Example #1
0
	def __init__(self, c_instance):
		ControlSurface.__init__(self, c_instance)
		self._monomod_version = 'b994'
		self.hosts = []
		self._host_name = 'BlockPad'
		self._color_type = 'Monochrome'
		self._timer = 0
		is_momentary = True
		self._suggested_input_port = 'block (Controls)'
		self._suggested_output_port = 'block (Controls)'
		self._wrote_user_byte = False
		matrix = ButtonMatrixElement()
		for row in range(8):
			button_row = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, ((column * 8) + row), 'Button_'+str(column)+'_'+str(row), self) for column in range(8) ]
			matrix.add_row(tuple(button_row))
		knobs = [ EncoderElement(MIDI_CC_TYPE, 0, KNOB_CC[index], Live.MidiMap.MapMode.absolute) for index in range(8) ]
		sliders = [ EncoderElement(MIDI_CC_TYPE, 0, SLIDER_CC[index], Live.MidiMap.MapMode.absolute) for index in range(2) ]
		self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0)
		self._config_button.add_value_listener(self._config_value)
		top_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, TOP_NOTES[index], 'Top_Button'+str(index), self) for index in range(8) ]
		side_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, SIDE_NOTES[index], 'Side_Button'+str(index), self) for index in range(8) ]
		self._setup_monobridge()
		self._setup_monomod()
		self._selector = MainSelectorComponent(matrix, tuple(top_buttons), tuple(side_buttons), self._config_button, tuple(knobs), tuple(sliders), self)
		self._user_byte_write_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 16)
		self._user_byte_value(1)
		self._user_byte_write_button.add_value_listener(self._user_byte_value)
		self.set_enabled(True)
		self.log_message("--------------= BlockPad log opened =--------------") #Create entry in log file
		self.refresh_state()
Example #2
0
	def _setup_mixer_control(self):
		is_momentary = True
		self._mixer = SpecialMixerComponent(8)
		self._mixer.name = 'Mixer'
		self._mixer.master_strip().name = 'Master_Channel_Strip'
		self._mixer.selected_strip().name = 'Selected_Channel_Strip'
		self._solo_buttons = []
		for track in range(8):
			strip = self._mixer.channel_strip(track)
			strip.name = 'Channel_Strip_' + str(track)
			solo_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 50, self)
			self._solo_buttons.append(solo_button)
			mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 49)
			solo_button.name = str(track) + '_Solo_Button'
			mute_button.name = str(track) + '_Mute_Button'
			strip.set_solo_button(solo_button)
			strip.set_mute_button(mute_button)
			strip.set_shift_button(self._shift_button)
			strip.set_invert_mute_feedback(True)
		master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
		prehear_control = EncoderElement(MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
		master_volume_control.name = 'Master_Volume_Control'
		prehear_control.name = 'Prehear_Volume_Control'
		self._mixer.set_prehear_volume_control(prehear_control)
		self._mixer.master_strip().set_volume_control(master_volume_control)
Example #3
0
 def __init__(self, c_instance):
     ControlSurface.__init__(self, c_instance)
     self._monomod_version = 'b994'
     self._host_name = 'LaunchMod'
     self._color_type = 'Launchpad'
     self.hosts = []
     self._timer = 0
     self.set_suppress_rebuild_requests(True)
     self._suppress_send_midi = True
     self._suppress_session_highlight = True
     is_momentary = True
     self._suggested_input_port = 'Launchpad'
     self._suggested_output_port = 'Launchpad'
     self._wrote_user_byte = False
     self._control_is_with_automap = False
     self._challenge = (Live.Application.get_random_int(0, 400000000)
                        & 2139062143)
     matrix = ButtonMatrixElement()
     matrix.name = 'ButtonMatrix'
     for row in range(8):
         #button_row = [ ConfigurableButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, ((row * 16) + column)) for column in range(8) ]
         button_row = [
             FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
                                   ((row * 16) + column),
                                   'Button_' + str(row) + '_' + str(column),
                                   self) for column in range(8)
         ]
         matrix.add_row(tuple(button_row))
     self._config_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 0)
     self._config_button.add_value_listener(self._config_value)
     top_buttons = [
         FlashingButtonElement(is_momentary, MIDI_CC_TYPE, 0, (104 + index),
                               'Top_Button' + str(index), self)
         for index in range(8)
     ]
     side_buttons = [
         FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
                               SIDE_NOTES[index],
                               'Side_Button' + str(index), self)
         for index in range(8)
     ]
     self._setup_monobridge()
     self._setup_monomod()
     self._selector = MainSelectorComponent(matrix, tuple(top_buttons),
                                            tuple(side_buttons),
                                            self._config_button, self)
     self._suppress_session_highlight = False
     self._suppress_send_midi = False
     self._user_byte_write_button = ButtonElement(is_momentary,
                                                  MIDI_CC_TYPE, 0, 16)
     self._user_byte_write_button.send_value(1)
     self._user_byte_write_button.add_value_listener(self._user_byte_value)
     self._suppress_send_midi = True
     self.set_suppress_rebuild_requests(False)
     self.log_message("--------------= LaunchMod log opened =--------------"
                      )  #Create entry in log file
     self.refresh_state()
Example #4
0
	def _setup_device_and_transport_control(self):
		is_momentary = True
		device_bank_buttons = []
		device_param_controls = []
		bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button', 'Previous_Device_Button', 'Next_Device_Button', 'Detail_View_Button', 'Rec_Quantization_Button', 'Midi_Overdub_Button', 'Metronome_Button')
		for index in range(8):
			device_bank_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 58 + index))
			device_bank_buttons[-1].name = bank_button_labels[index]
			ring_mode_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, 0, 24 + index)
			ringed_encoder = MonoRingedEncoderElement(MIDI_CC_TYPE, 0, 16 + index, Live.MidiMap.MapMode.absolute, index, self)
			ringed_encoder.set_ring_mode_button(ring_mode_button)
			ringed_encoder.name = 'Device_Control_' + str(index)
			ring_mode_button.name = ringed_encoder.name + '_Ring_Mode_Button'
			device_param_controls.append(ringed_encoder)
		device = ShiftableDeviceComponent(self)
		device.name = 'Device_Component'
		device.set_bank_buttons(tuple(device_bank_buttons))
		device.set_shift_button(self._shift_button)
		device.set_parameter_controls(tuple(device_param_controls))
		device.set_on_off_button(device_bank_buttons[1])
		self.set_device_component(device)
		detail_view_toggler = DetailViewCntrlComponent()
		detail_view_toggler.name = 'Detail_View_Control'
		detail_view_toggler.set_shift_button(self._shift_button)
		detail_view_toggler.set_device_clip_toggle_button(device_bank_buttons[0])
		detail_view_toggler.set_detail_toggle_button(device_bank_buttons[4])
		detail_view_toggler.set_device_nav_buttons(device_bank_buttons[2], device_bank_buttons[3])
		transport = ShiftableTransportComponent()
		transport.name = 'Transport'
		self._transport = transport
		play_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 91)
		stop_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 92)
		record_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 93)
		nudge_up_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 100, self)
		self._nudge_up_button = nudge_up_button
		nudge_down_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 101, self)
		self._nudge_down_button = nudge_down_button
		tap_tempo_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 99)
		play_button.name = 'Play_Button'
		stop_button.name = 'Stop_Button'
		record_button.name = 'Record_Button'
		nudge_up_button.name = 'Nudge_Up_Button'
		nudge_down_button.name = 'Nudge_Down_Button'
		tap_tempo_button.name = 'Tap_Tempo_Button'
		transport.set_shift_button(self._shift_button)
		transport.set_play_button(play_button)
		transport.set_stop_button(stop_button)
		transport.set_record_button(record_button)
		transport.set_nudge_buttons(nudge_up_button, nudge_down_button)
		transport.set_tap_tempo_button(tap_tempo_button)
		transport.set_quant_toggle_button(device_bank_buttons[5])
		transport.set_overdub_button(device_bank_buttons[6])
		transport.set_metronome_button(device_bank_buttons[7])
		bank_button_translator = ShiftTranslatorComponent()
		bank_button_translator.set_controls_to_translate(tuple(device_bank_buttons))
		bank_button_translator.set_shift_button(self._shift_button)
Example #5
0
    def _setup_controls(self):
        is_momentary = True
        self._livid = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                            CHANNEL, LIVID, 'Livid_Button',
                                            self)

        self._dial = [None for index in range(8)]
        for column in range(8):
            self._dial[column] = [None for index in range(4)]
            for row in range(4):
                self._dial[column][row] = CodecEncoderElement(
                    MIDI_CC_TYPE, CHANNEL, CODE_DIALS[row][column],
                    Live.MidiMap.MapMode.absolute,
                    'Dial_' + str(column) + '_' + str(row),
                    (column + (row * 8)), self)  #CODE_DIALS[row][column]

        self._button = [None for index in range(8)]
        for column in range(8):
            self._button[column] = [None for index in range(4)]
            for row in range(4):
                self._button[column][row] = FlashingButtonElement(
                    is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                    CODE_BUTTONS[row][column],
                    'Button_' + str(column) + '_' + str(row), self)

        self._column_button = [None for index in range(8)]
        for index in range(8):
            self._column_button[index] = FlashingButtonElement(
                is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                CODE_COLUMN_BUTTONS[index], 'Column_Button_' + str(index),
                self)

        self._row_button = [None for index in range(4)]
        for index in range(4):
            self._row_button[index] = FlashingButtonElement(
                is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_ROW_BUTTONS[index],
                'Row_Button_' + str(index), self)

        self._dial_matrix = EncoderMatrixElement(self)
        self._dial_matrix.name = 'Encoder_Matrix'
        for row in range(4):
            dial_row = tuple([self._dial[column][row] for column in range(8)])
            self._dial_matrix.add_row(dial_row)

        self._button_matrix = ButtonMatrixElement()
        self._button_matrix.name = 'Button_Matrix'
        for row in range(4):
            button_row = [self._button[column][row] for column in range(8)]
            button_row.append(self._row_button[row])
            self._button_matrix.add_row(tuple(button_row))
        self._button_matrix.add_row(tuple(self._column_button + [self._livid]))
  def __init__(self, is_momentary, 
      msg_type, 
      channel, 
      identifier, 
      on_color = GREEN,
      off_color = RED, 
      blink_on = False,
      blink_colors = [YELLOW]):

    FlashingButtonElement.__init__(self, is_momentary, msg_type, channel, identifier, 
        blink_on = blink_on, 
        blink_colors = blink_colors)

    self.on_color = on_color
    self.off_color = off_color
Example #7
0
	def _setup_custom_components(self):
		is_momentary = True
		master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 80)
		self._master_select_button = master_select_button
		master_select_button.name = 'Master_Select_Button'
		select_buttons = []
		self._select_buttons = []
		arm_buttons = []
		sliders = []
		for track in range(8):
			select_buttons.append(FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 51, self))
			self._select_buttons.append(select_buttons[track])
			arm_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48))
			if track is 7:
				self._user3 = arm_buttons[track]
			sliders.append(MonoEncoderElement2(MIDI_CC_TYPE, track, 7, Live.MidiMap.MapMode.absolute, 'Slider_' + str(track), track, self))
			#sliders.append(MonoEncoderElement2(MIDI_CC_TYPE, track, 7))
			select_buttons[-1].name = str(track) + '_Select_Button'
			arm_buttons[-1].name = str(track) + '_Arm_Button'
			#sliders[-1].name = str(track) + '_Volume_Control'
		transport = TransportComponent()
		transport.name = 'Transport'
		slider_modes = SliderModesComponent(self._mixer, tuple(sliders))
		slider_modes.name = 'Slider_Modes'
		self._shift_modes = ShiftableSelectorComponent(tuple(select_buttons), master_select_button, tuple(arm_buttons), self._matrix, self._session, self._session_zoom, self._mixer, transport, slider_modes, self._send_introduction_message, self)
		self._shift_modes.name = 'Shift_Modes'
		self._shift_modes.set_mode_toggle(self._shift_button)
  def __init__(self, 
      is_momentary,
      msg_type,
      channel,
      identifier,
      off_color = 0,
      on_color = 127,
      blink_on = False,
      blink_colors = [RED],
      color_mappings = None,
      **kwargs):

    FlashingButtonElement.__init__(self, is_momentary, msg_type, channel, identifier, 
        blink_on = blink_on, 
        blink_colors = blink_colors)
    
    self.setup_color_mappings(color_mappings)
Example #9
0
    def _setup_controls(self):
        is_momentary = True
        self._livid = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, "Livid_Button", self)

        self._dial = [None for index in range(8)]
        for column in range(8):
            self._dial[column] = [None for index in range(4)]
            for row in range(4):
                self._dial[column][row] = CodecEncoderElement(
                    MIDI_CC_TYPE,
                    CHANNEL,
                    CODE_DIALS[row][column],
                    Live.MidiMap.MapMode.absolute,
                    "Dial_" + str(column) + "_" + str(row),
                    (column + (row * 8)),
                    self,
                )  # CODE_DIALS[row][column]

        self._button = [None for index in range(8)]
        for column in range(8):
            self._button[column] = [None for index in range(4)]
            for row in range(4):
                self._button[column][row] = FlashingButtonElement(
                    is_momentary,
                    MIDI_NOTE_TYPE,
                    CHANNEL,
                    CODE_BUTTONS[row][column],
                    "Button_" + str(column) + "_" + str(row),
                    self,
                )

        self._column_button = [None for index in range(8)]
        for index in range(8):
            self._column_button[index] = FlashingButtonElement(
                is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_COLUMN_BUTTONS[index], "Column_Button_" + str(index), self
            )

        self._row_button = [None for index in range(4)]
        for index in range(4):
            self._row_button[index] = FlashingButtonElement(
                is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_ROW_BUTTONS[index], "Row_Button_" + str(index), self
            )

        self._dial_matrix = EncoderMatrixElement(self)
        self._dial_matrix.name = "Encoder_Matrix"
        for row in range(4):
            dial_row = tuple([self._dial[column][row] for column in range(8)])
            self._dial_matrix.add_row(dial_row)

        self._button_matrix = ButtonMatrixElement()
        self._button_matrix.name = "Button_Matrix"
        for row in range(4):
            button_row = [self._button[column][row] for column in range(8)]
            button_row.append(self._row_button[row])
            self._button_matrix.add_row(tuple(button_row))
        self._button_matrix.add_row(tuple(self._column_button + [self._livid]))
Example #10
0
	def _setup_mixer_control(self):
		is_momentary = True
		self._mixer = SpecialMixerComponent(8)
		self._mixer.name = 'Mixer'
		self._mixer.master_strip().name = 'Master_Channel_Strip'
		self._mixer.selected_strip().name = 'Selected_Channel_Strip'
		self._solo_buttons = []	# added a
		self._select_buttons = []	# added a
		for track in range(8):
			strip = self._mixer.channel_strip(track)
			strip.name = 'Channel_Strip_' + str(track)
			volume_control = MonoEncoderElement2(MIDI_CC_TYPE, track, 7, Live.MidiMap.MapMode.absolute, 'Slider_' + str(track), track, self)
			arm_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48)
			solo_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 50, self)
			self._solo_buttons.append(solo_button)	# added a
			mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 49)
			select_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 51, self)
			self._select_buttons.append(select_button)	# added a
			#volume_control.name = str(track) + '_Volume_Control'
			arm_button.name = str(track) + '_Arm_Button'
			solo_button.name = str(track) + '_Solo_Button'
			mute_button.name = str(track) + '_Mute_Button'
			select_button.name = str(track) + '_Select_Button'
			strip.set_volume_control(volume_control)
			strip.set_arm_button(arm_button)
			strip.set_solo_button(solo_button)
			strip.set_mute_button(mute_button)
			strip.set_select_button(select_button)
			strip.set_shift_button(self._shift_button)
			strip.set_invert_mute_feedback(True)
		crossfader = SliderElement(MIDI_CC_TYPE, 0, 15)
		master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
		master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 80)
		self._master_select_button = master_select_button
		prehear_control = EncoderElement(MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
		crossfader.name = 'Crossfader'
		master_volume_control.name = 'Master_Volume_Control'
		master_select_button.name = 'Master_Select_Button'
		prehear_control.name = 'Prehear_Volume_Control'
		self._mixer.set_crossfader_control(crossfader)
		self._mixer.set_prehear_volume_control(prehear_control)
		self._mixer.master_strip().set_volume_control(master_volume_control)
		self._mixer.master_strip().set_select_button(master_select_button)
 def send_value(self, value, force_send=False):
   if value == 0:
     FlashingButtonElement.send_value(self, value, force_send)
   else:
     if self.leds.has_key(value):
       FlashingButtonElement.send_value(self, value, force_send)
       self.leds[value].send_value(127, True)
     else:
       FlashingButtonElement.send_value(self, value, force_send)
Example #12
0
 def _setup_mixer_control(self):
     is_momentary = True
     self._mixer = SpecialMixerComponent(8)
     self._mixer.name = 'Mixer'
     self._mixer.master_strip().name = 'Master_Channel_Strip'
     self._mixer.selected_strip().name = 'Selected_Channel_Strip'
     self._solo_buttons = []  # added a
     self._select_buttons = []  # added a
     for track in range(8):
         strip = self._mixer.channel_strip(track)
         strip.name = 'Channel_Strip_' + str(track)
         volume_control = MonoEncoderElement2(MIDI_CC_TYPE, track, 7,
                                              Live.MidiMap.MapMode.absolute,
                                              'Slider_' + str(track), track,
                                              self)
         arm_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48)
         solo_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                             track, 50, self)
         self._solo_buttons.append(solo_button)  # added a
         mute_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, track,
                                     49)
         select_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                               track, 51, self)
         self._select_buttons.append(select_button)  # added a
         #volume_control.name = str(track) + '_Volume_Control'
         arm_button.name = str(track) + '_Arm_Button'
         solo_button.name = str(track) + '_Solo_Button'
         mute_button.name = str(track) + '_Mute_Button'
         select_button.name = str(track) + '_Select_Button'
         strip.set_volume_control(volume_control)
         strip.set_arm_button(arm_button)
         strip.set_solo_button(solo_button)
         strip.set_mute_button(mute_button)
         strip.set_select_button(select_button)
         strip.set_shift_button(self._shift_button)
         strip.set_invert_mute_feedback(True)
     crossfader = SliderElement(MIDI_CC_TYPE, 0, 15)
     master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 14)
     master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
                                          80)
     self._master_select_button = master_select_button
     prehear_control = EncoderElement(
         MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)
     crossfader.name = 'Crossfader'
     master_volume_control.name = 'Master_Volume_Control'
     master_select_button.name = 'Master_Select_Button'
     prehear_control.name = 'Prehear_Volume_Control'
     self._mixer.set_crossfader_control(crossfader)
     self._mixer.set_prehear_volume_control(prehear_control)
     self._mixer.master_strip().set_volume_control(master_volume_control)
     self._mixer.master_strip().set_select_button(master_select_button)
Example #13
0
	def _setup_session_control(self):
		is_momentary = True
		self._shift_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81, self)		   
		self._session = APCSessionComponent(8, 5)
		self._session.name = 'Session_Control'
		self._matrix = ButtonMatrixElement()
		self._matrix.name = 'Button_Matrix'
		scene_launch_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, (index + 82), self) for index in range(5) ]
		self._scene_launch_buttons = scene_launch_buttons
		track_stop_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52, self) for index in range(8) ]
		self._track_stop_buttons = track_stop_buttons
		for index in range(len(scene_launch_buttons)):
			scene_launch_buttons[index].name = 'Scene_'+ str(index) + '_Launch_Button'
		for index in range(len(track_stop_buttons)):
			track_stop_buttons[index].name = 'Track_' + str(index) + '_Stop_Button'
		self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
		self._session.set_stop_track_clip_value(2)
		for scene_index in range(5):
			scene = self._session.scene(scene_index)
			scene.name = 'Scene_' + str(scene_index)
			button_row = []
			scene.set_launch_button(scene_launch_buttons[scene_index])
			scene.set_triggered_value(2)
			for track_index in range(8):
				button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, track_index, (scene_index + 53), self)
				button.name = str(track_index) + '_Clip_' + str(scene_index) + '_Button'
				button_row.append(button)
				clip_slot = scene.clip_slot(track_index)
				clip_slot.name = str(track_index) + '_Clip_Slot_' + str(scene_index)
				clip_slot.set_triggered_to_play_value(2)
				clip_slot.set_triggered_to_record_value(4)
				clip_slot.set_stopped_value(5)
				clip_slot.set_started_value(1)
				clip_slot.set_recording_value(3)
				clip_slot.set_launch_button(button)

			self._matrix.add_row(tuple(button_row))
		self._session.selected_scene().name = 'Selected_Scene'
		self._session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
		self._session_zoom = ShiftableZoomingComponent(self._session, tuple(track_stop_buttons))
		self._session_zoom.name = 'Session_Overview'
		self._session_zoom.set_button_matrix(self._matrix)
		self._session_zoom.set_zoom_button(self._shift_button)
		self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
		self._session_zoom.set_stopped_value(3)
		self._session_zoom.set_selected_value(5)
Example #14
0
	def _setup_session_control(self):
		is_momentary = True
		self._shift_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 98, self)		   
		right_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 96, self)
		self._right_button = right_button
		left_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 97, self)
		self._left_button = left_button
		up_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 94, self)
		self._up_button = up_button
		down_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 95, self)
		self._down_button = down_button
		right_button.name = 'Bank_Select_Right_Button'
		left_button.name = 'Bank_Select_Left_Button'
		up_button.name = 'Bank_Select_Up_Button'
		down_button.name = 'Bank_Select_Down_Button'
		self._session = PedaledSessionComponent(8, 5)
		self._session.name = 'Session_Control'
		self._session.set_track_bank_buttons(right_button, left_button)
		self._session.set_scene_bank_buttons(down_button, up_button)
		matrix = ButtonMatrixElement()
		self._matrix = matrix  # added a
		matrix.name = 'Button_Matrix'
		scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, (index + 82)) for index in range(5) ]
		track_stop_buttons = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52, self) for index in range(8) ]
		self._track_stop_buttons = track_stop_buttons  # added a
		for index in range(len(scene_launch_buttons)):
			scene_launch_buttons[index].name = 'Scene_'+ str(index) + '_Launch_Button'
		for index in range(len(track_stop_buttons)):
			track_stop_buttons[index].name = 'Track_' + str(index) + '_Stop_Button'
		stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81)
		stop_all_button.name = 'Stop_All_Clips_Button'
		self._session.set_stop_all_clips_button(stop_all_button)
		self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
		self._session.set_stop_track_clip_value(2)
		for scene_index in range(5):
			scene = self._session.scene(scene_index)
			scene.name = 'Scene_' + str(scene_index)
			button_row = []
			scene.set_launch_button(scene_launch_buttons[scene_index])
			scene.set_triggered_value(2)
			for track_index in range(8):
				button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, track_index, (scene_index + 53), self)
				button.name = str(track_index) + '_Clip_' + str(scene_index) + '_Button'
				button_row.append(button)
				clip_slot = scene.clip_slot(track_index)
				clip_slot.name = str(track_index) + '_Clip_Slot_' + str(scene_index)
				clip_slot.set_triggered_to_play_value(2)
				clip_slot.set_triggered_to_record_value(4)
				clip_slot.set_stopped_value(5)
				clip_slot.set_started_value(1)
				clip_slot.set_recording_value(3)
				clip_slot.set_launch_button(button)
			matrix.add_row(tuple(button_row))
		self._session.set_slot_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67))
		self._session.selected_scene().name = 'Selected_Scene'
		self._session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
		self._session_zoom = SessionZoomingComponent(self._session)
		self._session_zoom.name = 'Session_Overview'
		self._session_zoom.set_button_matrix(matrix)
		self._session_zoom.set_zoom_button(self._shift_button)
		self._session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button)
		self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
		self._session_zoom.set_stopped_value(3)
		self._session_zoom.set_selected_value(5)
		return None	  
Example #15
0
	def session_control(self):
		is_momentary = True
		self._timer = 0
		self.flash_status = 1
		self.grid = [None for index in range(N_TRACKS*N_SCENES)]
		for index in range(N_TRACKS*N_SCENES):
			self.grid[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,TRACK_CLIP_BUTTONS[index], 'Grid' + str(index), self)
		self.matrix = ButtonMatrixElement()
		for row in range(N_SCENES):
			button_row = []
			for column in range(N_TRACKS):
				button_row.append(self.grid[row+(column*4)])
			self.matrix.add_row(tuple(button_row))
		self.session = SessionComponent(N_TRACKS,N_SCENES)
		self.session.name = "Session"
		self.session.set_offsets(0,0)
		self.scene = [None for index in range(N_SCENES)]
		for row in range(N_SCENES):
			self.scene[row] = self.session.scene(row)
			self.scene[row].name = 'Scene_'+str(row)
			for column in range(N_TRACKS):
				clip_slot = self.scene[row].clip_slot(column)
				clip_slot.name = str(column)+'_Clip_Slot'+str(row)
				self.scene[row].clip_slot(column).set_triggered_to_play_value(CLIP_TRG_PLAY_COLOR)
				self.scene[row].clip_slot(column).set_stopped_value(CLIP_STOP_COLOR)
				self.scene[row].clip_slot(column).set_started_value(CLIP_STARTED_COLOR)
	
    # Clip trigger on grid assignments
		for column in range(N_TRACKS):
			for row in range(N_SCENES):
				self.scene[row].clip_slot(column).set_launch_button(self.grid[row+(column*4)])	
	
		for index in range(N_TRACKS*N_SCENES):
			self.grid[index].clear_send_cache()	  
				
		if USE_SESSION_NAV == True:
			self.navleft = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_LEFT_BUTTON, 'Nav_Left_Button', self)
			self.navleft.clear_send_cache()
			self.navleft.set_on_off_values(NAVBOX_LEFT_BUTTON_C, NAVBOX_LEFT_BUTTON_C)
			
			self.navright = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_RIGHT_BUTTON, 'Nav_Right_Button', self)
			self.navright.clear_send_cache()
			self.navright.set_on_off_values(NAVBOX_RIGHT_BUTTON_C, NAVBOX_RIGHT_BUTTON_C)
			
			self.navup = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_UP_BUTTON, 'Nav_Up_Button', self)
			self.navup.clear_send_cache()
			self.navup.set_on_off_values(NAVBOX_UP_BUTTON_C, NAVBOX_UP_BUTTON_C)
				 
			self.navdown = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_DOWN_BUTTON, 'Nav_Down_Button', self)
			self.navdown.clear_send_cache()
			self.navdown.set_on_off_values(NAVBOX_DOWN_BUTTON_C, NAVBOX_DOWN_BUTTON_C) 
			
			self.session.set_track_bank_buttons(self.navright, self.navleft)
			self.session.set_scene_bank_buttons(self.navdown, self.navup)
		
		if USE_MIXER_CONTROLS == True:
			self.session.set_mixer(self.mixer)	

		self.refresh_state()
		self.session.set_enabled(True)
		self.session.update()		
Example #16
0
class Codec(ControlSurface):
    __module__ = __name__
    __doc__ = " MonoCode controller script "

    def __init__(self, c_instance):
        """everything except the '_on_selected_track_CHANNELged' override and 'disconnect' runs from here"""
        ControlSurface.__init__(self, c_instance)
        self.set_suppress_rebuild_requests(
            True
        )  # Turn off rebuild MIDI map until after we're done setting up
        self._monomod_version = 'b995'
        self._version_check = 'b995'
        self._host_name = 'Codec'
        self._color_type = 'Monochrome'
        self._link_mixer = LINK_MIXER
        self.log_message('<<<<<<<<<<<<<<<<<<<<<<<<< Codec ' +
                         str(self._monomod_version) +
                         ' log opened >>>>>>>>>>>>>>>>>>>>>>>>>')
        self._hosts = []
        self._linked_script = None
        self._local_ring_control = True
        self.set_local_ring_control(1)
        self._setup_controls()
        self._last_device = None
        self._device_list = [None, None, None, None]
        self._device_select_buttons = None
        self._last_device_component = None
        self._timer = 0
        self._touched = 0
        self._locked = False
        self.flash_status = 1
        self._shift_button = None
        self._shift_pressed = 0
        self._shift_pressed_timer = 0
        self._shift_thresh = SHIFT_THRESH
        self._use_device_selector = USE_DEVICE_SELECTOR
        self._device_selection_follows_track_selection = FOLLOW
        self.set_suppress_rebuild_requests(
            False)  #Turn rebuild back on, now that we're done setting up
        self.song().view.add_selected_track_listener(
            self._update_selected_device)
        self.show_message('Codec Control Surface Loaded')
        #self.local_ring_control(True)
        #self.set_absolute_mode(True)
        self._setup_monobridge()
        self._setup_device_controls()
        self._setup_special_device_control()
        self._device.append(
            self._special_device
        )  #necessary for device browsing to work with special device
        self._setup_device_chooser()
        self._setup_mixer_controls()
        self._setup_monomod()
        self._setup_modes()
        self._setup_device_selector()
        self._setup_send_reset()
        self._setup_default_buttons()
        self._initialize_code()
        self.request_rebuild_midi_map()
        #Monomodular.create_instance(c_instance)
        #self._setup_disconnect()

    """script initialization methods"""

    def _initialize_code(self):
        self._send_midi(factoryreset)
        self._send_midi(btn_channels)
        self._send_midi(enc_channels)
        #pass

    def _setup_monobridge(self):
        self._monobridge = MonoBridgeElement(self)
        self._monobridge.name = 'MonoBridge'

    def _setup_controls(self):
        is_momentary = True
        self._livid = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                            CHANNEL, LIVID, 'Livid_Button',
                                            self)

        self._dial = [None for index in range(8)]
        for column in range(8):
            self._dial[column] = [None for index in range(4)]
            for row in range(4):
                self._dial[column][row] = CodecEncoderElement(
                    MIDI_CC_TYPE, CHANNEL, CODE_DIALS[row][column],
                    Live.MidiMap.MapMode.absolute,
                    'Dial_' + str(column) + '_' + str(row),
                    (column + (row * 8)), self)  #CODE_DIALS[row][column]

        self._button = [None for index in range(8)]
        for column in range(8):
            self._button[column] = [None for index in range(4)]
            for row in range(4):
                self._button[column][row] = FlashingButtonElement(
                    is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                    CODE_BUTTONS[row][column],
                    'Button_' + str(column) + '_' + str(row), self)

        self._column_button = [None for index in range(8)]
        for index in range(8):
            self._column_button[index] = FlashingButtonElement(
                is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                CODE_COLUMN_BUTTONS[index], 'Column_Button_' + str(index),
                self)

        self._row_button = [None for index in range(4)]
        for index in range(4):
            self._row_button[index] = FlashingButtonElement(
                is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_ROW_BUTTONS[index],
                'Row_Button_' + str(index), self)

        self._dial_matrix = EncoderMatrixElement(self)
        self._dial_matrix.name = 'Encoder_Matrix'
        for row in range(4):
            dial_row = tuple([self._dial[column][row] for column in range(8)])
            self._dial_matrix.add_row(dial_row)

        self._button_matrix = ButtonMatrixElement()
        self._button_matrix.name = 'Button_Matrix'
        for row in range(4):
            button_row = [self._button[column][row] for column in range(8)]
            button_row.append(self._row_button[row])
            self._button_matrix.add_row(tuple(button_row))
        self._button_matrix.add_row(tuple(self._column_button + [self._livid]))

    def _setup_modes(self):
        self._monomod_mode = MonomodModeComponent(self)
        self._monomod_mode.name = 'Monomod_Mode'
        self._monomod_mode.update = self._mod_mode_update
        #self._monomod_mode.set_mode_toggle(self._livid)
        self.set_shift_button(self._livid)
        self._shift_mode = ShiftModeComponent(self, self._shift_update)
        self._shift_mode.name = 'Shift_Mode'
        self._shift_mode.set_mode_buttons(
            tuple([
                self._row_button[0], self._row_button[1], self._row_button[2],
                self._row_button[3]
            ]))

    def _setup_transport_control(self):
        self._transport = TransportComponent()
        self._transport.name = 'Transport'

    def _setup_monomod(self):
        self._host = MonomodComponent(self)
        self._host.name = 'Monomod_Host'
        self._host._set_dial_matrix(self._dial_matrix, self._button_matrix)
        self.hosts = [self._host]
        encs = []
        for row in range(4):
            for col in range(8):
                encs.append(self._dial[col][row])
        self._host._set_parameter_controls(encs)

    def _setup_mixer_controls(self):
        is_momentary = True
        self._num_tracks = (8)
        self._session = SessionComponent(self._num_tracks, 0)
        self._session.name = 'Session'
        self._mixer = MixerComponent(self._num_tracks, 0, False, False)
        self._mixer.name = 'Mixer'
        self._mixer._next_track_value = self._mixer_next_track_value(
            self._mixer)
        self._mixer._prev_track_value = self._mixer_prev_track_value(
            self._mixer)
        self._mixer.set_track_offset(
            0)  #Sets start point for mixer strip (offset from left)
        #for index in range(8):
        #use the bottom row of encoders for volume, so add 24 to offset the index
        #	self._mixer.channel_strip(index).set_volume_control(self._dial[index+24])
        for index in range(8):
            self._mixer.channel_strip(
                index).name = 'Mixer_ChannelStrip_' + str(index)
            self._mixer.channel_strip(index)._invert_mute_feedback = True
            self._mixer.channel_strip(
                index)._mute_value = self._channelstrip_mute_value(
                    self._mixer.channel_strip(index))
            self._mixer.channel_strip(
                index)._solo_value = self._channelstrip_solo_value(
                    self._mixer.channel_strip(index))
            #mixer.channel_strip(index).set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, track_select_notes[index]))
        self.song().view.selected_track = self._mixer.channel_strip(
            0
        )._track  #set the selected strip to the first track, so that we don't, for example, try to assign a button to arm the master track, which would cause an assertion error
        self._session.set_mixer(self._mixer)

    def _setup_device_controls(self):
        self._device = [None for index in range(4)]
        for index in range(4):
            self._device[index] = CodecDeviceComponent(self)
            self._device[index].name = 'CodecDevice_Component_' + str(index)
            device_param_controls = []
            for control in range(8):
                device_param_controls.append(self._dial[control][index])
            self._device[index].set_on_off_button(self._button[1][index])
            self._device[index].set_lock_button(self._button[2][index])
            self._device[index].set_bank_nav_buttons(self._button[4][index],
                                                     self._button[5][index])
            self._device[index].set_nav_buttons(self._button[6][index],
                                                self._button[7][index])
            self._device[index].set_parameter_controls(
                tuple(device_param_controls))
        self.set_device_component(self._device[0])
        self._last_device_component = self._device[0]

    def _setup_special_device_control(self):
        self._special_device = SpecialCodecDeviceComponent(self)
        self._special_device.name = 'SpecialCodecDeviceComponent'
        self._special_device.set_on_off_button(self._button[1][0])
        self._special_device.set_lock_button(self._button[2][0])
        self._special_device.set_bank_nav_buttons(self._button[4][0],
                                                  self._button[5][0])
        self._special_device.set_nav_buttons(self._button[6][0],
                                             self._button[7][0])
        device_param_controls = []
        for row in range(4):
            for column in range(8):
                device_param_controls.append(self._dial[column][row])
        self._special_device.set_parameter_controls(
            tuple(device_param_controls))

    def _setup_device_chooser(self):
        self._selected_device = self._device[0]
        self._last_selected_device = self._device[0]
        self._device_select_buttons = [
            self._button[0][index] for index in range(4)
        ]
        for button in self._device_select_buttons:
            button.add_value_listener(self._device_select_value, True)

    def _setup_device_selector(self):
        self._device_selector = CodecDeviceSelectorComponent(
            self, 'c', self._device + [self._special_device])
        self._device_selector.name = 'Device_Selector'
        self._device_selector.set_mode_buttons(self._column_button)
        #self._device_selector.set_mode_toggle(self._livid)

    def _setup_send_reset(self):
        self._send_reset = CodecResetSendsComponent(self)
        self._send_reset.set_buttons(self._button)

    def _setup_default_buttons(self):
        self._value_default = ParameterDefaultComponent(self)
        buttons = []
        dials = []
        for column in self._button:
            for button in column:
                buttons.append(button)
        for column in self._dial:
            for dial in column:
                dials.append(dial)
        self._value_default.set_buttons(buttons)
        self._value_default.set_dials(dials)

    """multiple device support"""

    def _device_select_value(self, value, sender):
        #self.log_message('device_select_value ' + str(value) + ' ' + str(self._device_select_buttons.index(sender)))
        if not self._shift_pressed:
            if sender.is_momentary or value > 0:
                if self._shift_mode._mode_index == 2:
                    self.set_device_component(self._device[
                        self._device_select_buttons.index(sender)])
                    self._last_device_component = self._device_component
                    if self._device_component != None and isinstance(
                            self._device_component._device,
                            Live.Device.Device):
                        if self._device_component.find_track(
                                self._device_component._device) == self.song(
                                ).view.selected_track:
                            self._device_component.display_device()

    """livid double press mechanism"""

    def set_shift_button(self, button):
        assert ((button == None)
                or (isinstance(button, FlashingButtonElement)))
        if self._shift_button != None:
            self._shift_button.remove_value_listener(self._shift_value)
        self._shift_button = button
        if self._shift_button != None:
            self._shift_button.add_value_listener(self._shift_value)

    def _shift_value(self, value):
        self._shift_pressed = int(value != 0)
        if self._shift_pressed > 0:
            self._send_midi(SLOWENCODER)
            if (self._shift_pressed_timer + self._shift_thresh) > self._timer:
                #if(self._host.is_enabled() != True)
                self._monomod_mode.set_mode(
                    abs(self._monomod_mode._mode_index - 1))
                #else:
                #	self._monomod_mode.set_mode(0)
            self._shift_pressed_timer = self._timer % 256
        else:
            self._send_midi(NORMALENCODER)

    def _mod_mode_update(self):
        if (self._monomod_mode._mode_index == 0):
            self._host._set_shift_button(None)
            self._host.set_enabled(False)
            self._dial_matrix.reset()
            self._shift_mode.set_enabled(True)
            self._shift_update()
            self.request_rebuild_midi_map()
            self._livid.turn_off()
        elif (self._monomod_mode._mode_index == 1):
            self._shift_mode.set_enabled(False)
            self._deassign_all()
            self._dial_matrix.reset()
            self._button_matrix.reset()
            self._livid.turn_on()
            if not self._host._active_client == None:
                self._host.set_enabled(True)
                self._host._set_shift_button(self._livid)
            else:
                self._assign_alternate_mappings(1)
            self.request_rebuild_midi_map()

    """Mode Functions"""

    def _shift_update(self):
        if (self._shift_mode.is_enabled()):
            self.allow_updates(False)
            if (not self._in_build_midi_map):
                self.set_suppress_rebuild_requests(True)
            self._deassign_all()
            if (self._shift_mode._mode_index is 0):
                self._assign_volume()
            elif (self._shift_mode._mode_index is 1):
                self._assign_sends()
            elif (self._shift_mode._mode_index is 2):
                self._assign_devices()
            elif (self._shift_mode._mode_index is 3):
                self._assign_special_device()
            for index in range(self._shift_mode.number_of_modes()):
                if index == self._shift_mode._mode_index:
                    self._shift_mode._modes_buttons[index].turn_on()
                else:
                    self._shift_mode._modes_buttons[index].turn_off()
            self.allow_updates(True)
            self.set_suppress_rebuild_requests(False)
            self.request_rebuild_midi_map()

    def _deassign_all(self):
        self._assign_alternate_mappings(0)
        self._device_selector.set_enabled(False)
        for index in range(8):
            self._mixer.channel_strip(index).set_volume_control(None)
            self._mixer.channel_strip(index).set_pan_control(None)
            self._mixer.channel_strip(index).set_send_controls(
                tuple([None, None, None, None]))
        for index in range(4):
            self._device[index].set_enabled(False)
            self._device[index]._parameter_controls = None
            #self._device_navigator[index].set_enabled(False)
        self._special_device.set_enabled(False)
        self._special_device._parameter_controls = None
        self._device_selector.set_enabled(False)
        self._deassign_buttons()
        for control in self.controls:
            control.reset()
        self.request_rebuild_midi_map()

    def _deassign_buttons(self):
        for index in range(8):
            self._mixer.channel_strip(index).set_select_button(None)
            self._mixer.channel_strip(index).set_solo_button(None)
            self._mixer.channel_strip(index).set_mute_button(None)
        self._mixer.set_select_buttons(None, None)
        self._send_reset.set_enabled(False)

    def _assign_volume(self):
        for index in range(8):
            self._mixer.channel_strip(index).set_volume_control(
                self._dial[index][3])
            self._mixer.channel_strip(index).set_pan_control(
                self._dial[index][2])
            self._mixer.channel_strip(index).set_send_controls(
                tuple([self._dial[index][0], self._dial[index][1]]))
            self._mixer.channel_strip(index).set_select_button(
                self._column_button[index])
            self._mixer.channel_strip(index).set_solo_button(
                self._button[index][2])
            self._mixer.channel_strip(index).set_mute_button(
                self._button[index][3])
        self._mixer.set_select_buttons(self._button[7][0], self._button[6][0])

    def _assign_sends(self):
        for index in range(8):
            self._mixer.channel_strip(index).set_send_controls(
                tuple([
                    self._dial[index][0], self._dial[index][1],
                    self._dial[index][2], self._dial[index][3]
                ]))
            self._mixer.channel_strip(index).set_select_button(
                self._column_button[index])
            self._send_reset.set_enabled(True)

    def _assign_devices(self):
        self.set_device_component(self._last_device_component)
        self._device_select_value(
            1, self._device_select_buttons[self._device.index(
                self._device_component)])
        for index in range(4):
            device_param_controls = []
            for control in range(8):
                device_param_controls.append(self._dial[control][index])
            self._device[index].set_parameter_controls(
                tuple(device_param_controls))
            self._device[index].set_enabled(True)
        self._device_selector.set_enabled(self._use_device_selector)
        if not self._use_device_selector:
            for index in range(8):
                self._mixer.channel_strip(index).set_select_button(
                    self._column_button[index])

    def _assign_special_device(self):
        self.set_device_component(self._special_device)
        device_param_controls = []
        for row in range(4):
            for column in range(8):
                device_param_controls.append(self._dial[column][row])
        self._special_device.set_parameter_controls(
            tuple(device_param_controls))
        self._special_device.set_enabled(True)
        self._device_selector.set_enabled(self._use_device_selector)
        if not self._use_device_selector:
            for index in range(8):
                self._mixer.channel_strip(index).set_select_button(
                    self._column_button[index])

    def _assign_alternate_mappings(self, chan):
        for column in self._dial:
            for control in column:
                control.set_channel(chan)
                control.set_enabled(chan is 0)
        for column in self._button:
            for control in column:
                control.set_channel(chan)
                control.set_enabled(chan is 0)
        for control in self._column_button:
            control.set_channel(chan)
            control.set_enabled(chan is 0)
        for control in self._row_button:
            control.set_channel(chan)
            control.set_enabled(chan is 0)

    """general functionality"""

    def disconnect(self):
        """clean things up on disconnect"""
        if not self._shift_button is None:
            if self._shift_button.value_has_listener(self._shift_value):
                self._shift_button.remove_value_listener(self._shift_value)
        for button in self._device_select_buttons:
            if button.value_has_listener(self._device_select_value):
                button.remove_value_listener(self._device_select_value)
        if self._session._is_linked():
            self._session._unlink()
        self.song().view.remove_selected_track_listener(
            self._update_selected_device)
        """for cs in self._control_surfaces():
			for host in self._hosts:
				self.log_message('installed: ' + str(cs) + ' vs. ' + str(host))
				if str(type(cs)) == str(type(host)):
					self.log_message('disconnecting: ' + str(type(cs)))
					cs.disconnect(cs)"""
        #self._host._set_parameter_controls(None)
        self._hosts = []
        if self._linked_script != None:
            self._linked_script._update_linked_device_selection = None
        self._linked_script = None
        #self._disconnect_notifier.set_mode(0)
        self.log_message(
            '<<<<<<<<<<<<<<<<<<<<<<<<< Codec log closed >>>>>>>>>>>>>>>>>>>>>>>>>'
        )
        ControlSurface.disconnect(self)
        return None

    def connect_script_instances(self, instanciated_scripts):
        found = False
        for s in instanciated_scripts:
            if '_codec_version' in dir(s):
                if s._codec_version == self._version_check:
                    if s._host_name == ('MonOhm'):
                        self.log_message('found codec version ' +
                                         str(s._codec_version) +
                                         ' in script ' + str(s._host_name))
                        found = True
                        self._linked_script = s
                        self._linked_script._update_linked_device_selection = self._update_linked_device_selection
                        if not self._session._is_linked(
                        ) and self._link_mixer is True:
                            self._session.set_offsets(LINK_OFFSET[0],
                                                      LINK_OFFSET[1])
                            self._session._link()
                else:
                    self.log_message('version mismatch: Monomod version ' +
                                     str(self._version_check) +
                                     ' vs. Host version ' +
                                     str(s._codec_version))

        if found == False:
            for s in instanciated_scripts:
                if '_codec_version' in dir(s):
                    if s._codec_version == self._version_check:
                        if s._host_name == 'BlockMod':
                            self.log_message('found codec version ' +
                                             str(s._codec_version) +
                                             ' in script ' + str(s._host_name))
                            self._linked_script = s
                            self._linked_script._update_linked_device_selection = self._update_linked_device_selection
                        if not self._session._is_linked(
                        ) and self._link_mixer is True:
                            self._session.set_offsets(LINK_OFFSET[0],
                                                      LINK_OFFSET[1])
                            self._session._link()
                    else:
                        self.log_message('version mismatch: Monomod version ' +
                                         str(self._version_check) +
                                         ' vs. Host version ' +
                                         str(s._codec_version))
        #self.log_message('hosts: ' + str(self._hosts))"""

    def update_display(self):
        ControlSurface.update_display(
            self
        )  #since we are overriding this from the inherited method, we need to call the original routine as well
        self._timer = (self._timer + 1) % 256
        if (self._timer == 0):
            self._shift_pressed_timer = -12
        if (self._local_ring_control is False):
            self.send_ring_leds()
        self.flash()

    def handle_sysex(self, midi_bytes):
        #self._send_midi(tuple([240, 00, 01, 97, 04, 15, 01, 247]))
        #response = [long(0),long(0)]
        #self.log_message(response)
        pass

    def flash(self):
        if (self.flash_status > 0):
            for control in self.controls:
                if isinstance(control, FlashingButtonElement):
                    control.flash(self._timer)

    def send_ring_leds(self):
        leds = [240, 0, 1, 97, 4, 31]
        for column in range(8):
            for row in range(4):
                wheel = self._dial[column][row]
                bytes = wheel._get_ring()
                leds.append(bytes[0])
                leds.append(int(bytes[1]) + int(bytes[2]))
                #if(row == 1 and column == 0):
                #	self.log_message(str(leds) + ' ' + str(bytes[0]) + ' ' + str(bytes[1]) + ' ' + str(bytes[2]))
        leds.append(247)
        self._send_midi(tuple(leds))

    def set_absolute_mode(self, val=1):
        self._absolute_mode = (val != 0)
        if self._absolute_mode is True:
            self._send_midi(
                tuple([240, 0, 1, 97, 4, 17, 0, 0, 0, 0, 0, 0, 0, 0, 247]))
        else:
            self._send_midi(
                tuple([
                    240, 0, 1, 97, 4, 17, 127, 127, 127, 127, 127, 127, 127,
                    127, 247
                ]))

    def set_local_ring_control(self, val=1):
        self._local_ring_control = (val != 0)
        if (self._local_ring_control is True):
            #self._send_midi(tuple([240, 0, 1, 97, 4, 32, 0, 247]))
            self._send_midi(tuple([240, 0, 1, 97, 4, 8, 72, 247]))
        else:
            #self._send_midi(tuple([240, 0, 1, 97, 4, 32, 1, 247]))
            self._send_midi(tuple([240, 0, 1, 97, 4, 8, 64, 247]))

    def device_follows_track(self, val):
        self._device_selection_follows_track_selection = (val == 1)
        return self

    """m4l bridge"""

    def generate_strip_string(self, display_string):
        NUM_CHARS_PER_DISPLAY_STRIP = 12
        if (not display_string):
            return (' ' * NUM_CHARS_PER_DISPLAY_STRIP)
        if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1))
                and (display_string.endswith('dB') and
                     (display_string.find('.') != -1))):
            display_string = display_string[:-2]
        if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
            for um in [' ', 'i', 'o', 'u', 'e', 'a']:
                while ((len(display_string) >
                        (NUM_CHARS_PER_DISPLAY_STRIP - 1))
                       and (display_string.rfind(um, 1) != -1)):
                    um_pos = display_string.rfind(um, 1)
                    display_string = (display_string[:um_pos] +
                                      display_string[(um_pos + 1):])
        else:
            display_string = display_string.center(
                (NUM_CHARS_PER_DISPLAY_STRIP - 1))
        ret = u''
        for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
            if ((ord(display_string[i]) > 127)
                    or (ord(display_string[i]) < 0)):
                ret += ' '
            else:
                ret += display_string[i]

        ret += ' '
        assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
        return ret

    def notification_to_bridge(self, name, value, sender):
        if (isinstance(sender, CodecEncoderElement)):
            self._monobridge._send(sender.name, 'lcd_name',
                                   str(self.generate_strip_string(name)))
            self._monobridge._send(sender.name, 'lcd_value',
                                   str(self.generate_strip_string(value)))

    def touched(self):
        if not self._host.is_enabled():
            if self._touched is 0:
                self._monobridge._send('touch', 'on')
                self.schedule_message(2, self.check_touch)
            self._touched += 1

    def check_touch(self):
        if self._touched > 5:
            self._touched = 5
        elif self._touched > 0:
            self._touched -= 1
        if self._touched is 0:
            self._monobridge._send('touch', 'off')
        else:
            self.schedule_message(2, self.check_touch)

    def get_clip_names(self):
        clip_names = []
        for scene in self._session._scenes:
            for clip_slot in scene._clip_slots:
                if clip_slot.has_clip() is True:
                    clip_names.append(clip_slot._clip_slot)  ##.clip.name)
                    return clip_slot._clip_slot
                    ##self.log_message(str(clip_slot._clip_slot.clip.name))
        return clip_names

    """overrides"""

    def allow_updates(self, allow_updates):
        for component in self.components:
            component.set_allow_update(int(allow_updates != 0))

    def set_device_component(self, device_component):
        if self._device_component != None:
            self._device_component._lock_callback = None
        assert (device_component != None)
        assert isinstance(device_component, DeviceComponent)
        self._device_component = device_component
        self._device_component._lock_callback = self._toggle_lock  #old:  self._device_component.set_lock_callback(self._toggle_lock)
        if self._device_select_buttons != None:
            for button in self._device_select_buttons:
                button.send_value(
                    self._device_select_buttons.index(button) ==
                    self._device.index(self._device_component))
        self._update_device_selection()
        return None

    def _update_selected_device(self):
        if self._device_selection_follows_track_selection is True:
            self._update_device_selection()
        return None

    def _update_linked_device_selection(self, device):
        #self.log_message('codec received ' + str(device.name))
        if self._device_component != None and device != None:
            if not self._device_component.is_locked():
                self._device_component.set_device(device)

    def _get_num_tracks(self):
        return self.num_tracks

    def _update_device_selection(self):  #new method: code to verify
        #self.log_message('_update_device_selection')
        if self._device_component != None:
            if not self._device_component.is_locked():
                track = self.song().view.selected_track
                device_to_select = track.view.selected_device
                if ((device_to_select == None) and (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)

    def _channelstrip_mute_value(self, channelstrip):
        def _mute_value(value):
            if not self._shift_pressed:
                self.log_message('shift not pressed')
                ChannelStripComponent._mute_value(channelstrip, value)

        return _mute_value

    def _channelstrip_solo_value(self, channelstrip):
        def _solo_value(value):
            if not self._shift_pressed:
                ChannelStripComponent._solo_value(channelstrip, value)

        return _solo_value

    def _mixer_next_track_value(self, mixer):
        def _next_track_value(value):
            if not self._shift_pressed:
                MixerComponent._next_track_value(mixer, value)

        return _next_track_value

    def _mixer_prev_track_value(self, mixer):
        def _prev_track_value(value):
            if not self._shift_pressed:
                MixerComponent._prev_track_value(mixer, value)

        return _prev_track_value
Example #17
0
 def _setup_session_control(self):
     is_momentary = True
     self._shift_button = FlashingButtonElement(is_momentary,
                                                MIDI_NOTE_TYPE, 0, 98, self)
     right_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
                                          96, self)
     self._right_button = right_button
     left_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
                                         97, self)
     self._left_button = left_button
     up_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 94,
                                       self)
     self._up_button = up_button
     down_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, 0,
                                         95, self)
     self._down_button = down_button
     right_button.name = 'Bank_Select_Right_Button'
     left_button.name = 'Bank_Select_Left_Button'
     up_button.name = 'Bank_Select_Up_Button'
     down_button.name = 'Bank_Select_Down_Button'
     self._session = PedaledSessionComponent(8, 5)
     self._session.name = 'Session_Control'
     self._session.set_track_bank_buttons(right_button, left_button)
     self._session.set_scene_bank_buttons(down_button, up_button)
     matrix = ButtonMatrixElement()
     self._matrix = matrix  # added a
     matrix.name = 'Button_Matrix'
     scene_launch_buttons = [
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, (index + 82))
         for index in range(5)
     ]
     track_stop_buttons = [
         FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52,
                               self) for index in range(8)
     ]
     self._track_stop_buttons = track_stop_buttons  # added a
     for index in range(len(scene_launch_buttons)):
         scene_launch_buttons[index].name = 'Scene_' + str(
             index) + '_Launch_Button'
     for index in range(len(track_stop_buttons)):
         track_stop_buttons[index].name = 'Track_' + str(
             index) + '_Stop_Button'
     stop_all_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 81)
     stop_all_button.name = 'Stop_All_Clips_Button'
     self._session.set_stop_all_clips_button(stop_all_button)
     self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
     self._session.set_stop_track_clip_value(2)
     for scene_index in range(5):
         scene = self._session.scene(scene_index)
         scene.name = 'Scene_' + str(scene_index)
         button_row = []
         scene.set_launch_button(scene_launch_buttons[scene_index])
         scene.set_triggered_value(2)
         for track_index in range(8):
             button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                            track_index, (scene_index + 53),
                                            self)
             button.name = str(track_index) + '_Clip_' + str(
                 scene_index) + '_Button'
             button_row.append(button)
             clip_slot = scene.clip_slot(track_index)
             clip_slot.name = str(track_index) + '_Clip_Slot_' + str(
                 scene_index)
             clip_slot.set_triggered_to_play_value(2)
             clip_slot.set_triggered_to_record_value(4)
             clip_slot.set_stopped_value(5)
             clip_slot.set_started_value(1)
             clip_slot.set_recording_value(3)
             clip_slot.set_launch_button(button)
         matrix.add_row(tuple(button_row))
     self._session.set_slot_launch_button(
         ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 67))
     self._session.selected_scene().name = 'Selected_Scene'
     self._session.selected_scene().set_launch_button(
         ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64))
     self._session_zoom = SessionZoomingComponent(self._session)
     self._session_zoom.name = 'Session_Overview'
     self._session_zoom.set_button_matrix(matrix)
     self._session_zoom.set_zoom_button(self._shift_button)
     self._session_zoom.set_nav_buttons(up_button, down_button, left_button,
                                        right_button)
     self._session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons))
     self._session_zoom.set_stopped_value(3)
     self._session_zoom.set_selected_value(5)
     return None
Example #18
0
class CNTRL_R_LITE(ControlSurface):
	def __init__(self, c_instance):
		ControlSurface.__init__(self, c_instance)
		is_momentary = True
		self._timer = 0 # Used in FlashingButtonElement (kludge for our purposes)
		self.flash_status = 1 # Used in FlashingButtonElement (kludge for our purposes)		
		
		if USE_MIXER_CONTROLS == True:
			self.mixer_control()
		
		if USE_SESSION_VIEW == True:
			self.session_control()		
  
	def mixer_control(self):
		is_momentary = True
		self.num_tracks = N_TRACKS
		if(USE_SENDS == True):
			self.mixer = MixerComponent(N_TRACKS, N_SENDS_PER_TRACK, USE_MIXER_EQ, USE_MIXER_FILTERS)
		else:
			self.mixer = MixerComponent(N_TRACKS,0, USE_MIXER_EQ, USE_MIXER_FILTERS)
		self.mixer.name = 'Mixer'
		self.mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
		for index in range(N_TRACKS):
			self.mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
			self.mixer.channel_strip(index)._invert_mute_feedback = True 
		self.song().view.selected_track = self.mixer.channel_strip(0)._track
	
		self.log_message(str(len(SOLO_BUTTONS)))
		self.log_message(str(len(MUTE_BUTTONS)))
	
		if(USE_SOLO_BUTTONS == True):
			self.solobuttons = [None for index in range(N_TRACKS)]
			for index in range(len(SOLO_BUTTONS)):
				self.solobuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,SOLO_BUTTONS[index], 'Solo_Button', self)
				self.mixer.channel_strip(index).set_solo_button(self.solobuttons[index])
				self.solobuttons[index].set_on_value(SOLO_BUTTON_ON_COLOR)
				self.solobuttons[index].set_off_value(SOLO_BUTTON_OFF_COLOR)

		if(USE_MUTE_BUTTONS == True):
			self.mutebuttons = [None for index in range(N_TRACKS)]
			for index in range(len(MUTE_BUTTONS)):
				self.mutebuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,MUTE_BUTTONS[index], 'Mute_Button', self)
				self.mixer.channel_strip(index).set_mute_button(self.mutebuttons[index])
				self.mutebuttons[index].set_on_value(MUTE_BUTTON_ON_COLOR)
				self.mutebuttons[index].set_off_value(MUTE_BUTTON_OFF_COLOR)
				
		if(USE_SENDS == True):
			self.sendencoders = [None for index in range(len(SEND_ENCODERS))]
			for index in range(len(SEND_ENCODERS)):
				self.sendencoders[index] = EncoderElement(MIDI_CC_TYPE, CHANNEL, SEND_ENCODERS[index], Live.MidiMap.MapMode.absolute)
			for index in range(len(SEND_ENCODERS)/N_SENDS_PER_TRACK):
				self.mixer.channel_strip(index).set_send_controls(tuple(self.sendencoders[(index*N_SENDS_PER_TRACK):((index*N_SENDS_PER_TRACK)+N_SENDS_PER_TRACK-1)]))
				
		if(USE_VOLUME_CONTROLS == True):
			self.volencoders = [None for index in range(len(VOLUME_ENCODERS))]
			for index in range (len(VOLUME_ENCODERS)):
				self.volencoders[index] = EncoderElement(MIDI_CC_TYPE, CHANNEL, VOLUME_ENCODERS[index], Live.MidiMap.MapMode.absolute)
				self.mixer.channel_strip(index).set_volume_control(self.volencoders[index])
	  
	def session_control(self):
		is_momentary = True
		self._timer = 0
		self.flash_status = 1
		self.grid = [None for index in range(N_TRACKS*N_SCENES)]
		for index in range(N_TRACKS*N_SCENES):
			self.grid[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,TRACK_CLIP_BUTTONS[index], 'Grid' + str(index), self)
		self.matrix = ButtonMatrixElement()
		for row in range(N_SCENES):
			button_row = []
			for column in range(N_TRACKS):
				button_row.append(self.grid[row+(column*4)])
			self.matrix.add_row(tuple(button_row))
		self.session = SessionComponent(N_TRACKS,N_SCENES)
		self.session.name = "Session"
		self.session.set_offsets(0,0)
		self.scene = [None for index in range(N_SCENES)]
		for row in range(N_SCENES):
			self.scene[row] = self.session.scene(row)
			self.scene[row].name = 'Scene_'+str(row)
			for column in range(N_TRACKS):
				clip_slot = self.scene[row].clip_slot(column)
				clip_slot.name = str(column)+'_Clip_Slot'+str(row)
				self.scene[row].clip_slot(column).set_triggered_to_play_value(CLIP_TRG_PLAY_COLOR)
				self.scene[row].clip_slot(column).set_stopped_value(CLIP_STOP_COLOR)
				self.scene[row].clip_slot(column).set_started_value(CLIP_STARTED_COLOR)
	
    # Clip trigger on grid assignments
		for column in range(N_TRACKS):
			for row in range(N_SCENES):
				self.scene[row].clip_slot(column).set_launch_button(self.grid[row+(column*4)])	
	
		for index in range(N_TRACKS*N_SCENES):
			self.grid[index].clear_send_cache()	  
				
		if USE_SESSION_NAV == True:
			self.navleft = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_LEFT_BUTTON, 'Nav_Left_Button', self)
			self.navleft.clear_send_cache()
			self.navleft.set_on_off_values(NAVBOX_LEFT_BUTTON_C, NAVBOX_LEFT_BUTTON_C)
			
			self.navright = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_RIGHT_BUTTON, 'Nav_Right_Button', self)
			self.navright.clear_send_cache()
			self.navright.set_on_off_values(NAVBOX_RIGHT_BUTTON_C, NAVBOX_RIGHT_BUTTON_C)
			
			self.navup = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_UP_BUTTON, 'Nav_Up_Button', self)
			self.navup.clear_send_cache()
			self.navup.set_on_off_values(NAVBOX_UP_BUTTON_C, NAVBOX_UP_BUTTON_C)
				 
			self.navdown = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_DOWN_BUTTON, 'Nav_Down_Button', self)
			self.navdown.clear_send_cache()
			self.navdown.set_on_off_values(NAVBOX_DOWN_BUTTON_C, NAVBOX_DOWN_BUTTON_C) 
			
			self.session.set_track_bank_buttons(self.navright, self.navleft)
			self.session.set_scene_bank_buttons(self.navdown, self.navup)
		
		if USE_MIXER_CONTROLS == True:
			self.session.set_mixer(self.mixer)	

		self.refresh_state()
		self.session.set_enabled(True)
		self.session.update()		
			
	def update_display(self):
		ControlSurface.update_display(self)
		self._timer = (self._timer + 1) % 256
		self.flash()
		
	def flash(self):
		if(USE_SESSION_VIEW == True):
			for index in range(N_TRACKS*N_SCENES):
				if(self.grid[index]._flash_state > 0):
					self.grid[index].flash(self._timer)	
		if(USE_SESSION_NAV == True):
			if(self.navleft._flash_state>0):
					self.navleft.flash(self._timer)
			if(self.navright._flash_state>0):
					self.navright.flash(self._timer)
			if(self.navup._flash_state>0):
					self.navup.flash(self._timer)
			if(self.navdown._flash_state>0):
					self.navdown.flash(self._timer)	
		if(USE_MIXER_CONTROLS == True):
			for index in range(N_TRACKS):
				if(USE_SOLO_BUTTONS == True):
					if(self.solobuttons[index]._flash_state > 0):
						self.solobuttons[index].flash(self._timer)				
				if(USE_MUTE_BUTTONS == True):
					if(self.mutebuttons[index]._flash_state > 0):
						self.mutebuttons[index].flash(self._timer)
				

	def disconnect(self):
		self._hosts = []
		self.log_message("--------------= CNTRLR log closed =--------------")
		ControlSurface.disconnect(self)
		return None		
Example #19
0
 def _setup_device_and_transport_control(self):
     is_momentary = True
     device_bank_buttons = []
     device_param_controls = []
     bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button',
                           'Previous_Device_Button', 'Next_Device_Button',
                           'Detail_View_Button', 'Rec_Quantization_Button',
                           'Midi_Overdub_Button', 'Metronome_Button')
     for index in range(8):
         device_bank_buttons.append(
             ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 58 + index))
         device_bank_buttons[-1].name = bank_button_labels[index]
         ring_mode_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, 0,
                                          24 + index)
         ringed_encoder = MonoRingedEncoderElement(
             MIDI_CC_TYPE, 0, 16 + index, Live.MidiMap.MapMode.absolute,
             index, self)
         ringed_encoder.set_ring_mode_button(ring_mode_button)
         ringed_encoder.name = 'Device_Control_' + str(index)
         ring_mode_button.name = ringed_encoder.name + '_Ring_Mode_Button'
         device_param_controls.append(ringed_encoder)
     device = ShiftableDeviceComponent(self)
     device.name = 'Device_Component'
     device.set_bank_buttons(tuple(device_bank_buttons))
     device.set_shift_button(self._shift_button)
     device.set_parameter_controls(tuple(device_param_controls))
     device.set_on_off_button(device_bank_buttons[1])
     self.set_device_component(device)
     detail_view_toggler = DetailViewCntrlComponent()
     detail_view_toggler.name = 'Detail_View_Control'
     detail_view_toggler.set_shift_button(self._shift_button)
     detail_view_toggler.set_device_clip_toggle_button(
         device_bank_buttons[0])
     detail_view_toggler.set_detail_toggle_button(device_bank_buttons[4])
     detail_view_toggler.set_device_nav_buttons(device_bank_buttons[2],
                                                device_bank_buttons[3])
     transport = ShiftableTransportComponent()
     transport.name = 'Transport'
     self._transport = transport
     play_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 91)
     stop_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 92)
     record_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 93)
     nudge_up_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                             0, 100, self)
     self._nudge_up_button = nudge_up_button
     nudge_down_button = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                               0, 101, self)
     self._nudge_down_button = nudge_down_button
     tap_tempo_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 99)
     play_button.name = 'Play_Button'
     stop_button.name = 'Stop_Button'
     record_button.name = 'Record_Button'
     nudge_up_button.name = 'Nudge_Up_Button'
     nudge_down_button.name = 'Nudge_Down_Button'
     tap_tempo_button.name = 'Tap_Tempo_Button'
     transport.set_shift_button(self._shift_button)
     transport.set_play_button(play_button)
     transport.set_stop_button(stop_button)
     transport.set_record_button(record_button)
     transport.set_nudge_buttons(nudge_up_button, nudge_down_button)
     transport.set_tap_tempo_button(tap_tempo_button)
     transport.set_quant_toggle_button(device_bank_buttons[5])
     transport.set_overdub_button(device_bank_buttons[6])
     transport.set_metronome_button(device_bank_buttons[7])
     bank_button_translator = ShiftTranslatorComponent()
     bank_button_translator.set_controls_to_translate(
         tuple(device_bank_buttons))
     bank_button_translator.set_shift_button(self._shift_button)
Example #20
0
class Codec(ControlSurface):
	__module__ = __name__
	__doc__ = " MonoCode controller script "


	def __init__(self, c_instance):
		"""everything except the '_on_selected_track_CHANNELged' override and 'disconnect' runs from here"""
		ControlSurface.__init__(self, c_instance)
		self.set_suppress_rebuild_requests(True) # Turn off rebuild MIDI map until after we're done setting up
		self._monomod_version = 'b994'
		self._version_check = 'b994'
		self._host_name = 'Codec'
		self._color_type = 'Monochrome'
		self._link_mixer = LINK_MIXER
		self.log_message("--------------= Codec " + str(self._monomod_version) + " log opened =--------------") 
		self._hosts = []
		self._linked_script = None
		self._local_ring_control = True
		self.set_local_ring_control(1)
		self._setup_controls()
		self._last_device = None
		self._device_list = [None, None, None, None]
		self._device_select_buttons = None
		self._last_device_component = None
		self._timer = 0
		self._touched = 0
		self._locked = False
		self.flash_status = 1
		self._shift_button = None
		self._shift_pressed = 0
		self._shift_pressed_timer = 0
		self._shift_thresh = SHIFT_THRESH
		self._use_device_selector = USE_DEVICE_SELECTOR
		self._device_selection_follows_track_selection=FOLLOW
		self.set_suppress_rebuild_requests(False) #Turn rebuild back on, now that we're done setting up
		self.song().view.add_selected_track_listener(self._update_selected_device)
		self.show_message('Codec Control Surface Loaded')
		#self.local_ring_control(True)
		#self.set_absolute_mode(True)
		self._setup_monobridge()
		self._setup_device_controls()
		self._setup_special_device_control() 
		self._device.append(self._special_device)			#necessary for device browsing to work with special device
		self._setup_device_chooser()
		self._setup_mixer_controls()
		self._setup_monomod()
		self._setup_modes() 
		self._setup_device_selector()
		self._setup_send_reset()
		self._setup_default_buttons()
		self._initialize_code()
		self.request_rebuild_midi_map()
		#Monomodular.create_instance(c_instance)
		#self._setup_disconnect()
	


	"""script initialization methods"""
	def _initialize_code(self):
		self._send_midi(factoryreset)
		self._send_midi(btn_channels)
		self._send_midi(enc_channels)	
		#pass
	

	def _setup_monobridge(self):
		self._monobridge = MonoBridgeElement(self)
		self._monobridge.name = 'MonoBridge'
	

	def _setup_controls(self):
		is_momentary = True
		self._livid = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)

		self._dial = [None for index in range(8)]
		for column in range(8):
			self._dial[column] = [None for index in range(4)]
			for row in range(4):
				self._dial[column][row] = CodecEncoderElement(MIDI_CC_TYPE, CHANNEL, CODE_DIALS[row][column], Live.MidiMap.MapMode.absolute, 'Dial_' + str(column) + '_' +	str(row), (column + (row*8)), self)	#CODE_DIALS[row][column]
		
		self._button = [None for index in range(8)]
		for column in range(8):
			self._button[column] = [None for index in range(4)]
			for row in range(4):
				self._button[column][row] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_BUTTONS[row][column], 'Button_' + str(column) + '_' + str(row), self) 
		

		self._column_button = [None for index in range(8)]
		for index in range(8):
			self._column_button[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_COLUMN_BUTTONS[index], 'Column_Button_' + str(index), self)		
			
		self._row_button = [None for index in range(4)]
		for index in range(4):
			self._row_button[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, CODE_ROW_BUTTONS[index], 'Row_Button_' + str(index), self)		

		self._dial_matrix = EncoderMatrixElement(self)
		self._dial_matrix.name = 'Encoder_Matrix'
		for row in range(4):
			dial_row = tuple([self._dial[column][row] for column in range(8)])
			self._dial_matrix.add_row(dial_row)

		self._button_matrix = ButtonMatrixElement()
		self._button_matrix.name = 'Button_Matrix'
		for row in range(4):
			button_row = [self._button[column][row] for column in range(8)]
			button_row.append(self._row_button[row])
			self._button_matrix.add_row(tuple(button_row))
		self._button_matrix.add_row(tuple(self._column_button + [self._livid]))
	

	def _setup_modes(self):
		self._monomod_mode = MonomodModeComponent(self)
		self._monomod_mode.name = 'Monomod_Mode'
		self._monomod_mode.update = self._mod_mode_update
		#self._monomod_mode.set_mode_toggle(self._livid)
		self.set_shift_button(self._livid)
		self._shift_mode = ShiftModeComponent(self, self._shift_update) 
		self._shift_mode.name = 'Shift_Mode'
		self._shift_mode.set_mode_buttons(tuple([self._row_button[0], self._row_button[1], self._row_button[2], self._row_button[3]]))
	

	def _setup_transport_control(self):
		self._transport = TransportComponent() 
		self._transport.name = 'Transport'
	

	def _setup_monomod(self):
		self._host = MonomodComponent(self)
		self._host.name = 'Monomod_Host'
		self._host._set_dial_matrix(self._dial_matrix, self._button_matrix)
		#self._host._set_shift_button(self._row_button[3])
		self.hosts = [self._host]
		#self._host._set_button_matrix(self._button_matrix)
		#for index
		#self._host._set_shift
	

	def _setup_mixer_controls(self):
		is_momentary = True
		self._num_tracks = (8)
		self._session = SessionComponent(self._num_tracks, 0)
		self._session.name = 'Session'
		self._mixer = MixerComponent(self._num_tracks, 0, False, False)
		self._mixer.name = 'Mixer'
		self._mixer._next_track_value = self._mixer_next_track_value(self._mixer)
		self._mixer._prev_track_value = self._mixer_prev_track_value(self._mixer)
		self._mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
		#for index in range(8):
			#use the bottom row of encoders for volume, so add 24 to offset the index
		#	self._mixer.channel_strip(index).set_volume_control(self._dial[index+24])
		for index in range(8):
			self._mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
			self._mixer.channel_strip(index)._invert_mute_feedback = True
			self._mixer.channel_strip(index)._mute_value = self._channelstrip_mute_value(self._mixer.channel_strip(index))
			self._mixer.channel_strip(index)._solo_value = self._channelstrip_solo_value(self._mixer.channel_strip(index))
			#mixer.channel_strip(index).set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CH, track_select_notes[index]))
		self.song().view.selected_track = self._mixer.channel_strip(0)._track #set the selected strip to the first track, so that we don't, for example, try to assign a button to arm the master track, which would cause an assertion error
		self._session.set_mixer(self._mixer)
	

	def _setup_device_controls(self):
		self._device = [None for index in range(4)]
		for index in range(4):
			self._device[index] = CodecDeviceComponent(self)
			self._device[index].name = 'CodecDevice_Component_' + str(index)
			device_param_controls = []
			for control in range(8):
				device_param_controls.append(self._dial[control][index])
			self._device[index].set_on_off_button(self._button[1][index])
			self._device[index].set_lock_button(self._button[2][index])
			self._device[index].set_bank_nav_buttons(self._button[4][index], self._button[5][index])
			self._device[index].set_nav_buttons(self._button[6][index], self._button[7][index])
			self._device[index].set_parameter_controls(tuple(device_param_controls))
		self.set_device_component(self._device[0])
		self._last_device_component = self._device[0]
	

	def _setup_special_device_control(self):
		self._special_device = SpecialCodecDeviceComponent(self)
		self._special_device.name = 'SpecialCodecDeviceComponent'
		self._special_device.set_on_off_button(self._button[1][0])
		self._special_device.set_lock_button(self._button[2][0])
		self._special_device.set_bank_nav_buttons(self._button[4][0], self._button[5][0])
		self._special_device.set_nav_buttons(self._button[6][0], self._button[7][0])
		device_param_controls = []
		for row in range(4):
			for column in range(8):
				device_param_controls.append(self._dial[column][row])
		self._special_device.set_parameter_controls(tuple(device_param_controls))
	

	def _setup_device_chooser(self):
		self._selected_device = self._device[0]
		self._last_selected_device = self._device[0]
		self._device_select_buttons = [self._button[0][index] for index in range(4)]
		for button in self._device_select_buttons:
			button.add_value_listener(self._device_select_value, True)
	
	
	def _setup_device_selector(self):
		self._device_selector = CodecDeviceSelectorComponent(self, 'c', self._device + [self._special_device])
		self._device_selector.name = 'Device_Selector'
		self._device_selector.set_mode_buttons(self._column_button)
		#self._device_selector.set_mode_toggle(self._livid)
	

	def _setup_send_reset(self):
		self._send_reset = CodecResetSendsComponent(self)
		self._send_reset.set_buttons(self._button)
	

	def _setup_default_buttons(self):
		self._value_default = ParameterDefaultComponent(self)
		buttons = []
		dials = []
		for column in self._button:
			for button in column:
				buttons.append(button)
		for column in self._dial:
			for dial in column:
				dials.append(dial)
		self._value_default.set_buttons(buttons)
		self._value_default.set_dials(dials)
	


	"""multiple device support"""
	def _device_select_value(self, value, sender):
		#self.log_message('device_select_value ' + str(value) + ' ' + str(self._device_select_buttons.index(sender)))
		if not self._shift_pressed:
			if sender.is_momentary or value > 0:
				if self._shift_mode._mode_index == 2:
					self.set_device_component(self._device[self._device_select_buttons.index(sender)])
					self._last_device_component = self._device_component
					if self._device_component != None and isinstance(self._device_component._device, Live.Device.Device):
						if self._device_component.find_track(self._device_component._device) == self.song().view.selected_track:
							self._device_component.display_device()
	


	"""livid double press mechanism"""
	def set_shift_button(self, button):
		assert ((button == None) or (isinstance(button, FlashingButtonElement)))
		if self._shift_button != None:
			self._shift_button.remove_value_listener(self._shift_value)
		self._shift_button = button
		if self._shift_button != None:
			self._shift_button.add_value_listener(self._shift_value)
	

	def _shift_value(self, value):
		self._shift_pressed = int(value != 0)
		if self._shift_pressed > 0:
			self._send_midi(SLOWENCODER)
			if (self._shift_pressed_timer + self._shift_thresh) > self._timer:
				#if(self._host.is_enabled() != True)
				self._monomod_mode.set_mode(abs(self._monomod_mode._mode_index - 1))
				#else:
				#	self._monomod_mode.set_mode(0)
			self._shift_pressed_timer = self._timer % 256
		else:
			self._send_midi(NORMALENCODER)
	

	def _mod_mode_update(self):
		if(self._monomod_mode._mode_index == 0):
			self._host._set_shift_button(None)
			self._host.set_enabled(False)
			self.set_local_ring_control(1)
			self.set_absolute_mode(1)
			self._dial_matrix.reset()
			self._shift_mode.set_enabled(True)
			self._shift_update()
			self.request_rebuild_midi_map()
			self._livid.turn_off()
		elif(self._monomod_mode._mode_index == 1):
			self._shift_mode.set_enabled(False)
			self._deassign_all()
			self._dial_matrix.reset()
			self._button_matrix.reset()			
			self._livid.turn_on()
			if not self._host._active_client == None:
				self.set_local_ring_control(0)
				self.set_absolute_mode(0)
				self._host.set_enabled(True)
				self._host._set_shift_button(self._livid)
			else:
				self.set_local_ring_control(1)
				self.set_absolute_mode(1)
				self._assign_alternate_mappings(1)
			self.request_rebuild_midi_map()
	


	"""Mode Functions"""
	def _shift_update(self):
		if(self._shift_mode.is_enabled()):
			self.allow_updates(False)
			if(not self._in_build_midi_map):
				self.set_suppress_rebuild_requests(True)
			self._deassign_all()
			if(self._shift_mode._mode_index is 0):
				self._assign_volume()
			elif(self._shift_mode._mode_index is 1):
				self._assign_sends()
			elif(self._shift_mode._mode_index is 2):
				self._assign_devices()
			elif(self._shift_mode._mode_index is 3):
				self._assign_special_device()
			for index in range(self._shift_mode.number_of_modes()):
				if index == self._shift_mode._mode_index:
					self._shift_mode._modes_buttons[index].turn_on()
				else:
					self._shift_mode._modes_buttons[index].turn_off()
			self.allow_updates(True)
			self.set_suppress_rebuild_requests(False)
			self.request_rebuild_midi_map()
	

	def _deassign_all(self):
		self._assign_alternate_mappings(0)
		self._device_selector.set_enabled(False)
		for index in range(8):
			self._mixer.channel_strip(index).set_volume_control(None)
			self._mixer.channel_strip(index).set_pan_control(None)
			self._mixer.channel_strip(index).set_send_controls(tuple([None, None, None, None]))
		for index in range(4):
			self._device[index].set_enabled(False)
			#self._device_navigator[index].set_enabled(False)
		self._special_device.set_enabled(False)
		self._device_selector.set_enabled(False)
		self._deassign_buttons()
		for control in self.controls:
			control.reset()
		self.request_rebuild_midi_map()
	

	def _deassign_buttons(self):
		for index in range(8):
			self._mixer.channel_strip(index).set_select_button(None)
			self._mixer.channel_strip(index).set_solo_button(None)
			self._mixer.channel_strip(index).set_mute_button(None)
		self._mixer.set_select_buttons(None, None)
		self._send_reset.set_enabled(False)
	

	def _assign_volume(self):
		for index in range(8):
			self._mixer.channel_strip(index).set_volume_control(self._dial[index][3])
			self._mixer.channel_strip(index).set_pan_control(self._dial[index][2])
			self._mixer.channel_strip(index).set_send_controls(tuple([self._dial[index][0], self._dial[index][1]]))
			self._mixer.channel_strip(index).set_select_button(self._column_button[index])
			self._mixer.channel_strip(index).set_solo_button(self._button[index][2])
			self._mixer.channel_strip(index).set_mute_button(self._button[index][3])
		self._mixer.set_select_buttons(self._button[7][0], self._button[6][0])
	

	def _assign_sends(self):
		for index in range(8):
			self._mixer.channel_strip(index).set_send_controls(tuple([self._dial[index][0], self._dial[index][1], self._dial[index][2], self._dial[index][3]]))
			self._mixer.channel_strip(index).set_select_button(self._column_button[index])
			self._send_reset.set_enabled(True)
	

	def _assign_devices(self):
		self.set_device_component(self._last_device_component)
		self._device_select_value(1, self._device_select_buttons[self._device.index(self._device_component)])
		for index in range(4):
			self._device[index].set_enabled(True)
		self._device_selector.set_enabled(self._use_device_selector)
		if not self._use_device_selector:
			for index in range(8):
				self._mixer.channel_strip(index).set_select_button(self._column_button[index])				
	

	def _assign_special_device(self):
		self.set_device_component(self._special_device)
		self._special_device.set_enabled(True)
		self._device_selector.set_enabled(self._use_device_selector)
		if not self._use_device_selector:
			for index in range(8):
				self._mixer.channel_strip(index).set_select_button(self._column_button[index])	
	

	def _assign_alternate_mappings(self, chan):
		for column in self._dial:
			for control in column:
				control.set_channel(chan)
				control.set_enabled(chan is 0)
		for column in self._button:
			for control in column:
				control.set_channel(chan)
				control.set_enabled(chan is 0)
		for control in self._column_button:
			control.set_channel(chan)
			control.set_enabled(chan is 0)
		for control in self._row_button:
			control.set_channel(chan)
			control.set_enabled(chan is 0)
	


	"""general functionality"""
	def disconnect(self):
		"""clean things up on disconnect"""
		if not self._shift_button is None:
			if self._shift_button.value_has_listener(self._shift_value):
				self._shift_button.remove_value_listener(self._shift_value)
		for button in self._device_select_buttons:
			if button.value_has_listener(self._device_select_value):
				button.remove_value_listener(self._device_select_value)
		if self._session._is_linked():
			self._session._unlink()
		self.song().view.remove_selected_track_listener(self._update_selected_device)
		"""for cs in self._control_surfaces():
			for host in self._hosts:
				self.log_message('installed: ' + str(cs) + ' vs. ' + str(host))
				if str(type(cs)) == str(type(host)):
					self.log_message('disconnecting: ' + str(type(cs)))
					cs.disconnect(cs)"""
		self._hosts = []
		if self._linked_script != None:
			self._linked_script._update_linked_device_selection = None
		self._linked_script = None
		#self._disconnect_notifier.set_mode(0)
		self.log_message("--------------= Codec log closed =--------------") #Create entry in log file
		ControlSurface.disconnect(self)
		return None
		
	

	def connect_script_instances(self, instanciated_scripts):
		found = False
		for s in instanciated_scripts:
			if '_codec_version' in dir(s):
				if s._codec_version == self._version_check:
					if s._host_name == ('MonOhm'):
						self.log_message('found codec version ' + str(s._codec_version) + ' in script ' + str(s._host_name))
						found = True
						self._linked_script = s
						self._linked_script._update_linked_device_selection = self._update_linked_device_selection
						if not self._session._is_linked() and self._link_mixer is True:
							self._session.set_offsets(LINK_OFFSET[0], LINK_OFFSET[1])
							self._session._link()
				else:
					self.log_message('version mismatch: Monomod version ' + str(self._version_check) + ' vs. Host version ' + str(s._codec_version))
					

		if found == False:
			for s in instanciated_scripts:
				if '_codec_version' in dir(s):
					if s._codec_version == self._version_check:
						if s._host_name == 'BlockMod':
							self.log_message('found codec version ' + str(s._codec_version) + ' in script ' + str(s._host_name))
							self._linked_script = s
							self._linked_script._update_linked_device_selection = self._update_linked_device_selection
						if not self._session._is_linked() and self._link_mixer is True:
							self._session.set_offsets(LINK_OFFSET[0], LINK_OFFSET[1])
							self._session._link()
					else:
						self.log_message('version mismatch: Monomod version ' + str(self._version_check) + ' vs. Host version ' + str(s._codec_version))
		#self.log_message('hosts: ' + str(self._hosts))"""
	

	def update_display(self):
		ControlSurface.update_display(self)		#since we are overriding this from the inherited method, we need to call the original routine as well
		self._timer = (self._timer + 1) % 256
		if(self._timer == 0):
			self._shift_pressed_timer = -12
		if(self._local_ring_control is False):
			self.send_ring_leds()
		self.flash()
	

	def handle_sysex(self, midi_bytes):
		#self._send_midi(tuple([240, 00, 01, 97, 04, 15, 01, 247]))
		#response = [long(0),long(0)]
		#self.log_message(response)
		pass
	

	def flash(self):
		if(self.flash_status > 0):
			for control in self.controls:
				if isinstance(control, FlashingButtonElement):
					control.flash(self._timer)
	

	def send_ring_leds(self):
		leds = [240, 0, 1, 97, 4, 31]
		for column in range(8):
			for row in range(4):
				wheel = self._dial[column][row]
				bytes = wheel._get_ring()
				leds.append(bytes[0])
				leds.append(int(bytes[1]) + int(bytes[2]))
				#if(row == 1 and column == 0):
				#	self.log_message(str(leds) + ' ' + str(bytes[0]) + ' ' + str(bytes[1]) + ' ' + str(bytes[2]))
		leds.append(247)
		self._send_midi(tuple(leds))
	

	def set_absolute_mode(self, val = 1):
		self._absolute_mode = (val!=0)
		if self._absolute_mode is True:
			self._send_midi(tuple([240, 0, 1, 97, 4, 17, 0, 0, 0, 0, 0, 0, 0, 0, 247]))
		else:
			self._send_midi(tuple([240, 0, 1, 97, 4, 17, 127, 127, 127, 127, 127, 127, 127, 127, 247]))
	

	def set_local_ring_control(self, val = 1):
		#assert val is isinstance(val, type(False))
		self._local_ring_control = (val!=0)
		if(self._local_ring_control is True):
			#self._send_midi(tuple([240, 0, 1, 97, 4, 32, 0, 247]))
			self._send_midi(tuple([240, 0, 1, 97, 4, 8, 72, 247]))
		else:
			#self._send_midi(tuple([240, 0, 1, 97, 4, 32, 1, 247]))
			self._send_midi(tuple([240, 0, 1, 97, 4, 8, 64, 247]))
	

	def device_follows_track(self, val):
		self._device_selection_follows_track_selection = (val == 1)
		return self
	


	"""m4l bridge"""
	def generate_strip_string(self, display_string):
		NUM_CHARS_PER_DISPLAY_STRIP = 12
		if (not display_string):
			return (' ' * NUM_CHARS_PER_DISPLAY_STRIP)
		if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.endswith('dB') and (display_string.find('.') != -1))):
			display_string = display_string[:-2]
		if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
			for um in [' ',
			 'i',
			 'o',
			 'u',
			 'e',
			 'a']:
				while ((len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.rfind(um, 1) != -1)):
					um_pos = display_string.rfind(um, 1)
					display_string = (display_string[:um_pos] + display_string[(um_pos + 1):])
		else:
			display_string = display_string.center((NUM_CHARS_PER_DISPLAY_STRIP - 1))
		ret = u''
		for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
			if ((ord(display_string[i]) > 127) or (ord(display_string[i]) < 0)):
				ret += ' '
			else:
				ret += display_string[i]

		ret += ' '
		assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
		return ret
	

	def notification_to_bridge(self, name, value, sender):
		if(isinstance(sender, CodecEncoderElement)):
			self._monobridge._send(sender.name, 'lcd_name', str(self.generate_strip_string(name)))
			self._monobridge._send(sender.name, 'lcd_value', str(self.generate_strip_string(value)))
	

	def touched(self):
		if not self._host.is_enabled():
			if self._touched is 0:
				self._monobridge._send('touch', 'on')
				self.schedule_message(2, self.check_touch)
			self._touched +=1
	

	def check_touch(self):
		if self._touched > 5:
			self._touched = 5
		elif self._touched > 0:
			self._touched -= 1
		if self._touched is 0:
			self._monobridge._send('touch', 'off')
		else:
			self.schedule_message(2, self.check_touch)
	

	def get_clip_names(self):
		clip_names = []
		for scene in self._session._scenes:
			for clip_slot in scene._clip_slots:
				if clip_slot.has_clip() is True:
					clip_names.append(clip_slot._clip_slot)##.clip.name)
					return clip_slot._clip_slot
					##self.log_message(str(clip_slot._clip_slot.clip.name))
		return clip_names
	


	"""overrides"""
	def allow_updates(self, allow_updates):
		for component in self.components:
			component.set_allow_update(int(allow_updates!=0))
	

	def set_device_component(self, device_component):
		if self._device_component != None:
			self._device_component._lock_callback = None
		assert (device_component != None)
		assert isinstance(device_component, DeviceComponent)
		self._device_component = device_component
		self._device_component._lock_callback = self._toggle_lock	#old:  self._device_component.set_lock_callback(self._toggle_lock)
		if self._device_select_buttons != None:
			for button in self._device_select_buttons:
				button.send_value(self._device_select_buttons.index(button) == self._device.index(self._device_component))
		self._update_device_selection()
		return None
	

	def _update_selected_device(self):
		if self._device_selection_follows_track_selection is True:
			self._update_device_selection()
		return None 
	

	def _update_linked_device_selection(self, device):
		#self.log_message('codec received ' + str(device.name))
		if self._device_component != None and device != None:
			if not self._device_component.is_locked():
				self._device_component.set_device(device)
	

	def _get_num_tracks(self):
		return self.num_tracks
	

	def _update_device_selection(self): #new method: code to verify
		#self.log_message('_update_device_selection')
		if self._device_component != None:
			if not self._device_component.is_locked():
				track = self.song().view.selected_track
				device_to_select = track.view.selected_device
				if ((device_to_select == None) and (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)
 	

	def _channelstrip_mute_value(self, channelstrip):
		def _mute_value(value):
			if not self._shift_pressed:
				self.log_message('shift not pressed')
				ChannelStripComponent._mute_value(channelstrip, value)
		return _mute_value
		
	

	def _channelstrip_solo_value(self, channelstrip):
		def _solo_value(value):
			if not self._shift_pressed:
				ChannelStripComponent._solo_value(channelstrip, value)
		return _solo_value
		
	

	def _mixer_next_track_value(self, mixer):
		def _next_track_value(value):
			if not self._shift_pressed:
				MixerComponent._next_track_value(mixer, value)
		return _next_track_value
		
	

	def _mixer_prev_track_value(self, mixer):
		def _prev_track_value(value):
			if not self._shift_pressed:
				MixerComponent._prev_track_value(mixer, value)
		return _prev_track_value
Example #21
0
	def _setup_controls(self):
		is_momentary = True
		self._fader = [ None for index in range(8) ]
		self._dial = [ None for index in range(16) ]
		self._button = [ None for index in range(8) ]
		self._menu = [ None for index in range(6) ]
		for index in range(8):
			self._fader[index] = MonoEncoderElement2(MIDI_CC_TYPE, CHANNEL, OHM_FADERS[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self)

		for index in range(8):
			self._button[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_' + str(index), self)

		for index in range(16):
			self._dial[index] = CodecEncoderElement(MIDI_CC_TYPE, CHANNEL, OHM_DIALS[index], Live.MidiMap.MapMode.absolute, 'Encoder_' + str(index), index, self)

		self._knobs = []
		for index in range(12):
			self._knobs.append(self._dial[index])

		for index in range(6):
			self._menu[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_MENU[index], 'Menu_' + str(index), self)

		self._crossfader = EncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute)
		self._crossfader.name = 'Crossfader'
		self._livid = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
		self._shift_l = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Page_Button_Left', self)
		self._shift_r = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Page_Button_Right', self)
		self._matrix = ButtonMatrixElement()
		self._matrix.name = 'Matrix'
		self._grid = [ None for index in range(8) ]
		self._monomod = ButtonMatrixElement()
		self._monomod.name = 'Monomod'
		for column in range(8):
			self._grid[column] = [ None for index in range(8) ]
			for row in range(8):
				self._grid[column][row] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, column * 8 + row, 'Grid_' + str(column) + '_' + str(row), self)

		for row in range(5):
			button_row = []
			for column in range(7):
				button_row.append(self._grid[column][row])

			self._matrix.add_row(tuple(button_row))

		for row in range(8):
			button_row = []
			for column in range(8):
				button_row.append(self._grid[column][row])

			self._monomod.add_row(tuple(button_row))

		self._mod_matrix = ButtonMatrixElement()
		self._mod_matrix.name = 'Matrix'
		self._dial_matrix = EncoderMatrixElement(self)
		self._dial_matrix.name = 'Dial_Matrix'
		self._dial_button_matrix = ButtonMatrixElement()
		self._dial_button_matrix.name = 'Dial_Button_Matrix'
		for row in range(4):
			button_row = []
			for column in range(4):
				button_row.append(self._grid[column + 4][row])

			self._mod_matrix.add_row(tuple(button_row))

		for row in range(3):
			dial_row = []
			for column in range(4):
				dial_row.append(self._dial[row * 4 + column])

			self._dial_matrix.add_row(tuple(dial_row))

		for row in range(3):
			dial_button_row = []
			for column in range(4):
				dial_button_row.append(self._grid[column][row])

			self._dial_button_matrix.add_row(tuple(dial_button_row))

		self._key = [ self._grid[KEYS[index][1]][KEYS[index][0]] for index in range(32) ]
		self._encoder = [ self._dial[index] for index in range(12) ]
		self._key_matrix = ButtonMatrixElement()
		button_row = []
		for column in range(16):
			button_row.append(self._key[16 + column])

		self._key_matrix.add_row(tuple(button_row))
Example #22
0
    def mixer_control(self):
        is_momentary = True
        self.num_tracks = N_TRACKS
        if (USE_SENDS == True):
            self.mixer = MixerComponent(N_TRACKS, N_SENDS_PER_TRACK,
                                        USE_MIXER_EQ, USE_MIXER_FILTERS)
        else:
            self.mixer = MixerComponent(N_TRACKS, 0, USE_MIXER_EQ,
                                        USE_MIXER_FILTERS)
        self.mixer.name = 'Mixer'
        self.mixer.set_track_offset(
            0)  #Sets start point for mixer strip (offset from left)
        for index in range(N_TRACKS):
            self.mixer.channel_strip(
                index).name = 'Mixer_ChannelStrip_' + str(index)
            self.mixer.channel_strip(index)._invert_mute_feedback = True

        if (USE_SELECT_BUTTONS == True):
            self.selectbuttons = [None for index in range(N_TRACKS)]
            for index in range(len(SELECT_BUTTONS)):
                self.selectbuttons[index] = FlashingButtonElement(
                    is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                    SELECT_BUTTONS[index], 'Select_Button', self)
                self.mixer.channel_strip(index).set_select_button(
                    self.selectbuttons[index])
                self.selectbuttons[index].set_on_value(SELECT_BUTTON_ON_COLOR)
                self.selectbuttons[index].set_off_value(
                    SELECT_BUTTON_OFF_COLOR)

        if (USE_SOLO_BUTTONS == True):
            self.solobuttons = [None for index in range(N_TRACKS)]
            for index in range(len(SOLO_BUTTONS)):
                self.solobuttons[index] = FlashingButtonElement(
                    is_momentary, MIDI_NOTE_TYPE, CHANNEL, SOLO_BUTTONS[index],
                    'Solo_Button', self)
                self.mixer.channel_strip(index).set_solo_button(
                    self.solobuttons[index])
                self.solobuttons[index].set_on_value(SOLO_BUTTON_ON_COLOR)
                self.solobuttons[index].set_off_value(SOLO_BUTTON_OFF_COLOR)

        if (USE_ARM_BUTTONS == True):
            self.armbuttons = [None for index in range(N_TRACKS)]
            for index in range(len(ARM_BUTTONS)):
                self.armbuttons[index] = FlashingButtonElement(
                    is_momentary, MIDI_NOTE_TYPE, CHANNEL, ARM_BUTTONS[index],
                    'Arm_Button', self)
                self.mixer.channel_strip(index).set_arm_button(
                    self.armbuttons[index])
                self.armbuttons[index].set_on_value(ARM_BUTTON_ON_COLOR)
                self.armbuttons[index].set_off_value(ARM_BUTTON_OFF_COLOR)

        if (USE_MUTE_BUTTONS == True):
            self.mutebuttons = [None for index in range(N_TRACKS)]
            for index in range(len(MUTE_BUTTONS)):
                self.mutebuttons[index] = FlashingButtonElement(
                    is_momentary, MIDI_NOTE_TYPE, CHANNEL, MUTE_BUTTONS[index],
                    'Mute_Button', self)
                self.mixer.channel_strip(index).set_mute_button(
                    self.mutebuttons[index])
                self.mutebuttons[index].set_on_value(MUTE_BUTTON_ON_COLOR)
                self.mutebuttons[index].set_off_value(MUTE_BUTTON_OFF_COLOR)

        if (USE_SENDS == True):
            self.sendencoders = [None for index in range(len(SEND_ENCODERS))]
            for index in range(len(SEND_ENCODERS)):
                # self.sendencoders[index] = EncoderElement(MIDI_CC_TYPE, CHANNEL, SEND_ENCODERS[index], Live.MidiMap.MapMode.absolute)
                self.sendencoders[index] = CMDEncoderElement(
                    MIDI_CC_TYPE, CHANNEL, SEND_ENCODERS[index],
                    Live.MidiMap.MapMode.relative_smooth_binary_offset, 20)
            for index in range(len(SEND_ENCODERS) / N_SENDS_PER_TRACK):
                self.mixer.channel_strip(index).set_send_controls(
                    tuple(self.sendencoders[(index * N_SENDS_PER_TRACK):(
                        (index * N_SENDS_PER_TRACK) + N_SENDS_PER_TRACK)])
                )  # Pas -1, car tuple() fonctionne etrangement en Python ;)

        if (USE_VOLUME_CONTROLS == True):
            self.volencoders = [None for index in range(len(VOLUME_ENCODERS))]
            for index in range(len(VOLUME_ENCODERS)):
                #self.volencoders[index] = EncoderElement(MIDI_CC_TYPE, CHANNEL, VOLUME_ENCODERS[index], Live.MidiMap.MapMode.absolute)
                self.volencoders[index] = CMDEncoderElement(
                    MIDI_CC_TYPE, CHANNEL, VOLUME_ENCODERS[index],
                    Live.MidiMap.MapMode.relative_smooth_binary_offset, 20)
                self.mixer.channel_strip(index).set_volume_control(
                    self.volencoders[index])
    def session_control(self):
        is_momentary = True
        self._timer = 0
        self.flash_status = 1
        self.grid = [None for index in range(N_TRACKS*N_SCENES)]
        for index in range(N_TRACKS*N_SCENES):
            self.grid[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,TRACK_CLIP_BUTTONS[index], 'Grid' + str(index), self)
            self.grid[index].set_off_value(127)
            self.grid[index].turn_off()
            
        self.matrix = ButtonMatrixElement()
        for row in range(N_SCENES):
            button_row = []
            for column in range(N_TRACKS):
                button_row.append(self.grid[row+(column*5)])
            self.matrix.add_row(tuple(button_row))
        self.session = SessionComponent(N_TRACKS,N_SCENES)
        self.session.name = "Session"
        self.session.set_offsets(0,0)

        self.scene = [None for index in range(N_SCENES)]
        for row in range(N_SCENES):
            self.scene[row] = self.session.scene(row)
            self.scene[row].name = 'Scene_'+str(row)
            for column in range(N_TRACKS):
                clip_slot = self.scene[row].clip_slot(column)
                clip_slot.name = str(column)+'_Clip_Slot'+str(row)
                self.scene[row].clip_slot(column).set_triggered_to_play_value(CLIP_TRG_PLAY_COLOR)
                self.scene[row].clip_slot(column).set_stopped_value(CLIP_STOP_COLOR)
                self.scene[row].clip_slot(column).set_started_value(CLIP_STARTED_COLOR)
        self.set_highlighting_session_component(self.session)        
        self.session_zoom = DeprecatedSessionZoomingComponent(self.session)                 #this creates the ZoomingComponent that allows navigation when the shift button is pressed
        self.session_zoom.name = 'Session_Overview'                            #name it so we can access it in m4l
        self.session_zoom.set_stopped_value(ZOOM_STOPPED)            #set the zooms stopped color
        self.session_zoom.set_playing_value(ZOOM_PLAYING)            #set the zooms playing color
        self.session_zoom.set_selected_value(ZOOM_SELECTED)            #set the zooms selected color
        self.session_zoom.set_button_matrix(self.matrix)                        #assign the ButtonMatrixElement that we created in _setup_controls() to the zooming component so that we can control it
        self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 63)
        self.session_zoom.set_zoom_button(self._shift_button)                   #assign a shift button so that we can switch states between the SessionComponent and the SessionZoomingComponent

        self.log_message(str(len(STOP_BUTTONS)))
        if(USE_STOP_BUTTONS == True):
            self.stopbuttons = [None for index in range(N_TRACKS)]
            for index in range(len(STOP_BUTTONS)):
                self.stopbuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,STOP_BUTTONS[index], 'Stop_Button', self)
                self.session.set_stop_track_clip_buttons(self.stopbuttons)
                self.stopbuttons[index].set_on_value(STOP_BUTTON_ON_COLOR)
                self.stopbuttons[index].set_off_value(STOP_BUTTON_OFF_COLOR)
 

    # Clip trigger on grid assignments
        for column in range(N_TRACKS):
            for row in range(N_SCENES):
                self.scene[row].clip_slot(column).set_launch_button(self.grid[row+(column*5)])    
    
        for index in range(N_TRACKS*N_SCENES):
            self.grid[index].clear_send_cache()      
                
        if USE_SESSION_NAV == True:
            self.navleft = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_LEFT_BUTTON, 'Nav_Left_Button', self)
            self.navleft.clear_send_cache()
            self.navleft.set_on_off_values(NAVBOX_LEFT_BUTTON_C, NAVBOX_LEFT_BUTTON_C)
            
            self.navright = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_RIGHT_BUTTON, 'Nav_Right_Button', self)
            self.navright.clear_send_cache()
            self.navright.set_on_off_values(NAVBOX_RIGHT_BUTTON_C, NAVBOX_RIGHT_BUTTON_C)
            
            self.navup = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_UP_BUTTON, 'Nav_Up_Button', self)
            self.navup.clear_send_cache()
            self.navup.set_on_off_values(NAVBOX_UP_BUTTON_C, NAVBOX_UP_BUTTON_C)
                 
            self.navdown = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_DOWN_BUTTON, 'Nav_Down_Button', self)
            self.navdown.clear_send_cache()
            self.navdown.set_on_off_values(NAVBOX_DOWN_BUTTON_C, NAVBOX_DOWN_BUTTON_C) 
            
            self.session.set_track_bank_buttons(self.navright, self.navleft)
            self.session.set_scene_bank_buttons(self.navdown, self.navup)
        
        if USE_MIXER_CONTROLS == True:
            self.session.set_mixer(self.mixer)    

        self.refresh_state()
        self.session.set_enabled(True)
        self.session.update()  
class LC1(ControlSurface):
    def __init__(self, c_instance):
        ControlSurface.__init__(self, c_instance)
        is_momentary = True
        self._timer = 0                 #used for flashing states, and is incremented by each call from self._update_display()
        self._touched = 0    
        self.flash_status = 1        
        
        with self.component_guard():
            self._setup_transport_control()

            if USE_MIXER_CONTROLS == True:
                self.mixer_control()
            if USE_SESSION_VIEW == True:
                self.session_control()        
            self.setup_device_control()
    
    
    def _setup_transport_control(self):
        is_momentary = True # We'll only be using momentary buttons here
        transport = TransportComponent() #Instantiate a Transport Component
        """set up the buttons"""
        transport.set_play_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 60)) #ButtonElement(is_momentary, msg_type, channel, identifier) Note that the MIDI_NOTE_TYPE constant is defined in the InputControlElement module
        transport.set_stop_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 61))
        transport.set_record_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 62))
        #transport.set_overdub_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 68))
        #transport.set_nudge_buttons(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 75), ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 73)) #(up_button, down_button)
    #    transport.set_tap_tempo_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 63))
        #transport.set_metronome_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 80)) #For some reason, in Ver 7.x.x this method's name has no trailing "e" , and must be called as "set_metronom_button()"...
        #transport.set_loop_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 82))
        #transport.set_punch_buttons(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 85), ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 87)) #(in_button, out_button)
        #transport.set_seek_buttons(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 90), ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 92)) # (ffwd_button, rwd_button)
        """set up the sliders"""
        #transport.set_tempo_control(SliderElement(MIDI_CC_TYPE, CHANNEL, 26), SliderElement(MIDI_CC_TYPE, CHANNEL, 25)) #(control, fine_control)
        #transport.set_song_position_control(SliderElement(MIDI_CC_TYPE, CHANNEL, 24))
   

    def mixer_control(self):
        is_momentary = True
        self.num_tracks = N_TRACKS
        if(USE_SENDS == True):
            self.mixer = MixerComponent(N_TRACKS, N_SENDS_PER_TRACK, USE_MIXER_EQ, USE_MIXER_FILTERS)
        else:
            self.mixer = MixerComponent(N_TRACKS,0, USE_MIXER_EQ, USE_MIXER_FILTERS)
        self.mixer.name = 'Mixer'
        self.mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
        for index in range(N_TRACKS):
            self.mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
            self.mixer.channel_strip(index)._invert_mute_feedback = True             


        if(USE_SELECT_BUTTONS == True):
            self.selectbuttons = [None for index in range(N_TRACKS)]
            for index in range(len(SELECT_BUTTONS)):
                self.selectbuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,SELECT_BUTTONS[index], 'Select_Button', self)
                self.mixer.channel_strip(index).set_select_button(self.selectbuttons[index])
                self.selectbuttons[index].set_on_value(SELECT_BUTTON_ON_COLOR)
                self.selectbuttons[index].set_off_value(SELECT_BUTTON_OFF_COLOR)

        if(USE_SOLO_BUTTONS == True):
            self.solobuttons = [None for index in range(N_TRACKS)]
            for index in range(len(SOLO_BUTTONS)):
                self.solobuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,SOLO_BUTTONS[index], 'Solo_Button', self)
                self.mixer.channel_strip(index).set_solo_button(self.solobuttons[index])
                self.solobuttons[index].set_on_value(SOLO_BUTTON_ON_COLOR)
                self.solobuttons[index].set_off_value(SOLO_BUTTON_OFF_COLOR)



        if(USE_ARM_BUTTONS == True):
            self.armbuttons = [None for index in range(N_TRACKS)]
            for index in range(len(ARM_BUTTONS)):
                self.armbuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,ARM_BUTTONS[index], 'Arm_Button', self)
                self.mixer.channel_strip(index).set_arm_button(self.armbuttons[index])
                self.armbuttons[index].set_on_value(ARM_BUTTON_ON_COLOR)
                self.armbuttons[index].set_off_value(ARM_BUTTON_OFF_COLOR)
		
        if(USE_MUTE_BUTTONS == True):
            self.mutebuttons = [None for index in range(N_TRACKS)]
            for index in range(len(MUTE_BUTTONS)):
                self.mutebuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,MUTE_BUTTONS[index], 'Mute_Button', self)
                self.mixer.channel_strip(index).set_mute_button(self.mutebuttons[index])
                self.mutebuttons[index].set_on_value(MUTE_BUTTON_ON_COLOR)
                self.mutebuttons[index].set_off_value(MUTE_BUTTON_OFF_COLOR)
                
        if(USE_SENDS == True):
            self.sendencoders = [None for index in range(len(SEND_ENCODERS))]
            for index in range(len(SEND_ENCODERS)):
                self.sendencoders[index] = EncoderElement(MIDI_CC_TYPE, CHANNEL, SEND_ENCODERS[index], Live.MidiMap.MapMode.absolute)
            for index in range(len(SEND_ENCODERS)/N_SENDS_PER_TRACK):
                self.mixer.channel_strip(index).set_send_controls(tuple(self.sendencoders[(index*N_SENDS_PER_TRACK):((index*N_SENDS_PER_TRACK)+N_SENDS_PER_TRACK-1)]))

                
        if(USE_VOLUME_CONTROLS == True):
            self.volencoders = [None for index in range(len(VOLUME_ENCODERS))]
            for index in range (len(VOLUME_ENCODERS)):
                self.volencoders[index] = EncoderElement(MIDI_CC_TYPE, CHANNEL, VOLUME_ENCODERS[index], Live.MidiMap.MapMode.absolute)
                self.mixer.channel_strip(index).set_volume_control(self.volencoders[index])
      
    def session_control(self):
        is_momentary = True
        self._timer = 0
        self.flash_status = 1
        self.grid = [None for index in range(N_TRACKS*N_SCENES)]
        for index in range(N_TRACKS*N_SCENES):
            self.grid[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,TRACK_CLIP_BUTTONS[index], 'Grid' + str(index), self)
            self.grid[index].set_off_value(127)
            self.grid[index].turn_off()
            
        self.matrix = ButtonMatrixElement()
        for row in range(N_SCENES):
            button_row = []
            for column in range(N_TRACKS):
                button_row.append(self.grid[row+(column*5)])
            self.matrix.add_row(tuple(button_row))
        self.session = SessionComponent(N_TRACKS,N_SCENES)
        self.session.name = "Session"
        self.session.set_offsets(0,0)

        self.scene = [None for index in range(N_SCENES)]
        for row in range(N_SCENES):
            self.scene[row] = self.session.scene(row)
            self.scene[row].name = 'Scene_'+str(row)
            for column in range(N_TRACKS):
                clip_slot = self.scene[row].clip_slot(column)
                clip_slot.name = str(column)+'_Clip_Slot'+str(row)
                self.scene[row].clip_slot(column).set_triggered_to_play_value(CLIP_TRG_PLAY_COLOR)
                self.scene[row].clip_slot(column).set_stopped_value(CLIP_STOP_COLOR)
                self.scene[row].clip_slot(column).set_started_value(CLIP_STARTED_COLOR)
        self.set_highlighting_session_component(self.session)        
        self.session_zoom = DeprecatedSessionZoomingComponent(self.session)                 #this creates the ZoomingComponent that allows navigation when the shift button is pressed
        self.session_zoom.name = 'Session_Overview'                            #name it so we can access it in m4l
        self.session_zoom.set_stopped_value(ZOOM_STOPPED)            #set the zooms stopped color
        self.session_zoom.set_playing_value(ZOOM_PLAYING)            #set the zooms playing color
        self.session_zoom.set_selected_value(ZOOM_SELECTED)            #set the zooms selected color
        self.session_zoom.set_button_matrix(self.matrix)                        #assign the ButtonMatrixElement that we created in _setup_controls() to the zooming component so that we can control it
        self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 63)
        self.session_zoom.set_zoom_button(self._shift_button)                   #assign a shift button so that we can switch states between the SessionComponent and the SessionZoomingComponent

        self.log_message(str(len(STOP_BUTTONS)))
        if(USE_STOP_BUTTONS == True):
            self.stopbuttons = [None for index in range(N_TRACKS)]
            for index in range(len(STOP_BUTTONS)):
                self.stopbuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,STOP_BUTTONS[index], 'Stop_Button', self)
                self.session.set_stop_track_clip_buttons(self.stopbuttons)
                self.stopbuttons[index].set_on_value(STOP_BUTTON_ON_COLOR)
                self.stopbuttons[index].set_off_value(STOP_BUTTON_OFF_COLOR)
 

    # Clip trigger on grid assignments
        for column in range(N_TRACKS):
            for row in range(N_SCENES):
                self.scene[row].clip_slot(column).set_launch_button(self.grid[row+(column*5)])    
    
        for index in range(N_TRACKS*N_SCENES):
            self.grid[index].clear_send_cache()      
                
        if USE_SESSION_NAV == True:
            self.navleft = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_LEFT_BUTTON, 'Nav_Left_Button', self)
            self.navleft.clear_send_cache()
            self.navleft.set_on_off_values(NAVBOX_LEFT_BUTTON_C, NAVBOX_LEFT_BUTTON_C)
            
            self.navright = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_RIGHT_BUTTON, 'Nav_Right_Button', self)
            self.navright.clear_send_cache()
            self.navright.set_on_off_values(NAVBOX_RIGHT_BUTTON_C, NAVBOX_RIGHT_BUTTON_C)
            
            self.navup = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_UP_BUTTON, 'Nav_Up_Button', self)
            self.navup.clear_send_cache()
            self.navup.set_on_off_values(NAVBOX_UP_BUTTON_C, NAVBOX_UP_BUTTON_C)
                 
            self.navdown = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,NAVBOX_DOWN_BUTTON, 'Nav_Down_Button', self)
            self.navdown.clear_send_cache()
            self.navdown.set_on_off_values(NAVBOX_DOWN_BUTTON_C, NAVBOX_DOWN_BUTTON_C) 
            
            self.session.set_track_bank_buttons(self.navright, self.navleft)
            self.session.set_scene_bank_buttons(self.navdown, self.navup)
        
        if USE_MIXER_CONTROLS == True:
            self.session.set_mixer(self.mixer)    

        self.refresh_state()
        self.session.set_enabled(True)
        self.session.update()  
              
    def setup_device_control(self):
        is_momentary = True
        device_bank_buttons = []
        device_param_controls = []
        bank_button_labels = ('Clip_Track_Button', 'Device_On_Off_Button', 'Previous_Device_Button', 'Next_Device_Button')
        for index in range(4):
            device_bank_buttons.append(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 16 + index))
            device_bank_buttons[-1].name = bank_button_labels[index]
        for index in range(8):
            #ring_mode_button = ButtonElement(not is_momentary, MIDI_CC_TYPE, CHANNEL, 21 + index)
            ringed_encoder = CMDEncoderElement(MIDI_CC_TYPE, CHANNEL, 16 + index, Live.MidiMap.MapMode.relative_binary_offset, 20)
            #ringed_encoder.set_ring_mode_button(ring_mode_button)
            ringed_encoder.name = 'Device_Control_' + str(index)
            #ring_mode_button.name = ringed_encoder.name + '_Ring_Mode_Button'
            device_param_controls.append(ringed_encoder)

        device = ShiftableDeviceComponent()
        device.name = 'Device_Component'
        device.set_bank_buttons(tuple(device_bank_buttons))
        device.set_shift_button(self._shift_button)
        device.set_parameter_controls(tuple(device_param_controls))
        device.set_on_off_button(device_bank_buttons[1])
        self.set_device_component(device)
        detail_view_toggler = DetailViewControllerComponent(self)
        detail_view_toggler.name = 'Detail_View_Control'
        detail_view_toggler.set_shift_button(self._shift_button)
        detail_view_toggler.set_device_clip_toggle_button(device_bank_buttons[0])
        detail_view_toggler.set_device_nav_buttons(device_bank_buttons[2], device_bank_buttons[3])
        
    def update_display(self):
        ControlSurface.update_display(self)
        self._timer = (self._timer + 1) % 256
        self.flash()
        
    def flash(self):
        if(USE_SESSION_VIEW == True):
            for index in range(N_TRACKS*N_SCENES):
                if(self.grid[index]._flash_state > 0):
                    self.grid[index].flash(self._timer)    
        if(USE_SESSION_NAV == True):
            if(self.navleft._flash_state>0):
                    self.navleft.flash(self._timer)
            if(self.navright._flash_state>0):
                    self.navright.flash(self._timer)
            if(self.navup._flash_state>0):
                    self.navup.flash(self._timer)
            if(self.navdown._flash_state>0):
                    self.navdown.flash(self._timer)    
        if(USE_MIXER_CONTROLS == True):
            for index in range(N_TRACKS):
                if(USE_SOLO_BUTTONS == True):
                    if(self.solobuttons[index]._flash_state > 0):
                        self.solobuttons[index].flash(self._timer)                
                if(USE_MUTE_BUTTONS == True):
                    if(self.mutebuttons[index]._flash_state > 0):
                        self.mutebuttons[index].flash(self._timer)
                


    def disconnect(self):
        self._hosts = []
        ControlSurface.disconnect(self)
        return None        
Example #25
0
    def session_control(self):
        is_momentary = True
        self._timer = 0
        self.flash_status = 1
        self.grid = [None for index in range(N_TRACKS * N_SCENES)]
        for index in range(N_TRACKS * N_SCENES):
            self.grid[index] = FlashingButtonElement(is_momentary,
                                                     MIDI_NOTE_TYPE, CHANNEL,
                                                     TRACK_CLIP_BUTTONS[index],
                                                     'Grid' + str(index), self)
            self.grid[index].set_off_value(0)
            self.grid[index].turn_off()

        self.matrix = ButtonMatrixElement()
        for row in range(N_SCENES):
            button_row = []
            for column in range(N_TRACKS):
                button_row.append(self.grid[row + (column * N_SCENES)])
            self.matrix.add_row(tuple(button_row))
        self.session = SessionComponent(N_TRACKS, N_SCENES)
        self.session.name = "Session"
        self.session.set_offsets(0, 0)

        self.scene = [None for index in range(N_SCENES)]
        for row in range(N_SCENES):
            self.scene[row] = self.session.scene(row)
            self.scene[row].name = 'Scene_' + str(row)
            for column in range(N_TRACKS):
                clip_slot = self.scene[row].clip_slot(column)
                clip_slot.name = str(column) + '_Clip_Slot' + str(row)
                self.scene[row].clip_slot(column).set_triggered_to_play_value(
                    CLIP_TRG_PLAY_COLOR)
                self.scene[row].clip_slot(column).set_stopped_value(
                    CLIP_STOP_COLOR)
                self.scene[row].clip_slot(column).set_started_value(
                    CLIP_STARTED_COLOR)
        self.set_highlighting_session_component(self.session)
        #self.session_zoom = DeprecatedSessionZoomingComponent(self.session)                 #this creates the ZoomingComponent that allows navigation when the shift button is pressed
        #self.session_zoom.name = 'Session_Overview'                            #name it so we can access it in m4l
        #self.session_zoom.set_stopped_value(ZOOM_STOPPED)            #set the zooms stopped color
        #self.session_zoom.set_playing_value(ZOOM_PLAYING)            #set the zooms playing color
        #self.session_zoom.set_selected_value(ZOOM_SELECTED)            #set the zooms selected color
        #self.session_zoom.set_button_matrix(self.matrix)                        #assign the ButtonMatrixElement that we created in _setup_controls() to the zooming component so that we can control it
        #self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 84)
        #self.session_zoom.set_zoom_button(self._shift_button)                   #assign a shift button so that we can switch states between the SessionComponent and the SessionZoomingComponent

        #self.looper = LooperComponent(self)
        #self.log_message(str(len(STOP_BUTTONS)))
        #if(USE_STOP_BUTTONS == True):
        #self.stopbuttons = [None for index in range(N_TRACKS)]
        #for index in range(len(STOP_BUTTONS)):
        #self.stopbuttons[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,STOP_BUTTONS[index], 'Stop_Button', self)
        #self.session.set_stop_track_clip_buttons(self.stopbuttons)
        #self.stopbuttons[index].set_on_value(STOP_BUTTON_ON_COLOR)
        #self.stopbuttons[index].set_off_value(STOP_BUTTON_OFF_COLOR)
        #self.scrollencoder = ScrollEncoderElement(MIDI_CC_TYPE, CHANNEL, 32, Live.MidiMap.MapMode.absolute, self.session, self.transport, self.mixer, self.looper)
        #self.scrollencoder.set_nav_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 80))
        #self.scrollencoder.set_transport_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 81))
        #self.scrollencoder.set_scene_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 82))
        #self.scrollencoder.set_library_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 83))
        #self.scrollencoder.set_button1(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 66))
        #self.scrollencoder.set_button2(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 67))
        #self.scrollencoder.set_button3(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 64))
        #self.scrollencoder.set_button4(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 65))
        #self.scrollencoder.set_encoder_button(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 32))

        self.button_left = SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                               CHANNEL, NAVBOX_LEFT_BUTTON)
        self.button_right = SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                                CHANNEL, NAVBOX_RIGHT_BUTTON)
        self.button_up = SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                             CHANNEL, NAVBOX_UP_BUTTON)
        self.button_down = SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE,
                                               CHANNEL, NAVBOX_DOWN_BUTTON)

        self.session.set_track_bank_buttons(self.button_right,
                                            self.button_left)
        self.session.set_scene_bank_buttons(self.button_down, self.button_up)

        for column in range(N_TRACKS):
            for row in range(N_SCENES):
                self.scene[row].clip_slot(column).set_launch_button(
                    self.grid[row + (column * N_SCENES)])

        for index in range(N_TRACKS * N_SCENES):
            self.grid[index].clear_send_cache()

        if USE_MIXER_CONTROLS == True:
            self.session.set_mixer(self.mixer)

        self.refresh_state()
        self.session.set_enabled(True)
        self.session.update()