get_next_track(self, direction, index, tracks):
pos = index
if pos is None:
pos = len(tracks)
pos = pos + direction
while 0 <= pos < len(tracks):
track = tracks[pos]
if track.can_be_armed:
return track
pos = pos + direction
def get_next_midi_track(self, direction, index, tracks):
pos = index
if pos is None:
pos = len(tracks)
pos = pos + direction
while 0 <= pos < len(tracks):
track = tracks[pos]
if track.can_be_armed:
if track.has_midi_input:
return track
pos = pos + direction
def get_controlled_track(self):
armed_tracks = []
tracks = self.song().tracks
for track in tracks:
if track.can_be_armed and track.arm:
armed_tracks.append(track)
if len(armed_tracks) == 1:
return (armed_tracks[0],
self.find_instrument_list(armed_tracks[0].devices))
if len(armed_tracks) > 1:
instr = self.find_instrument_ni(armed_tracks)
if instr:
return instr
return self.find_instrument_any(armed_tracks)
def find_instrument_ni(self, tracks):
for track in tracks:
instr = self.find_instrument_list(track.devices)
if instr and instr[1] is not None:
return (track, instr)
def find_instrument_any(self, tracks):
for track in tracks:
instr = self.find_instrument_list(track.devices)
if instr:
return (track, instr)
def _assign_tracks(self):
tracks = self.song().tracks
for track in self._tracks:
track.release()
self._tracks = []
for index in range(len(tracks)):
self._tracks.append(TrackElement(index, tracks[index], self))
def activate_track(self, index, track):
self.controlled_track = track
instr = self.find_instrument_list(track.devices)
self.update_status_midi(index, track, instr, 1)
def deactivate_track(self, index, track):
pass
def devices_changed(self, index, track):
instr = self.find_instrument_list(track.devices)
self.update_status_midi(index, track, instr, 1)
def _on_track_list_changed(self):
super()._on_track_list_changed()
self._assign_tracks()
ctrack = self.get_controlled_track()
if ctrack:
track = ctrack[0]
instr = ctrack[1]
if track != self.controlled_track:
self.controlled_track = track
index = list(self.song().tracks).index(track)
elif self.controlled_track:
self.controlled_track = None
def _on_selected_track_changed(self):
super()._on_selected_track_changed()
self.set_controlled_track(self.song().view.selected_track)
def broadcast(self):
s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
if not s:
debug_out(' Could Not open Socket ')
else:
try:
s.connect(('localhost', 60090))
s.sendall('Hello, world'.encode('utf-8'))
s.close()
except ConnectionError:
debug_out(' No Server ')
@subject_slot('devices')
def _on_devices_changed(self):
self.scan_devices()
def find_instrument_list(self, devicelist):
for device in devicelist:
instr = self.find_instrument(device)
if instr:
return instr
def find_in_chain(self, chain):
for device in chain.devices:
instr = self.find_instrument(device)
if instr:
return instr
def find_instrument(self, device):
if device.type == 1:
if device.can_have_chains:
chains = device.chains
for chain in chains:
instr = self.find_in_chain(chain)
if instr:
return instr
else:
if device.class_name == PLUGIN_CLASS_NAME_VST or device.class_name == PLUGIN_CLASS_NAME_AU:
if device.class_display_name.startswith(PLUGIN_PREFIX):
parms = device.parameters
if parms:
if len(parms) > 1:
pn = parms[1].name
pnLen = len(pn)
if pn.startswith(PARAM_PREFIX):
return (str(device.class_display_name),
str(pn[4:pnLen]))
return (device.class_display_name, None)
def scan_chain(self, chain):
for device in chain.devices:
self.scan_device(device)
def scan_device(self, device):
if device.class_name == 'PluginDevice' and device.class_display_name == 'FocusTester1':
parms = device.parameters
else:
if device.can_have_chains:
chains = device.chains
for chain in chains:
self.scan_chain(chain)
def update_status_midi(self, index, track, instrument, value):
msgsysex = [240, 0, 0, 102, 20, 18, 0]
tr_name = track.name
for c in tr_name:
msgsysex.append(ord(c))
msgsysex.append(25)
ind_str = str(index)
for c in ind_str:
msgsysex.append(ord(c))
if instrument is not None:
msgsysex.append(25)
for c in instrument[0]:
msgsysex.append(ord(c))
if instrument[1] is not None:
msgsysex.append(25)
for c in instrument[1]:
msgsysex.append(ord(c))
msgsysex.append(247)
self._send_midi(tuple(msgsysex))
def send_to_display(self, text, grid=0):
if len(text) > 28:
text = text[:27]
msgsysex = [240, 0, 0, 102, 23, 18, min(grid, 3) * 28]
filled = text.ljust(28)
for c in filled:
msgsysex.append(ord(c))
msgsysex.append(247)
self._send_midi(tuple(msgsysex))
def scan_devices(self):
song = self.song()
for track in song.tracks:
for device in track.devices:
self.scan_device(device)
def disconnect(self):
self._active = False
self._suppress_send_midi = True
self.song().remove_is_playing_listener(
self._FocusControl__update_play_button_led)
super().disconnect()
class Axiom_AIR_25_49_61(ControlSurface):
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
self._alt_device_component = None
with self.component_guard():
self.set_pad_translations(PAD_TRANSLATIONS)
self._suggested_input_port = 'HyperControl'
self._suggested_output_port = 'HyperControl'
self._single_fader_button_modes = None
self._has_faders = True
self._display_reset_delay = -1
self._hc_byte = HC_BYTE
self._waiting_for_first_response = True
self._setup_controls()
self._setup_displays()
self._setup_mixer()
self._setup_session()
self._setup_transport()
self._setup_device()
self._setup_modes()
self._drum_group_midi_button = None
self._drum_group_hyper_button = None
for component in self.components:
component.set_enabled(False)
def disconnect(self):
self._scheduled_messages = []
for encoder in self._encoders:
encoder.remove_value_listener(self._encoder_value)
for fader in self._faders:
fader.remove_value_listener(self._fader_value)
for fader_button in self._fader_buttons:
fader_button.remove_value_listener(self._fader_button_value)
self._master_fader.remove_value_listener(self._fader_value)
self._master_fader_button.remove_value_listener(
self._fader_button_value)
self._select_button.remove_value_listener(self._select_button_value)
self._identify_button.remove_value_listener(self._identify_value)
self._fader_group_midi_button.remove_value_listener(
self._midi_button_value)
self._fader_group_mix_button.remove_value_listener(
self._hyper_button_value)
self._fader_group_fx_button.remove_value_listener(
self._hyper_button_value)
self._encoder_group_midi_button.remove_value_listener(
self._midi_button_value)
self._encoder_group_mix_button.remove_value_listener(
self._hyper_button_value)
self._encoder_group_fx_button.remove_value_listener(
self._hyper_button_value)
if self._drum_group_midi_button != None:
self._drum_group_midi_button.remove_value_listener(
self._midi_button_value)
if self._drum_group_hyper_button != None:
self._drum_group_hyper_button.remove_value_listener(
self._hyper_button_value)
self._alt_device_component = None
self._name_display = None
self._value_display = None
self._bank_display = None
self._pad_display = None
self._name_display_data_source = None
self._value_display_data_source = None
self._bank_display_data_source = None
self._pad_display_data_source = None
self._select_button = None
self._left_button = None
self._right_button = None
self._up_button = None
self._down_button = None
self._loop_button = None
self._ffwd_button = None
self._rwd_button = None
self._play_button = None
self._stop_button = None
self._rec_button = None
self._master_fader_button = None
self._fader_buttons = None
self._faders = None
self._encoders = None
self._drum_pads = None
self._identify_button = None
self._main_group_hyper_button = None
self._main_group_track_button = None
self._main_group_fx_button = None
self._encoder_group_midi_button = None
self._encoder_group_mix_button = None
self._encoder_group_fx_button = None
self._fader_group_mode_button = None
self._fader_group_midi_button = None
self._fader_group_mix_button = None
self._fader_group_fx_button = None
self._drum_group_midi_button = None
self._drum_group_roll_button = None
self._drum_group_hyper_button = None
self._mixer_for_encoders = None
self._mixer_for_faders = None
self._device_for_encoders = None
self._device_for_faders = None
self._transport = None
self._session = None
ControlSurface.disconnect(self)
self._send_midi(SYSEX_START + DISABLE_HYPERCONTROL)
def refresh_state(self):
ControlSurface.refresh_state(self)
self.schedule_message(5, self._send_midi, IDENTITY_REQUEST)
def handle_sysex(self, midi_bytes):
if midi_bytes[0:10] == AXIOM_AIR_RESPONSE:
if midi_bytes[12:15] < AXIOM_REV4_RESPONSE:
self.schedule_message(1, self._send_midi,
SYSEX_START + ENGAGE_HYPERCONTROL)
self.schedule_message(2, self._send_midi,
SYSEX_START + CLEAR_ALL)
self.schedule_message(3, self._name_display.display_message,
'Firmware')
self.schedule_message(13, self._name_display.display_message,
'Update')
self.schedule_message(23, self._name_display.display_message,
'Required')
self.schedule_message(33, self._send_midi,
SYSEX_START + DISABLE_HYPERCONTROL)
elif midi_bytes[12:15] >= AXIOM_REV4_RESPONSE:
if self._waiting_for_first_response == True:
self._waiting_for_first_response = False
self._has_faders = midi_bytes[10] != 50
self.schedule_message(1, self._send_midi,
SYSEX_START + ENGAGE_HYPERCONTROL)
self.schedule_message(2, self._send_midi,
SYSEX_START + SPECIAL_HYPERCONTROL)
self.schedule_message(3, self._complete_setup)
else:
self._display_reset_delay = 0
elif midi_bytes[0:8] == REQUEST_HYPERCONTROL:
self.schedule_message(5, self._send_midi, IDENTITY_REQUEST)
def update_display(self):
ControlSurface.update_display(self)
if self._display_reset_delay >= 0:
self._display_reset_delay -= 1
if self._display_reset_delay == -1:
self._set_displays_to_default()
def _on_selected_track_changed(self):
ControlSurface._on_selected_track_changed(self)
self._display_reset_delay = 0
def restore_bank(self, bank_index):
ControlSurface.restore_bank(self, bank_index)
if self._alt_device_component != None:
self._alt_device_component.restore_bank(bank_index)
def set_appointed_device(self, device):
ControlSurface.set_appointed_device(self, device)
with self.component_guard():
if self._alt_device_component != None:
self._alt_device_component.set_device(device)
def set_alt_device_component(self, device_component):
self._alt_device_component = device_component
def _update_device_selection(self):
track = self.song().view.selected_track
device_to_select = track.view.selected_device
if device_to_select == None:
if len(track.devices) > 0:
device_to_select = track.devices[0]
if device_to_select != None:
self.song().view.select_device(device_to_select)
self._device_component.set_device(device_to_select)
if self._alt_device_component != None:
self._alt_device_component.set_device(device_to_select)
def _setup_controls(self):
self._left_button = create_button(99, 'Left_Button')
self._right_button = create_button(100, 'Right_Button')
self._up_button = create_button(101, 'Up_Button')
self._down_button = create_button(102, 'Down_Button')
self._loop_button = create_button(113, 'Loop_Button')
self._rwd_button = create_button(114, 'Rwd_Button')
self._ffwd_button = create_button(115, 'FFwd_Button')
self._stop_button = create_button(116, 'Stop_Button')
self._play_button = create_button(117, 'Play_Button')
self._rec_button = create_button(118, 'Record_Button')
self._select_button = ConfigurableButtonElement(
IS_MOMENTARY, MIDI_CC_TYPE, GLOBAL_CHANNEL, 98)
self._select_button.name = 'Select_Button'
self._select_button.add_value_listener(self._select_button_value)
self._main_group_hyper_button = create_configurable_button(
104, 'Fader_Group_HyperControl_Button', 2, 14)
self._main_group_track_button = create_configurable_button(
105, 'Main_Group_Track_Button', 2, 11)
self._main_group_fx_button = create_configurable_button(
106, 'Main_Group_Inst_FX_Button', 2, 11)
self._identify_button = create_configurable_button(
97, 'Identify_Button', 2, 16)
self._identify_button.add_value_listener(self._identify_value)
self._fader_buttons = []
for index in range(8):
self._fader_buttons.append(
create_configurable_button(49 + index,
'Fader_Button_%d' % index))
self._fader_buttons[(-1)].add_value_listener(
(self._fader_button_value), identify_sender=True)
self._faders = []
for index in range(8):
self._faders.append(create_slider(33 + index, 'Fader_%d' % index))
self._faders[(-1)].add_value_listener((self._fader_value),
identify_sender=True)
self._master_fader_button = create_configurable_button(
57, 'Master_Fader_Button')
self._master_fader_button.add_value_listener(
(self._fader_button_value), identify_sender=True)
self._master_fader = create_slider(41, 'Master_Fader')
self._master_fader.add_value_listener((self._fader_value),
identify_sender=True)
self._fader_group_mode_button = create_configurable_button(
61, 'Fader_Group_Mode_Button')
self._fader_group_midi_button = create_configurable_button(
60, 'Fader_Group_MIDI_Button')
self._fader_group_midi_button.add_value_listener(
(self._midi_button_value), identify_sender=True)
self._fader_group_mix_button = create_configurable_button(
58, 'Fader_Group_Mix_Button', 0, 1)
self._fader_group_mix_button.add_value_listener(
(self._hyper_button_value), identify_sender=True)
self._fader_group_fx_button = create_configurable_button(
59, 'Fader_Group_Inst_FX_Button', 0, -1)
self._fader_group_fx_button.add_value_listener(
(self._hyper_button_value), identify_sender=True)
self._encoders = []
for index in range(8):
self._encoders.append(
create_encoder(17 + index, 'Encoder_%d' % index))
self._encoders[(-1)].add_value_listener((self._encoder_value),
identify_sender=True)
self._encoder_group_midi_button = create_configurable_button(
27, 'Encoder_Group_MIDI_Button', 0, 72)
self._encoder_group_midi_button.add_value_listener(
(self._midi_button_value), identify_sender=True)
self._encoder_group_mix_button = create_configurable_button(
25, 'Encoder_Group_Mix_Button', 0, 72)
self._encoder_group_mix_button.add_value_listener(
(self._hyper_button_value), identify_sender=True)
self._encoder_group_fx_button = create_configurable_button(
26, 'Encoder_Group_Inst_FX_Button', 0, 72)
self._encoder_group_fx_button.add_value_listener(
(self._hyper_button_value), identify_sender=True)
def _setup_drum_pads(self):
self._drum_pads = []
num_pads = 12 if self._has_faders else 16
for index in range(8):
self._drum_pads.append(
create_configurable_button(81 + index, 'Pad_%d' % index, 0, 0,
MIDI_CC_TYPE))
for index in range(num_pads - 8):
self._drum_pads.append(
ConfigurableButtonElement(IS_MOMENTARY, MIDI_NOTE_TYPE,
GLOBAL_CHANNEL - 1, 81 + index,
GLOBAL_SEND_CHANNEL, 8,
MIDI_CC_TYPE))
self._drum_pads[(-1)].name = 'Pad_' + str(index + 8)
self._drum_group_midi_button = create_configurable_button(
91, 'Drum_Group_MIDI_Button', 2, -2)
self._drum_group_midi_button.add_value_listener(
(self._midi_button_value), identify_sender=True)
self._drum_group_roll_button = create_configurable_button(
90, 'Drum_Group_Roll_Button', -1)
self._drum_group_hyper_button = create_configurable_button(
89, 'Drum_Group_HyperControl_Button', 2, 2)
self._drum_group_hyper_button.add_value_listener(
(self._hyper_button_value), identify_sender=True)
def _setup_displays(self):
self._name_display = PhysicalDisplayElement(12, 1)
self._name_display.name = 'Name_Display'
self._name_display.set_message_parts(SYSEX_START + (21, ), (0, 247))
self._name_display.set_clear_all_message(CLEAR_NAME)
self._name_display_data_source = DisplayDataSource()
self._name_display.segment(0).set_data_source(
self._name_display_data_source)
self._value_display = NumericalDisplayElement(3, 1)
self._value_display.name = 'Value_Display'
self._value_display.set_message_parts(SYSEX_START + (20, 48), (0, 247))
self._value_display.set_clear_all_message(CLEAR_VALUE)
self._value_display_data_source = DisplayDataSource()
self._value_display.segment(0).set_data_source(
self._value_display_data_source)
self._bank_display = NumericalDisplayElement(3, 1)
self._bank_display.name = 'Bank_Display'
self._bank_display.set_message_parts(SYSEX_START + (19, ), (0, 247))
self._bank_display.set_clear_all_message(CLEAR_BANK)
self._bank_display_data_source = DisplayDataSource()
self._bank_display.segment(0).set_data_source(
self._bank_display_data_source)
self._pad_display = NumericalDisplayElement(2, 1)
self._pad_display.name = 'Pad_Display'
self._pad_display.set_message_parts(SYSEX_START + (18, ), (0, 247))
self._pad_display.set_clear_all_message(CLEAR_PAD)
self._pad_display_data_source = DisplayDataSource()
self._pad_display.segment(0).set_data_source(
self._pad_display_data_source)
def _setup_mixer(self):
self._mixer_for_encoders = SpecialMixerComponent(
self._name_display, self._value_display, 8)
self._mixer_for_encoders.name = 'Mixer_for_encoders'
self._mixer_for_faders = SpecialMixerComponent(self._name_display,
self._value_display, 8)
self._mixer_for_faders.name = 'Mixer_for_faders'
def _setup_session(self):
self._session = SpecialSessionComponent(8, 0)
self._session.name = 'Session_Control'
self._session.selected_scene().name = 'Selected_Scene'
self._session.set_mixer(self._mixer_for_encoders)
self._session.set_alt_mixer(self._mixer_for_faders)
self._session.add_offset_listener(self._update_bank_value)
def _setup_transport(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
self._transport.set_stop_button(self._stop_button)
self._transport.set_play_button(self._play_button)
self._transport.set_record_button(self._rec_button)
transport_view_modes = TransportViewModeSelector(
self._transport, self._session, self._ffwd_button,
self._rwd_button, self._loop_button)
transport_view_modes.name = 'Transport_View_Modes'
def _setup_device(self):
self._device_for_encoders = BestBankDeviceComponent(
device_selection_follows_track_selection=True)
self._device_for_encoders.name = 'Device_Component_for_encoders'
self._device_for_faders = BestBankDeviceComponent(
device_selection_follows_track_selection=True)
self._device_for_faders.name = 'Device_Component_for_faders'
self.set_device_component(self._device_for_encoders)
self.set_alt_device_component(self._device_for_faders)
self._device_nav = DeviceNavComponent()
self._device_nav.name = 'Device_Nav_Component'
def _setup_modes(self):
self._fader_button_modes = FaderButtonModeSelector(
self._mixer_for_faders, tuple(self._fader_buttons))
self._fader_button_modes.name = 'Fader_Button_Modes'
self._fader_button_modes.set_mode_toggle(self._fader_group_mode_button)
self._fader_modes = FaderModeSelector(self._mixer_for_faders,
self._device_for_faders,
tuple(self._faders),
self._fader_button_modes,
self._master_fader_button)
self._fader_modes.name = 'Fader_Modes'
self._fader_modes.set_mode_buttons(
(self._fader_group_mix_button, self._fader_group_fx_button))
self._encoder_modes = EncoderModeSelector(self._mixer_for_encoders,
self._device_for_encoders,
tuple(self._encoders))
self._encoder_modes.name = 'Encoder_Modes'
self._encoder_modes.set_mode_buttons(
(self._encoder_group_mix_button, self._encoder_group_fx_button))
main_modes = MainModeSelector(self._device_for_encoders,
self._device_for_faders, self._session,
self._mixer_for_faders, self._device_nav,
self._up_button, self._down_button,
self._left_button, self._right_button,
self._select_button)
main_modes.name = 'Main_Modes'
main_modes.set_mode_buttons(
(self._main_group_track_button, self._main_group_fx_button))
def _setup_master_fader(self):
if self._has_faders:
self._mixer_for_encoders.master_strip().set_volume_control(
self._master_fader)
else:
self._mixer_for_encoders.selected_strip().set_volume_control(
self._master_fader)
def _setup_single_fader_button_modes(self):
self._single_fader_button_modes = SingleFaderButtonModeSelector(
self._mixer_for_encoders, self._fader_group_midi_button)
self._single_fader_button_modes.name = 'Single_Fader_Button_Modes'
self._single_fader_button_modes.set_mode_toggle(
self._fader_group_mode_button)
def _complete_setup(self):
self._setup_drum_pads()
self._set_drum_pads_to_hc()
self._setup_master_fader()
if not self._has_faders:
self._setup_single_fader_button_modes()
for control in self.controls:
if isinstance(control, InputControlElement):
control.clear_send_cache()
for component in self.components:
component.set_enabled(True)
self._fader_group_midi_button.send_value(LED_OFF, True)
self._encoder_group_midi_button.send_value(LED_OFF, True)
self._main_group_hyper_button.send_value(AMB_FULL, True)
self.request_rebuild_midi_map()
self._on_selected_track_changed()
self.schedule_message(1, self._show_startup_message)
def _show_startup_message(self):
self._send_midi(SYSEX_START + CLEAR_ALL)
self._name_display.display_message('Ableton Live')
self._display_reset_delay = INITIAL_DISPLAY_DELAY
def _select_button_value(self, value):
self._display_reset_delay = STANDARD_DISPLAY_DELAY
def _identify_value(self, value):
for encoder in self._encoders:
encoder.set_identify_mode(value > 0)
for fader in self._faders:
fader.set_identify_mode(value > 0)
self._master_fader.set_identify_mode(value > 0)
self._display_reset_delay = 0
self._identify_button.turn_on(
) if value > 0 else self._identify_button.turn_off()
def _midi_button_value(self, value, sender):
if value > 0:
if sender is self._drum_group_midi_button:
hc_byte = self._hc_byte ^ PADS
if hc_byte != self._hc_byte:
self._hc_byte = hc_byte
self._drum_group_hyper_button.send_value(LED_OFF, True)
self.schedule_message(
1, self._send_midi,
SYSEX_START + (32, self._hc_byte, 247))
elif sender is self._encoder_group_midi_button:
hc_byte = self._hc_byte ^ ENCODERS
if hc_byte != self._hc_byte:
self._hc_byte = hc_byte
self._encoder_group_mix_button.send_value(LED_OFF, True)
self._encoder_group_fx_button.send_value(LED_OFF, True)
if self._encoder_modes.mode_index < 3:
self._encoder_modes.set_enabled(False)
self.schedule_message(
1, self._send_midi,
SYSEX_START + (32, self._hc_byte, 247))
elif sender is self._fader_group_midi_button:
if self._has_faders:
hc_byte = self._hc_byte ^ FADERS
if hc_byte != self._hc_byte:
self._hc_byte = hc_byte
self._fader_group_mix_button.send_value(LED_OFF, True)
self._fader_group_fx_button.send_value(LED_OFF, True)
self._fader_group_mode_button.send_value(LED_OFF, True)
if self._fader_modes.mode_index < 2:
self._fader_modes.set_enabled(False)
self._fader_button_modes.set_enabled(False)
self.schedule_message(
1, self._send_midi,
SYSEX_START + (32, self._hc_byte, 247))
else:
self._display_reset_delay = STANDARD_DISPLAY_DELAY
def _hyper_button_value(self, value, sender):
if value > 0:
if sender is self._drum_group_hyper_button:
if self._hc_byte | PADS != self._hc_byte:
self._hc_byte = self._hc_byte | PADS
self._send_midi(SYSEX_START + (32, self._hc_byte, 247))
self.schedule_message(1, self._set_drum_pads_to_hc)
elif sender is self._encoder_group_fx_button or sender is self._encoder_group_mix_button:
if self._hc_byte | ENCODERS != self._hc_byte:
self._hc_byte = self._hc_byte | ENCODERS
self._send_midi(SYSEX_START + (32, self._hc_byte, 247))
self._encoder_group_midi_button.turn_off()
if sender is self._encoder_group_fx_button:
self._encoder_modes.set_enabled(True)
self._display_reset_delay = 0
return
self.schedule_message(1, self._encoder_modes.set_enabled,
True)
self.schedule_message(1, self._encoder_modes.update)
self._display_reset_delay = 2
return
else:
if sender is self._fader_group_fx_button or (
sender is self._fader_group_mix_button):
if self._hc_byte | FADERS != self._hc_byte:
self._hc_byte = self._hc_byte | FADERS
self._send_midi(SYSEX_START + (32, self._hc_byte, 247))
self._fader_group_midi_button.turn_off()
self._fader_button_modes.set_enabled(True)
if sender is self._fader_group_fx_button:
self._fader_modes.set_enabled(True)
self._fader_button_modes.set_enabled(True)
self._display_reset_delay = 0
return
self.schedule_message(1, self._fader_modes.set_enabled,
True)
self.schedule_message(1, self._fader_modes.update)
self.schedule_message(
1, self._fader_button_modes.set_enabled, True)
self.schedule_message(1,
self._fader_button_modes.update)
self._display_reset_delay = 2
return
self._display_reset_delay = 0
def _set_drum_pads_to_hc(self):
self._drum_group_midi_button.send_value(LED_OFF, True)
self._drum_group_hyper_button.send_value(RED_FULL, True)
for index in range(len(self._drum_pads)):
self._drum_pads[index].send_value(RED_LOW, True)
def _fader_button_value(self, value, sender):
self._display_reset_delay = STANDARD_DISPLAY_DELAY
def _fader_value(self, value, sender):
param = sender.mapped_parameter()
if param != None:
param_range = param.max - param.min
if param.name == 'Track Volume':
if sender == self._master_fader:
if self._has_faders:
name_string = 'Master Vol'
else:
name_string = self._mixer_for_faders.selected_strip(
).track_name_data_source().display_string() + ' Vol'
else:
name_string = self._mixer_for_faders.channel_strip(
self._faders.index(sender)).track_name_data_source(
).display_string() + ' Vol'
else:
name_string = param.name
value = int(
old_div(param.value - param.min, param_range) * 127)
value_string = str(value)
else:
name_string = '<unmapped>'
value_string = None
self.schedule_message(1, self._set_value_string)
self._set_name_string(name_string)
self._set_value_string(value_string)
def _encoder_value(self, value, sender):
param = sender.mapped_parameter()
if param != None:
param_range = param.max - param.min
if param.name == 'Track Volume':
name_string = self._mixer_for_encoders.channel_strip(
self._encoders.index(sender)).track_name_data_source(
).display_string() + ' Vol'
value = int(
old_div(param.value - param.min, param_range) * 127)
elif param.name == 'Track Panning':
name_string = self._mixer_for_encoders.channel_strip(
self._encoders.index(sender)).track_name_data_source(
).display_string() + ' Pan'
value = int(old_div(param.value, param_range) * 127)
if value < 0:
name_string += ' L'
elif value > 0:
name_string += ' R'
else:
name_string += ' C'
else:
name_string = param.name
value = int(
old_div(param.value - param.min, param_range) * 127)
value_string = str(value)
else:
name_string = '<unmapped>'
value_string = None
self.schedule_message(1, self._set_value_string)
self._set_name_string(name_string)
self._set_value_string(value_string)
def _set_displays_to_default(self):
self._name_display.segment(0).set_data_source(
self._mixer_for_encoders.selected_strip().track_name_data_source())
self._name_display.update()
self._update_bank_value()
self._set_value_string(None)
self._send_midi(SYSEX_START + LCD_HC_DEFAULT)
def _set_name_string(self, name_string):
self._name_display.segment(0).set_data_source(
self._name_display_data_source)
self._name_display_data_source.set_display_string(name_string)
self._display_reset_delay = STANDARD_DISPLAY_DELAY
def _set_value_string(self, value_string=None):
if value_string != None:
self._value_display_data_source.set_display_string(value_string)
else:
self._value_display.reset()
def _set_bank_string(self, bank_string=None):
if bank_string != None:
self._bank_display_data_source.set_display_string(bank_string)
else:
self._bank_display.reset()
def _update_bank_value(self):
bank = old_div(self._session.track_offset() + 1,
self._session.width()) + 1
self._set_bank_string(str(bank))
def _install_mapping(self, midi_map_handle, control, parameter,
feedback_delay, feedback_map):
success = False
feedback_rule = None
if control.message_type() is MIDI_NOTE_TYPE:
feedback_rule = Live.MidiMap.NoteFeedbackRule()
feedback_rule.note_no = 0
feedback_rule.vel_map = (0, )
elif control.message_type() is MIDI_CC_TYPE:
feedback_rule = Live.MidiMap.CCFeedbackRule()
feedback_rule.cc_no = 0
feedback_rule.cc_value_map = (0, )
elif control.message_type() is MIDI_PB_TYPE:
feedback_rule = Live.MidiMap.PitchBendFeedbackRule()
feedback_rule.value_pair_map = feedback_map
feedback_rule.channel = control.message_channel()
feedback_rule.delay_in_ms = feedback_delay
if control.message_type() is MIDI_NOTE_TYPE:
success = Live.MidiMap.map_midi_note_with_feedback_map(
midi_map_handle, parameter, control.message_channel(),
control.message_identifier(), feedback_rule)
elif control.message_type() is MIDI_CC_TYPE:
success = Live.MidiMap.map_midi_cc_with_feedback_map(
midi_map_handle, parameter, control.message_channel(),
control.message_identifier(), control.message_map_mode(),
feedback_rule, not control.needs_takeover())
elif control.message_type() is MIDI_PB_TYPE:
success = Live.MidiMap.map_midi_pitchbend_with_feedback_map(
midi_map_handle, parameter, control.message_channel(),
feedback_rule, not control.needs_takeover())
return success
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
is_momentary = True
self.set_pad_translations(PAD_TRANSLATIONS)
self._suggested_input_port = 'HyperControl'
self._suggested_output_port = 'HyperControl'
self._display_on_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, 15, 79)
self._waiting_for_first_response = True
mixer1 = DisplayingMixerComponent(0)
mixer1.set_select_buttons(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 111), ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 110))
mixer1.set_mute_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 12))
mixer1.set_solo_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 13))
mixer2 = NotifyingMixerComponent(8)
mixer2.set_bank_buttons(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 15), ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 14))
mixer2.master_strip().set_volume_control(SliderElement(MIDI_CC_TYPE, 15, 41))
for index in range(8):
mixer2.channel_strip(index).set_volume_control(SliderElement(MIDI_CC_TYPE, 15, 33 + index))
device = PageableDeviceComponent(device_selection_follows_track_selection=True)
self.set_device_component(device)
ffwd_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 115)
rwd_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 114)
loop_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 113)
transport = TransportComponent()
transport.set_stop_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 116))
transport.set_play_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 117))
transport.set_record_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 118))
session = SessionComponent(0, 0)
transport_view_modes = TransportViewModeSelector(transport, session, ffwd_button, rwd_button, loop_button)
select_button_modes = SelectButtonModeSelector(mixer2, tuple([ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 49 + offset) for offset in range(8)]))
select_button_modes.set_mode_toggle(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 57))
self._mixer_encoder_modes = EncoderMixerModeSelector(mixer2)
encoders = []
for offset in range(8):
encoders.append(PeekableEncoderElement(MIDI_CC_TYPE, 15, 17 + offset, Live.MidiMap.MapMode.relative_smooth_two_compliment))
encoders[(-1)].set_feedback_delay(-1)
mixer_or_device = MixerOrDeviceModeSelector(self._mixer_encoder_modes, device, tuple(encoders), tuple([ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 74 + offset) for offset in range(4)]))
mixer_or_device.set_mode_toggle(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 109))
mixer_or_device.set_peek_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 15, 78))
self._track_display = PhysicalDisplayElement(8, 1)
self._track_display.set_clear_all_message(SYSEX_START + (16, 247))
self._track_display.set_message_parts(SYSEX_START + (17, 1, 0, 0), (247, ))
self._track_display.segment(0).set_data_source(mixer1.selected_strip().track_name_data_source())
device_display = PhysicalDisplayElement(8, 1)
device_display.set_message_parts(SYSEX_START + (17, 1, 0, 10), (247, ))
parameter_display = PhysicalDisplayElement(16, 1)
parameter_display.set_message_parts(SYSEX_START + (17, 2, 0, 0), (247, ))
select_button_modes.set_mode_display(parameter_display)
mixer1.set_display(parameter_display)
mixer2.set_bank_display(parameter_display)
page_displays = []
for index in range(4):
page_displays.append(PhysicalDisplayElement(5, 1))
page_displays[(-1)].set_message_parts(SYSEX_START + (17, 4, index, 0), (247, ))
encoder_display = PhysicalDisplayElement(80, 8)
encoder_display.set_message_parts(SYSEX_START + (17, 3), (247, ))
for index in range(8):
pos_id = tuple()
if index != 0:
pos_id += (0, )
else:
if index > 3:
pos_id += (index % 4, 13)
else:
pos_id += (index % 4, 0)
encoder_display.segment(index).set_position_identifier(pos_id)
mixer_or_device.set_displays(encoder_display, parameter_display, device_display, tuple(page_displays))
for component in self.components:
component.set_enabled(False)
