def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self._suggested_input_port = u'HyperControl' self._suggested_output_port = u'HyperControl' self.set_pad_translations(PAD_TRANSLATIONS) stop_button = make_button(116) play_button = make_button(117) record_button = make_button(118) select_button = make_button(98) nav_left_button = make_button(99) nav_right_button = make_button(100) nav_up_button = make_button(101) nav_down_button = make_button(102) mixer_modes_toggle = make_button(58) mixer_or_device_toggle = make_button(59) hypercontrol_mode_toggle = make_button(60) encoders = tuple([ make_encoder(33 + index) for index in range(8) ]) transport = TransportComponent() transport.set_stop_button(stop_button) transport.set_play_button(play_button) transport.set_record_button(record_button) session = SessionComponent(8, 0) device = BestBankDeviceComponent(device_selection_follows_track_selection=True) self.set_device_component(device) device_nav = DeviceNavComponent() mixer = SpecialMixerComponent(NUM_TRACKS) session.set_mixer(mixer) mixer_encoder_modes = EncoderMixerModeSelector(mixer) mixer_encoder_modes.set_mode_toggle(mixer_modes_toggle) mixer_or_device = MixerOrDeviceModeSelector(encoders, select_button, nav_up_button, nav_down_button, nav_left_button, nav_right_button, mixer, session, device, mixer_encoder_modes, device_nav) mixer_or_device.set_mode_buttons((mixer_modes_toggle, mixer_or_device_toggle, hypercontrol_mode_toggle))
def _setup_session_control(self): is_momentary = True num_tracks = COLS num_scenes = ROWS global session session = SessionComponent(num_tracks, num_scenes) session.name = "Session" session.set_offsets(0, 0) self._session = session self._session.set_stop_clip_value(0) self._scene = [None for index in range(ROWS)] for row in range(num_scenes): self._scene[row] = session.scene(row) self._scene[row].name = 'Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_' + str(row) clip_slot.set_triggered_to_play_value(64) clip_slot.set_triggered_to_record_value(64) clip_slot.set_stopped_value(0) clip_slot.set_started_value(64) clip_slot.set_recording_value(64) #clip_slot.set_launch_button(self._grid[column][row]) #comment out if you don't want clip launch session.set_mixer(mixer) self._session_zoom = SessionZoomingComponent(session) self._session_zoom.name = 'Session_Overview' self._session_zoom.set_stopped_value(0) self._session_zoom.set_playing_value(64) self._session_zoom.set_selected_value(64) if STANDALONE is True: self.set_highlighting_session_component(self._session) self._session.set_track_bank_buttons(self._grid[5][3], self._grid[4][3]) #comment out when using with Griid self._session.set_scene_bank_buttons(self._grid[7][3], self._grid[6][3]) # comment out when using with Griid
def _setup_session_control(self): is_momentary = True num_tracks = COLS num_scenes = ROWS global session session = SessionComponent(num_tracks, num_scenes) session.name = "Session" session.set_offsets(0, 0) self._session = session self._session.set_stop_track_clip_value(0) self._scene = [None for index in range(ROWS)] for row in range(num_scenes): self._scene[row] = session.scene(row) self._scene[row].name = 'Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_' + str(row) clip_slot.set_triggered_to_play_value(64) clip_slot.set_triggered_to_record_value(64) clip_slot.set_stopped_value(0) clip_slot.set_started_value(64) clip_slot.set_recording_value(64) #clip_slot.set_launch_button(self._grid[column][row]) #comment out if you don't want clip launch session.set_mixer(mixer) self._session_zoom = SessionZoomingComponent(session) self._session_zoom.name = 'Session_Overview' self._session_zoom.set_stopped_value(0) self._session_zoom.set_playing_value(64) self._session_zoom.set_selected_value(64) if STANDALONE is True: self.set_highlighting_session_component(self._session) self._session.set_track_bank_buttons(self._grid[5][3], self._grid[4][3]) #comment out when using with Griid self._session.set_scene_bank_buttons(self._grid[7][3], self._grid[6][3]) # comment out when using with Griid
def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self._suggested_input_port = 'HyperControl' self._suggested_output_port = 'HyperControl' self._device_selection_follows_track_selection = True self.set_pad_translations(PAD_TRANSLATIONS) stop_button = make_button(116) play_button = make_button(117) record_button = make_button(118) select_button = make_button(98) nav_left_button = make_button(99) nav_right_button = make_button(100) nav_up_button = make_button(101) nav_down_button = make_button(102) mixer_modes_toggle = make_button(58) mixer_or_device_toggle = make_button(59) hypercontrol_mode_toggle = make_button(60) encoders = tuple([ make_encoder(33 + index) for index in range(8) ]) transport = TransportComponent() transport.set_stop_button(stop_button) transport.set_play_button(play_button) transport.set_record_button(record_button) session = SessionComponent(8, 0) device = BestBankDeviceComponent() self.set_device_component(device) device_nav = DeviceNavComponent() mixer = SpecialMixerComponent(NUM_TRACKS) session.set_mixer(mixer) mixer_encoder_modes = EncoderMixerModeSelector(mixer) mixer_encoder_modes.set_mode_toggle(mixer_modes_toggle) mixer_or_device = MixerOrDeviceModeSelector(encoders, select_button, nav_up_button, nav_down_button, nav_left_button, nav_right_button, mixer, session, device, mixer_encoder_modes, device_nav) mixer_or_device.set_mode_buttons((mixer_modes_toggle, mixer_or_device_toggle, hypercontrol_mode_toggle))
def _setup_session_control(self): is_momentary = True num_tracks = 1 #single column num_scenes = 7 #seven rows, which will be mapped to seven "white" notes global session #We want to instantiate the global session as a SessionComponent object (it was a global "None" type up until now...) session = SessionComponent( num_tracks, num_scenes ) #(num_tracks, num_scenes) A session highlight ("red box") will appear with any two non-zero values session.set_offsets( 0, 0 ) #(track_offset, scene_offset) Sets the initial offset of the "red box" from top left """set up the session navigation buttons""" session.set_select_buttons( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 25), ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 27) ) # (next_button, prev_button) Scene select buttons - up & down - we'll also use a second ControlComponent for this (yellow box) session.set_scene_bank_buttons( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 51), ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 49) ) # (up_button, down_button) This is to move the "red box" up or down (increment track up or down, not screen up or down, so they are inversed) #session.set_track_bank_buttons(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 56), ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 54)) # (right_button, left_button) This moves the "red box" selection set left & right. We'll put our track selection in Part B of the script, rather than here... session.set_stop_all_clips_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 70)) session.selected_scene().set_launch_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 30)) """Here we set up the scene launch assignments for the session""" launch_notes = [ 60, 62, 64, 65, 67, 69, 71 ] #this is our set of seven "white" notes, starting at C4 for index in range( num_scenes ): #launch_button assignment must match number of scenes session.scene(index).set_launch_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, launch_notes[index]) ) #step through the scenes (in the session) and assign corresponding note from the launch_notes array """Here we set up the track stop launch assignment(s) for the session""" #The following code is set up for a longer array (we only have one track, so it's over-complicated, but good for future adaptation).. stop_track_buttons = [] for index in range(num_tracks): stop_track_buttons.append( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 58 + index) ) #this would need to be adjusted for a longer array (because we've already used the next note numbers elsewhere) session.set_stop_track_clip_buttons( tuple(stop_track_buttons)) #array size needs to match num_tracks """Here we set up the clip launch assignments for the session""" clip_launch_notes = [ 48, 50, 52, 53, 55, 57, 59 ] #this is a set of seven "white" notes, starting at C3 for index in range(num_scenes): session.scene(index).clip_slot(0).set_launch_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, clip_launch_notes[index]) ) #step through scenes and assign a note to first slot of each """Here we set up a mixer and channel strip(s) which move with the session""" session.set_mixer( mixer) #Bind the mixer to the session so that they move together
def _setup_session_control(self): """SESSION ViEW""" global session session = SessionComponent(GRIDSIZE[0], GRIDSIZE[1]) session.name = 'Session_Control' # matrix = ButtonMatrixElement() # matrix.name = 'Button_Matrix' # up_button = ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, UP_BUTTON) # down_button = ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, DOWN_BUTTON) # left_button = ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, LEFT_BUTTON) # right_button = ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, RIGHT_BUTTON) # session_zoom = SessionZoomingComponent(session) # session_zoom.set_nav_buttons(up_button,down_button,left_button,right_button) for idx in xrange(len(NAV_BUTTONS)): self.scene_select_buttons.append( ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, NAV_BUTTONS[idx])) self.scene_select_buttons[idx].add_value_listener( self._scene_select_event, identify_sender=True) session_stop_buttons = [] self.log("SETTING UP GRID") for row in xrange(GRIDSIZE[1]): # button_row = [] self.log("CZ ROW") self.log(str(row)) scene = session.scene(row) scene.name = 'Scene_' + str(row) scene.set_launch_button( ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, SCENE_BUTTONS[row])) scene.set_triggered_value(2) # for column in xrange(GRIDSIZE[0]): # self.log("CZ COLUMN") # self.log(str(column)) # button = ConfigurableButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, LAUNCH_BUTTONS[row][column]) # button.name = str(column) + '_Clip_' + str(row) + '_Button' # button_row.append(button) # clip_slot = scene.clip_slot(column) # clip_slot.name = str(column) + '_Clip_Slot_' + str(row) # clip_slot.set_launch_button(button) # matrix.add_row(tuple(button_row)) # for column in xrange(GRIDSIZE[0]): # session_stop_buttons.append((ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, TRACK_STOPS[column]))) self._suppress_session_highlight = False self._suppress_send_midi = False self.set_highlighting_session_component(session) # session.set_stop_track_clip_buttons(tuple(session_stop_buttons)) session.set_mixer(mixer)
class midilooper(ControlSurface): def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self._instance = c_instance self._has_slider_section = True self.log_message("Midilooper initializing...") # register_sender(self) self._session = SessionComponent(NUM_TRACKS, NUM_ROWS) self._session.name = 'Session_Control' self._mixer = MixerComponent(NUM_TRACKS, NUM_RETURNS) for track in range(NUM_TRACKS): strip = self._mixer.channel_strip(track) strip.name = 'Channel_Strip_' + str(track) # encoder = EncoderElement(MIDI_CC_TYPE, 0, 20 + track, Live.MidiMap.MapMode.absolute) control = SliderElement(MIDI_CC_TYPE, 0, 20+track) control.name = str(track) + '_Volume_Control' strip.set_volume_control(control) for track in range(NUM_RETURNS): strip = self._mixer.return_strip(track) control = SliderElement(MIDI_CC_TYPE, 0, 40+track) control.name = str(track) + '_Return_Control' strip.set_volume_control(control) strip = self._mixer.master_strip() strip.name = 'Master_Channel_Strip' control = SliderElement(MIDI_CC_TYPE, 0, 50) control.name = 'Master_Volume_Control' strip.set_volume_control(control) self._session.set_offsets(0, 0); self._session.set_mixer(self._mixer) for row in range(NUM_ROWS): scene = self._session.scene(row) for track in range(NUM_TRACKS): slot = scene.clip_slot(track) button = ButtonElement(True, MIDI_NOTE_TYPE, track, 36+row) slot.set_launch_button(button) self.set_highlighting_session_component(self._session) self.request_rebuild_midi_map() self.log_message("Midilooper initialized.") def disconnect(self): ControlSurface.disconnect(self)
def _setup_session_control(self): is_momentary = True num_tracks = 7 num_scenes = 5 global session session = SessionComponent(num_tracks, num_scenes) session.name = "Session" self._session = session session.set_offsets(0, 0) self._scene = [None for index in range(6)] for row in range(num_scenes): self._scene[row] = session.scene(row) self._scene[row].name = 'Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_' + str(row) session.set_mixer(self._mixer) self._session_zoom = SessionZoomingComponent(session) self._session_zoom.name = 'Session_Overview'
def _setup_session_control(self): is_momentary = True num_tracks = 7 num_scenes = 7 ###changed from 5 for HH global session session = SessionComponent(num_tracks, num_scenes) session.name = "Session" session.set_offsets(0, 0) self._session = session self._scene = [None for index in range(num_scenes)] for row in range(num_scenes): self._scene[row] = session.scene(row) self._scene[row].name = 'Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_' + str(row) session.set_mixer(mixer) self._session_zoom = SessionZoomingComponent(session) self._session_zoom.name = 'Session_Overview' #self._session_zoom.set_enabled(False) self.set_highlighting_session_component(self._session)
def _setup_session_control(self): global session is_momentary = True num_tracks = 7 num_scenes = 5 session = SessionComponent(num_tracks, num_scenes) session.name = 'Session' self._session = session session.set_offsets(0, 0) self._scene = [ None for index in range(6) ] for row in range(num_scenes): self._scene[row] = session.scene(row) self._scene[row].name = 'Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_' + str(row) session.set_mixer(self._mixer) session.set_show_highlight(True) self._session_zoom = SessionZoomingComponent(session) self._session_zoom.name = 'Session_Overview' self.set_highlighting_session_component(self._session)
def _setup_session_control(self): is_momentary = True self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 87) right_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 67) left_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 66) up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 71) down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 68) 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' global session session = SessionComponent(7, 8) session.name = 'Session_Control' session.set_track_bank_buttons(right_button, left_button) session.set_scene_bank_buttons(down_button, up_button) matrix = ButtonMatrixElement() matrix.name = 'Button_Matrix' scene_launch_notes = [56,57,58,59,60,61,62,63] scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, scene_launch_notes[index]) for index in range(8) ] #track_stop_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52) for index in range(8) ] 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) #button_notes = [0,8,16,24,32,40,48,56,1,9,17,25,33,41,49,57,2,10,18,26,34,42,50,58,3,11,19,27,35,43,51,59,4,12,20,28,36,44,52,60,5,13,21,29,37,45,53,61,6,14,22,30,38,46,54,62] for scene_index in range(8): scene = 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(7): button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (track_index * 8) + scene_index) 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(0) clip_slot.set_started_value(64) #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)) session.selected_scene().name = 'Selected_Scene' #session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64)) #session_zoom = SessionZoomingComponent(session) #session_zoom.name = 'Session_Overview' #session_zoom.set_button_matrix(matrix) #session_zoom.set_zoom_button(self._shift_button) #session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button) #session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons)) #session_zoom.set_stopped_value(0) #session_zoom.set_selected_value(127) session.set_mixer(mixer) self.set_highlighting_session_component(session) return None #return session
class DV1(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 # Used in FlashingButtonElement (kludge for our purposes) self._device_selection_follows_track_selection = True 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 self.transport = TransportComponent( ) #Instantiate a Transport Component """set up the buttons""" self.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 self.transport.set_stop_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 61)) self.transport.set_record_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 62)) 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(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() #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 def disconnect(self): self._hosts = [] ControlSurface.disconnect(self) return None
class Launchkey(ControlSurface): """ Script for Novation's Launchkey 25/49/61 keyboards """ def __init__(self, c_instance, control_factory = LaunchkeyControlFactory(), identity_response = SIZE_RESPONSE): ControlSurface.__init__(self, c_instance) self._control_factory = control_factory self._identity_response = identity_response with self.component_guard(): self.set_pad_translations(PAD_TRANSLATIONS) self._device_selection_follows_track_selection = True self._suggested_input_port = 'Launchkey InControl' self._suggested_output_port = 'Launchkey InControl' self._has_sliders = True self._current_midi_map = None self._master_slider = make_slider(7, 'Master_Volume_Control') self._modes_buttons = [] for index in range(3): button = ButtonElement(IS_MOMENTARY, MIDI_NOTE_TYPE, 0, 13 + index) self._modes_buttons.append(button) self._modes_buttons[-1].add_value_listener(self._dummy_listener) self._setup_mixer() self._setup_session() self._setup_transport() self._setup_device() self._setup_navigation() for component in self.components: component.set_enabled(False) return def refresh_state(self): ControlSurface.refresh_state(self) self.schedule_message(2, self._send_midi, LIVE_MODE_ON) self.schedule_message(3, self._send_midi, SIZE_QUERY) def handle_sysex(self, midi_bytes): if midi_bytes[0:11] == self._identity_response: self._has_sliders = midi_bytes[11] != 48 self._send_midi(LED_FLASHING_ON) self._update_mixer_offset() for control in self.controls: if isinstance(control, InputControlElement): control.clear_send_cache() for component in self.components: component.set_enabled(True) if self._has_sliders: self._mixer.master_strip().set_volume_control(self._master_slider) self._mixer.update() else: self._mixer.master_strip().set_volume_control(None) for index in range(len(self._sliders)): self._mixer.channel_strip(index).set_volume_control(None) self._mixer.channel_strip(index).set_mute_button(None) slider = self._sliders[index] slider.release_parameter() self._mixer.selected_strip().set_volume_control(self._master_slider) self.request_rebuild_midi_map() return def disconnect(self): ControlSurface.disconnect(self) for button in self._modes_buttons: if button.value_has_listener(self._dummy_listener): button.remove_value_listener(self._dummy_listener) self._modes_buttons = None self._encoders = None self._sliders = None self._strip_buttons = None self._master_slider = None self._current_midi_map = None self._transport_view_modes = None self._send_midi(LED_FLASHING_OFF) self._send_midi(LIVE_MODE_OFF) return def build_midi_map(self, midi_map_handle): self._current_midi_map = midi_map_handle ControlSurface.build_midi_map(self, midi_map_handle) def _setup_mixer(self): mute_solo_flip_button = make_button(59, 'Master_Button') self._mixer = SpecialMixerComponent(8) self._mixer.name = 'Mixer' self._mixer.selected_strip().name = 'Selected_Channel_Strip' self._mixer.master_strip().name = 'Master_Channel_Strip' self._mixer.master_strip().set_volume_control(self._master_slider) self._sliders = [] self._strip_buttons = [] for index in range(8): strip = self._mixer.channel_strip(index) strip.name = 'Channel_Strip_' + str(index) strip.set_invert_mute_feedback(True) self._sliders.append(make_slider(41 + index, 'Volume_Control_%d' % index)) strip.set_volume_control(self._sliders[-1]) self._strip_buttons.append(make_button(51 + index, 'Mute_Button_%d' % index)) self._mixer.set_strip_mute_solo_buttons(tuple(self._strip_buttons), mute_solo_flip_button) def _setup_session(self): scene_launch_button = self._control_factory.create_scene_launch_button() scene_stop_button = self._control_factory.create_scene_stop_button() self._session = SessionComponent(8, 0) self._session.name = 'Session_Control' self._session.selected_scene().name = 'Selected_Scene' self._session.selected_scene().set_launch_button(scene_launch_button) self._session.selected_scene().set_triggered_value(GREEN_BLINK) self._session.set_stop_all_clips_button(scene_stop_button) scene_stop_button.set_on_off_values(AMBER_FULL, LED_OFF) self._session.set_mixer(self._mixer) self._session.set_stop_clip_value(AMBER_HALF) self._session.set_stop_clip_triggered_value(GREEN_BLINK) clip_launch_buttons = [] clip_stop_buttons = [] for index in range(8): clip_launch_buttons.append(self._control_factory.create_clip_launch_button(index)) clip_stop_buttons.append(self._control_factory.create_clip_stop_button(index)) clip_slot = self._session.selected_scene().clip_slot(index) clip_slot.set_triggered_to_play_value(GREEN_BLINK) clip_slot.set_triggered_to_record_value(RED_BLINK) clip_slot.set_stopped_value(AMBER_FULL) clip_slot.set_started_value(GREEN_FULL) clip_slot.set_recording_value(RED_FULL) clip_slot.set_launch_button(clip_launch_buttons[-1]) clip_slot.name = 'Selected_Clip_Slot_' + str(index) self._session.set_stop_track_clip_buttons(tuple(clip_stop_buttons)) def _setup_transport(self): rwd_button = make_button(112, 'Rwd_Button') ffwd_button = make_button(113, 'FFwd_Button') stop_button = make_button(114, 'Stop_Button') play_button = make_button(115, 'Play_Button') loop_button = make_button(116, 'Loop_Button') rec_button = make_button(117, 'Record_Button') transport = TransportComponent() transport.name = 'Transport' transport.set_stop_button(stop_button) transport.set_play_button(play_button) transport.set_record_button(rec_button) transport.set_loop_button(loop_button) self._transport_view_modes = TransportViewModeSelector(transport, self._session, ffwd_button, rwd_button) self._transport_view_modes.name = 'Transport_View_Modes' def _setup_device(self): encoders = [ make_encoder(21 + index, 'Device_Control_%d' % index) for index in xrange(8) ] self._encoders = tuple(encoders) device = DeviceComponent() device.name = 'Device_Component' self.set_device_component(device) device.set_parameter_controls(self._encoders) def _setup_navigation(self): self._next_track_button = self._control_factory.create_next_track_button() self._prev_track_button = self._control_factory.create_prev_track_button() self._session_navigation = SessionNavigationComponent(name='Session_Navigation') self._session_navigation.set_next_track_button(self._next_track_button) self._session_navigation.set_prev_track_button(self._prev_track_button) def _dummy_listener(self, value): pass def _on_selected_track_changed(self): ControlSurface._on_selected_track_changed(self) self._update_mixer_offset() def _update_mixer_offset(self): all_tracks = self._session.tracks_to_use() selected_track = self.song().view.selected_track num_strips = self._session.width() if selected_track in all_tracks: track_index = list(all_tracks).index(selected_track) new_offset = track_index - track_index % num_strips self._session.set_offsets(new_offset, self._session.scene_offset())
class Codec(ControlSurface): __module__ = __name__ __doc__ = " MonoCode controller script " def __init__(self, c_instance, *a, **k): super(Codec, self).__init__(c_instance, *a, **k) self._monomod_version = 'b995' self._version_check = 'b995' self._host_name = 'Codec' self._color_type = 'Monochrome' self._link_mixer = LINK_MIXER self._hosts = [] self._linked_script = None self._local_ring_control = True 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 with self.component_guard(): #self.local_ring_control(True) #self.set_absolute_mode(True) self._setup_controls() 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.set_local_ring_control(1) self.song().view.add_selected_track_listener(self._update_selected_device) self._initialize_code() #self._shift_mode.set_mode(0) #self._monomod_mode.set_mode(0) self.log_message('<<<<<<<<<<<<<<<<<<<<<<<<< Codec ' + str(self._monomod_version) + ' log opened >>>>>>>>>>>>>>>>>>>>>>>>>') self.show_message('Codec Control Surface Loaded') self.request_rebuild_midi_map() """script initialization methods""" def _initialize_code(self): self._send_midi(factoryreset) self._send_midi(btn_channels) self._send_midi(enc_channels) def _setup_monobridge(self): self._monobridge = MonoBridgeElement(self) self._monobridge.name = 'MonoBridge' def _setup_controls(self): is_momentary = True self._livid = CodecMonoButtonElement(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] = CodecMonoButtonElement(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] = CodecMonoButtonElement(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] = CodecMonoButtonElement(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._mod_mode_update, self) self._monomod_mode.name = 'Monomod_Mode' self.set_shift_button(self._livid) self._shift_mode = ShiftModeComponent(self._shift_update, self) 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 = CodecMonomodComponent(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, MonoButtonElement))) 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.log_message('mod mode: ' + str(abs(self._monomod_mode._mode_index - 1))) self._monomod_mode.set_mode(max(0, min(1, 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()): with self.component_guard(): 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, MonoButtonElement): 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): #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
class Novation_Impulse2(ControlSurface): """ Script for Novation's Impulse keyboards """ def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) self.c_instance = c_instance with self.component_guard(): self.set_pad_translations(PAD_TRANSLATIONS) self._device_selection_follows_track_selection = True self._suggested_input_port = 'Impulse' self._suggested_output_port = 'Impulse' self._has_sliders = True self._current_midi_map = None self._display_reset_delay = -1 self._string_to_display = None self.shift_pressed = False # special alternative buttons mode. for now only mixer buttons become record buttons. later we will add something more self.alternative_buttons_mode = False self._shift_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 39) self._preview_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 41) self._master_slider = SliderElement(MIDI_CC_TYPE, 0, 8) self._shift_button.name = 'Shift_Button' self._master_slider.name = 'Master_Volume_Control' self._master_slider.add_value_listener(self._slider_value, identify_sender=True) self._preview_button.add_value_listener(self._preview_value) self._setup_mixer() self._setup_session() self._setup_transport() self._setup_device() self._setup_name_display() device_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 1, 10) mixer_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 1, 9) device_button.name = 'Encoder_Device_Mode' mixer_button.name = 'Encoder_Mixer_Mode' self._encoder_modes = EncoderModeSelector(self._device_component, self._mixer, self._next_bank_button, self._prev_bank_button, self._encoders) self._encoder_modes.set_device_mixer_buttons(device_button, mixer_button) self._shift_button.add_value_listener(self._shift_button_handler) for component in self.components: component.set_enabled(False) # attributes def alternative_buttons_mode(self): return self.alternative_buttons_mode def alternative_buttons_mode(self,value): self.log ('alternative_buttons_mode_value ' + str(value)) self.alternative_buttons_mode = value def shift_pressed(self): return self.shift_pressed def shift_pressed(self,value): self.log ('shift_pressed value ' + str(value)) self.shift_pressed = value def refresh_state(self): ControlSurface.refresh_state(self) self.schedule_message(3, self._send_midi, SYSEX_START + (6, 1, 1, 1, 247)) def handle_sysex(self, midi_bytes): if midi_bytes[0:-2] == SYSEX_START + (7,) and midi_bytes[-2] != 0: self._has_sliders = midi_bytes[-2] != 25 self.schedule_message(1, self._show_startup_message) for control in self.controls: if isinstance(control, InputControlElement): control.clear_send_cache() for component in self.components: component.set_enabled(True) if self._has_sliders: self._mixer.master_strip().set_volume_control(self._master_slider) self._mixer.update() else: self._mixer.master_strip().set_volume_control(None) self._mixer.selected_strip().set_volume_control(self._master_slider) for index in range(len(self._sliders)): self._mixer.channel_strip(index).set_volume_control(None) slider = self._sliders[index] slider.release_parameter() if slider.value_has_listener(self._slider_value): slider.remove_value_listener(self._slider_value) self._encoder_modes.set_provide_volume_mode(not self._has_sliders) self.request_rebuild_midi_map() def disconnect(self): self.log('starting disconnect 1') self._name_display_data_source.set_display_string(' ') for encoder in self._encoders: encoder.remove_value_listener(self._encoder_value) self._master_slider.remove_value_listener(self._slider_value) if self._has_sliders: for slider in tuple(self._sliders): slider.remove_value_listener(self._slider_value) for button in self._strip_buttons: button.remove_value_listener(self._mixer_button_value) self._preview_button.remove_value_listener(self._preview_value) self.log('starting disconnect 3') ControlSurface.disconnect(self) self.log('starting disconnect 3') self._encoders = None self._sliders = None self._strip_buttons = None self._master_slider = None self._current_midi_map = None self._name_display = None self._prev_bank_button = None self._next_bank_button = None self._encoder_modes = None self._transport_view_modes = None self.log('starting disconnect 4') self._send_midi(SYSEX_START + (6, 0, 0, 0, 247)) self.log('starting disconnect 5') if self._shift_button != None: self._shift_button.remove_value_listener(self._shift_button_handler) self._shift_button = None self.log('starting disconnect 6') def build_midi_map(self, midi_map_handle): self._current_midi_map = midi_map_handle ControlSurface.build_midi_map(self, midi_map_handle) def update_display(self): ControlSurface.update_display(self) if self._string_to_display != None: self._name_display_data_source.set_display_string(self._string_to_display) self._string_to_display = None if self._display_reset_delay >= 0: self._display_reset_delay -= 1 if self._display_reset_delay == -1: self._show_current_track_name() def _setup_mixer(self): self.log('setup mixer') mute_solo_flip_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 34) self._next_nav_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 37) self._prev_nav_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 38) self._strip_buttons = [] mute_solo_flip_button.name = 'Mute_Solo_Flip_Button' self._next_nav_button.name = 'Next_Track_Button' self._prev_nav_button.name = 'Prev_Track_Button' self._mixer = SpecialMixerComponent(self, 8, self.c_instance) self._mixer.name = 'Mixer' self._mixer.set_select_buttons(self._next_nav_button, self._prev_nav_button) self._mixer.selected_strip().name = 'Selected_Channel_Strip' self._mixer.master_strip().name = 'Master_Channel_Strip' self._mixer.master_strip().set_volume_control(self._master_slider) self._sliders = [] for index in range(8): strip = self._mixer.channel_strip(index) strip.name = 'Channel_Strip_' + str(index) strip.set_invert_mute_feedback(True) self._sliders.append(SliderElement(MIDI_CC_TYPE, 0, index)) self._sliders[-1].name = str(index) + '_Volume_Control' self._sliders[-1].set_feedback_delay(-1) self._sliders[-1].add_value_listener(self._slider_value, identify_sender=True) strip.set_volume_control(self._sliders[-1]) self._strip_buttons.append(ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 9 + index)) self._strip_buttons[-1].name = str(index) + '_Mute_Button' self._strip_buttons[-1].add_value_listener(self._mixer_button_value, identify_sender=True) self._mixer.master_strip().set_mute_button(ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 17)) self._mixer.set_strip_mute_solo_buttons(tuple(self._strip_buttons), mute_solo_flip_button) #self._mixer.set_shift_button(self._shift_button) self._mixer.updateMixerButtons() self._button9 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 9 + 8) def _setup_session(self): num_pads = len(PAD_TRANSLATIONS) self._session = SessionComponent(8, 0) self._session.name = 'Session_Control' self._session.selected_scene().name = 'Selected_Scene' self._session.set_mixer(self._mixer) # for ableton 9.1.1 and lower #self._session.set_track_banking_increment(num_pads) #self._session.set_track_bank_buttons(ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 35), ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 36)) # for ableton 9.1.1 and higher self._track_left_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 36) self._track_right_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 35) self._session.set_page_left_button(self._track_left_button) self._session.set_page_right_button(self._track_right_button) pads = [] for index in range(num_pads): pads.append(ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 60 + index)) pads[-1].name = 'Pad_' + str(index) clip_slot = self._session.selected_scene().clip_slot(index) clip_slot.set_triggered_to_play_value(GREEN_BLINK) clip_slot.set_triggered_to_record_value(RED_BLINK) clip_slot.set_stopped_value(AMBER_FULL) clip_slot.set_started_value(GREEN_FULL) clip_slot.set_recording_value(RED_FULL) clip_slot.set_launch_button(pads[-1]) clip_slot.name = str(index) + '_Selected_Clip_Slot' def _setup_transport(self): rwd_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 27) ffwd_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 28) stop_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 29) play_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 30) loop_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 31) rec_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 32) ffwd_button.name = 'FFwd_Button' rwd_button.name = 'Rwd_Button' loop_button.name = 'Loop_Button' play_button.name = 'Play_Button' stop_button.name = 'Stop_Button' rec_button.name = 'Record_Button' self._transport = ShiftableTransportComponent(self.c_instance,self._session, self, ffwd_button, rwd_button) self._transport.name = 'Transport' self._transport.set_stop_buttonOnInit(stop_button) self._transport.set_play_button(play_button) self._transport.set_record_buttonOnInit(rec_button) # self._transport.set_shift_button(self._shift_button) self._transport.set_mixer9_button(self._button9) self._transport_view_modes = TransportViewModeSelector(self,self.c_instance,self._transport, self._session, ffwd_button, rwd_button, loop_button) self._transport_view_modes.name = 'Transport_View_Modes' def _setup_device(self): encoders = [] for index in range(8): encoders.append(PeekableEncoderElement(MIDI_CC_TYPE, 1, index, Live.MidiMap.MapMode.relative_binary_offset)) encoders[-1].set_feedback_delay(-1) encoders[-1].add_value_listener(self._encoder_value, identify_sender=True) encoders[-1].name = 'Device_Control_' + str(index) self._encoders = tuple(encoders) self._prev_bank_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 12) self._next_bank_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 11) self._prev_bank_button.name = 'Device_Bank_Down_Button' self._next_bank_button.name = 'Device_Bank_Up_Button' device = DeviceComponent() device.name = 'Device_Component' self.set_device_component(device) device.set_parameter_controls(self._encoders) device.set_bank_nav_buttons(self._prev_bank_button, self._next_bank_button) def _setup_name_display(self): self._name_display = PhysicalDisplayElement(16, 1) self._name_display.name = 'Display' self._name_display.set_message_parts(SYSEX_START + (8,), (247,)) self._name_display_data_source = DisplayDataSource() self._name_display.segment(0).set_data_source(self._name_display_data_source) def _encoder_value(self, value, sender): if not sender in self._encoders: raise AssertionError if not value in range(128): raise AssertionError # display_string = self._device_component.is_enabled() and ' - ' # display_string = sender.mapped_parameter() != None and sender.mapped_parameter().name display_string = '' if self._device_component.is_enabled(): # display_string = sender.name # track = self.song().view.selected_track # display_string = str(list(tracks).index(track) + 1) pass if (sender.mapped_parameter() != None): # display_string = display_string + '-' display_string = display_string + sender.mapped_parameter().name self._set_string_to_display(display_string) def _slider_value(self, value, sender): self.log ('_slider_value ' + str(value) + ' ' +str(sender)) if not sender in tuple(self._sliders) + (self._master_slider,): raise AssertionError if not value in range(128): raise AssertionError if self._mixer.is_enabled(): display_string = ' - ' master = self.song().master_track tracks = self.song().tracks returns = self.song().return_tracks track = None if sender.mapped_parameter() != None: self.log ('1') if sender == self._master_slider: self.log ('2') # track = self._has_sliders and master if self._has_sliders: track = master else: self.log ('2.1') track = self.song().view.selected_track else: self.log ('3') track = self._mixer.channel_strip(self._sliders.index(sender))._track else: self.log ('4') track = self.song().view.selected_track self.log('track='+str(track)) if track == master: display_string = 'Master' elif track in tracks: display_string = str(list(tracks).index(track) + 1) elif track in returns: display_string = str(chr(ord('A') + list(returns).index(track))) else: # raise False or AssertionError raise AssertionError display_string += ' Volume' self._set_string_to_display(display_string) def _mixer_button_value(self, value, sender): self.log ('__mixer_button_value ' + str(value) + ' ' +str(sender)) if not value in range(128): raise AssertionError #if self._mixer.is_enabled() and value > 0: if self._mixer.is_enabled(): strip = self._mixer.channel_strip(self._strip_buttons.index(sender)) #self._string_to_display = strip != None and None self._name_display.segment(0).set_data_source(strip.track_name_data_source()) self._name_display.update() self._display_reset_delay = STANDARD_DISPLAY_DELAY else: self._set_string_to_display(' - ') # if shift_pressed XOR alternative_mode if self.shift_pressed <> self.alternative_buttons_mode: self.log("_mixer_button_value") self.log(str(value)) if (value == 0): self.select_armed_track_if_only_one() def select_armed_track_if_only_one(self): self.log("select_armed_track_if_only_one") song = self.song() armed_tracks = [] tracks = song.tracks self.log("select_armed_track_if_only_one 2") for track in tracks: if track.can_be_armed and track.arm: armed_tracks.append(track) self.log(str(len(armed_tracks))) if (len(armed_tracks) == 1): self.log("selecting the track") sel_track = armed_tracks[0] self.song().view.selected_track = sel_track self._mixer._selected_tracks = [] self._mixer._selected_tracks.append(sel_track) self._mixer.on_selected_track_changed() def _preview_value(self, value): if not value in range(128): raise AssertionError for encoder in self._encoders: encoder.set_peek_mode(value > 0) def _show_current_track_name(self): if self._name_display != None and self._mixer != None: self._string_to_display = None self._name_display.segment(0).set_data_source(self._mixer.selected_strip().track_name_data_source()) self._name_display.update() def _show_startup_message(self): self._name_display.display_message('LIVE') self._display_reset_delay = INITIAL_DISPLAY_DELAY def _set_string_to_display(self, string_to_display): if not isinstance(string_to_display, (str, unicode)): raise AssertionError self._name_display.segment(0).set_data_source(self._name_display_data_source) self._string_to_display = string_to_display self._display_reset_delay = STANDARD_DISPLAY_DELAY def _on_selected_track_changed(self): self.log('_on_selected_track_changed') ControlSurface._on_selected_track_changed(self) self._show_current_track_name() #all_tracks = self._has_sliders or self._session.tracks_to_use() all_tracks2 = self._session.tracks_to_use() selected_track = self.song().view.selected_track num_strips = self._session.width() if selected_track in all_tracks2: track_index = list(all_tracks2).index(selected_track) self.log('track_index '+ str(track_index)) new_offset = track_index - track_index % num_strips self.log('new_offset '+ str(new_offset)) if not new_offset / num_strips == int(new_offset / num_strips): raise AssertionError self._session.set_offsets(new_offset, self._session.scene_offset()) def _shift_button_handler(self, value): self.log("root shift handler : "+ str(value)) if not self._shift_button != None: raise AssertionError if not value in range(128): raise AssertionError self.log("root shift handler 2") self.shift_pressed = value > 0 # calling other handlers self._mixer._shift_button_handler(value) self._transport._shift_button_handler(value) self._transport_view_modes._shift_button_handler(value) #clip stop self.log("root shift handler 3") num_pads = len(PAD_TRANSLATIONS) pads = [] for index in range(num_pads): pads.append(ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 60 + index)) pads[-1].name = 'Pad_' + str(index) clip_slot = self._session.selected_scene().clip_slot(index) if self.shift_pressed: clip_slot.set_launch_button(None) else: clip_slot.set_launch_button(pads[index]) if self.shift_pressed: self._session.set_stop_track_clip_buttons(tuple(pads)) else: self._session.set_stop_track_clip_buttons(None) self.log("root shift handler 4") def flipAlternativeButtonMode(self): self.alternative_buttons_mode = not self.alternative_buttons_mode self.updateAlternativeButtonMode() def updateAlternativeButtonMode(self): self._mixer.updateMixerButtons() self._transport_view_modes.update() def log(self, message): pass
class Novation_Impulse(ControlSurface): """ Script for Novation's Impulse keyboards """ def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self.set_pad_translations(PAD_TRANSLATIONS) self._suggested_input_port = b'Impulse' self._suggested_output_port = b'Impulse' self._has_sliders = True self._current_midi_map = None self._display_reset_delay = -1 self._shift_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 39) self._preview_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 41) self._master_slider = SliderElement(MIDI_CC_TYPE, 0, 8) self._shift_button.name = b'Shift_Button' self._master_slider.name = b'Master_Volume_Control' self._master_slider.add_value_listener(self._slider_value, identify_sender=True) self._preview_button.add_value_listener(self._preview_value) self._setup_mixer() self._setup_session() self._setup_transport() self._setup_device() self._setup_name_display() device_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 1, 10) mixer_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 1, 9) device_button.name = b'Encoder_Device_Mode' mixer_button.name = b'Encoder_Mixer_Mode' self._encoder_modes = EncoderModeSelector(self._device_component, self._mixer, self._next_bank_button, self._prev_bank_button, self._encoders) self._encoder_modes.set_device_mixer_buttons( device_button, mixer_button) self._string_to_display = None for component in self.components: component.set_enabled(False) return def refresh_state(self): ControlSurface.refresh_state(self) self.schedule_message(3, self._send_midi, SYSEX_START + (6, 1, 1, 1, 247)) def handle_sysex(self, midi_bytes): if midi_bytes[0:-2] == SYSEX_START + (7, ) and midi_bytes[(-2)] != 0: self._has_sliders = midi_bytes[(-2)] != 25 self.schedule_message(1, self._show_startup_message) for control in self.controls: if isinstance(control, InputControlElement): control.clear_send_cache() for component in self.components: component.set_enabled(True) if self._has_sliders: self._mixer.master_strip().set_volume_control( self._master_slider) self._mixer.update() else: self._mixer.master_strip().set_volume_control(None) self._mixer.selected_strip().set_volume_control( self._master_slider) for index in range(len(self._sliders)): self._mixer.channel_strip(index).set_volume_control(None) slider = self._sliders[index] slider.release_parameter() if slider.value_has_listener(self._slider_value): slider.remove_value_listener(self._slider_value) self._encoder_modes.set_provide_volume_mode(not self._has_sliders) self.request_rebuild_midi_map() return def disconnect(self): self._name_display_data_source.set_display_string(b' ') for encoder in self._encoders: encoder.remove_value_listener(self._encoder_value) self._master_slider.remove_value_listener(self._slider_value) if self._has_sliders: for slider in tuple(self._sliders): slider.remove_value_listener(self._slider_value) for button in self._strip_buttons: button.remove_value_listener(self._mixer_button_value) self._preview_button.remove_value_listener(self._preview_value) ControlSurface.disconnect(self) self._encoders = None self._sliders = None self._strip_buttons = None self._master_slider = None self._current_midi_map = None self._shift_button = None self._name_display = None self._prev_bank_button = None self._next_bank_button = None self._encoder_modes = None self._transport_view_modes = None self._send_midi(SYSEX_START + (6, 0, 0, 0, 247)) return def build_midi_map(self, midi_map_handle): self._current_midi_map = midi_map_handle ControlSurface.build_midi_map(self, midi_map_handle) def update_display(self): ControlSurface.update_display(self) if self._string_to_display != None: self._name_display_data_source.set_display_string( self._string_to_display) self._string_to_display = None if self._display_reset_delay >= 0: self._display_reset_delay -= 1 if self._display_reset_delay == -1: self._show_current_track_name() return def _setup_mixer(self): mute_solo_flip_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 34) self._next_nav_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 37) self._prev_nav_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 38) self._strip_buttons = [] mute_solo_flip_button.name = b'Mute_Solo_Flip_Button' self._next_nav_button.name = b'Next_Track_Button' self._prev_nav_button.name = b'Prev_Track_Button' self._mixer = SpecialMixerComponent(8) self._mixer.name = b'Mixer' self._mixer.set_select_buttons(self._next_nav_button, self._prev_nav_button) self._mixer.selected_strip().name = b'Selected_Channel_Strip' self._mixer.master_strip().name = b'Master_Channel_Strip' self._mixer.master_strip().set_volume_control(self._master_slider) self._sliders = [] for index in range(8): strip = self._mixer.channel_strip(index) strip.name = b'Channel_Strip_' + str(index) strip.set_invert_mute_feedback(True) self._sliders.append(SliderElement(MIDI_CC_TYPE, 0, index)) self._sliders[(-1)].name = str(index) + b'_Volume_Control' self._sliders[(-1)].set_feedback_delay(-1) self._sliders[(-1)].add_value_listener(self._slider_value, identify_sender=True) strip.set_volume_control(self._sliders[(-1)]) self._strip_buttons.append( ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 9 + index)) self._strip_buttons[(-1)].name = str(index) + b'_Mute_Button' self._strip_buttons[(-1)].add_value_listener( self._mixer_button_value, identify_sender=True) self._mixer.master_strip().set_mute_button( ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 17)) self._mixer.set_strip_mute_solo_buttons(tuple(self._strip_buttons), mute_solo_flip_button) def _setup_session(self): num_pads = len(PAD_TRANSLATIONS) self._track_left_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 36) self._track_right_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 35) self._session = SessionComponent(8, 0) self._session.name = b'Session_Control' self._session.selected_scene().name = b'Selected_Scene' self._session.set_mixer(self._mixer) self._session.set_page_left_button(self._track_left_button) self._session.set_page_right_button(self._track_right_button) pads = [] for index in range(num_pads): pads.append( ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 60 + index)) pads[(-1)].name = b'Pad_' + str(index) clip_slot = self._session.selected_scene().clip_slot(index) clip_slot.set_triggered_to_play_value(GREEN_BLINK) clip_slot.set_triggered_to_record_value(RED_BLINK) clip_slot.set_stopped_value(AMBER_FULL) clip_slot.set_started_value(GREEN_FULL) clip_slot.set_recording_value(RED_FULL) clip_slot.set_launch_button(pads[(-1)]) clip_slot.name = str(index) + b'_Selected_Clip_Slot' def _setup_transport(self): rwd_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 27) ffwd_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 28) stop_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 29) play_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 30) loop_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 31) rec_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 32) ffwd_button.name = b'FFwd_Button' rwd_button.name = b'Rwd_Button' loop_button.name = b'Loop_Button' play_button.name = b'Play_Button' stop_button.name = b'Stop_Button' rec_button.name = b'Record_Button' transport = ShiftableTransportComponent() transport.name = b'Transport' transport.set_stop_button(stop_button) transport.set_play_button(play_button) transport.set_record_button(rec_button) transport.set_shift_button(self._shift_button) self._transport_view_modes = TransportViewModeSelector( transport, self._session, ffwd_button, rwd_button, loop_button) self._transport_view_modes.name = b'Transport_View_Modes' def _setup_device(self): encoders = [] for index in range(8): encoders.append( PeekableEncoderElement( MIDI_CC_TYPE, 1, index, Live.MidiMap.MapMode.relative_binary_offset)) encoders[(-1)].set_feedback_delay(-1) encoders[(-1)].add_value_listener(self._encoder_value, identify_sender=True) encoders[(-1)].name = b'Device_Control_' + str(index) self._encoders = tuple(encoders) self._prev_bank_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 12) self._next_bank_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 11) self._prev_bank_button.name = b'Device_Bank_Down_Button' self._next_bank_button.name = b'Device_Bank_Up_Button' device = DeviceComponent(device_selection_follows_track_selection=True) device.name = b'Device_Component' self.set_device_component(device) device.set_parameter_controls(self._encoders) device.set_bank_nav_buttons(self._prev_bank_button, self._next_bank_button) def _setup_name_display(self): self._name_display = PhysicalDisplayElement(16, 1) self._name_display.name = b'Display' self._name_display.set_message_parts(SYSEX_START + (8, ), (247, )) self._name_display_data_source = DisplayDataSource() self._name_display.segment(0).set_data_source( self._name_display_data_source) def _encoder_value(self, value, sender): assert sender in self._encoders assert value in range(128) if self._device_component.is_enabled(): display_string = b' - ' if sender.mapped_parameter() != None: display_string = sender.mapped_parameter().name self._set_string_to_display(display_string) return def _slider_value(self, value, sender): assert sender in tuple(self._sliders) + (self._master_slider, ) assert value in range(128) if self._mixer.is_enabled(): display_string = b' - ' if sender.mapped_parameter() != None: master = self.song().master_track tracks = self.song().tracks returns = self.song().return_tracks track = None if sender == self._master_slider: if self._has_sliders: track = master else: track = self.song().view.selected_track else: track = self._mixer.channel_strip( self._sliders.index(sender))._track if track == master: display_string = b'Master' elif track in tracks: display_string = str(list(tracks).index(track) + 1) elif track in returns: display_string = str( chr(ord(b'A') + list(returns).index(track))) else: assert False display_string += b' Volume' self._set_string_to_display(display_string) return def _mixer_button_value(self, value, sender): assert value in range(128) if self._mixer.is_enabled() and value > 0: strip = self._mixer.channel_strip( self._strip_buttons.index(sender)) if strip != None: self._string_to_display = None self._name_display.segment(0).set_data_source( strip.track_name_data_source()) self._name_display.update() self._display_reset_delay = STANDARD_DISPLAY_DELAY else: self._set_string_to_display(b' - ') return def _preview_value(self, value): assert value in range(128) for encoder in self._encoders: encoder.set_peek_mode(value > 0) def _show_current_track_name(self): if self._name_display != None and self._mixer != None: self._string_to_display = None self._name_display.segment(0).set_data_source( self._mixer.selected_strip().track_name_data_source()) self._name_display.update() return def _show_startup_message(self): self._name_display.display_message(b'LIVE') self._display_reset_delay = INITIAL_DISPLAY_DELAY def _set_string_to_display(self, string_to_display): assert isinstance(string_to_display, (str, unicode)) self._name_display.segment(0).set_data_source( self._name_display_data_source) self._string_to_display = string_to_display self._display_reset_delay = STANDARD_DISPLAY_DELAY def _on_selected_track_changed(self): ControlSurface._on_selected_track_changed(self) self._show_current_track_name() all_tracks = self._has_sliders or self._session.tracks_to_use() selected_track = self.song().view.selected_track num_strips = self._session.width() if selected_track in all_tracks: track_index = list(all_tracks).index(selected_track) new_offset = track_index - track_index % num_strips if not new_offset / num_strips == int(new_offset / num_strips): raise AssertionError self._session.set_offsets(new_offset, self._session.scene_offset())
class MidiFighterTwister(ControlSurface): __module__ = __name__ __doc__ = "MidiFighterTwister class" def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self.__c_instance = c_instance self.show_message('Script initiated') self.init() def init(self): # initialize listeners, caches and colors self.flush_all() self.mf_disable_bank_buttons() self.mf_init_page_config() self.mf_init_light_pages() # Start listeners to call dispatcher self.song().view.add_detail_clip_listener( self.dispatch_detail_clip_listener) self.song().add_current_song_time_listener( self.dispatch_current_song_time_listener) self.song().view.add_selected_track_listener( self.dispatch_selected_track_listener) self.device_listener_wrapper() # Initialize the sequencer buttons self.sequencer_init_buttons() self.sequencer_init_rotaries() self.init_clip_page() self.init_pad_page() self.init_device_params() def flush_all(self): for poti in range(64): for channel in range(4): self._send_midi((175 + channel, poti, 0)) def mf_init_page_config(self): # Initialize configuration parameters # Sequencer configuration self.sequencer_page_default_color = 1 self.sequencer_current_page_color_index = self.sequencer_page_default_color self.sequencer_base_default_note = 36 self.sequencer_current_selected_note = self.sequencer_base_default_note self.sequencer_clip_position_16th = None # Midi Channels self.rotary_midi_channel = 175 + 1 self.ring_midi_channel = 175 + 1 self.switch_midi_channel = 175 + 2 self.light_midi_channel = 175 + 2 # Pages cc map self.clip_page_cc = range(0, 16) self.sequencer_page_cc = range(16, 32) self.note_page_cc = range(32, 48) self.control_page_cc = range(48, 64) # Pages init color self.clip_page_colors = [1] * 16 self.sequencer_page_colors = [self.sequencer_page_default_color] * 16 self.note_page_colors = range(1, 127, 16) * 2 #self.note_page_colors = [0] * 16 self.control_page_colors = [1] * 16 # Status cache for sequencer self.switch_encoder_status_cache = [False] * 64 # List to store ButtonElements in self.switch_encoder_buttons = [False] * 64 # Status cache for rotaries self.rotary_encoder_potis = [False] * 64 def mf_init_light_pages(self): sequencer_page_map = zip(self.sequencer_page_cc, self.sequencer_page_colors) for light_encoder_cc, light_color_cc in sequencer_page_map: self._mf_set_light(light_encoder_cc, light_color_cc, False) note_page_map = zip(self.note_page_cc, self.note_page_colors) for light_encoder_cc, light_color_cc in note_page_map: self._mf_set_light(light_encoder_cc, light_color_cc, False) def _mf_set_light(self, light_encoder_cc, light_color_cc, status): # Sets color on midi channel 2 (177) end updates status cache # for sequencer to remember statuses self._send_midi((self.light_midi_channel, light_encoder_cc, light_color_cc)) self.switch_encoder_status_cache[light_encoder_cc] = status def mf_disable_bank_buttons(self): # Workaround for not sending values to track when pressing bank buttons self.padm0 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 0) self.padm1 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 1) self.padm2 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 2) self.padm3 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 3) self.padm0.add_value_listener(self.bank_buttons_dummy, identify_sender=True) self.padm1.add_value_listener(self.bank_buttons_dummy, identify_sender=True) self.padm2.add_value_listener(self.bank_buttons_dummy, identify_sender=True) self.padm3.add_value_listener(self.bank_buttons_dummy, identify_sender=True) def bank_buttons_dummy(self): pass def dispatch_detail_clip_listener(self): self.current_clip = self.song().view.highlighted_clip_slot.clip self.init_sequencer() try: if self.current_clip.is_midi_clip and not self.current_clip.notes_has_listener: # Update leds when notes are added or removed self.current_clip.add_notes_listener( self._sequencer_update_notes_to_light) self.init_sequencer() else: self.sequencer_reset_colors() except AttributeError: pass def dispatch_current_song_time_listener(self): self.sequencer_light_follows_beat() def dispatch_selected_track_listener(self): self.device_auto_select() self.device_listener_wrapper() def device_listener_wrapper(self): selected_track = self.song().view.selected_track if not selected_track.devices_has_listener(self.device_auto_select): self.song().view.selected_track.add_devices_listener( self.device_auto_select) # Sequencer def init_sequencer(self): self.sequencer_current_selected_note = self.sequencer_base_default_note self.sequencer_current_page_color_index = self.sequencer_page_default_color self._sequencer_update_notes_to_light() def sequencer_init_buttons(self): for switch_encoder_cc in self.sequencer_page_cc: self.switch_encoder_buttons[switch_encoder_cc] = ButtonElement( IS_MOMENTARY, MIDI_CC_TYPE, 1, switch_encoder_cc) self.switch_encoder_buttons[switch_encoder_cc].add_value_listener( self.sequencer_button_press, identify_sender=True) self.padl14 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 14) self.padr17 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 17) self.padl16 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 16) self.padr19 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 19) self.padl14.add_value_listener(self.sequencer_side_button_press, identify_sender=True) self.padr17.add_value_listener(self.sequencer_side_button_press, identify_sender=True) self.padl16.add_value_listener(self.sequencer_side_button_press, identify_sender=True) self.padr19.add_value_listener(self.sequencer_side_button_press, identify_sender=True) def sequencer_init_rotaries(self): for rotary_encoder_cc in self.sequencer_page_cc: self.rotary_encoder_potis[rotary_encoder_cc] = EncoderElement( MIDI_CC_TYPE, 0, rotary_encoder_cc, Live.MidiMap.MapMode.absolute) self.rotary_encoder_potis[rotary_encoder_cc].add_value_listener(self.sequencer_rotary_change, identify_sender=True) def sequencer_rotary_change(self, value, sender): try: self.current_clip except AttributeError: return False if self.current_clip.is_midi_clip: cc_value = sender._msg_identifier if value > 0: if not self.switch_encoder_status_cache[cc_value]: self._send_midi((self.light_midi_channel, cc_value, self.sequencer_current_light_on_color)) self._send_midi(( self.ring_midi_channel, cc_value, 100)) self.switch_encoder_status_cache[cc_value] = True self.current_clip.set_notes(((self.sequencer_current_selected_note, cc_value % 16 * 0.25, 0.25, value, False),)) elif value == 0: self._send_midi((self.light_midi_channel, cc_value, self.sequencer_current_page_color)) self.current_clip.remove_notes( cc_value % 16 * 0.25, self.sequencer_current_selected_note, 0.25, 1) self.switch_encoder_status_cache[cc_value] = False def sequencer_button_press(self, value, sender): try: self.current_clip except AttributeError: return False if self.current_clip.is_midi_clip: cc_value = sender._msg_identifier if value > 0: if not self.switch_encoder_status_cache[cc_value]: self._send_midi((self.light_midi_channel, cc_value, self.sequencer_current_light_on_color)) self.current_clip.set_notes((( self.sequencer_current_selected_note, cc_value % 16 * 0.25, 0.25, 100, False),)) self.switch_encoder_status_cache[cc_value] = True self._send_midi((self.ring_midi_channel, cc_value, 100)) else: self._send_midi((self.light_midi_channel, cc_value, self.sequencer_current_page_color)) self._send_midi((self.ring_midi_channel, cc_value, 0)) self.current_clip.remove_notes( cc_value % 16 * 0.25, self.sequencer_current_selected_note, 0.25, 1) self.switch_encoder_status_cache[cc_value] = False def sequencer_side_button_press(self, value, sender): try: cc_value = sender._msg_identifier if value > 0: # Note/clolor up/down if cc_value == 14 and self.sequencer_current_selected_note > 0: self.sequencer_current_selected_note = self.sequencer_current_selected_note - 1 self.sequencer_current_page_color_index = self.sequencer_current_page_color_index - 16 self._sequencer_update_notes_to_light() self.sequencer_clip_position_16th = None self.show_message("Selected Midi Note: "+str(self.sequencer_current_selected_note)) if cc_value == 17 and self.sequencer_current_selected_note < 127: self.sequencer_current_selected_note = self.sequencer_current_selected_note + 1 self.sequencer_current_page_color_index = self.sequencer_current_page_color_index + 16 self._sequencer_update_notes_to_light() self.sequencer_clip_position_16th = None self.show_message("Selected Midi Note: "+str(self.sequencer_current_selected_note)) # New/duplicate clip if cc_value == 16 and self.sequencer_current_selected_note > 0: self.duplicate_clip() if cc_value == 19 and self.sequencer_current_selected_note > 0: self.session_record() except AttributeError: pass def sequencer_light_follows_beat(self): try: if self.current_clip.is_midi_clip: if self.sequencer_clip_position_16th == None: self.sequencer_clip_position_16th = int(self.current_clip.playing_position / 0.25) if self.switch_encoder_status_cache[self.sequencer_page_cc[self.sequencer_clip_position_16th]]: self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_light_on_color)) else: self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_page_color)) elif self.sequencer_clip_position_16th != int(self.current_clip.playing_position/0.25): if self.switch_encoder_status_cache[self.sequencer_page_cc[self.sequencer_clip_position_16th]]: self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_light_on_color)) else: self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_page_color)) self.sequencer_clip_position_16th = int(self.current_clip.playing_position/0.25) self._send_midi((177, self.sequencer_page_cc[self.sequencer_clip_position_16th], self.sequencer_current_light_beat_color)) except IndexError: pass @property def sequencer_current_light_on_color(self): # light on color to be relative to page color return self.sequencer_current_page_color + 32 % 128 @property def sequencer_current_light_beat_color(self): # light on color to be relative to page color return self.sequencer_current_page_color + 64 % 128 @property def sequencer_current_page_color(self): return self.sequencer_current_page_color_index % 128 def _sequencer_get_midi_notes(self, note): # self.current_clip.get_notes(start, self.sequencer_current_selected_note, # selection_length, hight) try: return self.current_clip.get_notes(0, note, 4, 1) except AttributeError: return [] def _sequencer_update_notes_to_light(self): self.sequencer_reset_colors() notes_for_current_selected_note = self._sequencer_get_midi_notes( self.sequencer_current_selected_note) for note in notes_for_current_selected_note: light_encoder_cc = int(note[1]*4+self.sequencer_page_cc[0]) self._send_midi((self.ring_midi_channel, light_encoder_cc, note[3])) self._mf_set_light(light_encoder_cc, self.sequencer_current_light_on_color, True) def sequencer_reset_colors(self): for light_encoder_cc in self.sequencer_page_cc: self._mf_set_light(light_encoder_cc, self.sequencer_current_page_color, False) self._send_midi((self.ring_midi_channel, light_encoder_cc, 0)) def duplicate_clip(self): self.log_message("duplicate clip") #if self._clip_slot and self._clip_slot.has_clip: # slot_name = self._clip_slot.clip.name # track = self._clip_slot.canonical_parent current_track = self.song().view.selected_track current_clip_slot = self.song().view.highlighted_clip_slot self.song().duplicate_scene(list(current_track.clip_slots).index(current_clip_slot)) #new_clip = current_track.duplicate_clip_slot( # list(current_track.clip_slots).index(current_clip_slot)+1) #self.log_message(new_clip) #selected_track = self.song().view.selected_track #selected_track.duplicate_clip_slot(selected_track) def session_record(self): self.log_message("session record") #self.song().trigger_session_record() # Clip page setion def init_clip_page(self): num_tracks = 4 num_scenes = 3 self.flash_status = 1 self.Mixer = MixerComponent(4, 3) # Volencoder self.volencoders = [None for index in range(num_tracks)] for index in range(num_tracks): self.volencoders[index] = EncoderElement( MIDI_CC_TYPE, 0, index, Live.MidiMap.MapMode.absolute) self.Mixer.channel_strip(index).set_volume_control( self.volencoders[index]) # Sendencoder for index in range(num_tracks): encoder_cc_send_1 = index + num_tracks encoder_cc_send_2 = index + num_tracks * 2 send1 = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_send_1, Live.MidiMap.MapMode.absolute) send2 = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_send_2, Live.MidiMap.MapMode.absolute) self.Mixer.channel_strip(index).set_send_controls((send1, send2)) # Panencoder for index in range(num_tracks): encoder_cc_pan = index + num_tracks * 3 pan = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_pan, Live.MidiMap.MapMode.absolute) self.Mixer.channel_strip(index).set_pan_control(pan) # Arm-/selectbuttons for index in range(num_tracks): armbutton = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, index + 12) self.Mixer.channel_strip(index).set_arm_button(armbutton) self.Mixer.channel_strip(index).set_select_button(armbutton) # Navigation buttons self.padl11 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 11) self.padr8 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 8) self.padl10 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 10) self.padr13 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 13) self.grid = [None for index in range(num_tracks * 3)] for index in range(num_tracks * 3): self.grid[index] = ButtonElement( IS_MOMENTARY, MIDI_CC_TYPE, 1, index) self.matrix = ButtonMatrixElement() for row in range(num_scenes): button_row = [] for column in range(num_tracks): button_row.append(self.grid[column+(row*4)]) self.log_message(str(column+(row*4))) self.matrix.add_row(tuple(button_row)) self.Session = SessionComponent(num_tracks, num_scenes) self.Session.name = "Session" self.Session.set_offsets(0, 0) self.Session.set_mixer(self.Mixer) self.Session._do_show_highlight() self.set_highlighting_session_component(self.Session) self.Session.set_track_bank_buttons(self.padl11, self.padr8) self.Session.set_scene_bank_buttons(self.padr13, self.padl10) self.scene = [None for index in range(num_scenes)] for row in range(num_scenes): self.scene[row] = self.Session.scene(row) self.scene[row].name = 'Scene_'+str(row) for column in range(num_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(35) self.scene[row].clip_slot(column).set_stopped_value(68) self.scene[row].clip_slot(column).set_started_value(45) self.scene[row].clip_slot(column).set_triggered_to_record_value(100) self.scene[row].clip_slot(column).set_recording_value(80) for column in range(num_tracks): for row in range(num_scenes): self.scene[row].clip_slot(column).set_launch_button(self.grid[column+(row*4)]) for index in range(num_tracks*num_scenes): self.grid[index].clear_send_cache() def update_display(self): # Called every 100 ms ControlSurface.update_display(self) self.refresh_state() self.Session.set_enabled(True) self.Session.update() # Sequencer hack try: for light_encoder_cc in self.sequencer_page_cc: self._send_midi((self.ring_midi_channel, light_encoder_cc, 0)) notes_for_current_selected_note = self._sequencer_get_midi_notes( self.sequencer_current_selected_note) for note in notes_for_current_selected_note: light_encoder_cc = int(note[1]*4+self.sequencer_page_cc[0]) self._send_midi((self.ring_midi_channel, light_encoder_cc, note[3])) except AttributeError: pass # Pad Section def init_pad_page(self): self.pad_device_params() PAD_TRANSLATION = ( (0, 0, 32, 1), (1, 0, 33, 1), (2, 0, 34, 1), (3, 0, 35, 1), (0, 1, 36, 1), (1, 1, 37, 1), (2, 1, 38, 1), (3, 1, 39, 1), (0, 2, 40, 1), (1, 2, 41, 1), (2, 2, 42, 1), (3, 2, 43, 1), (0, 3, 44, 1), (1, 3, 45, 1), (2, 3, 46, 1), (3, 3, 47, 1)) self.set_pad_translations(PAD_TRANSLATION) self._device_selection_follows_track_selection = True def pad_device_params(self): device_param_controls = [] for param in self.note_page_cc[:8]: self.rotary_encoder_potis[param] = EncoderElement( MIDI_CC_TYPE, 0, param, Live.MidiMap.MapMode.absolute) self.rotary_encoder_potis[param].release_parameter() self.rotary_encoder_potis[param].send_value(0, True) self.rotary_encoder_potis[param].clear_send_cache() device_param_controls.append(self.rotary_encoder_potis[param]) device = DeviceComponent() device.name = 'Device_Component pad' device.set_parameter_controls(tuple(device_param_controls)) self.set_device_component(device) #def scrolling(self): # self.application().view.scroll_view(ndir, 'Detail/DeviceChain', True) # Live.Song.Song.View.selected_track #Live.Song.Song.View.select_device()[0] # Device parameter section def init_device_params(self): device_param_controls = [] device_bank_buttons = [] for param in self.control_page_cc[:8]: self.rotary_encoder_potis[param] = EncoderElement( MIDI_CC_TYPE, 0, param, Live.MidiMap.MapMode.absolute) self.switch_encoder_buttons[param] = ButtonElement( IS_MOMENTARY, MIDI_CC_TYPE, 1, param) self.rotary_encoder_potis[param].release_parameter() self.rotary_encoder_potis[param].send_value(0, True) self.rotary_encoder_potis[param].clear_send_cache() device_param_controls.append(self.rotary_encoder_potis[param]) device_bank_buttons.append(self.switch_encoder_buttons[param]) device = DeviceComponent() device.name = 'Device_Component' device.set_parameter_controls(tuple(device_param_controls)) device.set_bank_buttons(tuple(device_bank_buttons)) device.set_on_off_button(ButtonElement( IS_MOMENTARY, MIDI_CC_TYPE, 1, 56)) self.set_device_component(device) def device_auto_select(self): # Iterates through devices within a track and assigns the first # DrumPad device to activate the individual drum's device. # Use first device in case none is a DrumPad device. selected_track = self.song().view.selected_track devices = selected_track.devices for device in devices: if device.can_have_drum_pads: self.current_drum_device = device pad_device = self.current_drum_device.view.selected_chain.devices[0] self.song().view.select_device(pad_device) if not self.current_drum_device.view.selected_drum_pad_has_listener( self.device_update_current_note): self.current_drum_device.view.add_selected_drum_pad_listener( self.device_update_current_note) break else: self.song().view.select_device(devices[0]) def device_update_current_note(self): current_note = self.current_drum_device.view.selected_drum_pad.note self.sequencer_current_selected_note = current_note # Update light of active pad #self._send_midi((self.light_midi_channel, light_encoder_cc, 63)) try: self.current_clip = self.song().view.highlighted_clip_slot.clip self.current_clip.is_midi_clip self._sequencer_update_notes_to_light() except AttributeError: pass
class Tweaker(ControlSurface): __module__ = __name__ __doc__ = " MonOhmod companion controller script " def __init__(self, c_instance): """everything except the '_on_selected_track_changed' override and 'disconnect' runs from here""" ControlSurface.__init__(self, c_instance) with self.component_guard(): self._update_linked_device_selection = None self._tweaker_version = '0.4' self.log_message("--------------= Tweaker Mixer " + str(self._tweaker_version) + " log opened =--------------") self._update_linked_device_selection = None self._setup_mixer_control() self._setup_session_control() """script initialization methods""" def _setup_controls(self): is_momentary = True self._grid = [None for index in range(8)] for column in range(8): self._grid[column] = [FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, column + (row * 8), 'Grid_' + str(column) + '_' + str(row), self) for row in range(4)] self._button = [FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_BUTTONS[index], 'Button_' + str(index), self) for index in range(len(TWEAKER_BUTTONS))] self._nav = [FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_NAVS[index], 'Nav_' + str(index), self) for index in range(len(TWEAKER_NAVS))] self._encoder_buttons = [FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_ENCODER_BUTTONS[index], 'Encoder_Button_' + str(index), self) for index in range(len(TWEAKER_ENCODER_BUTTONS))] self._dial = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_DIALS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_DIALS))] self._fader = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_FADERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_FADERS))] self._crossfader = EncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute) self._encoder = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_ENCODERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_ENCODERS))] self._pad = [FlashingButtonElement(not is_momentary, MIDI_CC_TYPE, CHANNEL, TWEAKER_PADS[index], 'Pad_' + str(index), self) for index in range(len(TWEAKER_PADS))] self._matrix = ButtonMatrixElement() self._matrix.name = 'Matrix' for row in range(4): button_row = [] for column in range(7): button_row.append(self._grid[column][row]) self._matrix.add_row(tuple(button_row)) def _setup_transport_control(self): self._transport = TransportComponent() self._transport.name = 'Transport' def _setup_mixer_control(self): is_momentary = True self._num_tracks = (2) #A mixer is one-dimensional; self._mixer = MixerComponent(2, 0, False, True) self._mixer.name = 'Mixer' self._mixer.tracks_to_use = self._mixer_tracks_to_use(self._mixer) self._mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left) def _setup_session_control(self): is_momentary = True num_tracks = 2 num_scenes = 3 self._session = SessionComponent(num_tracks, num_scenes) self._session.name = "Session" self._session.set_offsets(0, 0) self._session.set_mixer(self._mixer) self.set_highlighting_session_component(self._session) """general functionality""" def allow_updates(self, allow_updates): for component in self.components: component.set_allow_update(int(allow_updates!=0)) def disconnect(self): """clean things up on disconnect""" if self._session._is_linked(): self._session._unlink() self.log_message("--------------= Tweaker Mixer " + str(self._tweaker_version) + " log closed =--------------") #Create entry in log file ControlSurface.disconnect(self) return None def connect_script_instances(self, instanciated_scripts): link = False for s in instanciated_scripts: if '_tweaker_version' in dir(s): if s._tweaker_version == self._tweaker_version: link = True if not s is self: s._linked_session = self._session #break if link is True: if not self._session._is_linked(): #self._session.set_offsets(0, 0) self._session._link() def _mixer_tracks_to_use(self, mixer): def tracks_to_use(): return tuple(self.song().visible_tracks) + tuple(self.song().return_tracks) return tracks_to_use # a
class AumTroll_G(AumTroll): def __init__(self, *a, **k): super(AumTroll_G, self).__init__(*a, **k) with self.component_guard(): self._setup_session_recording_component() self._setup_APC_detail_component() self.log_message('Aumtroll G 4') def _setup_session_recording_component(self): self._recorder = SessionRecordingComponent(ClipCreator(), ViewControlComponent()) def _setup_APC_detail_component(self): self._alt_device_navigator = DetailViewCntrlComponent() """the mixer component corresponds and moves with our selection in Live, and allows us to assign physical controls""" """to Live's mixer functions without having to make all the links ourselves""" def _setup_mixer_control(self): is_momentary = True self._num_tracks = (8) #A mixer is one-dimensional; self._mixer = MixerComponent(8, 2, True, False) #These values represent the (Number_of_tracks, Number_of_returns, EQ_component, Filter_component) self._mixer.name = 'Mixer' #We name everything that we might want to access in m4l self._mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left) for index in range(8): #self._mixer.channel_strip(index).set_volume_control(self._fader[index]) #Since we gave our mixer 4 tracks above, we'll now assign our fader controls to it self._mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index) #We also name the individual channel_strip so we can access it self._mixer.track_eq(index).name = 'Mixer_EQ_' + str(index) #We also name the individual EQ_component so we can access it self._mixer.channel_strip(index)._invert_mute_feedback = True #This makes it so that when a track is muted, the corresponding button is turned off 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._send_reset = ResetSendsComponent(self) #This creates a custom MonoComponent that allows us to reset all the sends on a track to zero with a single button self._send_reset.name = 'Sends_Reset' #We name it so that we can access it from m4l """the session component represents a grid of buttons that can be used to fire, stop, and navigate clips in the session view""" def _setup_session_control(self): is_momentary = True num_tracks = 8 #we are working with a 4x4 grid, num_scenes = 4 #so the height and width are both set to 4 self._session = SessionComponent(num_tracks, num_scenes) #we create our SessionComponent with the variables we set above it self._session.name = "Session" #we name it so we can access it in m4l self._session.set_offsets(0, 0) #we set the initial offset to the far left, top of the session grid self._session._track_banking_increment = 4 self._session.set_stop_clip_value(STOP_CLIP[self._rgb]) #we assign the colors that will be displayed when the stop_clip button is pressed. This value comes from CNTRLR_Map.py, which is imported in the header of our script self._scene = [None for index in range(4)] #we create an array to hold the Scene subcomponents so that we can get to them if we need them. for row in range(num_scenes): #now we'll fill the array with different objects that were created when we called the SessionComponent() module self._scene[row] = self._session.scene(row) #each session row is a SceneComponent self._scene[row].name = 'Scene_' + str(row) #name it so we can access it in m4l for column in range(num_tracks): #now we'll create holders and names for the contents of each scene clip_slot = self._scene[row].clip_slot(column) #we use our assignment of the scene above to gain access to the individual clipslots. Here, we are just assigning 'clip_slot' each time as a local variable so we can manipulated it's properties clip_slot.name = str(column) + '_Clip_Slot' + str(row) #name it so that we can acces it in m4l clip_slot.set_triggered_to_play_value(CLIP_TRG_PLAY[self._rgb]) #set its triggered to play color clip_slot.set_triggered_to_record_value(CLIP_TRG_REC[self._rgb])#set its triggered to record color clip_slot.set_stopped_value(CLIP_STOP[self._rgb]) #set its stop color clip_slot.set_started_value(CLIP_STARTED[self._rgb]) #set its started color clip_slot.set_recording_value(CLIP_RECORDING[self._rgb]) #set its recording value self._session.set_mixer(self._mixer) #now we link the MixerComponent we created in _setup_mixer_control() to our session component so that they will follow each other when either is navigated self.set_highlighting_session_component(self._session) self._session_zoom = SessionZoomingComponent(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[self._rgb]) #set the zooms stopped color self._session_zoom.set_playing_value(ZOOM_PLAYING[self._rgb]) #set the zooms playing color self._session_zoom.set_selected_value(ZOOM_SELECTED[self._rgb]) #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._session_zoom.set_zoom_button(self._button[31]) #assign a shift button so that we can switch states between the SessionComponent and the SessionZoomingComponent """this section is used so that we can reassign the color properties of each state. Legacy, from the OhmModes script, to support either RGB or Monochrome""" def _assign_session_colors(self): num_tracks = 8 num_scenes = 4 self._session.set_stop_clip_value(STOP_ALL[self._rgb]) for row in range(num_scenes): for column in range(num_tracks): self._scene[row].clip_slot(column).set_triggered_to_play_value(CLIP_TRG_PLAY[self._rgb]) self._scene[row].clip_slot(column).set_triggered_to_record_value(CLIP_TRG_REC[self._rgb]) self._scene[row].clip_slot(column).set_stopped_value(CLIP_STOP[self._rgb]) self._scene[row].clip_slot(column).set_started_value(CLIP_STARTED[self._rgb]) self._scene[row].clip_slot(column).set_recording_value(CLIP_RECORDING[self._rgb]) self._session_zoom.set_stopped_value(ZOOM_STOPPED[self._rgb]) self._session_zoom.set_playing_value(ZOOM_PLAYING[self._rgb]) self._session_zoom.set_selected_value(ZOOM_SELECTED[self._rgb]) self.refresh_state() def deassign_live_controls(self, *a, **k): for index in range(4): self._encoder[index].send_value(0, True) self._encoder[index].clear_send_cache() self._mixer.channel_strip(index+4).set_volume_control(None) #Since we gave our mixer 4 tracks above, we'll now assign our fader controls to it #for the left side of the mixer self._mixer.channel_strip(index+4).set_solo_button(None) #remove the solo button assignments self._mixer.channel_strip(index+4).set_arm_button(None) #remove the arm button assignments self._mixer.channel_strip(index+4).set_mute_button(None) #remove the mute button assignments self._mixer.channel_strip(index+4).set_select_button(None) #remove the select button assignments #self._alt_device_navigator.set_arrange_session_toggle_button(None) self._alt_device_navigator.set_device_clip_toggle_button(None) self._alt_device_navigator.set_detail_toggle_button(None) self._alt_device_navigator.set_enabled(False) #self._alt_device_navigator.set_shift_button(None) self._transport.set_nudge_buttons(None, None) self._recorder.set_record_button(None) self._recorder.set_re_enable_automation_button(None) super(AumTroll_G, self).deassign_live_controls(*a, **k) def assign_live_controls(self): """the following lines update all of the controls' last_sent properties, so that they forward the next value they receive regardless of whether or not it is the same as the last it recieved""" """we also reset the encoder rings and buttons, since the device component will not update them if it is not locked to a device in Live""" for index in range(16): self._grid[index].force_next_send() for index in range(32): #self._button[index].set_on_off_values(0, 127) self._button[index].send_value(0, True) self._button[index].force_next_send() for index in range(8): self._encoder_button[index+4].send_value(0, True) self._encoder_button[index+4].force_next_send() for index in range(12): self._encoder[index].send_value(0, True) self._encoder[index].force_next_send() """here we assign the left side of our mixer's buttons on the lower 32 keys""" if self._monohm is None: with self.component_guard(): for index in range(4): #we set up a recursive loop to assign all four of our track channel strips' controls self._button[index+16].set_on_value(MUTE[self._rgb]) #set the mute color from the Map.py self._mixer.channel_strip(index).set_mute_button(self._button[index+16]) #assign the mute buttons to our mixer channel strips self._button[index+28].set_on_value(MUTE[self._rgb]) #set the mute color from the Map.py self._mixer.channel_strip(index+4).set_mute_button(self._button[index+28]) #assign the mute buttons to our mixer channel strips self._button[index].set_on_off_values(SELECT[self._rgb], SELECT_OFF[self._rgb]) self._mixer.channel_strip(index).set_select_button(self._button[index]) #assign the select buttons to our mixer channel strips self._button[index+12].set_on_off_values(SELECT[self._rgb], SELECT_OFF[self._rgb]) #set the select color from the Map.py self._mixer.channel_strip(index+4).set_select_button(self._button[index+12]) #assign the select buttons to our mixer channel strips #self._session.set_stop_track_clip_buttons(tuple(self._button[index+4] for index in range(8))) #these last two lines assign the send_reset buttons and the stop_clip buttons for each track for index in range(8): #self._button[index + 4].set_on_off_values(SOLO[self._rgb], SOLO[self._rgb]) #this assigns the custom colors defined in the Map.py file to the stop_clip buttons. They have seperate on/off values, but we assign them both the same value so we can always identify them self._mixer.channel_strip(index).set_solo_button(self._button[index+4]) #self._button[index + 4].send_value(STOP_CLIP[self._rgb], True) #finally, we send the on/off colors out to turn the LEDs on for the stop clip buttons for index in range(4): #set up a for loop to generate an index for assigning the session nav buttons' colors self._button[index + 20].set_on_off_values(SESSION_NAV[self._rgb], SESSION_NAV_OFF[self._rgb]) #assign the colors from Map.py to the session nav buttons self._session.set_track_bank_buttons(self._button[21], self._button[20]) #set the track bank buttons for the Session navigation controls self._session.set_scene_bank_buttons(self._button[23], self._button[22]) #set the scnee bank buttons for the Session navigation controls """this section assigns the grid to the clip launch functionality of the SessionComponent""" for column in range(4): #we need to set up a double recursion so that we can generate the indexes needed to assign the grid buttons for row in range(4): #the first recursion passes the column index, the second the row index self._scene[row].clip_slot(column).set_launch_button(self._grid[(row*4)+column]) #we use the indexes to grab the first the scene and then the clip we assigned above, and then we use them again to define the button held in the grid array that we want to assign to the clip slot from the session component for index in range(4): #set up a for loop to generate an index for assigning the session nav buttons' colors self._button[index + 24].set_on_off_values(SHIFTS[self._rgb], SHIFTS_OFF[self._rgb]) #assign the colors from Map.py to the session nav buttons self._session.update() #tell the Session component to update so that the grid will display the currently selected session region self._session.set_enabled(True) #enable the Session Component self._session_zoom.set_enabled(True) #enable the Session Zoom #self._alt_device_navigator.set_arrange_session_toggle_button(self._encoder_button[4]) self._alt_device_navigator.set_device_clip_toggle_button(self._encoder_button[5]) self._alt_device_navigator.set_detail_toggle_button(self._encoder_button[6]) #self._device_navigator.set_shift_button(self._encoder_button[7]) self._session_zoom.set_zoom_button(self._encoder_button[7]) #assign the lower right key button to the shift function of the Zoom component self._session.set_scene_bank_buttons(self._button[25], self._button[24]) self._recorder.set_record_button(self._button[27]) self._recorder.set_re_enable_automation_button(self._button[26]) else: for index in range(8): self._mixer2.channel_strip(index).set_volume_control(self._fader[index]) self._mixer2.set_track_offset(TROLL_OFFSET) self._device_selector.set_mode_buttons(self._grid) if not self._shifted: self._assign_monomodular_controls() else: self._assign_shifted_controls() self._device1.set_parameter_controls(tuple([self._knobs[index] for index in range(8)])) self._device2.set_parameter_controls(tuple([self._knobs[index+12] for index in range(8)])) self._device1.set_enabled(True) self._device2.set_enabled(True) self._find_devices() self._device1.update() self._device2.update() """this section assigns the encoders and encoder buttons""" self._device.set_parameter_controls(tuple([self._encoder[index+4] for index in range(8)])) #assign the encoders from the device component controls - we are doing this here b #self._encoder_button[7].set_on_value(DEVICE_LOCK[self._rgb]) #set the on color for the Device lock encoder button #self._device.set_lock_button(self._encoder_button[7]) #assign encoder button 7 to the device lock control #self._encoder_button[4].set_on_value(DEVICE_ON[self._rgb]) #set the on color for the Device on/off encoder button #self._device.set_on_off_button(self._encoder_button[4]) #assing encoder button 4 to the device on/off control for index in range(2): #setup a recursion to generate indexes so that we can reference the correct controls to assing to the device_navigator functions self._encoder_button[index + 8].set_on_value(DEVICE_NAV[self._rgb]) #assign the on color for the device navigator self._encoder_button[index + 10].set_on_value(DEVICE_BANK[self._rgb]) #assign the on color for the device bank controls self._device_navigator.set_nav_buttons(self._encoder_button[10], self._encoder_button[11]) #set the device navigators controls to encoder buttons 10 and 11 self._device.set_bank_nav_buttons(self._encoder_button[8], self._encoder_button[9]) #set the device components bank nav controls to encoder buttons 8 and 9 """now we turn on and update some of the components we've just made assignments to""" self._device.set_enabled(True) #enable the Device Component self._device_navigator.set_enabled(True) #enable the Device Navigator self._alt_device_navigator.set_enabled(True) self._device.update() #tell the Device component to update its assingments so that it will detect the currently selected device parameters and display them on the encoder rings
class Tweaker(ControlSurface): __module__ = __name__ __doc__ = " Tweaker control surface script " def __init__(self, c_instance, *a, **k): super(Tweaker, self).__init__(c_instance, *a, **k) with self.component_guard(): self._update_linked_device_selection = None self._tweaker_version_check = '0.3' self.log_message("--------------= Tweaker Session " + str(self._tweaker_version_check) + " log opened =--------------") self._timer = 0 self.flash_status = 1 self._last_selected_strip_number = 0 self._device_selection_follows_track_selection = False #self._pad_translations = PAD_TRANSLATION self._linked_session = None self._mixer_offset = 0 self._nav_lock = True self._setup_controls() self._setup_transport_control() self._setup_device_control() self._setup_mixer_control() self._setup_session_control() self._setup_crossfader() self._setup_modes() self._setup_pads() self._setup_navigation_lock() self._setup_arrange_session_toggle() #self.assign_main_configuration() #self.request_rebuild_midi_map() #self._mixer._reassign_tracks() #this is to update rebuild the cf_assign closure, otherwise the colors aren't correct #self.schedule_message(30, self._detect_devices) self.show_message('Tweaker Control Surface Loaded') self.show_message('Tweaker Control Surface Loaded') #self._shift_value(0) #this updates the pads so that they transmit to Live on the assigned PAD_CHANNEL...also, lights shift button self.assign_main_configuration() #self.schedule_message(2, self._shift_value, 0) self.schedule_message(3, self._mixer._reassign_tracks) """script initialization methods""" def _setup_controls(self): is_momentary = True self._grid = [None for index in range(8)] for column in range(8): self._grid[column] = [TweakerMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, column + (row * 8) + 1, 'Grid_' + str(column) + '_' + str(row), self) for row in range(4)] self._button = [TweakerMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_BUTTONS[index], 'Button_' + str(index), self) for index in range(len(TWEAKER_BUTTONS))] self._nav = [TweakerMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_NAVS[index], 'Nav_' + str(index), self) for index in range(len(TWEAKER_NAVS))] self._encoder_button = [TweakerMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_ENCODER_BUTTONS[index], 'Encoder_Button_' + str(index), self) for index in range(len(TWEAKER_ENCODER_BUTTONS))] self._dial = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_DIALS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_DIALS))] self._fader = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_FADERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_FADERS))] self._crossfader = EncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute) self._encoder = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_ENCODERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_ENCODERS))] self._pad = [TweakerMonoButtonElement(False, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_PADS[index], 'Pad_' + str(index), self) for index in range(len(TWEAKER_PADS))] for index in range(4): self._pad[index].set_enabled(False) self._pad[index].set_channel(PAD_CHANNEL) self._pad[index].set_identifier(index + 4) self._pad[index+4].set_enabled(False) self._pad[index+4].set_channel(PAD_CHANNEL) self._pad[index+4].set_identifier(index) self._pad_pressure = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_PAD_PRESSURES[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_PADS))] for index in range(8): self._pad_pressure[index]._last_sent = 0 self._matrix = ButtonMatrixElement() self._matrix.name = 'Matrix' for row in range(4): button_row = [] for column in range(7): button_row.append(self._grid[column][row]) self._matrix.add_row(tuple(button_row)) self._send_midi(tuple([240,0,1,106,01,07,21,21,247])) #set all pots to walk mode self._send_midi(tuple([240, 0, 1, 106, 1, 6, 127 , 127, 25, 0, 15, 0, 9, PAD_SENSITIVITY, 247])) #set pads to sensitivity set in Map file def _setup_transport_control(self): self._transport = TransportComponent() self._transport.name = 'Transport' def _setup_mixer_control(self): is_momentary = True self._num_tracks = (2) #A mixer is one-dimensional; self._mixer = MixerComponent(2, 0, False, False) self._mixer.name = 'Mixer' self._mixer.tracks_to_use = self._mixer_tracks_to_use(self._mixer) self._device_navigator = [None for index in range(2)] self._mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left) for index in range(2): self._mixer.channel_strip(index).set_volume_control(self._fader[index]) self._mixer.channel_strip(index)._on_cf_assign_changed = self._channelstrip_on_cf_assign_changed(self._mixer.channel_strip(index)) self._mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index) #mixer.track_filter(index).name = 'Mixer_TrackFilter_' + str(index) self._mixer.channel_strip(index)._invert_mute_feedback = True self._mixer.channel_strip(index)._device_component = self._device[index] self._mixer.channel_strip(index).update = self._channelstrip_update(self._mixer.channel_strip(index)) self._mixer.channel_strip(index)._select_value = self._channelstrip_select_value(self._mixer.channel_strip(index), index) self._device_navigator[index] = DetailViewControllerComponent(self, self._mixer.channel_strip(index)) self._device_navigator[index].name = 'Device_Navigator_'+str(index) self._mixer.channel_strip(0).set_track = self._channelstrip_set_track(self._mixer.channel_strip(0), self._channelstrip1_cb) self._mixer.channel_strip(1).set_track = self._channelstrip_set_track(self._mixer.channel_strip(1), self._channelstrip2_cb) 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._mixer._reassign_tracks() def _setup_session_control(self): is_momentary = True num_tracks = NUM_TRACKS num_scenes = NUM_SCENES self._session = SessionComponent(num_tracks, num_scenes) self._session.name = "Session" self._session.set_offsets(0, 0) self._session.set_stop_track_clip_value(STOP_CLIP) self._scene = [None for index in range(3)] for row in range(num_scenes): self._scene[row] = self._session.scene(row) self._scene[row].name = 'Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_' + str(row) clip_slot.set_triggered_to_play_value(CLIP_TRG_PLAY) clip_slot.set_triggered_to_record_value(CLIP_TRG_REC) clip_slot.set_stopped_value(CLIP_STOP) clip_slot.set_started_value(CLIP_STARTED) clip_slot.set_recording_value(CLIP_RECORDING) self._session._stop_track_value = self._session_stop_track_value(self._session) self._session._on_fired_slot_index_changed = self._session_on_fired_slot_index_changed(self._session) self._session._change_offsets = self._session_change_offsets(self._session) self._session.update = self._session_update(self._session) #self._session.add_offset_listener(self._update_navigation_view) self._session.set_mixer(self._mixer) self.set_highlighting_session_component(self._session) self._session_zoom = SessionZoomingComponent(self._session) self._session_zoom.name = 'Session_Overview' self._session_zoom.set_stopped_value(ZOOM_STOPPED) self._session_zoom.set_playing_value(ZOOM_PLAYING) self._session_zoom.set_selected_value(ZOOM_SELECTED) #self._session_zoom.set_enabled(True) def _setup_device_control(self): self._device = [None for index in range(2)] for index in range(2): self._device[index] = DeviceComponent() self._device[index].name = 'Device_Component_'+str(index) self._device[index].set_enabled(True) self._device[index]._number_of_parameter_banks = self._device_number_of_parameter_banks(self._device[index]) self._device[index]._assign_parameters = self._device_assign_parameters(self._device[index]) self._device[index]._device_banks = DEVICE_DICT self._device[index]._device_best_banks = DEVICE_BOB_DICT self._device[index]._device_bank_names = BANK_NAME_DICT def _setup_crossfader(self): self._mixer.set_crossfader_control(self._crossfader) def _setup_modes(self): self._pad_offset = PadOffsetComponent(self) self._pad_offset._set_protected_mode_index(0) self._pad_offset.set_enabled(False) def _setup_pads(self): for pad in self._pad_pressure: pad.add_value_listener(self._light_pad, True) def _setup_navigation_lock(self): if(self._encoder_button[0].value_has_listener(self._nav_lock_value)): self._encoder_button[0].remove_value_listener(self._nav_lock_value) self._encoder_button[0].add_value_listener(self._nav_lock_value) def _setup_arrange_session_toggle(self): if(self._nav[1].value_has_listener(self._arrange_session_value)): self._nav[1].remove_value_listener(self._arrange_session_value) self._nav[1].add_value_listener(self._arrange_session_value) """configuration methods""" def assign_main_configuration(self): for column in range(7): for row in range(3): self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row]) self._session.set_stop_track_clip_buttons(tuple([self._grid[index][3] for index in range(7)])) for row in range(3): self._scene[row].set_launch_button(self._grid[7][row]) self._device[0].set_parameter_controls(tuple([self._encoder[index+1] for index in range(3)])) self._device[0].set_enabled(True) self._device[1].set_parameter_controls(tuple([self._encoder[index+4] for index in range(3)])) self._device[1].set_enabled(True) for track in range(2): self._mixer.channel_strip(track).set_volume_control(self._fader[track]) self._mixer.channel_strip(track).set_solo_button(self._button[track*3]) self._button[track*3].set_on_off_values(SOLO, 0) self._mixer.channel_strip(track).set_arm_button(self._button[1 + (track*3)]) self._button[1 + (track*3)].set_on_off_values(ARM, 0) self._mixer.channel_strip(track).set_crossfade_toggle(self._button[2 + (track*3)]) self._mixer.master_strip().set_volume_control(self._dial[1]) self._mixer.set_prehear_volume_control(self._dial[0]) self._session.set_track_bank_buttons(self._nav[4], self._nav[3]) self._session.set_scene_bank_buttons(self._nav[2], self._nav[0]) self._session_zoom.set_zoom_button(self._grid[7][3]) self._session_zoom.set_nav_buttons(self._nav[0], self._nav[2], self._nav[3], self._nav[4]) self._session_zoom.set_button_matrix(self._matrix) self._device[0].set_on_off_button(self._encoder_button[1]) self._device_navigator[0].set_device_nav_buttons(self._encoder_button[2], self._encoder_button[3]) self._device[1].set_on_off_button(self._encoder_button[4]) self._device_navigator[1].set_device_nav_buttons(self._encoder_button[5], self._encoder_button[6]) for track in range(2): self._update_device(self._mixer.channel_strip(track)) #self._device.set_bank_nav_buttons(self._menu[0], self._menu[3]) self.assign_track_selector(self._encoder[0]) #for index in range(8): # self._pad[index].send_value(1, True) # self._pad[index].set_channel(1) # self._pad[index].set_identifier(index) # self._pad[index].set_enabled(False) #this has to happen for translate to work if not self._grid[7][3].value_has_listener(self._shift_value): self._grid[7][3].add_value_listener(self._shift_value) self._grid[7][3].send_value(127, True) self.request_rebuild_midi_map() """Tweaker custom methods""" def _shift_value(self, value): self._pad_offset.set_enabled(value>0) if value > 0: self._update_navigation_view() for pad in self._pad: pad.use_default_message() pad.set_enabled(True) self._pad_offset.set_mode_buttons(tuple(self._pad)) self.schedule_message(1, self._pad_offset.update) if self._session.is_enabled(): #self._update_navigation_view() #self.schedule_message(1, self._update_navigation_veiw) self._update_navigation_view() self._grid[7][3].send_value(SHIFT_ON) for track in range(2): self._mixer.channel_strip(track).set_crossfade_toggle(None) self._mixer.channel_strip(track).set_select_button(self._button[2 + (track*3)]) else: self._pad_offset.set_mode_buttons(None) for index in range(4): self._pad[index].set_enabled(False) self._pad[index].set_channel(PAD_CHANNEL) self._pad[index].set_identifier(index + 4 + (self._pad_offset._mode_index * 8)) self._pad[index+4].set_enabled(False) self._pad[index+4].set_channel(PAD_CHANNEL) self._pad[index+4].set_identifier(index + (self._pad_offset._mode_index * 8)) self._grid[7][3].send_value(SHIFT_OFF) for track in range(2): self._mixer.channel_strip(track).set_select_button(None) self._mixer.channel_strip(track).set_crossfade_toggle(self._button[2 + (track*3)]) def assign_track_selector(self, encoder): assert isinstance(encoder, EncoderElement) if not encoder.value_has_listener(self._track_selector_value): encoder.add_value_listener(self._track_selector_value) def deassign_track_selector(self, encoder): if encoder.value_has_listener(self._track_selector_value): encoder.remove_value_listener(self._track_selector_value) def _nav_lock_value(self, value): if value > 0: if self._nav_lock: self._mixer_offset = self._mixer_offset + self._session._track_offset self._mixer.set_track_offset(self._mixer_offset) else: if self._mixer_offset in range(self._session._track_offset, self._session._track_offset + 5): self._mixer_offset = self._mixer_offset - self._session._track_offset elif self._mixer_offset < self._session._track_offset: self._mixer_offset = 0 else: self._mixer_offset = min(self._session._track_offset+5, len(self._session.tracks_to_use())-2) self._mixer.set_track_offset(self._session._track_offset + self._mixer_offset) self._nav_lock = not self._nav_lock self._session.update() def _arrange_session_value(self, value): if value > 0: if (self.application().view.is_view_visible('Arranger')): self.application().view.show_view('Session') else: self.application().view.show_view('Arranger') def _track_selector_value(self, value): if(value is 1): if self._nav_lock: self._mixer_offset = min(self._mixer_offset + 1, min(NUM_TRACKS - 2, len(self._session.tracks_to_use())-self._session._track_offset-2)) else: self._mixer_offset = min(self._mixer_offset + 1, len(self._session.tracks_to_use())-2) elif(value is 127): self._mixer_offset = max(self._mixer_offset - 1, 0) if self._nav_lock: self._mixer.set_track_offset(self._session._track_offset + self._mixer_offset) #self._session.set_offsets(self._session._track_offset) ?? else: self._mixer.set_track_offset(self._mixer_offset) self._session.update() if self._mixer.channel_strip(self._last_selected_strip_number)._track != None: self.song().view.selected_track = self._mixer.channel_strip(self._last_selected_strip_number)._track if self._linked_session != None: if self._linked_session._is_linked(): self._linked_session._unlink() self._linked_session.set_offsets(self._mixer._track_offset, self._linked_session._scene_offset) self._linked_session._link() def _update_navigation_view(self): dif = self._mixer._track_offset - self._session._track_offset for index in range(7): #if (index + self._session._track_offset) in range(len(self._session.tracks_to_use())): if (index + self._session._track_offset) in range(0, len(self.song().visible_tracks)): self._grid[index][3].send_value(NAV_COLORS[int(index in range(dif, dif + 2))], True) elif (index + self._session._track_offset) in range(len(self.song().visible_tracks), len(self._session.tracks_to_use())): self._grid[index][3].send_value(RETURN_NAV_COLORS[int(index in range(dif, dif + 2))], True) else: self._grid[index][3].send_value(0, True) self._send_midi(tuple([240,0,1,106,01,07,21,21,247])) #set all pots to walk mode def _update_device(self, channelstrip): for control in channelstrip._device_component._parameter_controls: control.send_value(0, True) if channelstrip._device_component._on_off_button != None: channelstrip._device_component._on_off_button.turn_off() if not channelstrip._track is None: if not channelstrip._device_component._device in channelstrip._track.devices: track = channelstrip._track device_to_select = track.view.selected_device if (device_to_select == None) and (len(track.devices) > 0): device_to_select = track.devices[0] elif channelstrip._device_component and not type(channelstrip._device_component) is type(None): channelstrip._device_component.set_device(device_to_select) else: channelstrip._device_component.set_device(None) else: pass else: channelstrip._device_component.set_device(None) channelstrip._device_component._on_on_off_changed() def _light_pad(self, value, sender): if not self._pad_offset.is_enabled(): if value > sender._last_sent: if self._pad[self._pad_pressure.index(sender)]._last_sent_value < 1: self._pad[self._pad_pressure.index(sender)].send_value(127, True) else: self._pad[self._pad_pressure.index(sender)].send_value(0, True) sender._last_sent = value """called on timer""" def update_display(self): super(Tweaker, self).update_display() self._timer = (self._timer + 1) % 256 self.flash() def flash(self): if(self.flash_status > 0): for control in self.controls: if isinstance(control, TweakerMonoButtonElement): control.flash(self._timer) """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 += ' ' return ret def notification_to_bridge(self, name, value, sender): if(isinstance(sender, MonoEncoderElement2)): 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(self._shift_mode._mode_index < 2): 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._shift_mode._mode_index < 2): 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 handle_sysex(self, midi_bytes): pass """general functionality""" def disconnect(self): """clean things up on disconnect""" #self._update_linked_device_selection = None if self._session.offset_has_listener(self._update_navigation_view): self._session.remove_offset_listener(self._update_navigation_view) if(self._nav[1].value_has_listener(self._arrange_session_value)): self._nav[1].remove_value_listener(self._arrange_session_value) if(self._encoder_button[0].value_has_listener(self._nav_lock_value)): self._encoder_button[0].remove_value_listener(self._nav_lock_value) for pad in self._pad_pressure: if pad.value_has_listener(self._light_pad): pad.remove_value_listener(self._light_pad) if self._grid[7][3].value_has_listener(self._shift_value): self._grid[7][3].remove_value_listener(self._shift_value) if self._session._is_linked(): self._session._unlink() self.deassign_track_selector(self._encoder[0]) self.log_message("--------------= Tweaker Session " + str(self._tweaker_version_check) + " log closed =--------------") #Create entry in log file super(Tweaker, self).disconnect() return None def _get_num_tracks(self): return self.num_tracks def _on_selected_track_changed(self): super(Tweaker, self)._on_selected_track_changed() if self._session.is_enabled(): self._session.update() for index in range(2): self._update_device(self._mixer.channel_strip(index)) self._mixer.on_selected_track_changed() def connect_script_instances(self, instanciated_scripts): link = False for s in instanciated_scripts: if '_tweaker_version' in dir(s): if s._tweaker_version == self._tweaker_version_check: link = True break if link == True: if not self._session._is_linked(): self._session._link() """SessionComponent overrides""" def _session_update(self, session): def _update(): SessionComponent.update(session) if session.is_enabled(): self._update_navigation_view() return _update def _session_change_offsets(self, session): def _change_offsets(track_increment, scene_increment): offsets_changed = (track_increment != 0) or (scene_increment != 0) if offsets_changed: session._track_offset += track_increment session._scene_offset += scene_increment assert (session._track_offset >= 0) assert (session._scene_offset >= 0) if (session._mixer != None): if(self._nav_lock): if (session.track_offset() + self._mixer_offset) > (len(session.tracks_to_use())-2): self._mixer_offset = max(len(session.tracks_to_use()) - session._track_offset - 2, 0) session._mixer.set_track_offset(max(0, session.track_offset() + self._mixer_offset)) session._reassign_tracks() if offsets_changed: session._reassign_scenes() # this is replaced by notify_offset() in Live9 #for callback in session._offset_callbacks: # this is replaced by notify_offset() in Live9 # callback() session.notify_offset() self._update_navigation_view() if self._mixer.channel_strip(self._last_selected_strip_number)._track != None: self.song().view.selected_track = self._mixer.channel_strip(self._last_selected_strip_number)._track if ((session.width() > 0) and (session.height() > 0)): session._do_show_highlight() return _change_offsets def _session_on_fired_slot_index_changed(self, session): def _on_fired_slot_index_changed(index): tracks_to_use = tuple(self.song().visible_tracks) + tuple(self.song().return_tracks) track_index = index + session.track_offset() if session.is_enabled() and session._stop_track_clip_buttons != None: if index < len(session._stop_track_clip_buttons): button = session._stop_track_clip_buttons[index] if button != None: if(track_index < len(tracks_to_use)) and (tracks_to_use[track_index].clip_slots) and (tracks_to_use[track_index].fired_slot_index == -2): button.send_value(session._stop_track_clip_value) #elif index in range(len(session.tracks_to_use())): # dif = self._mixer._track_offset - self._session._track_offset # button.send_value(NAV_COLORS[int(index in range(dif, dif + 2))], True) #else: # button.turn_off() else: self._update_navigation_view() return _on_fired_slot_index_changed def _session_stop_track_value(self, session): def _stop_track_value(value, sender): assert (session._stop_track_clip_buttons != None) assert (list(session._stop_track_clip_buttons).count(sender) == 1) assert (value in range(128)) if session.is_enabled(): if ((value is not 0) or (not sender.is_momentary())): tracks = session.tracks_to_use() track_index = (list(session._stop_track_clip_buttons).index(sender) + session.track_offset()) if (track_index in range(len(tracks))) and (tracks[track_index] in session.song().tracks): tracks[track_index].stop_all_clips() sender.send_value(3, True) self.schedule_message(10, self._update_navigation_view) return _stop_track_value """ChannelStripComponent overrides""" def _channelstrip_update(self, channelstrip): def _update(): ChannelStripComponent.update(channelstrip) self._update_device(channelstrip) return _update def _channelstrip_set_track(self, channelstrip, cb): def _set_track(track): assert ((track == None) or isinstance(track, Live.Track.Track)) if channelstrip._track != None and isinstance(channelstrip._track, Live.Track.Track): if channelstrip._track.devices_has_listener(cb): channelstrip._track.remove_devices_listener(cb) if (track != None): track.add_devices_listener(cb) ChannelStripComponent.set_track(channelstrip, track) return _set_track def _channelstrip_select_value(self, channelstrip, index): def _select_value(value): ChannelStripComponent._select_value(channelstrip, value) self._last_selected_strip_number = index return _select_value def _channelstrip_on_cf_assign_changed(self, channel_strip): def _on_cf_assign_changed(): if (channel_strip.is_enabled() and (channel_strip._crossfade_toggle != None)): if (channel_strip._track != None) and (channel_strip._track in chain(self.song().tracks, self.song().return_tracks)): if channel_strip._track.mixer_device.crossfade_assign == 1: #modified channel_strip._crossfade_toggle.turn_off() elif channel_strip._track.mixer_device.crossfade_assign == 0: channel_strip._crossfade_toggle.send_value(CROSSFADE_A) else: channel_strip._crossfade_toggle.send_value(CROSSFADE_B) return _on_cf_assign_changed def _channelstrip1_cb(self): self._on_selected_track_changed() def _channelstrip2_cb(self): self._on_selected_track_changed() """MixerComponent overrides""" def _mixer_tracks_to_use(self, mixer): def tracks_to_use(): return tuple(self.song().visible_tracks) + tuple(self.song().return_tracks) return tracks_to_use """SessionComponent overrides""" def _device_number_of_parameter_banks(self, device): def _number_of_parameter_banks(): return number_of_parameter_banks(device._device) #added return _number_of_parameter_banks def _device_assign_parameters(self, device): def _assign_parameters(): assert device.is_enabled() assert (device._device != None) assert (device._parameter_controls != None) device._bank_name = ('Bank ' + str(device._bank_index + 1)) #added if (device._device.class_name in device._device_banks.keys()): #modified assert (device._device.class_name in device._device_best_banks.keys()) banks = device._device_banks[device._device.class_name] bank = None if (not device._is_banking_enabled()): banks = device._device_best_banks[device._device.class_name] device._bank_name = 'Best of Parameters' #added if (len(banks) > device._bank_index): bank = banks[device._bank_index] if device._is_banking_enabled(): #added if device._device.class_name in device._device_bank_names.keys(): #added device._bank_name[device._bank_index] = device._device_bank_names[device._device.class_name] #added *recheck assert ((bank == None) or (len(bank) >= len(device._parameter_controls))) for index in range(len(device._parameter_controls)): parameter = None if (bank != None): parameter = get_parameter_by_name(device._device, bank[index]) if (parameter != None): device._parameter_controls[index].connect_to(parameter) else: device._parameter_controls[index].release_parameter() else: parameters = device._device_parameters_to_map() num_controls = len(device._parameter_controls) index = (device._bank_index * num_controls) for control in device._parameter_controls: if (index < len(parameters)): control.connect_to(parameters[index]) else: control.release_parameter() index += 1 return _assign_parameters
class AumTroll_G(AumTroll): def __init__(self, *a, **k): super(AumTroll_G, self).__init__(*a, **k) with self.component_guard(): self._setup_session_recording_component() self._setup_APC_detail_component() self.log_message('Aumtroll G 4') def _setup_session_recording_component(self): self._recorder = SessionRecordingComponent(ClipCreator(), ViewControlComponent()) def _setup_APC_detail_component(self): self._alt_device_navigator = DetailViewCntrlComponent() """the mixer component corresponds and moves with our selection in Live, and allows us to assign physical controls""" """to Live's mixer functions without having to make all the links ourselves""" def _setup_mixer_control(self): is_momentary = True self._num_tracks = (8) #A mixer is one-dimensional; self._mixer = MixerComponent( 8, 2, True, False ) #These values represent the (Number_of_tracks, Number_of_returns, EQ_component, Filter_component) self._mixer.name = 'Mixer' #We name everything that we might want to access in m4l self._mixer.set_track_offset( 0) #Sets start point for mixer strip (offset from left) for index in range(8): #self._mixer.channel_strip(index).set_volume_control(self._fader[index]) #Since we gave our mixer 4 tracks above, we'll now assign our fader controls to it self._mixer.channel_strip( index ).name = 'Mixer_ChannelStrip_' + str( index ) #We also name the individual channel_strip so we can access it self._mixer.track_eq(index).name = 'Mixer_EQ_' + str( index ) #We also name the individual EQ_component so we can access it self._mixer.channel_strip( index )._invert_mute_feedback = True #This makes it so that when a track is muted, the corresponding button is turned off 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._send_reset = ResetSendsComponent( self ) #This creates a custom MonoComponent that allows us to reset all the sends on a track to zero with a single button self._send_reset.name = 'Sends_Reset' #We name it so that we can access it from m4l """the session component represents a grid of buttons that can be used to fire, stop, and navigate clips in the session view""" def _setup_session_control(self): is_momentary = True num_tracks = 8 #we are working with a 4x4 grid, num_scenes = 4 #so the height and width are both set to 4 self._session = SessionComponent( num_tracks, num_scenes ) #we create our SessionComponent with the variables we set above it self._session.name = "Session" #we name it so we can access it in m4l self._session.set_offsets( 0, 0 ) #we set the initial offset to the far left, top of the session grid self._session._track_banking_increment = 4 self._session.set_stop_clip_value( STOP_CLIP[self._rgb] ) #we assign the colors that will be displayed when the stop_clip button is pressed. This value comes from CNTRLR_Map.py, which is imported in the header of our script self._scene = [ None for index in range(4) ] #we create an array to hold the Scene subcomponents so that we can get to them if we need them. for row in range( num_scenes ): #now we'll fill the array with different objects that were created when we called the SessionComponent() module self._scene[row] = self._session.scene( row) #each session row is a SceneComponent self._scene[row].name = 'Scene_' + str( row) #name it so we can access it in m4l for column in range( num_tracks ): #now we'll create holders and names for the contents of each scene clip_slot = self._scene[row].clip_slot( column ) #we use our assignment of the scene above to gain access to the individual clipslots. Here, we are just assigning 'clip_slot' each time as a local variable so we can manipulated it's properties clip_slot.name = str(column) + '_Clip_Slot' + str( row) #name it so that we can acces it in m4l clip_slot.set_triggered_to_play_value( CLIP_TRG_PLAY[self._rgb]) #set its triggered to play color clip_slot.set_triggered_to_record_value( CLIP_TRG_REC[ self._rgb]) #set its triggered to record color clip_slot.set_stopped_value( CLIP_STOP[self._rgb]) #set its stop color clip_slot.set_started_value( CLIP_STARTED[self._rgb]) #set its started color clip_slot.set_recording_value( CLIP_RECORDING[self._rgb]) #set its recording value self._session.set_mixer( self._mixer ) #now we link the MixerComponent we created in _setup_mixer_control() to our session component so that they will follow each other when either is navigated self.set_highlighting_session_component(self._session) self._session_zoom = SessionZoomingComponent( 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[self._rgb]) #set the zooms stopped color self._session_zoom.set_playing_value( ZOOM_PLAYING[self._rgb]) #set the zooms playing color self._session_zoom.set_selected_value( ZOOM_SELECTED[self._rgb]) #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._session_zoom.set_zoom_button( self._button[31] ) #assign a shift button so that we can switch states between the SessionComponent and the SessionZoomingComponent """this section is used so that we can reassign the color properties of each state. Legacy, from the OhmModes script, to support either RGB or Monochrome""" def _assign_session_colors(self): num_tracks = 8 num_scenes = 4 self._session.set_stop_clip_value(STOP_ALL[self._rgb]) for row in range(num_scenes): for column in range(num_tracks): self._scene[row].clip_slot(column).set_triggered_to_play_value( CLIP_TRG_PLAY[self._rgb]) self._scene[row].clip_slot( column).set_triggered_to_record_value( CLIP_TRG_REC[self._rgb]) self._scene[row].clip_slot(column).set_stopped_value( CLIP_STOP[self._rgb]) self._scene[row].clip_slot(column).set_started_value( CLIP_STARTED[self._rgb]) self._scene[row].clip_slot(column).set_recording_value( CLIP_RECORDING[self._rgb]) self._session_zoom.set_stopped_value(ZOOM_STOPPED[self._rgb]) self._session_zoom.set_playing_value(ZOOM_PLAYING[self._rgb]) self._session_zoom.set_selected_value(ZOOM_SELECTED[self._rgb]) self.refresh_state() def deassign_live_controls(self, *a, **k): for index in range(4): self._encoder[index].send_value(0, True) self._encoder[index].clear_send_cache() self._mixer.channel_strip(index + 4).set_volume_control( None ) #Since we gave our mixer 4 tracks above, we'll now assign our fader controls to it #for the left side of the mixer self._mixer.channel_strip(index + 4).set_solo_button( None) #remove the solo button assignments self._mixer.channel_strip(index + 4).set_arm_button( None) #remove the arm button assignments self._mixer.channel_strip(index + 4).set_mute_button( None) #remove the mute button assignments self._mixer.channel_strip(index + 4).set_select_button( None) #remove the select button assignments #self._alt_device_navigator.set_arrange_session_toggle_button(None) self._alt_device_navigator.set_device_clip_toggle_button(None) self._alt_device_navigator.set_detail_toggle_button(None) self._alt_device_navigator.set_enabled(False) #self._alt_device_navigator.set_shift_button(None) self._transport.set_nudge_buttons(None, None) self._recorder.set_record_button(None) self._recorder.set_re_enable_automation_button(None) super(AumTroll_G, self).deassign_live_controls(*a, **k) def assign_live_controls(self): """the following lines update all of the controls' last_sent properties, so that they forward the next value they receive regardless of whether or not it is the same as the last it recieved""" """we also reset the encoder rings and buttons, since the device component will not update them if it is not locked to a device in Live""" for index in range(16): self._grid[index].force_next_send() for index in range(32): #self._button[index].set_on_off_values(0, 127) self._button[index].send_value(0, True) self._button[index].force_next_send() for index in range(8): self._encoder_button[index + 4].send_value(0, True) self._encoder_button[index + 4].force_next_send() for index in range(12): self._encoder[index].send_value(0, True) self._encoder[index].force_next_send() """here we assign the left side of our mixer's buttons on the lower 32 keys""" if self._monohm is None: with self.component_guard(): for index in range( 4 ): #we set up a recursive loop to assign all four of our track channel strips' controls self._button[index + 16].set_on_value( MUTE[self._rgb]) #set the mute color from the Map.py self._mixer.channel_strip(index).set_mute_button( self._button[index + 16] ) #assign the mute buttons to our mixer channel strips self._button[index + 28].set_on_value( MUTE[self._rgb]) #set the mute color from the Map.py self._mixer.channel_strip(index + 4).set_mute_button( self._button[index + 28] ) #assign the mute buttons to our mixer channel strips self._button[index].set_on_off_values( SELECT[self._rgb], SELECT_OFF[self._rgb]) self._mixer.channel_strip(index).set_select_button( self._button[index] ) #assign the select buttons to our mixer channel strips self._button[index + 12].set_on_off_values( SELECT[self._rgb], SELECT_OFF[ self._rgb]) #set the select color from the Map.py self._mixer.channel_strip(index + 4).set_select_button( self._button[index + 12] ) #assign the select buttons to our mixer channel strips #self._session.set_stop_track_clip_buttons(tuple(self._button[index+4] for index in range(8))) #these last two lines assign the send_reset buttons and the stop_clip buttons for each track for index in range(8): #self._button[index + 4].set_on_off_values(SOLO[self._rgb], SOLO[self._rgb]) #this assigns the custom colors defined in the Map.py file to the stop_clip buttons. They have seperate on/off values, but we assign them both the same value so we can always identify them self._mixer.channel_strip(index).set_solo_button( self._button[index + 4]) #self._button[index + 4].send_value(STOP_CLIP[self._rgb], True) #finally, we send the on/off colors out to turn the LEDs on for the stop clip buttons for index in range( 4 ): #set up a for loop to generate an index for assigning the session nav buttons' colors self._button[index + 20].set_on_off_values( SESSION_NAV[self._rgb], SESSION_NAV_OFF[self._rgb] ) #assign the colors from Map.py to the session nav buttons self._session.set_track_bank_buttons( self._button[21], self._button[20] ) #set the track bank buttons for the Session navigation controls self._session.set_scene_bank_buttons( self._button[23], self._button[22] ) #set the scnee bank buttons for the Session navigation controls """this section assigns the grid to the clip launch functionality of the SessionComponent""" for column in range( 4 ): #we need to set up a double recursion so that we can generate the indexes needed to assign the grid buttons for row in range( 4 ): #the first recursion passes the column index, the second the row index self._scene[row].clip_slot(column).set_launch_button( self._grid[(row * 4) + column] ) #we use the indexes to grab the first the scene and then the clip we assigned above, and then we use them again to define the button held in the grid array that we want to assign to the clip slot from the session component for index in range( 4 ): #set up a for loop to generate an index for assigning the session nav buttons' colors self._button[index + 24].set_on_off_values( SHIFTS[self._rgb], SHIFTS_OFF[self._rgb] ) #assign the colors from Map.py to the session nav buttons self._session.update( ) #tell the Session component to update so that the grid will display the currently selected session region self._session.set_enabled(True) #enable the Session Component self._session_zoom.set_enabled(True) #enable the Session Zoom #self._alt_device_navigator.set_arrange_session_toggle_button(self._encoder_button[4]) self._alt_device_navigator.set_device_clip_toggle_button( self._encoder_button[5]) self._alt_device_navigator.set_detail_toggle_button( self._encoder_button[6]) #self._device_navigator.set_shift_button(self._encoder_button[7]) self._session_zoom.set_zoom_button( self._encoder_button[7] ) #assign the lower right key button to the shift function of the Zoom component self._session.set_scene_bank_buttons(self._button[25], self._button[24]) self._recorder.set_record_button(self._button[27]) self._recorder.set_re_enable_automation_button( self._button[26]) else: for index in range(8): self._mixer2.channel_strip(index).set_volume_control( self._fader[index]) self._mixer2.set_track_offset(TROLL_OFFSET) self._device_selector.set_mode_buttons(self._grid) if not self._shifted: self._assign_monomodular_controls() else: self._assign_shifted_controls() self._device1.set_parameter_controls( tuple([self._knobs[index] for index in range(8)])) self._device2.set_parameter_controls( tuple([self._knobs[index + 12] for index in range(8)])) self._device1.set_enabled(True) self._device2.set_enabled(True) self._find_devices() self._device1.update() self._device2.update() """this section assigns the encoders and encoder buttons""" self._device.set_parameter_controls( tuple([self._encoder[index + 4] for index in range(8)]) ) #assign the encoders from the device component controls - we are doing this here b #self._encoder_button[7].set_on_value(DEVICE_LOCK[self._rgb]) #set the on color for the Device lock encoder button #self._device.set_lock_button(self._encoder_button[7]) #assign encoder button 7 to the device lock control #self._encoder_button[4].set_on_value(DEVICE_ON[self._rgb]) #set the on color for the Device on/off encoder button #self._device.set_on_off_button(self._encoder_button[4]) #assing encoder button 4 to the device on/off control for index in range( 2 ): #setup a recursion to generate indexes so that we can reference the correct controls to assing to the device_navigator functions self._encoder_button[index + 8].set_on_value( DEVICE_NAV[ self._rgb]) #assign the on color for the device navigator self._encoder_button[index + 10].set_on_value( DEVICE_BANK[self._rgb] ) #assign the on color for the device bank controls self._device_navigator.set_nav_buttons( self._encoder_button[10], self._encoder_button[11] ) #set the device navigators controls to encoder buttons 10 and 11 self._device.set_bank_nav_buttons( self._encoder_button[8], self._encoder_button[9] ) #set the device components bank nav controls to encoder buttons 8 and 9 """now we turn on and update some of the components we've just made assignments to""" self._device.set_enabled(True) #enable the Device Component self._device_navigator.set_enabled(True) #enable the Device Navigator self._alt_device_navigator.set_enabled(True) self._device.update( ) #tell the Device component to update its assingments so that it will detect the currently selected device parameters and display them on the encoder rings
class Novation_Impulse2(ControlSurface): """ Script for Novation's Impulse keyboards """ def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) self.c_instance = c_instance with self.component_guard(): self.set_pad_translations(PAD_TRANSLATIONS) self._device_selection_follows_track_selection = True self._suggested_input_port = 'Impulse' self._suggested_output_port = 'Impulse' self._has_sliders = True self._current_midi_map = None self._display_reset_delay = -1 self._string_to_display = None self.shift_pressed = False # special alternative buttons mode. for now only mixer buttons become record buttons. later we will add something more self.alternative_buttons_mode = False self._shift_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 39) self._preview_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 41) self._master_slider = SliderElement(MIDI_CC_TYPE, 0, 8) self._shift_button.name = 'Shift_Button' self._master_slider.name = 'Master_Volume_Control' self._master_slider.add_value_listener(self._slider_value, identify_sender=True) self._preview_button.add_value_listener(self._preview_value) self._setup_mixer() self._setup_session() self._setup_transport() self._setup_device() self._setup_name_display() device_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 1, 10) mixer_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 1, 9) device_button.name = 'Encoder_Device_Mode' mixer_button.name = 'Encoder_Mixer_Mode' self._encoder_modes = EncoderModeSelector(self._device_component, self._mixer, self._next_bank_button, self._prev_bank_button, self._encoders) self._encoder_modes.set_device_mixer_buttons( device_button, mixer_button) self._shift_button.add_value_listener(self._shift_button_handler) for component in self.components: component.set_enabled(False) # attributes def alternative_buttons_mode(self): return self.alternative_buttons_mode def alternative_buttons_mode(self, value): self.log('alternative_buttons_mode_value ' + str(value)) self.alternative_buttons_mode = value def shift_pressed(self): return self.shift_pressed def shift_pressed(self, value): self.log('shift_pressed value ' + str(value)) self.shift_pressed = value def refresh_state(self): ControlSurface.refresh_state(self) self.schedule_message(3, self._send_midi, SYSEX_START + (6, 1, 1, 1, 247)) def handle_sysex(self, midi_bytes): if midi_bytes[0:-2] == SYSEX_START + (7, ) and midi_bytes[-2] != 0: self._has_sliders = midi_bytes[-2] != 25 self.schedule_message(1, self._show_startup_message) for control in self.controls: if isinstance(control, InputControlElement): control.clear_send_cache() for component in self.components: component.set_enabled(True) if self._has_sliders: self._mixer.master_strip().set_volume_control( self._master_slider) self._mixer.update() else: self._mixer.master_strip().set_volume_control(None) self._mixer.selected_strip().set_volume_control( self._master_slider) for index in range(len(self._sliders)): self._mixer.channel_strip(index).set_volume_control(None) slider = self._sliders[index] slider.release_parameter() if slider.value_has_listener(self._slider_value): slider.remove_value_listener(self._slider_value) self._encoder_modes.set_provide_volume_mode(not self._has_sliders) self.request_rebuild_midi_map() def disconnect(self): self.log('starting disconnect 1') self._name_display_data_source.set_display_string(' ') for encoder in self._encoders: encoder.remove_value_listener(self._encoder_value) self._master_slider.remove_value_listener(self._slider_value) if self._has_sliders: for slider in tuple(self._sliders): slider.remove_value_listener(self._slider_value) for button in self._strip_buttons: button.remove_value_listener(self._mixer_button_value) self._preview_button.remove_value_listener(self._preview_value) self.log('starting disconnect 3') ControlSurface.disconnect(self) self.log('starting disconnect 3') self._encoders = None self._sliders = None self._strip_buttons = None self._master_slider = None self._current_midi_map = None self._name_display = None self._prev_bank_button = None self._next_bank_button = None self._encoder_modes = None self._transport_view_modes = None self.log('starting disconnect 4') self._send_midi(SYSEX_START + (6, 0, 0, 0, 247)) self.log('starting disconnect 5') if self._shift_button != None: self._shift_button.remove_value_listener( self._shift_button_handler) self._shift_button = None self.log('starting disconnect 6') def build_midi_map(self, midi_map_handle): self._current_midi_map = midi_map_handle ControlSurface.build_midi_map(self, midi_map_handle) def update_display(self): ControlSurface.update_display(self) if self._string_to_display != None: self._name_display_data_source.set_display_string( self._string_to_display) self._string_to_display = None if self._display_reset_delay >= 0: self._display_reset_delay -= 1 if self._display_reset_delay == -1: self._show_current_track_name() def _setup_mixer(self): self.log('setup mixer') mute_solo_flip_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 34) self._next_nav_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 37) self._prev_nav_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 38) self._strip_buttons = [] mute_solo_flip_button.name = 'Mute_Solo_Flip_Button' self._next_nav_button.name = 'Next_Track_Button' self._prev_nav_button.name = 'Prev_Track_Button' self._mixer = SpecialMixerComponent(self, 8, self.c_instance) self._mixer.name = 'Mixer' self._mixer.set_select_buttons(self._next_nav_button, self._prev_nav_button) self._mixer.selected_strip().name = 'Selected_Channel_Strip' self._mixer.master_strip().name = 'Master_Channel_Strip' self._mixer.master_strip().set_volume_control(self._master_slider) self._sliders = [] for index in range(8): strip = self._mixer.channel_strip(index) strip.name = 'Channel_Strip_' + str(index) strip.set_invert_mute_feedback(True) self._sliders.append(SliderElement(MIDI_CC_TYPE, 0, index)) self._sliders[-1].name = str(index) + '_Volume_Control' self._sliders[-1].set_feedback_delay(-1) self._sliders[-1].add_value_listener(self._slider_value, identify_sender=True) strip.set_volume_control(self._sliders[-1]) self._strip_buttons.append( ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 9 + index)) self._strip_buttons[-1].name = str(index) + '_Mute_Button' self._strip_buttons[-1].add_value_listener( self._mixer_button_value, identify_sender=True) self._mixer.master_strip().set_mute_button( ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 17)) self._mixer.set_strip_mute_solo_buttons(tuple(self._strip_buttons), mute_solo_flip_button) #self._mixer.set_shift_button(self._shift_button) self._mixer.updateMixerButtons() self._button9 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 9 + 8) def _setup_session(self): num_pads = len(PAD_TRANSLATIONS) self._session = SessionComponent(8, 0) self._session.name = 'Session_Control' self._session.selected_scene().name = 'Selected_Scene' self._session.set_mixer(self._mixer) # for ableton 9.1.1 and lower #self._session.set_track_banking_increment(num_pads) #self._session.set_track_bank_buttons(ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 35), ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 36)) # for ableton 9.1.1 and higher self._track_left_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 36) self._track_right_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 35) self._session.set_page_left_button(self._track_left_button) self._session.set_page_right_button(self._track_right_button) pads = [] for index in range(num_pads): pads.append( ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 60 + index)) pads[-1].name = 'Pad_' + str(index) clip_slot = self._session.selected_scene().clip_slot(index) clip_slot.set_triggered_to_play_value(GREEN_BLINK) clip_slot.set_triggered_to_record_value(RED_BLINK) clip_slot.set_stopped_value(AMBER_FULL) clip_slot.set_started_value(GREEN_FULL) clip_slot.set_recording_value(RED_FULL) clip_slot.set_launch_button(pads[-1]) clip_slot.name = str(index) + '_Selected_Clip_Slot' def _setup_transport(self): rwd_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 27) ffwd_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 28) stop_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 29) play_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 30) loop_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 31) rec_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 32) ffwd_button.name = 'FFwd_Button' rwd_button.name = 'Rwd_Button' loop_button.name = 'Loop_Button' play_button.name = 'Play_Button' stop_button.name = 'Stop_Button' rec_button.name = 'Record_Button' self._transport = ShiftableTransportComponent(self.c_instance, self._session, self, ffwd_button, rwd_button) self._transport.name = 'Transport' self._transport.set_stop_buttonOnInit(stop_button) self._transport.set_play_button(play_button) self._transport.set_record_buttonOnInit(rec_button) # self._transport.set_shift_button(self._shift_button) self._transport.set_mixer9_button(self._button9) self._transport_view_modes = TransportViewModeSelector( self, self.c_instance, self._transport, self._session, ffwd_button, rwd_button, loop_button) self._transport_view_modes.name = 'Transport_View_Modes' def _setup_device(self): encoders = [] for index in range(8): encoders.append( PeekableEncoderElement( MIDI_CC_TYPE, 1, index, Live.MidiMap.MapMode.relative_binary_offset)) encoders[-1].set_feedback_delay(-1) encoders[-1].add_value_listener(self._encoder_value, identify_sender=True) encoders[-1].name = 'Device_Control_' + str(index) self._encoders = tuple(encoders) self._prev_bank_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 12) self._next_bank_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 11) self._prev_bank_button.name = 'Device_Bank_Down_Button' self._next_bank_button.name = 'Device_Bank_Up_Button' device = DeviceComponent() device.name = 'Device_Component' self.set_device_component(device) device.set_parameter_controls(self._encoders) device.set_bank_nav_buttons(self._prev_bank_button, self._next_bank_button) def _setup_name_display(self): self._name_display = PhysicalDisplayElement(16, 1) self._name_display.name = 'Display' self._name_display.set_message_parts(SYSEX_START + (8, ), (247, )) self._name_display_data_source = DisplayDataSource() self._name_display.segment(0).set_data_source( self._name_display_data_source) def _encoder_value(self, value, sender): if not sender in self._encoders: raise AssertionError if not value in range(128): raise AssertionError # display_string = self._device_component.is_enabled() and ' - ' # display_string = sender.mapped_parameter() != None and sender.mapped_parameter().name display_string = '' if self._device_component.is_enabled(): # display_string = sender.name # track = self.song().view.selected_track # display_string = str(list(tracks).index(track) + 1) pass if (sender.mapped_parameter() != None): # display_string = display_string + '-' display_string = display_string + sender.mapped_parameter().name self._set_string_to_display(display_string) def _slider_value(self, value, sender): self.log('_slider_value ' + str(value) + ' ' + str(sender)) if not sender in tuple(self._sliders) + (self._master_slider, ): raise AssertionError if not value in range(128): raise AssertionError if self._mixer.is_enabled(): display_string = ' - ' master = self.song().master_track tracks = self.song().tracks returns = self.song().return_tracks track = None if sender.mapped_parameter() != None: self.log('1') if sender == self._master_slider: self.log('2') # track = self._has_sliders and master if self._has_sliders: track = master else: self.log('2.1') track = self.song().view.selected_track else: self.log('3') track = self._mixer.channel_strip( self._sliders.index(sender))._track else: self.log('4') track = self.song().view.selected_track self.log('track=' + str(track)) if track == master: display_string = 'Master' elif track in tracks: display_string = str(list(tracks).index(track) + 1) elif track in returns: display_string = str( chr(ord('A') + list(returns).index(track))) else: # raise False or AssertionError raise AssertionError display_string += ' Volume' self._set_string_to_display(display_string) def _mixer_button_value(self, value, sender): self.log('__mixer_button_value ' + str(value) + ' ' + str(sender)) if not value in range(128): raise AssertionError #if self._mixer.is_enabled() and value > 0: if self._mixer.is_enabled(): strip = self._mixer.channel_strip( self._strip_buttons.index(sender)) #self._string_to_display = strip != None and None self._name_display.segment(0).set_data_source( strip.track_name_data_source()) self._name_display.update() self._display_reset_delay = STANDARD_DISPLAY_DELAY else: self._set_string_to_display(' - ') # if shift_pressed XOR alternative_mode if self.shift_pressed <> self.alternative_buttons_mode: self.log("_mixer_button_value") self.log(str(value)) if (value == 0): self.select_armed_track_if_only_one() def select_armed_track_if_only_one(self): self.log("select_armed_track_if_only_one") song = self.song() armed_tracks = [] tracks = song.tracks self.log("select_armed_track_if_only_one 2") for track in tracks: if track.can_be_armed and track.arm: armed_tracks.append(track) self.log(str(len(armed_tracks))) if (len(armed_tracks) == 1): self.log("selecting the track") sel_track = armed_tracks[0] self.song().view.selected_track = sel_track self._mixer._selected_tracks = [] self._mixer._selected_tracks.append(sel_track) self._mixer.on_selected_track_changed() def _preview_value(self, value): if not value in range(128): raise AssertionError for encoder in self._encoders: encoder.set_peek_mode(value > 0) def _show_current_track_name(self): if self._name_display != None and self._mixer != None: self._string_to_display = None self._name_display.segment(0).set_data_source( self._mixer.selected_strip().track_name_data_source()) self._name_display.update() def _show_startup_message(self): self._name_display.display_message('LIVE') self._display_reset_delay = INITIAL_DISPLAY_DELAY def _set_string_to_display(self, string_to_display): if not isinstance(string_to_display, (str, unicode)): raise AssertionError self._name_display.segment(0).set_data_source( self._name_display_data_source) self._string_to_display = string_to_display self._display_reset_delay = STANDARD_DISPLAY_DELAY def _on_selected_track_changed(self): self.log('_on_selected_track_changed') ControlSurface._on_selected_track_changed(self) self._show_current_track_name() #all_tracks = self._has_sliders or self._session.tracks_to_use() all_tracks2 = self._session.tracks_to_use() selected_track = self.song().view.selected_track num_strips = self._session.width() if selected_track in all_tracks2: track_index = list(all_tracks2).index(selected_track) self.log('track_index ' + str(track_index)) new_offset = track_index - track_index % num_strips self.log('new_offset ' + str(new_offset)) if not new_offset / num_strips == int(new_offset / num_strips): raise AssertionError self._session.set_offsets(new_offset, self._session.scene_offset()) def _shift_button_handler(self, value): self.log("root shift handler : " + str(value)) if not self._shift_button != None: raise AssertionError if not value in range(128): raise AssertionError self.log("root shift handler 2") self.shift_pressed = value > 0 # calling other handlers self._mixer._shift_button_handler(value) self._transport._shift_button_handler(value) self._transport_view_modes._shift_button_handler(value) #clip stop self.log("root shift handler 3") num_pads = len(PAD_TRANSLATIONS) pads = [] for index in range(num_pads): pads.append( ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 60 + index)) pads[-1].name = 'Pad_' + str(index) clip_slot = self._session.selected_scene().clip_slot(index) if self.shift_pressed: clip_slot.set_launch_button(None) else: clip_slot.set_launch_button(pads[index]) if self.shift_pressed: self._session.set_stop_track_clip_buttons(tuple(pads)) else: self._session.set_stop_track_clip_buttons(None) self.log("root shift handler 4") def flipAlternativeButtonMode(self): self.alternative_buttons_mode = not self.alternative_buttons_mode self.updateAlternativeButtonMode() def updateAlternativeButtonMode(self): self._mixer.updateMixerButtons() self._transport_view_modes.update() def log(self, message): pass
def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) self._device_selection_follows_track_selection = True with self.component_guard(): self._suppress_send_midi = True self._suppress_session_highlight = True self._control_is_with_automap = False is_momentary = True self._suggested_input_port = 'Akai MPD26' self._suggested_output_port = 'Akai MPD26' self.log("BEFORE mixer") self._setup_mixer_control() self._setup_device_control() # self.clipcontrol(8) self.log("AFTER MIXER") """SESSION ViEW""" global session session = SessionComponent(GRIDSIZE[0], GRIDSIZE[1]) session.name = 'Session_Control' matrix = ButtonMatrixElement() matrix.name = 'Button_Matrix' up_button = ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, UP_BUTTON) down_button = ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, DOWN_BUTTON) left_button = ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, LEFT_BUTTON) right_button = ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, RIGHT_BUTTON) # session.set_scene_bank_buttons(down_button, up_button) #enabling these and disabling the below zoom buttons will move one scene/track per button press # session.set_track_bank_buttons(right_button, left_button) # session_zoom = SessionZoomingComponent(session) session_zoom.set_nav_buttons( up_button, down_button, left_button, right_button ) #these make it so you move the maximum number of scenes/tracks per button press. much more useful than moving by single scenes/tracks session_stop_buttons = [] for row in range(GRIDSIZE[0]): button_row = [] scene = session.scene(row) scene.name = 'Scene_' + str(row) scene.set_launch_button( ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, SCENE_BUTTONS[row])) scene.set_triggered_value(2) session_stop_buttons.append( (ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, TRACK_STOPS[row]))) for column in range(GRIDSIZE[1]): button = ConfigurableButtonElement( True, MIDI_NOTE_TYPE, CHANNEL, LAUNCH_BUTTONS[row][column]) button.name = str(column) + '_Clip_' + str(row) + '_Button' button_row.append(button) clip_slot = scene.clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_' + str(row) clip_slot.set_launch_button(button) matrix.add_row(tuple(button_row)) self._suppress_session_highlight = False self._suppress_send_midi = False self.set_highlighting_session_component(session) session.set_mixer(mixer) session.set_stop_track_clip_buttons(tuple(session_stop_buttons))
def _setup_session_control(self): is_momentary = True right_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 43) left_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 42) up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 44) down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 45) 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' global session session = SessionComponent(4, 4) session.name = 'Session_Control' session.set_track_bank_buttons(right_button, left_button) session.set_scene_bank_buttons(down_button, up_button) self._session = session matrix = ButtonMatrixElement() matrix.name = 'Button_Matrix' scene_launch_notes = [33,34,35,36] scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, scene_launch_notes[index]) for index in range(4) ] #track_stop_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52) for index in range(4) ] 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_clip_value(2) button_notes = [1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32] for scene_index in range(4): scene = 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(4): button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, (track_index * 4) + scene_index + 1) 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(0) clip_slot.set_started_value(64) #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)) session.selected_scene().name = 'Selected_Scene' #session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64)) #session_zoom = SessionZoomingComponent(session) #session_zoom.name = 'Session_Overview' #session_zoom.set_button_matrix(matrix) #session_zoom.set_zoom_button(self._shift_button) #session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button) #session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons)) #session_zoom.set_stopped_value(0) #session_zoom.set_selected_value(127) self.set_highlighting_session_component(session) session.set_mixer(mixer) return None #return session
class LaunchpadSimple(ControlSurface): def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self._suggested_input_port = "Launchpad" self._suggested_output_port = "Launchpad" # Launchpad configuration self._send_midi(LAUNCHPAD_RESET) self._send_midi(LAUNCHPAD_ENABLE_BLINKING) # make buttons top_buttons = [make_button(MIDI_CC_TYPE, 104 + i) for i in range(8)] side_buttons = [make_button(MIDI_NOTE_TYPE, 8 + 16 * i) for i in range(8)] matrix = ButtonMatrixElement() for row in range(8): button_row = [make_button(MIDI_NOTE_TYPE, 16 * row + col) for col in range(8)] matrix.add_row(tuple(button_row)) # mixer and session components self._mixer = MixerComponent(8) self._session = SessionComponent(8, SCENES_AMOUNT) self._session.set_mixer(self._mixer) self.set_highlighting_session_component(self._session) # navigation for button in top_buttons[:4]: button.set_on_off_values(GREEN_FULL, GREEN_THIRD) self._session.set_scene_bank_buttons(top_buttons[1], top_buttons[0]) self._session.set_track_bank_buttons(top_buttons[3], top_buttons[2]) # clip launch for scene_index in range(SCENES_AMOUNT): scene = self._session.scene(scene_index) scene.set_launch_button(side_buttons[scene_index]) scene.set_triggered_value(GREEN_BLINK) scene.set_scene_value(GREEN_THIRD) scene.set_no_scene_value(LED_OFF) for track_index in range(8): clip_slot = scene.clip_slot(track_index) clip_slot.set_launch_button(matrix.get_button(track_index, scene_index)) clip_slot.set_triggered_to_play_value(GREEN_BLINK) clip_slot.set_triggered_to_record_value(RED_BLINK) clip_slot.set_started_value(GREEN_FULL) clip_slot.set_stopped_value(AMBER_THIRD) clip_slot.set_recording_value(RED_FULL) # track stop self._session.set_stop_track_clip_buttons([matrix.get_button(i, ROW_STOP) for i in range(8)]) self._session.set_stop_clip_value(RED_THIRD) self._session.set_stop_clip_triggered_value(RED_BLINK) button_stop_all = side_buttons[ROW_STOP] button_stop_all.set_on_off_values(RED_FULL, RED_THIRD) self._session.set_stop_all_clips_button(button_stop_all) # track select self._mixer.set_track_select_buttons([matrix.get_button(i, ROW_SELECT) for i in range(8)]) self._mixer.set_track_select_values(AMBER_FULL, AMBER_THIRD, LED_OFF) button_select_master = side_buttons[ROW_SELECT] button_select_master.set_on_off_values(AMBER_FULL, AMBER_THIRD) self._mixer.set_master_select_button(button_select_master) # delete clip button self._delete_button = top_buttons[INDEX_DELETE_BUTTON] self._delete_button.set_on_off_values(RED_BLINK, RED_THIRD) self._delete_button.add_value_listener(self._delete_value_listener) self._del_pressed = False self._delete_button.turn_off() # quantization toggle self._quantization_toggle = QuantizationToggle( top_buttons[INDEX_QUANTIZATION_BUTTON], self.song(), GREEN_THIRD, RED_THIRD ) # browser view toggle self._browser_view_toggle = ViewToggle( side_buttons[INDEX_BROWSER_VIEW_BUTTON], ABLETON_VIEW_BROWSER, GREEN_THIRD, RED_THIRD ) # detail view toggle self._device_view_toggle = DetailViewToggle( side_buttons[INDEX_DETAIL_VIEW_BUTTON], GREEN_THIRD, RED_THIRD, LED_OFF ) def disconnect(self): self._send_midi(LAUNCHPAD_RESET) ControlSurface.disconnect(self) self._delete_button.remove_value_listener(self._delete_value_listener) self._delete_button = None self._quantization_toggle.disconnect() self._quantization_toggle = None self._browser_view_toggle.disconnect() self._browser_view_toggle = None self._device_view_toggle.disconnect() self._device_view_toggle = None self._session = None self._mixer = None def receive_midi(self, midi_bytes): if self._del_pressed and self._delete_clip(midi_bytes): return else: ControlSurface.receive_midi(self, midi_bytes) def _delete_value_listener(self, value): self._del_pressed = value == 127 self._delete_button.set_light(self._del_pressed) def _delete_clip(self, midi_bytes): if midi_bytes[0] == MIDI_NOTE_ON_VALUE: row, col = launchpad_button_loc(midi_bytes[1]) if row < SCENES_AMOUNT and col < 8: self._session.scene(row).clip_slot(col)._do_delete_clip() return True return False
class MidiFighterTwister(ControlSurface): __module__ = __name__ __doc__ = "MidiFighterTwister class" def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self.__c_instance = c_instance self.show_message('Script initiated') self.init() def init(self): # initialize listeners, caches and colors self.flush_all() self.mf_disable_bank_buttons() self.mf_init_page_config() self.mf_init_light_pages() # Start listeners to call dispatcher self.song().view.add_detail_clip_listener( self.dispatch_detail_clip_listener) self.song().add_current_song_time_listener( self.dispatch_current_song_time_listener) self.song().view.add_selected_track_listener( self.dispatch_selected_track_listener) self.device_listener_wrapper() # Initialize the sequencer buttons self.sequencer_init_buttons() self.sequencer_init_rotaries() self.init_clip_page() self.init_pad_page() self.init_device_params() def flush_all(self): for poti in range(64): for channel in range(4): self._send_midi((175 + channel, poti, 0)) def mf_init_page_config(self): # Initialize configuration parameters # Sequencer configuration self.sequencer_page_default_color = 1 self.sequencer_current_page_color_index = self.sequencer_page_default_color self.sequencer_base_default_note = 36 self.sequencer_current_selected_note = self.sequencer_base_default_note self.sequencer_clip_position_16th = None # Midi Channels self.rotary_midi_channel = 175 + 1 self.ring_midi_channel = 175 + 1 self.switch_midi_channel = 175 + 2 self.light_midi_channel = 175 + 2 # Pages cc map self.clip_page_cc = range(0, 16) self.sequencer_page_cc = range(16, 32) self.note_page_cc = range(32, 48) self.control_page_cc = range(48, 64) # Pages init color self.clip_page_colors = [1] * 16 self.sequencer_page_colors = [self.sequencer_page_default_color] * 16 self.note_page_colors = range(1, 127, 16) * 2 #self.note_page_colors = [0] * 16 self.control_page_colors = [1] * 16 # Status cache for sequencer self.switch_encoder_status_cache = [False] * 64 # List to store ButtonElements in self.switch_encoder_buttons = [False] * 64 # Status cache for rotaries self.rotary_encoder_potis = [False] * 64 def mf_init_light_pages(self): sequencer_page_map = zip(self.sequencer_page_cc, self.sequencer_page_colors) for light_encoder_cc, light_color_cc in sequencer_page_map: self._mf_set_light(light_encoder_cc, light_color_cc, False) note_page_map = zip(self.note_page_cc, self.note_page_colors) for light_encoder_cc, light_color_cc in note_page_map: self._mf_set_light(light_encoder_cc, light_color_cc, False) def _mf_set_light(self, light_encoder_cc, light_color_cc, status): # Sets color on midi channel 2 (177) end updates status cache # for sequencer to remember statuses self._send_midi( (self.light_midi_channel, light_encoder_cc, light_color_cc)) self.switch_encoder_status_cache[light_encoder_cc] = status def mf_disable_bank_buttons(self): # Workaround for not sending values to track when pressing bank buttons self.padm0 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 0) self.padm1 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 1) self.padm2 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 2) self.padm3 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 4, 3) self.padm0.add_value_listener(self.bank_buttons_dummy, identify_sender=True) self.padm1.add_value_listener(self.bank_buttons_dummy, identify_sender=True) self.padm2.add_value_listener(self.bank_buttons_dummy, identify_sender=True) self.padm3.add_value_listener(self.bank_buttons_dummy, identify_sender=True) def bank_buttons_dummy(self): pass def dispatch_detail_clip_listener(self): self.current_clip = self.song().view.highlighted_clip_slot.clip self.init_sequencer() try: if self.current_clip.is_midi_clip and not self.current_clip.notes_has_listener: # Update leds when notes are added or removed self.current_clip.add_notes_listener( self._sequencer_update_notes_to_light) self.init_sequencer() else: self.sequencer_reset_colors() except AttributeError: pass def dispatch_current_song_time_listener(self): self.sequencer_light_follows_beat() def dispatch_selected_track_listener(self): self.device_auto_select() self.device_listener_wrapper() def device_listener_wrapper(self): selected_track = self.song().view.selected_track if not selected_track.devices_has_listener(self.device_auto_select): self.song().view.selected_track.add_devices_listener( self.device_auto_select) # Sequencer def init_sequencer(self): self.sequencer_current_selected_note = self.sequencer_base_default_note self.sequencer_current_page_color_index = self.sequencer_page_default_color self._sequencer_update_notes_to_light() def sequencer_init_buttons(self): for switch_encoder_cc in self.sequencer_page_cc: self.switch_encoder_buttons[switch_encoder_cc] = ButtonElement( IS_MOMENTARY, MIDI_CC_TYPE, 1, switch_encoder_cc) self.switch_encoder_buttons[switch_encoder_cc].add_value_listener( self.sequencer_button_press, identify_sender=True) self.padl14 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 14) self.padr17 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 17) self.padl16 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 16) self.padr19 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 19) self.padl14.add_value_listener(self.sequencer_side_button_press, identify_sender=True) self.padr17.add_value_listener(self.sequencer_side_button_press, identify_sender=True) self.padl16.add_value_listener(self.sequencer_side_button_press, identify_sender=True) self.padr19.add_value_listener(self.sequencer_side_button_press, identify_sender=True) def sequencer_init_rotaries(self): for rotary_encoder_cc in self.sequencer_page_cc: self.rotary_encoder_potis[rotary_encoder_cc] = EncoderElement( MIDI_CC_TYPE, 0, rotary_encoder_cc, Live.MidiMap.MapMode.absolute) self.rotary_encoder_potis[rotary_encoder_cc].add_value_listener( self.sequencer_rotary_change, identify_sender=True) def sequencer_rotary_change(self, value, sender): try: self.current_clip except AttributeError: return False if self.current_clip.is_midi_clip: cc_value = sender._msg_identifier if value > 0: if not self.switch_encoder_status_cache[cc_value]: self._send_midi((self.light_midi_channel, cc_value, self.sequencer_current_light_on_color)) self._send_midi((self.ring_midi_channel, cc_value, 100)) self.switch_encoder_status_cache[cc_value] = True self.current_clip.set_notes( ((self.sequencer_current_selected_note, cc_value % 16 * 0.25, 0.25, value, False), )) elif value == 0: self._send_midi((self.light_midi_channel, cc_value, self.sequencer_current_page_color)) self.current_clip.remove_notes( cc_value % 16 * 0.25, self.sequencer_current_selected_note, 0.25, 1) self.switch_encoder_status_cache[cc_value] = False def sequencer_button_press(self, value, sender): try: self.current_clip except AttributeError: return False if self.current_clip.is_midi_clip: cc_value = sender._msg_identifier if value > 0: if not self.switch_encoder_status_cache[cc_value]: self._send_midi((self.light_midi_channel, cc_value, self.sequencer_current_light_on_color)) self.current_clip.set_notes( ((self.sequencer_current_selected_note, cc_value % 16 * 0.25, 0.25, 100, False), )) self.switch_encoder_status_cache[cc_value] = True self._send_midi((self.ring_midi_channel, cc_value, 100)) else: self._send_midi((self.light_midi_channel, cc_value, self.sequencer_current_page_color)) self._send_midi((self.ring_midi_channel, cc_value, 0)) self.current_clip.remove_notes( cc_value % 16 * 0.25, self.sequencer_current_selected_note, 0.25, 1) self.switch_encoder_status_cache[cc_value] = False def sequencer_side_button_press(self, value, sender): try: cc_value = sender._msg_identifier if value > 0: # Note/clolor up/down if cc_value == 14 and self.sequencer_current_selected_note > 0: self.sequencer_current_selected_note = self.sequencer_current_selected_note - 1 self.sequencer_current_page_color_index = self.sequencer_current_page_color_index - 16 self._sequencer_update_notes_to_light() self.sequencer_clip_position_16th = None self.show_message( "Selected Midi Note: " + str(self.sequencer_current_selected_note)) if cc_value == 17 and self.sequencer_current_selected_note < 127: self.sequencer_current_selected_note = self.sequencer_current_selected_note + 1 self.sequencer_current_page_color_index = self.sequencer_current_page_color_index + 16 self._sequencer_update_notes_to_light() self.sequencer_clip_position_16th = None self.show_message( "Selected Midi Note: " + str(self.sequencer_current_selected_note)) # New/duplicate clip if cc_value == 16 and self.sequencer_current_selected_note > 0: self.duplicate_clip() if cc_value == 19 and self.sequencer_current_selected_note > 0: self.session_record() except AttributeError: pass def sequencer_light_follows_beat(self): try: if self.current_clip.is_midi_clip: if self.sequencer_clip_position_16th == None: self.sequencer_clip_position_16th = int( self.current_clip.playing_position / 0.25) if self.switch_encoder_status_cache[self.sequencer_page_cc[ self.sequencer_clip_position_16th]]: self._send_midi( (177, self.sequencer_page_cc[ self.sequencer_clip_position_16th], self.sequencer_current_light_on_color)) else: self._send_midi((177, self.sequencer_page_cc[ self.sequencer_clip_position_16th], self.sequencer_current_page_color)) elif self.sequencer_clip_position_16th != int( self.current_clip.playing_position / 0.25): if self.switch_encoder_status_cache[self.sequencer_page_cc[ self.sequencer_clip_position_16th]]: self._send_midi( (177, self.sequencer_page_cc[ self.sequencer_clip_position_16th], self.sequencer_current_light_on_color)) else: self._send_midi((177, self.sequencer_page_cc[ self.sequencer_clip_position_16th], self.sequencer_current_page_color)) self.sequencer_clip_position_16th = int( self.current_clip.playing_position / 0.25) self._send_midi((177, self.sequencer_page_cc[ self.sequencer_clip_position_16th], self.sequencer_current_light_beat_color)) except IndexError: pass @property def sequencer_current_light_on_color(self): # light on color to be relative to page color return self.sequencer_current_page_color + 32 % 128 @property def sequencer_current_light_beat_color(self): # light on color to be relative to page color return self.sequencer_current_page_color + 64 % 128 @property def sequencer_current_page_color(self): return self.sequencer_current_page_color_index % 128 def _sequencer_get_midi_notes(self, note): # self.current_clip.get_notes(start, self.sequencer_current_selected_note, # selection_length, hight) try: return self.current_clip.get_notes(0, note, 4, 1) except AttributeError: return [] def _sequencer_update_notes_to_light(self): self.sequencer_reset_colors() notes_for_current_selected_note = self._sequencer_get_midi_notes( self.sequencer_current_selected_note) for note in notes_for_current_selected_note: light_encoder_cc = int(note[1] * 4 + self.sequencer_page_cc[0]) self._send_midi( (self.ring_midi_channel, light_encoder_cc, note[3])) self._mf_set_light(light_encoder_cc, self.sequencer_current_light_on_color, True) def sequencer_reset_colors(self): for light_encoder_cc in self.sequencer_page_cc: self._mf_set_light(light_encoder_cc, self.sequencer_current_page_color, False) self._send_midi((self.ring_midi_channel, light_encoder_cc, 0)) def duplicate_clip(self): self.log_message("duplicate clip") #if self._clip_slot and self._clip_slot.has_clip: # slot_name = self._clip_slot.clip.name # track = self._clip_slot.canonical_parent current_track = self.song().view.selected_track current_clip_slot = self.song().view.highlighted_clip_slot self.song().duplicate_scene( list(current_track.clip_slots).index(current_clip_slot)) #new_clip = current_track.duplicate_clip_slot( # list(current_track.clip_slots).index(current_clip_slot)+1) #self.log_message(new_clip) #selected_track = self.song().view.selected_track #selected_track.duplicate_clip_slot(selected_track) def session_record(self): self.log_message("session record") #self.song().trigger_session_record() # Clip page setion def init_clip_page(self): num_tracks = 4 num_scenes = 3 self.flash_status = 1 self.Mixer = MixerComponent(4, 3) # Volencoder self.volencoders = [None for index in range(num_tracks)] for index in range(num_tracks): self.volencoders[index] = EncoderElement( MIDI_CC_TYPE, 0, index, Live.MidiMap.MapMode.absolute) self.Mixer.channel_strip(index).set_volume_control( self.volencoders[index]) # Sendencoder for index in range(num_tracks): encoder_cc_send_1 = index + num_tracks encoder_cc_send_2 = index + num_tracks * 2 send1 = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_send_1, Live.MidiMap.MapMode.absolute) send2 = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_send_2, Live.MidiMap.MapMode.absolute) self.Mixer.channel_strip(index).set_send_controls((send1, send2)) # Panencoder for index in range(num_tracks): encoder_cc_pan = index + num_tracks * 3 pan = EncoderElement(MIDI_CC_TYPE, 0, encoder_cc_pan, Live.MidiMap.MapMode.absolute) self.Mixer.channel_strip(index).set_pan_control(pan) # Arm-/selectbuttons for index in range(num_tracks): armbutton = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, index + 12) self.Mixer.channel_strip(index).set_arm_button(armbutton) self.Mixer.channel_strip(index).set_select_button(armbutton) # Navigation buttons self.padl11 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 11) self.padr8 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 8) self.padl10 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 10) self.padr13 = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 3, 13) self.grid = [None for index in range(num_tracks * 3)] for index in range(num_tracks * 3): self.grid[index] = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, index) self.matrix = ButtonMatrixElement() for row in range(num_scenes): button_row = [] for column in range(num_tracks): button_row.append(self.grid[column + (row * 4)]) self.log_message(str(column + (row * 4))) self.matrix.add_row(tuple(button_row)) self.Session = SessionComponent(num_tracks, num_scenes) self.Session.name = "Session" self.Session.set_offsets(0, 0) self.Session.set_mixer(self.Mixer) self.Session._do_show_highlight() self.set_highlighting_session_component(self.Session) self.Session.set_track_bank_buttons(self.padl11, self.padr8) self.Session.set_scene_bank_buttons(self.padr13, self.padl10) self.scene = [None for index in range(num_scenes)] for row in range(num_scenes): self.scene[row] = self.Session.scene(row) self.scene[row].name = 'Scene_' + str(row) for column in range(num_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( 35) self.scene[row].clip_slot(column).set_stopped_value(68) self.scene[row].clip_slot(column).set_started_value(45) self.scene[row].clip_slot( column).set_triggered_to_record_value(100) self.scene[row].clip_slot(column).set_recording_value(80) for column in range(num_tracks): for row in range(num_scenes): self.scene[row].clip_slot(column).set_launch_button( self.grid[column + (row * 4)]) for index in range(num_tracks * num_scenes): self.grid[index].clear_send_cache() def update_display(self): # Called every 100 ms ControlSurface.update_display(self) self.refresh_state() self.Session.set_enabled(True) self.Session.update() # Sequencer hack try: for light_encoder_cc in self.sequencer_page_cc: self._send_midi((self.ring_midi_channel, light_encoder_cc, 0)) notes_for_current_selected_note = self._sequencer_get_midi_notes( self.sequencer_current_selected_note) for note in notes_for_current_selected_note: light_encoder_cc = int(note[1] * 4 + self.sequencer_page_cc[0]) self._send_midi( (self.ring_midi_channel, light_encoder_cc, note[3])) except AttributeError: pass # Pad Section def init_pad_page(self): self.pad_device_params() PAD_TRANSLATION = ((0, 0, 32, 1), (1, 0, 33, 1), (2, 0, 34, 1), (3, 0, 35, 1), (0, 1, 36, 1), (1, 1, 37, 1), (2, 1, 38, 1), (3, 1, 39, 1), (0, 2, 40, 1), (1, 2, 41, 1), (2, 2, 42, 1), (3, 2, 43, 1), (0, 3, 44, 1), (1, 3, 45, 1), (2, 3, 46, 1), (3, 3, 47, 1)) self.set_pad_translations(PAD_TRANSLATION) self._device_selection_follows_track_selection = True def pad_device_params(self): device_param_controls = [] for param in self.note_page_cc[:8]: self.rotary_encoder_potis[param] = EncoderElement( MIDI_CC_TYPE, 0, param, Live.MidiMap.MapMode.absolute) self.rotary_encoder_potis[param].release_parameter() self.rotary_encoder_potis[param].send_value(0, True) self.rotary_encoder_potis[param].clear_send_cache() device_param_controls.append(self.rotary_encoder_potis[param]) device = DeviceComponent() device.name = 'Device_Component pad' device.set_parameter_controls(tuple(device_param_controls)) self.set_device_component(device) #def scrolling(self): # self.application().view.scroll_view(ndir, 'Detail/DeviceChain', True) # Live.Song.Song.View.selected_track #Live.Song.Song.View.select_device()[0] # Device parameter section def init_device_params(self): device_param_controls = [] device_bank_buttons = [] for param in self.control_page_cc[:8]: self.rotary_encoder_potis[param] = EncoderElement( MIDI_CC_TYPE, 0, param, Live.MidiMap.MapMode.absolute) self.switch_encoder_buttons[param] = ButtonElement( IS_MOMENTARY, MIDI_CC_TYPE, 1, param) self.rotary_encoder_potis[param].release_parameter() self.rotary_encoder_potis[param].send_value(0, True) self.rotary_encoder_potis[param].clear_send_cache() device_param_controls.append(self.rotary_encoder_potis[param]) device_bank_buttons.append(self.switch_encoder_buttons[param]) device = DeviceComponent() device.name = 'Device_Component' device.set_parameter_controls(tuple(device_param_controls)) device.set_bank_buttons(tuple(device_bank_buttons)) device.set_on_off_button( ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 56)) self.set_device_component(device) def device_auto_select(self): # Iterates through devices within a track and assigns the first # DrumPad device to activate the individual drum's device. # Use first device in case none is a DrumPad device. selected_track = self.song().view.selected_track devices = selected_track.devices for device in devices: if device.can_have_drum_pads: self.current_drum_device = device pad_device = self.current_drum_device.view.selected_chain.devices[ 0] self.song().view.select_device(pad_device) if not self.current_drum_device.view.selected_drum_pad_has_listener( self.device_update_current_note): self.current_drum_device.view.add_selected_drum_pad_listener( self.device_update_current_note) break else: self.song().view.select_device(devices[0]) def device_update_current_note(self): current_note = self.current_drum_device.view.selected_drum_pad.note self.sequencer_current_selected_note = current_note # Update light of active pad #self._send_midi((self.light_midi_channel, light_encoder_cc, 63)) try: self.current_clip = self.song().view.highlighted_clip_slot.clip self.current_clip.is_midi_clip self._sequencer_update_notes_to_light() except AttributeError: pass
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
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
class Tweaker(ControlSurface): __module__ = __name__ __doc__ = " MonOhmod companion controller script " def __init__(self, c_instance): """everything except the '_on_selected_track_changed' override and 'disconnect' runs from here""" ControlSurface.__init__(self, c_instance) with self.component_guard(): self._update_linked_device_selection = None self._tweaker_version = "0.4" self.log_message( "--------------= Tweaker Mixer " + str(self._tweaker_version) + " log opened =--------------" ) self._update_linked_device_selection = None self._setup_mixer_control() self._setup_session_control() """script initialization methods""" def _setup_controls(self): is_momentary = True self._grid = [None for index in range(8)] for column in range(8): self._grid[column] = [ FlashingButtonElement( is_momentary, MIDI_NOTE_TYPE, CHANNEL, column + (row * 8), "Grid_" + str(column) + "_" + str(row), self, ) for row in range(4) ] self._button = [ FlashingButtonElement( is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_BUTTONS[index], "Button_" + str(index), self ) for index in range(len(TWEAKER_BUTTONS)) ] self._nav = [ FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_NAVS[index], "Nav_" + str(index), self) for index in range(len(TWEAKER_NAVS)) ] self._encoder_buttons = [ FlashingButtonElement( is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_ENCODER_BUTTONS[index], "Encoder_Button_" + str(index), self, ) for index in range(len(TWEAKER_ENCODER_BUTTONS)) ] self._dial = [ EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_DIALS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_DIALS)) ] self._fader = [ EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_FADERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_FADERS)) ] self._crossfader = EncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute) self._encoder = [ EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_ENCODERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_ENCODERS)) ] self._pad = [ FlashingButtonElement( not is_momentary, MIDI_CC_TYPE, CHANNEL, TWEAKER_PADS[index], "Pad_" + str(index), self ) for index in range(len(TWEAKER_PADS)) ] self._matrix = ButtonMatrixElement() self._matrix.name = "Matrix" for row in range(4): button_row = [] for column in range(7): button_row.append(self._grid[column][row]) self._matrix.add_row(tuple(button_row)) def _setup_transport_control(self): self._transport = TransportComponent() self._transport.name = "Transport" def _setup_mixer_control(self): is_momentary = True self._num_tracks = 2 # A mixer is one-dimensional; self._mixer = MixerComponent(2, 0, False, True) self._mixer.name = "Mixer" self._mixer.tracks_to_use = self._mixer_tracks_to_use(self._mixer) self._mixer.set_track_offset(0) # Sets start point for mixer strip (offset from left) def _setup_session_control(self): is_momentary = True num_tracks = 2 num_scenes = 3 self._session = SessionComponent(num_tracks, num_scenes) self._session.name = "Session" self._session.set_offsets(0, 0) self._session.set_mixer(self._mixer) self.set_highlighting_session_component(self._session) """general functionality""" def allow_updates(self, allow_updates): for component in self.components: component.set_allow_update(int(allow_updates != 0)) def disconnect(self): """clean things up on disconnect""" if self._session._is_linked(): self._session._unlink() self.log_message( "--------------= Tweaker Mixer " + str(self._tweaker_version) + " log closed =--------------" ) # Create entry in log file ControlSurface.disconnect(self) return None def connect_script_instances(self, instanciated_scripts): link = False for s in instanciated_scripts: if "_tweaker_version" in dir(s): if s._tweaker_version == self._tweaker_version: link = True if not s is self: s._linked_session = self._session # break if link is True: if not self._session._is_linked(): # self._session.set_offsets(0, 0) self._session._link() def _mixer_tracks_to_use(self, mixer): def tracks_to_use(): return tuple(self.song().visible_tracks) + tuple(self.song().return_tracks) return tracks_to_use
class midi_twister_110(ControlSurface): def __init__(self, c_instance): super(midi_twister_110, self).__init__(c_instance) with self.component_guard(): global active_mode active_mode = "_mode1" self._set_active_mode() self.show_message("Modified by XXPW") def _mode1(self): self.show_message("_mode1 is active") # mixer global mixer num_tracks = 32 num_returns = 7 self.mixer = MixerComponent(num_tracks, num_returns) self.mixer.set_track_offset(0) self.song().view.selected_track = self.mixer.channel_strip(0)._track # sends send0_controls = ( SliderElement(MIDI_CC_TYPE, 0, 32), SliderElement(MIDI_CC_TYPE, 0, 36), SliderElement(MIDI_CC_TYPE, 0, 40), None, None, None, None, None, ) self.mixer.channel_strip(0).set_send_controls(tuple(send0_controls)) self.mixer.channel_strip(0).set_volume_control( SliderElement(MIDI_CC_TYPE, 0, 44)) send1_controls = ( SliderElement(MIDI_CC_TYPE, 0, 33), SliderElement(MIDI_CC_TYPE, 0, 37), SliderElement(MIDI_CC_TYPE, 0, 41), None, None, None, None, None, ) self.mixer.channel_strip(1).set_send_controls(tuple(send1_controls)) self.mixer.channel_strip(1).set_volume_control( SliderElement(MIDI_CC_TYPE, 0, 45)) send2_controls = ( SliderElement(MIDI_CC_TYPE, 0, 34), SliderElement(MIDI_CC_TYPE, 0, 38), SliderElement(MIDI_CC_TYPE, 0, 42), None, None, None, None, None, ) self.mixer.channel_strip(2).set_send_controls(tuple(send2_controls)) self.mixer.channel_strip(2).set_volume_control( SliderElement(MIDI_CC_TYPE, 0, 46)) send3_controls = ( SliderElement(MIDI_CC_TYPE, 0, 35), SliderElement(MIDI_CC_TYPE, 0, 39), SliderElement(MIDI_CC_TYPE, 0, 43), None, None, None, None, None, ) self.mixer.channel_strip(3).set_send_controls(tuple(send3_controls)) self.mixer.channel_strip(3).set_volume_control( SliderElement(MIDI_CC_TYPE, 0, 47)) # session global _session num_tracks = 4 num_scenes = 3 session_buttons = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11] self._pads = [ ButtonElement(1, MIDI_CC_TYPE, 1, session_buttons[index]) for index in range(num_tracks * num_scenes) ] self._grid = ButtonMatrixElement(rows=[ self._pads[(index * num_tracks):(index * num_tracks) + num_tracks] for index in range(num_scenes) ]) self._session = SessionComponent(num_tracks, num_scenes) self._session.set_clip_launch_buttons(self._grid) self.set_highlighting_session_component(self._session) # session track stop stop_track_buttons = [12, 13, 14, 15] self._track_stop_buttons = [ ButtonElement(1, MIDI_CC_TYPE, 1, stop_track_buttons[index]) for index in range(num_tracks) ] self._session.set_stop_track_clip_buttons( tuple(self._track_stop_buttons)) # session navigation self.session_left = ButtonElement(1, MIDI_CC_TYPE, 3, 8) self._session.set_page_left_button(self.session_left) self.session_left.add_value_listener(self._reload_active_devices, identify_sender=False) self.session_right = ButtonElement(1, MIDI_CC_TYPE, 3, 11) self._session.set_page_right_button(self.session_right) self.session_right.add_value_listener(self._reload_active_devices, identify_sender=False) self.session_up = ButtonElement(1, MIDI_CC_TYPE, 3, 10) self._session.set_page_up_button(self.session_up) self.session_up.add_value_listener(self._reload_active_devices, identify_sender=False) self.session_down = ButtonElement(1, MIDI_CC_TYPE, 3, 13) self._session.set_page_down_button(self.session_down) self.session_down.add_value_listener(self._reload_active_devices, identify_sender=False) self._session._link() self._session.set_mixer(self.mixer) #self._session.set_mixer(self.mixer) self._mode1_devices() self.add_device_listeners() # button: next device self.next_device = ButtonElement(0, MIDI_CC_TYPE, 1, 25) self.next_device.add_value_listener(self._next_device_value, identify_sender=False) # button: prev device self.previous_device = ButtonElement(1, MIDI_CC_TYPE, 1, 24) self.previous_device.add_value_listener(self._prev_device_value, identify_sender=False) # transport global transport self.transport = TransportComponent() self.transport.name = 'Transport' loop_button = ButtonElement(1, MIDI_CC_TYPE, 1, 50) loop_button.name = 'loop_button' self.transport.set_loop_button(loop_button) stop_button = ButtonElement(1, MIDI_CC_TYPE, 1, 49) stop_button.name = 'stop_button' self.transport.set_stop_button(stop_button) play_button = ButtonElement(1, MIDI_CC_TYPE, 1, 48) play_button.name = 'play_button' self.transport.set_play_button(play_button) # button: track navigation right self.track_navigation_right = ButtonElement(1, MIDI_CC_TYPE, 3, 17) self.track_navigation_right.add_value_listener( self._track_navigation_right_track_nav, identify_sender=False) # button: track navigation left self.track_navigation_left = ButtonElement(1, MIDI_CC_TYPE, 3, 14) self.track_navigation_left.add_value_listener( self._track_navigation_left_track_nav, identify_sender=False) def _remove_mode1(self): # mixer global mixer self._remove_mode1_devices() self.remove_device_listeners() send0_controls = ( None, None, None, None, None, None, None, None, ) self.mixer.channel_strip(0).set_send_controls(tuple(send0_controls)) send1_controls = ( None, None, None, None, None, None, None, None, ) self.mixer.channel_strip(1).set_send_controls(tuple(send1_controls)) send2_controls = ( None, None, None, None, None, None, None, None, ) self.mixer.channel_strip(2).set_send_controls(tuple(send2_controls)) send3_controls = ( None, None, None, None, None, None, None, None, ) self.mixer.channel_strip(3).set_send_controls(tuple(send3_controls)) # session global _session self._session.set_clip_launch_buttons(None) self.set_highlighting_session_component(None) self._session.set_mixer(None) self._session.set_stop_all_clips_button(None) # session track stop self._track_stop_buttons = None self._session.set_stop_track_clip_buttons(None) # session scene launch self._scene_launch_buttons = None self._session.set_scene_launch_buttons(None) # session navigation self.session_left.remove_value_listener(self._reload_active_devices) self._session.set_page_left_button(None) self.session_right.remove_value_listener(self._reload_active_devices) self._session.set_page_right_button(None) self.session_up.remove_value_listener(self._reload_active_devices) self._session.set_page_up_button(None) self.session_down.remove_value_listener(self._reload_active_devices) self._session.set_page_down_button(None) self._session = None self.next_device.remove_value_listener(self._next_device_value) self.next_device = None self.previous_device.remove_value_listener(self._prev_device_value) self.previous_device = None # transport global transport self.transport.set_loop_button(None) self.transport.set_stop_button(None) self.transport.set_play_button(None) self.transport = None self.track_navigation_right.remove_value_listener( self._track_navigation_right_track_nav) self.track_navigation_right = None self.track_navigation_left.remove_value_listener( self._track_navigation_left_track_nav) self.track_navigation_left = None def _mode1_devices(self): global mixer global _session # device self.mixer.selected_strip().set_volume_control( SliderElement(MIDI_CC_TYPE, 0, 28)) self.mixer.selected_strip().set_pan_control( SliderElement(MIDI_CC_TYPE, 0, 29)) self.mixer.selected_strip().set_mute_button( ButtonElement(1, MIDI_CC_TYPE, 1, 28)) self.mixer.selected_strip().set_solo_button( ButtonElement(1, MIDI_CC_TYPE, 1, 29)) if (len(self.mixer.selected_strip()._track.devices) > 0): global device_tracktype_selected__chain_number_selected self.device_tracktype_selected__chain_number_selected = DeviceComponent( ) device_controls = ( SliderElement(MIDI_CC_TYPE, 0, 16), SliderElement(MIDI_CC_TYPE, 0, 17), SliderElement(MIDI_CC_TYPE, 0, 18), SliderElement(MIDI_CC_TYPE, 0, 19), SliderElement(MIDI_CC_TYPE, 0, 20), SliderElement(MIDI_CC_TYPE, 0, 21), SliderElement(MIDI_CC_TYPE, 0, 22), SliderElement(MIDI_CC_TYPE, 0, 23), ) self.device_tracktype_selected__chain_number_selected.set_parameter_controls( tuple(device_controls)) self.set_device_component( self.device_tracktype_selected__chain_number_selected) self.device_tracktype_selected__chain_number_selected.set_on_off_button( ButtonElement(1, MIDI_CC_TYPE, 1, 26)) self.device_tracktype_selected__chain_number_selected.set_bank_nav_buttons( ButtonElement(0, MIDI_CC_TYPE, 1, 31), ButtonElement(1, MIDI_CC_TYPE, 1, 33)) def _remove_mode1_devices(self): global mixer global _session # device if (hasattr(self, 'device_tracktype_selected__chain_number_selected')): global device_tracktype_selected__chain_number_selected device_controls = ( None, None, None, None, None, None, None, None, ) self.device_tracktype_selected__chain_number_selected.set_parameter_controls( tuple(device_controls)) self.device_tracktype_selected__chain_number_selected.set_on_off_button( None) self.device_tracktype_selected__chain_number_selected.set_bank_nav_buttons( None, None) self.set_device_component( self.device_tracktype_selected__chain_number_selected) def add_device_listeners(self): global mixer num_of_tracks = len(self.song().tracks) value = "add device listener" for index in range(num_of_tracks): self.song().tracks[index].add_devices_listener( self._reload_active_devices) def remove_device_listeners(self): global mixer num_of_tracks = len(self.song().tracks) value = "remove device listener" for index in range(num_of_tracks): self.song().tracks[index].remove_devices_listener( self._reload_active_devices) def _on_selected_track_changed(self): ControlSurface._on_selected_track_changed(self) self._display_reset_delay = 0 value = "selected track changed" self._reload_active_devices(value) def _reload_active_devices(self, value=None): self._remove_active_devices() self._set_active_devices() def _set_active_devices(self): global active_mode # activate mode if (active_mode == "_mode1") and (hasattr(self, '_mode1_devices')): self._mode1_devices() def _remove_active_devices(self): global active_mode # remove activate mode if (active_mode == "_mode1") and (hasattr(self, '_mode1_devices')): self._remove_mode1_devices() def _next_device_value(self, value): if value > 0: self._device = self.song().view.selected_track.view.selected_device if self._device is not None: self.song().view.select_device( self.song().view.selected_track.devices[ self.selected_device_idx() + 1]) def _prev_device_value(self, value): if value > 0: self._device = self.song().view.selected_track.view.selected_device if self._device is not None: self.song().view.select_device( self.song().view.selected_track.devices[ self.selected_device_idx() - 1]) def selected_device_idx(self): self._device = self.song().view.selected_track.view.selected_device return self.tuple_index(self.song().view.selected_track.devices, self._device) def _track_navigation_right_track_nav(self, value): if value > 0: self.song().view.selected_track = self.song().tracks[ self.selected_track_idx() + 1] def _track_navigation_left_track_nav(self, value): if value > 0: self.song().view.selected_track = self.song().tracks[ self.selected_track_idx() - 1] def selected_track_idx(self): return self.tuple_index(self.song().tracks, self.song().view.selected_track) def _set_active_mode(self): global active_mode # activate mode if active_mode == "_mode1": self._mode1() def _remove_active_mode(self): global active_mode # remove activate mode if active_mode == "_mode1": self._remove_mode1() def _activate_mode1(self, value): global active_mode if value > 0: self._remove_active_mode() active_mode = "_mode1" self._set_active_mode() def _activate_shift_mode1(self, value): global active_mode if value > 0: self._remove_active_mode() self._mode1() else: self._remove_mode1() self._set_active_mode() def tuple_index(self, tuple, obj): for i in xrange(0, len(tuple)): if (tuple[i] == obj): return i return (False) def disconnect(self): super(midi_twister_110, self).disconnect()
class Alias(ControlSurface): __module__ = __name__ __doc__ = " Alias 8 controller script " def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) self.set_suppress_rebuild_requests(True) self._host_name = 'Alias' self._color_type = 'OhmRGB' self.log_message("--------------= Alias log opened =--------------") self._rgb = 0 self._timer = 0 self.flash_status = 1 self._clutch_device_selection = False self._touched = 0 self._update_linked_device_selection = None self._setup_monobridge() self._setup_controls() self._setup_mixer_control() self._setup_session_control() self._setup_mixer_nav() self.set_suppress_rebuild_requests(False) """script initialization methods""" def _setup_monobridge(self): self._monobridge = MonoBridgeElement(self) self._monobridge.name = 'MonoBridge' def _setup_controls(self): is_momentary = True self._fader = [MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, ALIAS_FADERS[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self) for index in range(9)] self._button = [MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, ALIAS_BUTTONS[index], 'Button_' + str(index), self) for index in range(16)] self._dial = [MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, ALIAS_DIALS[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index + 8, self) for index in range(16)] self._encoder = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, ALIAS_ENCODER, Live.MidiMap.MapMode.absolute, 'Encoder', 0, self) def _setup_mixer_control(self): is_momentary = True self._num_tracks = (8) #A mixer is one-dimensional; self._mixer = AliasMixerComponent(8, 0, False, False) self._mixer.name = 'Mixer' self._mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left) for index in range(8): self._mixer.channel_strip(index).set_volume_control(self._fader[index]) self._mixer.channel_strip(index).set_send_controls(tuple([self._dial[index], self._dial[index+8]])) self._mixer.channel_strip(index).set_mute_button(self._button[index]) self._button[index].set_on_off_values(MUTE_TOG, 0) self._mixer.channel_strip(index)._invert_mute_feedback = True self._mixer.channel_strip(index).set_arm_button(self._button[index+8]) self._button[index+8].set_on_off_values(REC_TOG, 0) self._mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index) self._mixer.master_strip().set_volume_control(self._fader[8]) self.song().view.selected_track = self._mixer.channel_strip(0)._track def _setup_session_control(self): self._session = SessionComponent(8, 1) self._session.set_mixer(self._mixer) def _setup_mixer_nav(self): if not self._encoder.value_has_listener(self._nav_change): self._encoder.add_value_listener(self._nav_change) """shift/zoom methods""" def _nav_change(self, value): self._session.set_offsets(int((float(value)/float(127))*max(8, len(self._mixer.tracks_to_use())-8)), self._session._scene_offset) """called on timer""" def update_display(self): ControlSurface.update_display(self) self._timer = (self._timer + 1) % 256 self.flash() def flash(self): if(self.flash_status > 0): for control in self.controls: if isinstance(control, MonoButtonElement): control.flash(self._timer) """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 += ' ' ret = ret.replace(' ', '_') assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP) return ret def notification_to_bridge(self, name, value, sender): if isinstance(sender, MonoEncoderElement): 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 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) """general functionality""" def allow_updates(self, allow_updates): for component in self.components: component.set_allow_update(int(allow_updates!=0)) def disconnect(self): if self._encoder.value_has_listener(self._nav_change): self._encoder.remove_value_listener(self._nav_change) self.log_message("--------------= Alias log closed =--------------") ControlSurface.disconnect(self) return None def handle_sysex(self, midi_bytes): pass def device_follows_track(self, val): self._device_selection_follows_track_selection = (val == 1) return self def assign_alternate_mappings(self): pass def _get_num_tracks(self): return self.num_tracks def _on_device_changed(self, device): #self.log_message('new device ' + str(type(device))) if self._update_linked_device_selection != None: self._update_linked_device_selection(device) def _on_session_offset_changes(self): if self._r_function_mode._mode_index in range(0,3): self._mem[int(self._r_function_mode._mode_index)] = self._session2.track_offset() def connect_script_instances(self, instanciated_scripts): pass # a
class Alias(ControlSurface): __module__ = __name__ __doc__ = " Alias 8 controller script " def __init__(self, c_instance): super(Alias, self).__init__(c_instance) with self.component_guard(): self._host_name = "Alias" self._color_type = "OhmRGB" self.log_message("--------------= Alias log opened =--------------") self._rgb = 0 self._timer = 0 self.flash_status = 1 self._clutch_device_selection = False self._touched = 0 self._update_linked_device_selection = None self._setup_monobridge() self._setup_controls() self._setup_m4l_interface() self._setup_mixer_control() self._setup_session_control() self._setup_mixer_nav() """script initialization methods""" def _setup_monobridge(self): self._monobridge = MonoBridgeElement(self) self._monobridge.name = "MonoBridge" def _setup_controls(self): is_momentary = True self._fader = [ MonoEncoderElement( MIDI_CC_TYPE, CHANNEL, ALIAS_FADERS[index], Live.MidiMap.MapMode.absolute, "Fader_" + str(index), index, self, ) for index in range(9) ] self._button = [ MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, ALIAS_BUTTONS[index], "Button_" + str(index), self) for index in range(16) ] self._dial = [ MonoEncoderElement( MIDI_CC_TYPE, CHANNEL, ALIAS_DIALS[index], Live.MidiMap.MapMode.absolute, "Dial_" + str(index), index + 8, self, ) for index in range(16) ] self._encoder = MonoEncoderElement( MIDI_CC_TYPE, CHANNEL, ALIAS_ENCODER, Live.MidiMap.MapMode.absolute, "Encoder", 0, self ) def _setup_m4l_interface(self): self._m4l_interface = M4LInterfaceComponent(controls=self.controls, component_guard=self.component_guard) self.get_control_names = self._m4l_interface.get_control_names self.get_control = self._m4l_interface.get_control self.grab_control = self._m4l_interface.grab_control self.release_control = self._m4l_interface.release_control def _setup_mixer_control(self): is_momentary = True self._num_tracks = 8 # A mixer is one-dimensional; self._mixer = AliasMixerComponent(8, 0, False, False) self._mixer.name = "Mixer" self._mixer.set_track_offset(0) # Sets start point for mixer strip (offset from left) for index in range(8): self._mixer.channel_strip(index).set_volume_control(self._fader[index]) self._mixer.channel_strip(index).set_send_controls(tuple([self._dial[index], self._dial[index + 8]])) self._mixer.channel_strip(index).set_mute_button(self._button[index]) self._button[index].set_on_off_values(MUTE_TOG, 0) self._mixer.channel_strip(index)._invert_mute_feedback = True self._mixer.channel_strip(index).set_arm_button(self._button[index + 8]) self._button[index + 8].set_on_off_values(REC_TOG, 0) self._mixer.channel_strip(index).name = "Mixer_ChannelStrip_" + str(index) self._mixer.master_strip().set_volume_control(self._fader[8]) self.song().view.selected_track = self._mixer.channel_strip(0)._track def _setup_session_control(self): self._session = SessionComponent(8, 1) self._session.set_mixer(self._mixer) self.set_highlighting_session_component(self._session) def _setup_mixer_nav(self): if not self._encoder.value_has_listener(self._nav_change): self._encoder.add_value_listener(self._nav_change) """shift/zoom methods""" def _nav_change(self, value): self._session.set_offsets( int((float(value) / float(127)) * max(8, len(self._mixer.tracks_to_use()) - 8)), self._session._scene_offset ) """called on timer""" def update_display(self): ControlSurface.update_display(self) self._timer = (self._timer + 1) % 256 self.flash() def flash(self): if self.flash_status > 0: for control in self.controls: if isinstance(control, MonoButtonElement): control.flash(self._timer) """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 += " " ret = ret.replace(" ", "_") assert len(ret) == NUM_CHARS_PER_DISPLAY_STRIP return ret def notification_to_bridge(self, name, value, sender): if isinstance(sender, MonoEncoderElement): 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 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) """general functionality""" def allow_updates(self, allow_updates): for component in self.components: component.set_allow_update(int(allow_updates != 0)) def disconnect(self): if self._encoder.value_has_listener(self._nav_change): self._encoder.remove_value_listener(self._nav_change) self.log_message("--------------= Alias log closed =--------------") super(Alias, self).disconnect() rebuild_sys() def handle_sysex(self, midi_bytes): pass def device_follows_track(self, val): self._device_selection_follows_track_selection = val == 1 return self def assign_alternate_mappings(self): pass def _get_num_tracks(self): return self.num_tracks def _on_device_changed(self, device): # self.log_message('new device ' + str(type(device))) if self._update_linked_device_selection != None: self._update_linked_device_selection(device) def _on_session_offset_changes(self): if self._r_function_mode._mode_index in range(0, 3): self._mem[int(self._r_function_mode._mode_index)] = self._session2.track_offset() def connect_script_instances(self, instanciated_scripts): pass
class Novation_Impulse(ControlSurface): """ Script for Novation's Impulse keyboards """ def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self.set_pad_translations(PAD_TRANSLATIONS) self._device_selection_follows_track_selection = True self._suggested_input_port = 'Impulse' self._suggested_output_port = 'Impulse' self._has_sliders = True self._current_midi_map = None self._display_reset_delay = -1 self._shift_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 39) self._preview_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 41) self._master_slider = SliderElement(MIDI_CC_TYPE, 0, 8) self._shift_button.name = 'Shift_Button' self._master_slider.name = 'Master_Volume_Control' self._master_slider.add_value_listener(self._slider_value, identify_sender=True) self._preview_button.add_value_listener(self._preview_value) self._setup_mixer() self._setup_session() self._setup_transport() self._setup_device() self._setup_name_display() device_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 1, 10) mixer_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 1, 9) device_button.name = 'Encoder_Device_Mode' mixer_button.name = 'Encoder_Mixer_Mode' self._encoder_modes = EncoderModeSelector(self._device_component, self._mixer, self._next_bank_button, self._prev_bank_button, self._encoders) self._encoder_modes.set_device_mixer_buttons(device_button, mixer_button) self._string_to_display = None for component in self.components: component.set_enabled(False) def refresh_state(self): ControlSurface.refresh_state(self) self.schedule_message(3, self._send_midi, SYSEX_START + (6, 1, 1, 1, 247)) def handle_sysex(self, midi_bytes): if midi_bytes[0:-2] == SYSEX_START + (7,) and midi_bytes[-2] != 0: self._has_sliders = midi_bytes[-2] != 25 self.schedule_message(1, self._show_startup_message) for control in self.controls: if isinstance(control, InputControlElement): control.clear_send_cache() for component in self.components: component.set_enabled(True) if self._has_sliders: self._mixer.master_strip().set_volume_control(self._master_slider) self._mixer.update() else: self._mixer.master_strip().set_volume_control(None) self._mixer.selected_strip().set_volume_control(self._master_slider) for index in range(len(self._sliders)): self._mixer.channel_strip(index).set_volume_control(None) slider = self._sliders[index] slider.release_parameter() if slider.value_has_listener(self._slider_value): slider.remove_value_listener(self._slider_value) self._encoder_modes.set_provide_volume_mode(not self._has_sliders) self.request_rebuild_midi_map() def disconnect(self): self._name_display_data_source.set_display_string(' ') for encoder in self._encoders: encoder.remove_value_listener(self._encoder_value) self._master_slider.remove_value_listener(self._slider_value) if self._has_sliders: for slider in tuple(self._sliders): slider.remove_value_listener(self._slider_value) for button in self._strip_buttons: button.remove_value_listener(self._mixer_button_value) self._preview_button.remove_value_listener(self._preview_value) ControlSurface.disconnect(self) self._encoders = None self._sliders = None self._strip_buttons = None self._master_slider = None self._current_midi_map = None self._shift_button = None self._name_display = None self._prev_bank_button = None self._next_bank_button = None self._encoder_modes = None self._transport_view_modes = None self._send_midi(SYSEX_START + (6, 0, 0, 0, 247)) def build_midi_map(self, midi_map_handle): self._current_midi_map = midi_map_handle ControlSurface.build_midi_map(self, midi_map_handle) def update_display(self): ControlSurface.update_display(self) if self._string_to_display != None: self._name_display_data_source.set_display_string(self._string_to_display) self._string_to_display = None if self._display_reset_delay >= 0: self._display_reset_delay -= 1 if self._display_reset_delay == -1: self._show_current_track_name() def _setup_mixer(self): mute_solo_flip_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 34) self._next_nav_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 37) self._prev_nav_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 38) self._strip_buttons = [] mute_solo_flip_button.name = 'Mute_Solo_Flip_Button' self._next_nav_button.name = 'Next_Track_Button' self._prev_nav_button.name = 'Prev_Track_Button' self._mixer = SpecialMixerComponent(8) self._mixer.name = 'Mixer' self._mixer.set_select_buttons(self._next_nav_button, self._prev_nav_button) self._mixer.selected_strip().name = 'Selected_Channel_Strip' self._mixer.master_strip().name = 'Master_Channel_Strip' self._mixer.master_strip().set_volume_control(self._master_slider) self._sliders = [] for index in range(8): strip = self._mixer.channel_strip(index) strip.name = 'Channel_Strip_' + str(index) strip.set_invert_mute_feedback(True) self._sliders.append(SliderElement(MIDI_CC_TYPE, 0, index)) self._sliders[-1].name = str(index) + '_Volume_Control' self._sliders[-1].set_feedback_delay(-1) self._sliders[-1].add_value_listener(self._slider_value, identify_sender=True) strip.set_volume_control(self._sliders[-1]) self._strip_buttons.append(ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 9 + index)) self._strip_buttons[-1].name = str(index) + '_Mute_Button' self._strip_buttons[-1].add_value_listener(self._mixer_button_value, identify_sender=True) self._mixer.master_strip().set_mute_button(ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 17)) self._mixer.set_strip_mute_solo_buttons(tuple(self._strip_buttons), mute_solo_flip_button) def _setup_session(self): num_pads = len(PAD_TRANSLATIONS) self._track_left_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 36) self._track_right_button = ButtonElement(not IS_MOMENTARY, MIDI_CC_TYPE, 0, 35) self._session = SessionComponent(8, 0) self._session.name = 'Session_Control' self._session.selected_scene().name = 'Selected_Scene' self._session.set_mixer(self._mixer) self._session.set_page_left_button(self._track_left_button) self._session.set_page_right_button(self._track_right_button) pads = [] for index in range(num_pads): pads.append(ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 60 + index)) pads[-1].name = 'Pad_' + str(index) clip_slot = self._session.selected_scene().clip_slot(index) clip_slot.set_triggered_to_play_value(GREEN_BLINK) clip_slot.set_triggered_to_record_value(RED_BLINK) clip_slot.set_stopped_value(AMBER_FULL) clip_slot.set_started_value(GREEN_FULL) clip_slot.set_recording_value(RED_FULL) clip_slot.set_launch_button(pads[-1]) clip_slot.name = str(index) + '_Selected_Clip_Slot' def _setup_transport(self): rwd_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 27) ffwd_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 28) stop_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 29) play_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 30) loop_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 31) rec_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 0, 32) ffwd_button.name = 'FFwd_Button' rwd_button.name = 'Rwd_Button' loop_button.name = 'Loop_Button' play_button.name = 'Play_Button' stop_button.name = 'Stop_Button' rec_button.name = 'Record_Button' transport = ShiftableTransportComponent() transport.name = 'Transport' transport.set_stop_button(stop_button) transport.set_play_button(play_button) transport.set_record_button(rec_button) transport.set_shift_button(self._shift_button) self._transport_view_modes = TransportViewModeSelector(transport, self._session, ffwd_button, rwd_button, loop_button) self._transport_view_modes.name = 'Transport_View_Modes' def _setup_device(self): encoders = [] for index in range(8): encoders.append(PeekableEncoderElement(MIDI_CC_TYPE, 1, index, Live.MidiMap.MapMode.relative_binary_offset)) encoders[-1].set_feedback_delay(-1) encoders[-1].add_value_listener(self._encoder_value, identify_sender=True) encoders[-1].name = 'Device_Control_' + str(index) self._encoders = tuple(encoders) self._prev_bank_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 12) self._next_bank_button = ButtonElement(IS_MOMENTARY, MIDI_CC_TYPE, 1, 11) self._prev_bank_button.name = 'Device_Bank_Down_Button' self._next_bank_button.name = 'Device_Bank_Up_Button' device = DeviceComponent() device.name = 'Device_Component' self.set_device_component(device) device.set_parameter_controls(self._encoders) device.set_bank_nav_buttons(self._prev_bank_button, self._next_bank_button) def _setup_name_display(self): self._name_display = PhysicalDisplayElement(16, 1) self._name_display.name = 'Display' self._name_display.set_message_parts(SYSEX_START + (8,), (247,)) self._name_display_data_source = DisplayDataSource() self._name_display.segment(0).set_data_source(self._name_display_data_source) def _encoder_value(self, value, sender): if not sender in self._encoders: raise AssertionError if not value in range(128): raise AssertionError display_string = self._device_component.is_enabled() and ' - ' display_string = sender.mapped_parameter() != None and sender.mapped_parameter().name self._set_string_to_display(display_string) def _slider_value(self, value, sender): if not sender in tuple(self._sliders) + (self._master_slider,): raise AssertionError if not value in range(128): raise AssertionError if self._mixer.is_enabled(): display_string = ' - ' if sender.mapped_parameter() != None: master = self.song().master_track tracks = self.song().tracks returns = self.song().return_tracks track = None if sender == self._master_slider: track = self._has_sliders and master else: track = self.song().view.selected_track else: track = self._mixer.channel_strip(self._sliders.index(sender))._track display_string = track == master and 'Master' elif track in tracks: display_string = str(list(tracks).index(track) + 1) elif track in returns: display_string = str(chr(ord('A') + list(returns).index(track))) else: raise False or AssertionError display_string += ' Volume' self._set_string_to_display(display_string) def _mixer_button_value(self, value, sender): if not value in range(128): raise AssertionError if self._mixer.is_enabled() and value > 0: strip = self._mixer.channel_strip(self._strip_buttons.index(sender)) self._string_to_display = strip != None and None self._name_display.segment(0).set_data_source(strip.track_name_data_source()) self._name_display.update() self._display_reset_delay = STANDARD_DISPLAY_DELAY else: self._set_string_to_display(' - ') def _preview_value(self, value): raise value in range(128) or AssertionError for encoder in self._encoders: encoder.set_peek_mode(value > 0) def _show_current_track_name(self): if self._name_display != None and self._mixer != None: self._string_to_display = None self._name_display.segment(0).set_data_source(self._mixer.selected_strip().track_name_data_source()) self._name_display.update() def _show_startup_message(self): self._name_display.display_message('LIVE') self._display_reset_delay = INITIAL_DISPLAY_DELAY def _set_string_to_display(self, string_to_display): raise isinstance(string_to_display, (str, unicode)) or AssertionError self._name_display.segment(0).set_data_source(self._name_display_data_source) self._string_to_display = string_to_display self._display_reset_delay = STANDARD_DISPLAY_DELAY def _on_selected_track_changed(self): ControlSurface._on_selected_track_changed(self) self._show_current_track_name() all_tracks = self._has_sliders or self._session.tracks_to_use() selected_track = self.song().view.selected_track num_strips = self._session.width() if selected_track in all_tracks: track_index = list(all_tracks).index(selected_track) new_offset = track_index - track_index % num_strips if not new_offset / num_strips == int(new_offset / num_strips): raise AssertionError self._session.set_offsets(new_offset, self._session.scene_offset())
class alzyOSC(ControlSurface): """script for MPD26: alzyOSC""" _active_instances = [] def set_instance_properties(self): index = 0 for instance in alzyOSC._active_instances: instance._instanceIndex = index index += 1 def set_instance_session_properties(self): track_offset = 0 for instance in alzyOSC._active_instances: instance._session.set_offsets(track_offset, 0) track_offset += instance._session.width() def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): # We keep track of which instance this is in case there # are multiple instances of this remote script loaded. # if this is the first index, it will handle all # functionality except for the second red box. # If this is the second instance or more, it will only # handle it's red box and nothing else. self._instanceIndex = -1 self._control_is_with_automap = False self._suggested_input_port = 'Loop Midi Port' self._suggested_output_port = 'Loop Midi Port' self.osc_handler = None self._mixer = None self._session = None self._transport = None if self not in alzyOSC._active_instances: alzyOSC._active_instances.append(self) self.set_instance_properties() self.log_message('Set: alzyOSC instance #' + str(self._instanceIndex)) # if this is the first or only open instance of this # remote script, this one will handle all osc # functionality. if self._instanceIndex == 0: self.initOSC() self._session.name = "OSC_Session_Control" self._session.side = "a" # since the osc session will function as the osc controller # for side b as well, we will pass the _active_instances array # by reference so it may access side b's session component. self._session._active_instances = alzyOSC._active_instances else: self._session = SessionComponent(4, 5) self._session.name = 'Session_Control' self._session.side = "b" self.set_highlighting_session_component(self._session) self.set_instance_session_properties() def disconnect(self): """clean things up on disconnect""" alzyOSC._active_instances.remove(self) if self.osc_handler is not None: self.osc_handler.shutdown() ControlSurface.disconnect(self) return None def initOSC(self): LO2OSC.set_log(self.log_message) LO2OSC.set_message(self.show_message) self.osc_handler = LO2OSC() LO2Mixin.set_osc_handler(self.osc_handler) LO2Mixin.set_log(self.log_message) self._mixer = LO2MixerComponent(1) self._session = alzyOSCSessionComponent(4, 5) self._session.set_mixer(self._mixer) self._session._assigned_width = 4 self._session._assigned_height = 5 self._transport = LO2TransportComponent() self.parse() if not self.osc_handler.error(): self.show_message('Ready') self.osc_handler.send('/live/startup', 1) def parse(self): self.osc_handler.process() self.schedule_message(1, self.parse)
class DC1(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 # Used in FlashingButtonElement (kludge for our purposes) self._device_selection_follows_track_selection = True 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 self.transport = TransportComponent() #Instantiate a Transport Component """set up the buttons""" self.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 self.transport.set_stop_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 61)) self.transport.set_record_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 62)) 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(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, 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.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, 0)) self.scrollencoder.set_transport_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 7)) self.scrollencoder.set_scene_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 3)) self.scrollencoder.set_library_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 4)) self.scrollencoder.set_button1(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 1)) self.scrollencoder.set_button2(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 2)) self.scrollencoder.set_button3(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 5)) self.scrollencoder.set_button4(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 6)) self.scrollencoder.set_encoder_button(SimpleButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 32)) 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() 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 def disconnect(self): self._hosts = [] ControlSurface.disconnect(self) return None
class LemurPad(MonOhm): __module__ = __name__ __doc__ = " Lemur version of the MonOhm companion controller script " def __init__(self, *a, **k): self._timer_callbacks = [ ] #Used for _monobridge, which uses L8 method for registering timer callbacks. deprecated, needs to be replaced by new L9 Task class. self._osc_registry = {} self._display_button_names = DISPLAY_BUTTON_NAMES super(LemurPad, self).__init__(*a, **k) self._host_name = "LemurPad" self._color_type = 'AumPad' self.connected = 0 with self.component_guard(): self._setup_touchosc() self._assign_host2() self._assign_session_colors() def query_ohm(self): pass """script initialization methods""" def _setup_monobridge(self): self._monobridge = OSCMonoBridgeElement(self) self._monobridge.name = 'MonoBridge' 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] = OSCMonoEncoderElement( MIDI_CC_TYPE, CHANNEL, OHM_FADERS[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self, osc='/Fader_' + str(index) + '/x', osc_parameter='/Strip' + str(index + 8) + '/set', osc_name='/Strip' + str(index) + '/set') for index in range(8): self._button[index] = OSCMonoButtonElement( is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_' + str(index), self, osc='/Select_' + str(index) + '/value', osc_alt='/Select/set ' + str(index), osc_name='/Select/text ' + str(index)) for index in range(16): self._dial[index] = OSCMonoEncoderElement( MIDI_CC_TYPE, CHANNEL, OHM_DIALS[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index + 8, self, osc='/Dial_' + str(index) + '/x', osc_parameter='/Dial' + str(index) + 'val/set', osc_name='/Dial' + str(index) + 'name/set') for index in range(6): self._menu[index] = OSCMonoButtonElement( is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_MENU[index], 'Menu_' + str(index), self, osc='/Function_' + str(index) + '/value', osc_alt='/Function/set ' + str(index), osc_name='/Function/text ' + str(index)) self._crossfader = OSCMonoEncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute, "Crossfader", 24, self, osc='/XFader/x', osc_parameter='/XFader/none', osc_name=None) self._livid = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self, osc='/Livid/x', osc_alt='/Livid/x', osc_name=None) self._shift_l = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Shift_Button_Left', self, osc='/ShiftL/x', osc_alt='/ShiftL/x', osc_name=None) self._shift_r = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Shift_Button_Right', self, osc='/ShiftR/x', osc_alt='/ShiftR/x', osc_name=None) self._matrix = ButtonMatrixElement() self._matrix.name = 'Matrix' self._monomod = ButtonMatrixElement() self._monomod.name = 'Monomod' self._grid = [None for index in range(8)] for column in range(8): self._grid[column] = [None for index in range(8)] for row in range(8): self._grid[column][row] = OSCMonoButtonElement( is_momentary, MIDI_NOTE_TYPE, CHANNEL, (column * 8) + row, 'Grid_' + str(column) + '_' + str(row), self, osc='/ClipGrid_' + str(column) + '_' + str(row) + '/value', osc_alt='/ClipGrid/set ' + str(column) + ' ' + str(row), osc_name='/ClipGrid/text ' + str(column) + ' ' + str(row)) 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._dummy_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 125) self._dummy_button.name = 'Dummy1' self._dummy_button2 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 126) self._dummy_button2.name = 'Dummy2' self._dummy_button3 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 127) self._dummy_button2.name = 'Dummy3' self._monomod256 = ButtonMatrixElement() self._monomod256.name = 'Monomod256' self._square = [None for index in range(16)] for column in range(16): self._square[column] = [None for index in range(16)] for row in range(16): self._square[column][row] = OSCMonoButtonElement( is_momentary, MIDI_NOTE_TYPE, int(column / 8) + 1, row + ((column % 8) * 16), '256Grid_' + str(column) + '_' + str(row), self, osc='/Grid_' + str(column) + '_' + str(row) + '/value', osc_alt='/Grid/set ' + str(column) + ' ' + str(row), osc_name=None) #self._square[column][row] = FlashingButtonElement(is_momentary, 0, 15, -1, '256Grid_' + str(column) + '_' + str(row), '/1/p_grid/'+str(column)+'/'+str(row), '/1/c_grid/'+str(column)+'/'+str(row), self) for row in range(16): button_row = [] for column in range(16): button_row.append(self._square[column][row]) self._monomod256.add_row(tuple(button_row)) self._bank_buttons = ButtonMatrixElement() self._key_buttons = ButtonMatrixElement() self._bank_button = [None for index in range(2)] for index in range(2): self._bank_button[index] = OSCMonoButtonElement( is_momentary, MIDI_NOTE_TYPE, 15, index, '256Grid_Bank_' + str(index), self, osc='/Shift_' + str(index) + '/value', osc_alt='/Shift/set ' + str(index), osc_name=None) button_row = [] for index in range(2): button_row.append(self._bank_button[index]) self._bank_buttons.add_row(tuple(button_row)) button_row = [] self._key_button = [None for index in range(8)] for index in range(8): self._key_button[index] = OSCMonoButtonElement( is_momentary, MIDI_NOTE_TYPE, 15, index + 8, '256Grid_Key_' + str(index), self, osc='/Keys_' + str(index) + '/value', osc_alt='/Keys/set ' + str(index), osc_name=None) for index in range(8): button_row.append(self._key_button[index]) self._key_buttons.add_row(tuple(button_row)) def _setup_session_control(self): is_momentary = True num_tracks = 4 num_scenes = 5 self._session = NameServerSessionComponent(num_tracks, num_scenes, self) self._session.name = "Left_Session" self._session.set_offsets(0, 0) self._session.set_stop_clip_value(self._color_defs['STOP_CLIP']) self._scene = [None for index in range(5)] for row in range(num_scenes): self._scene[row] = self._session.scene(row) self._scene[row].name = 'L_Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_L_' + str(row) clip_slot.set_triggered_to_play_value( self._color_defs['CLIP_TRG_PLAY']) clip_slot.set_triggered_to_record_value( self._color_defs['CLIP_TRG_REC']) clip_slot.set_stopped_value(self._color_defs['CLIP_STOP']) clip_slot.set_started_value(self._color_defs['CLIP_STARTED']) clip_slot.set_recording_value( self._color_defs['CLIP_RECORDING']) self._session.set_mixer(self._mixer) self._session_zoom = SessionZoomingComponent(self._session) self._session_zoom.name = 'L_Session_Overview' self._session_zoom.set_stopped_value(self._color_defs['ZOOM_STOPPED']) self._session_zoom.set_playing_value(self._color_defs['ZOOM_PLAYING']) self._session_zoom.set_selected_value( self._color_defs['ZOOM_SELECTED']) self._session_zoom._zoom_button = (self._dummy_button) self._session_zoom.set_enabled(True) self._session2 = SessionComponent(num_tracks, num_scenes) self._session2.name = 'Right_Session' self._session2.set_offsets(4, 0) self._session2.set_stop_clip_value(self._color_defs['STOP_CLIP']) self._scene2 = [None for index in range(5)] for row in range(num_scenes): self._scene2[row] = self._session2.scene(row) self._scene2[row].name = 'R_Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene2[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_R_' + str(row) clip_slot.set_triggered_to_play_value( self._color_defs['CLIP_TRG_PLAY']) clip_slot.set_triggered_to_record_value( self._color_defs['CLIP_TRG_REC']) clip_slot.set_stopped_value(self._color_defs['CLIP_STOP']) clip_slot.set_started_value(self._color_defs['CLIP_STARTED']) clip_slot.set_recording_value( self._color_defs['CLIP_RECORDING']) self._session2.set_mixer(self._mixer2) self._session2.add_offset_listener(self._on_session_offset_changes) self._session_zoom2 = SessionZoomingComponent(self._session2) self._session_zoom2.name = 'R_Session_Overview' self._session_zoom2.set_stopped_value(self._color_defs['ZOOM_STOPPED']) self._session_zoom2.set_playing_value(self._color_defs['ZOOM_PLAYING']) self._session_zoom2.set_selected_value( self._color_defs['ZOOM_SELECTED']) self._session_zoom.set_enabled(True) self._session_zoom2._zoom_button = (self._dummy_button2) self._session_main = SessionComponent(8, num_scenes) self._session_main.name = 'Main_Session' self._session_main.set_stop_clip_value(self._color_defs['STOP_CLIP']) self._scene_main = [None for index in range(5)] for row in range(num_scenes): self._scene_main[row] = self._session_main.scene(row) self._scene_main[row].name = 'M_Scene_' + str(row) for column in range(8): clip_slot = self._scene_main[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_M_' + str(row) clip_slot.set_triggered_to_play_value( self._color_defs['CLIP_TRG_PLAY']) clip_slot.set_triggered_to_record_value( self._color_defs['CLIP_TRG_REC']) clip_slot.set_stopped_value(self._color_defs['CLIP_STOP']) clip_slot.set_started_value(self._color_defs['CLIP_STARTED']) clip_slot.set_recording_value( self._color_defs['CLIP_RECORDING']) self._session_main.set_mixer(self._mixer) self._session_zoom_main = SessionZoomingComponent(self._session_main) self._session_zoom_main.name = 'M_Session_Overview' self._session_zoom_main.set_stopped_value( self._color_defs['ZOOM_STOPPED']) self._session_zoom_main.set_playing_value( self._color_defs['ZOOM_PLAYING']) self._session_zoom_main.set_selected_value( self._color_defs['ZOOM_SELECTED']) self._session_zoom_main.set_enabled(True) self._session_zoom_main._zoom_button = (self._dummy_button3) self._sessions = [self._session, self._session2, self._session_main] self._zooms = [ self._session_zoom, self._session_zoom2, self._session_zoom_main ] def _setup_mod(self): self.monomodular = get_monomodular(self) self.monomodular.name = 'monomodular_switcher' self.modhandler = LemurOhmModHandler(self) self.modhandler.name = 'ModHandler' self.modhandler256 = LemurModHandler(self) self.modhandler256.name = 'ModHandler256' def _assign_host2(self): self.modhandler256.set_shift_button(self._bank_button[0]) self.modhandler256.set_alt_button(self._bank_button[1]) self.modhandler256.set_grid(self._monomod256) self.modhandler256.set_key_buttons(self._key_buttons) self.modhandler256.set_enabled(True) def _setup_touchosc(self): self._osc_registry = {} #self._osc_registry['/ping'] = self._monobridge.ping #self._osc_registry['/1'] = self._monobridge.page1 #self._osc_registry['/2'] = self._monobridge.page2 for control in self.controls: if hasattr(control, 'osc'): self._osc_registry[control.osc] = control.set_value #if hasattr(control, 'osc_alt'): # self._osc_registry[control.osc_alt] = control.set_value #self.log_message('create dict key: ' + str(control.osc) + str(control.name)) """shift/zoom methods""" def deassign_matrix(self): super(LemurPad, self).deassign_matrix() self.clear_grid_names() """menu button management methods""" def deassign_menu(self): super(LemurPad, self).deassign_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(' ')) def assign_device_nav_to_menu(self): super(LemurPad, self).assign_device_nav_to_menu() for index in range(6): self._monobridge._send_osc( self._menu[index].osc_name, self.generate_strip_string(str(DEVICE_NAV_NAMES[index]))) def assign_transport_to_menu(self): super(LemurPad, self).assign_transport_to_menu() for index in range(6): self._monobridge._send_osc( self._menu[index].osc_name, self.generate_strip_string(str(TRANSPORT_NAMES[index]))) def assign_session_nav_to_menu(self): super(LemurPad, self).assign_session_nav_to_menu() for index in range(6): self._monobridge._send_osc( self._menu[index].osc_name, self.generate_strip_string(str(SESSION_NAV_NAMES[index]))) def assign_session_main_nav_to_menu(self): super(LemurPad, self).assign_session_main_nav_to_menu() for index in range(6): self._monobridge._send_osc( self._menu[index].osc_name, self.generate_strip_string(str(SESSION_NAV_NAMES[index]))) def assign_monomod_shift_to_menu(self): super(LemurPad, self).assign_monomod_shift_to_menu() for index in range(6): self._monobridge._send_osc( self._menu[index].osc_name, self.generate_strip_string(str(MONOMOD_SHIFT_NAMES[index]))) def assign_monomod_to_menu(self): super(LemurPad, self).assign_monomod_shift_to_menu() for index in range(6): self._monobridge._send_osc( self._menu[index].osc_name, self.generate_strip_string(str(MONOMOD_NAMES[index]))) def assign_session_bank_to_menu(self): super(LemurPad, self).assign_session_bank_to_menu() for index in range(6): self._monobridge._send_osc( self._menu[index].osc_name, self.generate_strip_string(str(SESSION_BANK_NAMES[index]))) def assign_session2_bank_to_menu(self): super(LemurPad, self).assign_session2_bank_to_menu() for index in range(6): self._monobridge._send_osc( self._menu[index].osc_name, self.generate_strip_string(str(SESSION_BANK2_NAMES[index]))) def assign_session_main_nav_to_menu(self): super(LemurPad, self).assign_session_main_nav_to_menu() for index in range(6): self._monobridge._send_osc( self._menu[index].osc_name, self.generate_strip_string(str( SESSION_MAIN_BANK_NAMES[index]))) """m4l bridge""" def generate_strip_string(self, display_string): NUM_CHARS_PER_DISPLAY_STRIP = 9 if (not display_string): return ('`_') 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.replace(' ', '_') def notification_to_bridge(self, name, value, sender): if (isinstance(sender, MonoEncoderElement2)): #self.log_message(str(name) + str(value) + str(sender.num)) self._monobridge._send('lcd_name', sender.name, self.generate_strip_string(str(name))) self._monobridge._send('lcd_value', sender.name, self.generate_strip_string(str(value))) def clip_name(self, sender, name): #self.log_message('clip name ' + str(sender.osc_name) + ' ' + str(self.generate_strip_string(str(name)))) self._monobridge._send_osc(sender.osc_name, self.generate_strip_string(str(name))) """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(): clip_names.append(clip_slot._clip_slot)##.clip.name) #return clip_slot._clip_slot #self.log_message('clip name' + str(clip_slot._clip_slot.clip.name)) return clip_names""" """called on timer""" def update_display(self): super(LemurPad, self).update_display() for callback in self._timer_callbacks: callback() def strobe(self): pass """general functionality""" def disconnect(self): super(MonOhm, self).disconnect() def clear_grid_names(self): #self.log_message('clear grid names' + str(self)) for column in range(8): for row in range(8): self._monobridge._send_osc(self._grid[column][row].osc_name, '`_') def _register_timer_callback(self, callback): """ Registers a callback that is triggerd on every call of update_display """ assert (callback != None) assert (dir(callback).count('im_func') is 1) assert (self._timer_callbacks.count(callback) == 0) self._timer_callbacks.append(callback) return None def _unregister_timer_callback(self, callback): """ Unregisters a timer callback """ assert (callback != None) assert (dir(callback).count('im_func') is 1) assert (self._timer_callbacks.count(callback) == 1) self._timer_callbacks.remove(callback) return None def _set_brightness(self, value): #self._bright = (value != 0) #for control in self.controls: # if isinstance(control, OSCMonoButtonElement): # self._monobridge._send_osc(control.osc_alt, int(self._bright), True) pass def reset(self): #self._monobridge._send_osc('/reset') for control in self.controls: control.reset() def assign_lower_grid_names(self, mode): if self._display_button_names is True: for column in range(8): for row in range(3): self._monobridge._send_osc( self._grid[column][row + 5].osc_name, self.generate_strip_string( str(GRID_NAMES[mode][row][column]))) def reset_and_refresh_state(self, *a, **k): self.schedule_message(1, self.reset) self.schedule_message(2, self.refresh_state)
class LemurPad(MonOhm): __module__ = __name__ __doc__ = " Lemur version of the MonOhm companion controller script " def __init__(self, *a, **k): self._timer_callbacks = [] #Used for _monobridge, which uses L8 method for registering timer callbacks. deprecated, needs to be replaced by new L9 Task class. self._osc_registry = {} self._display_button_names = DISPLAY_BUTTON_NAMES super(LemurPad, self).__init__(*a, **k) self._host_name = "LemurPad" self._color_type = 'AumPad' self.connected = 0 with self.component_guard(): self._setup_touchosc() self._assign_host2() self._assign_session_colors() def query_ohm(self): pass """script initialization methods""" def _setup_monobridge(self): self._monobridge = OSCMonoBridgeElement(self) self._monobridge.name = 'MonoBridge' 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] = OSCMonoEncoderElement(MIDI_CC_TYPE, CHANNEL, OHM_FADERS[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, '/Fader_'+str(index)+'/x', '/Strip'+str(index+8)+'/set', '/Strip'+str(index)+'/set', self) for index in range(8): self._button[index] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_'+str(index), '/Select_'+str(index)+'/value', '/Select/set '+str(index), '/Select/text '+str(index), self) for index in range(16): self._dial[index] = OSCMonoEncoderElement(MIDI_CC_TYPE, CHANNEL, OHM_DIALS[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index + 8, '/Dial_'+str(index)+'/x', '/Dial'+str(index)+'val/set', '/Dial'+str(index)+'name/set', self) for index in range(6): self._menu[index] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_MENU[index], 'Menu_' + str(index), '/Function_'+str(index)+'/value', '/Function/set '+str(index), '/Function/text '+str(index), self) self._crossfader = OSCMonoEncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute, "Crossfader", 24, '/XFader/x', '/XFader/none', None, self) self._livid = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', '/Livid/x', '/Livid/x', None, self) self._shift_l = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Shift_Button_Left', '/ShiftL/x', '/ShiftL/x', None, self) self._shift_r = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Shift_Button_Right', '/ShiftR/x', '/ShiftR/x', None, self) self._matrix = ButtonMatrixElement() self._matrix.name = 'Matrix' self._monomod = ButtonMatrixElement() self._monomod.name = 'Monomod' self._grid = [None for index in range(8)] for column in range(8): self._grid[column] = [None for index in range(8)] for row in range(8): self._grid[column][row] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (column * 8) + row, 'Grid_' + str(column) + '_' + str(row), '/ClipGrid_'+str(column)+'_'+str(row)+'/value', '/ClipGrid/set '+str(column)+' '+str(row), '/ClipGrid/text '+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._dummy_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 125) self._dummy_button.name = 'Dummy1' self._dummy_button2 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 126) self._dummy_button2.name = 'Dummy2' self._dummy_button3 = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, 127) self._dummy_button2.name = 'Dummy3' self._monomod256 = ButtonMatrixElement() self._monomod256.name = 'Monomod256' self._square = [None for index in range(16)] for column in range(16): self._square[column] = [None for index in range(16)] for row in range(16): self._square[column][row] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, int(column/8) + 1, row + ((column%8) * 16), '256Grid_' + str(column) + '_' + str(row), '/Grid_'+str(column)+'_'+str(row)+'/value', '/Grid/set '+str(column)+' '+str(row), None, self) #self._square[column][row] = FlashingButtonElement(is_momentary, 0, 15, -1, '256Grid_' + str(column) + '_' + str(row), '/1/p_grid/'+str(column)+'/'+str(row), '/1/c_grid/'+str(column)+'/'+str(row), self) for row in range(16): button_row = [] for column in range(16): button_row.append(self._square[column][row]) self._monomod256.add_row(tuple(button_row)) self._bank_buttons = ButtonMatrixElement() self._key_buttons = ButtonMatrixElement() self._bank_button = [None for index in range(2)] for index in range(2): self._bank_button[index] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, index, '256Grid_Bank_' + str(index), '/Shift_'+str(index)+'/value', '/Shift/set '+str(index), None, self) button_row = [] for index in range(2): button_row.append(self._bank_button[index]) self._bank_buttons.add_row(tuple(button_row)) button_row = [] self._key_button = [None for index in range(8)] for index in range(8): self._key_button[index] = OSCMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, 15, index+8, '256Grid_Key_' + str(index), '/Keys_'+str(index)+'/value', '/Keys/set '+str(index), None, self) for index in range(8): button_row.append(self._key_button[index]) self._key_buttons.add_row(tuple(button_row)) self._pedal = [None for index in range(8)] if self._use_pedal is True: for index in range(8): self._pedal[index] = EncoderElement(MIDI_CC_TYPE, 0, 25+index, Live.MidiMap.MapMode.absolute) self._pedal[index].name = 'Pedal_'+str(index) self._pedal[index]._report = False def _setup_session_control(self): is_momentary = True num_tracks = 4 num_scenes = 5 self._session = NameServerSessionComponent(num_tracks, num_scenes, self) self._session.name = "Left_Session" self._session.set_offsets(0, 0) self._session.set_stop_clip_value(self._color_defs['STOP_CLIP']) self._scene = [None for index in range(5)] for row in range(num_scenes): self._scene[row] = self._session.scene(row) self._scene[row].name = 'L_Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_L_' + str(row) clip_slot.set_triggered_to_play_value(self._color_defs['CLIP_TRG_PLAY']) clip_slot.set_triggered_to_record_value(self._color_defs['CLIP_TRG_REC']) clip_slot.set_stopped_value(self._color_defs['CLIP_STOP']) clip_slot.set_started_value(self._color_defs['CLIP_STARTED']) clip_slot.set_recording_value(self._color_defs['CLIP_RECORDING']) self._session.set_mixer(self._mixer) self._session_zoom = SessionZoomingComponent(self._session) self._session_zoom.name = 'L_Session_Overview' self._session_zoom.set_stopped_value(self._color_defs['ZOOM_STOPPED']) self._session_zoom.set_playing_value(self._color_defs['ZOOM_PLAYING']) self._session_zoom.set_selected_value(self._color_defs['ZOOM_SELECTED']) self._session_zoom._zoom_button = (self._dummy_button) self._session_zoom.set_enabled(True) self._session2 = SessionComponent(num_tracks, num_scenes) self._session2.name = 'Right_Session' self._session2.set_offsets(4, 0) self._session2.set_stop_clip_value(self._color_defs['STOP_CLIP']) self._scene2 = [None for index in range(5)] for row in range(num_scenes): self._scene2[row] = self._session2.scene(row) self._scene2[row].name = 'R_Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene2[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_R_' + str(row) clip_slot.set_triggered_to_play_value(self._color_defs['CLIP_TRG_PLAY']) clip_slot.set_triggered_to_record_value(self._color_defs['CLIP_TRG_REC']) clip_slot.set_stopped_value(self._color_defs['CLIP_STOP']) clip_slot.set_started_value(self._color_defs['CLIP_STARTED']) clip_slot.set_recording_value(self._color_defs['CLIP_RECORDING']) self._session2.set_mixer(self._mixer2) self._session2.add_offset_listener(self._on_session_offset_changes) self._session_zoom2 = SessionZoomingComponent(self._session2) self._session_zoom2.name = 'R_Session_Overview' self._session_zoom2.set_stopped_value(self._color_defs['ZOOM_STOPPED']) self._session_zoom2.set_playing_value(self._color_defs['ZOOM_PLAYING']) self._session_zoom2.set_selected_value(self._color_defs['ZOOM_SELECTED']) self._session_zoom.set_enabled(True) self._session_zoom2._zoom_button = (self._dummy_button2) self._session_main = SessionComponent(8, num_scenes) self._session_main.name = 'Main_Session' self._session_main.set_stop_clip_value(self._color_defs['STOP_CLIP']) self._scene_main = [None for index in range(5)] for row in range(num_scenes): self._scene_main[row] = self._session_main.scene(row) self._scene_main[row].name = 'M_Scene_' + str(row) for column in range(8): clip_slot = self._scene_main[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_M_' + str(row) clip_slot.set_triggered_to_play_value(self._color_defs['CLIP_TRG_PLAY']) clip_slot.set_triggered_to_record_value(self._color_defs['CLIP_TRG_REC']) clip_slot.set_stopped_value(self._color_defs['CLIP_STOP']) clip_slot.set_started_value(self._color_defs['CLIP_STARTED']) clip_slot.set_recording_value(self._color_defs['CLIP_RECORDING']) self._session_main.set_mixer(self._mixer) self._session_zoom_main = SessionZoomingComponent(self._session_main) self._session_zoom_main.name = 'M_Session_Overview' self._session_zoom_main.set_stopped_value(self._color_defs['ZOOM_STOPPED']) self._session_zoom_main.set_playing_value(self._color_defs['ZOOM_PLAYING']) self._session_zoom_main.set_selected_value(self._color_defs['ZOOM_SELECTED']) self._session_zoom_main.set_enabled(True) self._session_zoom_main._zoom_button = (self._dummy_button3) self._sessions = [self._session, self._session2, self._session_main] self._zooms = [self._session_zoom, self._session_zoom2, self._session_zoom_main] def _setup_monomod(self): self._host = MonomodComponent(self) self._host.name = 'Monomod_Host' self._host2 = SpecialMonomodComponent(self) self._host2.name = '256_Monomod_Host' self.hosts = [self._host, self._host2] def _assign_host2(self): self._host2._set_shift_button(self._bank_button[0]) self._host2._set_alt_button(self._bank_button[1]) self._host2._set_button_matrix(self._monomod256) self._host2._set_key_buttons(self._key_button) self._host2.set_enabled(True) def _setup_touchosc(self): self._osc_registry = {} #self._osc_registry['/ping'] = self._monobridge.ping #self._osc_registry['/1'] = self._monobridge.page1 #self._osc_registry['/2'] = self._monobridge.page2 for control in self.controls: if hasattr(control, 'osc'): self._osc_registry[control.osc] = control.set_value #if hasattr(control, 'osc_alt'): # self._osc_registry[control.osc_alt] = control.set_value #self.log_message('create dict key: ' + str(control.osc) + str(control.name)) """shift/zoom methods""" def deassign_matrix(self): super(LemurPad, self).deassign_matrix() self.clear_grid_names() """menu button management methods""" def deassign_menu(self): super(LemurPad, self).deassign_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(' ')) def assign_device_nav_to_menu(self): super(LemurPad, self).assign_device_nav_to_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(DEVICE_NAV_NAMES[index]))) def assign_transport_to_menu(self): super(LemurPad, self).assign_transport_to_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(TRANSPORT_NAMES[index]))) def assign_session_nav_to_menu(self): super(LemurPad, self).assign_session_nav_to_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_NAV_NAMES[index]))) def assign_session_main_nav_to_menu(self): super(LemurPad, self).assign_session_main_nav_to_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_NAV_NAMES[index]))) def assign_monomod_shift_to_menu(self): super(LemurPad, self).assign_monomod_shift_to_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(MONOMOD_SHIFT_NAMES[index]))) def assign_monomod_to_menu(self): super(LemurPad, self).assign_monomod_shift_to_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(MONOMOD_NAMES[index]))) def assign_session_bank_to_menu(self): super(LemurPad, self).assign_session_bank_to_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_BANK_NAMES[index]))) def assign_session2_bank_to_menu(self): super(LemurPad, self).assign_session2_bank_to_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_BANK2_NAMES[index]))) def assign_session_main_nav_to_menu(self): super(LemurPad, self).assign_session_main_nav_to_menu() for index in range(6): self._monobridge._send_osc(self._menu[index].osc_name, self.generate_strip_string(str(SESSION_MAIN_BANK_NAMES[index]))) """m4l bridge""" def generate_strip_string(self, display_string): NUM_CHARS_PER_DISPLAY_STRIP = 9 if (not display_string): return ('`_') 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.replace(' ', '_') def notification_to_bridge(self, name, value, sender): if(isinstance(sender, MonoEncoderElement2)): #self.log_message(str(name) + str(value) + str(sender.num)) self._monobridge._send('lcd_name', sender.name, self.generate_strip_string(str(name))) self._monobridge._send('lcd_value', sender.name, self.generate_strip_string(str(value))) def clip_name(self, sender, name): #self.log_message('clip name ' + str(sender.osc_name) + ' ' + str(self.generate_strip_string(str(name)))) self._monobridge._send_osc(sender.osc_name, self.generate_strip_string(str(name))) """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(): clip_names.append(clip_slot._clip_slot)##.clip.name) #return clip_slot._clip_slot #self.log_message('clip name' + str(clip_slot._clip_slot.clip.name)) return clip_names""" """called on timer""" def update_display(self): super(LemurPad, self).update_display() for callback in self._timer_callbacks: callback() def flash(self): if(self.flash_status > 0): for control in self.controls: if isinstance(control, MonoButtonElement): control.flash(self._timer) def strobe(self): pass """general functionality""" def disconnect(self): super(MonOhm, self).disconnect() def clear_grid_names(self): #self.log_message('clear grid names' + str(self)) for column in range(8): for row in range(8): self._monobridge._send_osc(self._grid[column][row].osc_name, '`_') def _register_timer_callback(self, callback): """ Registers a callback that is triggerd on every call of update_display """ assert (callback != None) assert (dir(callback).count('im_func') is 1) assert (self._timer_callbacks.count(callback) == 0) self._timer_callbacks.append(callback) return None def _unregister_timer_callback(self, callback): """ Unregisters a timer callback """ assert (callback != None) assert (dir(callback).count('im_func') is 1) assert (self._timer_callbacks.count(callback) == 1) self._timer_callbacks.remove(callback) return None def _set_brightness(self, value): #self._bright = (value != 0) #for control in self.controls: # if isinstance(control, OSCMonoButtonElement): # self._monobridge._send_osc(control.osc_alt, int(self._bright), True) pass def reset(self): #self._monobridge._send_osc('/reset') for control in self.controls: control.reset() def assign_lower_grid_names(self, mode): if self._display_button_names is True: for column in range(8): for row in range(3): self._monobridge._send_osc(self._grid[column][row+5].osc_name, self.generate_strip_string(str(GRID_NAMES[mode][row][column]))) def reset_and_refresh_state(self, *a, **k): self.schedule_message(1, self.reset) self.schedule_message(2, self.refresh_state)
class Alias(ControlSurface): __module__ = __name__ __doc__ = " Alias 8 controller script " def __init__(self, c_instance): super(Alias, self).__init__(c_instance) with self.component_guard(): self._host_name = 'Alias' self._color_type = 'OhmRGB' self.log_message( "--------------= Alias log opened =--------------") self._rgb = 0 self._timer = 0 self.flash_status = 1 self._clutch_device_selection = False self._touched = 0 self._update_linked_device_selection = None self._setup_monobridge() self._setup_controls() self._setup_m4l_interface() self._setup_mixer_control() self._setup_session_control() self._setup_mixer_nav() """script initialization methods""" def _setup_monobridge(self): self._monobridge = MonoBridgeElement(self) self._monobridge.name = 'MonoBridge' def _setup_controls(self): is_momentary = True self._fader = [ MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, ALIAS_FADERS[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self) for index in range(9) ] self._button = [ MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, ALIAS_BUTTONS[index], 'Button_' + str(index), self) for index in range(16) ] self._dial = [ MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, ALIAS_DIALS[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index + 8, self) for index in range(16) ] self._encoder = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, ALIAS_ENCODER, Live.MidiMap.MapMode.absolute, 'Encoder', 0, self) def _setup_m4l_interface(self): self._m4l_interface = M4LInterfaceComponent( controls=self.controls, component_guard=self.component_guard) self.get_control_names = self._m4l_interface.get_control_names self.get_control = self._m4l_interface.get_control self.grab_control = self._m4l_interface.grab_control self.release_control = self._m4l_interface.release_control def _setup_mixer_control(self): is_momentary = True self._num_tracks = (8) #A mixer is one-dimensional; self._mixer = AliasMixerComponent(8, 0, False, False) self._mixer.name = 'Mixer' self._mixer.set_track_offset( 0) #Sets start point for mixer strip (offset from left) for index in range(8): self._mixer.channel_strip(index).set_volume_control( self._fader[index]) self._mixer.channel_strip(index).set_send_controls( tuple([self._dial[index], self._dial[index + 8]])) self._mixer.channel_strip(index).set_mute_button( self._button[index]) self._button[index].set_on_off_values(MUTE_TOG, 0) self._mixer.channel_strip(index)._invert_mute_feedback = True self._mixer.channel_strip(index).set_arm_button( self._button[index + 8]) self._button[index + 8].set_on_off_values(REC_TOG, 0) self._mixer.channel_strip( index).name = 'Mixer_ChannelStrip_' + str(index) self._mixer.master_strip().set_volume_control(self._fader[8]) self.song().view.selected_track = self._mixer.channel_strip(0)._track def _setup_session_control(self): self._session = SessionComponent(8, 1) self._session.set_mixer(self._mixer) self.set_highlighting_session_component(self._session) def _setup_mixer_nav(self): if not self._encoder.value_has_listener(self._nav_change): self._encoder.add_value_listener(self._nav_change) """shift/zoom methods""" def _nav_change(self, value): self._session.set_offsets( int((float(value) / float(127)) * max(8, len(self._mixer.tracks_to_use()) - 8)), self._session._scene_offset) """called on timer""" def update_display(self): ControlSurface.update_display(self) self._timer = (self._timer + 1) % 256 self.flash() def flash(self): if (self.flash_status > 0): for control in self.controls: if isinstance(control, MonoButtonElement): control.flash(self._timer) """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 += ' ' ret = ret.replace(' ', '_') assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP) return ret def notification_to_bridge(self, name, value, sender): if isinstance(sender, MonoEncoderElement): 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 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) """general functionality""" def allow_updates(self, allow_updates): for component in self.components: component.set_allow_update(int(allow_updates != 0)) def disconnect(self): if self._encoder.value_has_listener(self._nav_change): self._encoder.remove_value_listener(self._nav_change) self.log_message("--------------= Alias log closed =--------------") super(Alias, self).disconnect() rebuild_sys() def handle_sysex(self, midi_bytes): pass def device_follows_track(self, val): self._device_selection_follows_track_selection = (val == 1) return self def assign_alternate_mappings(self): pass def _get_num_tracks(self): return self.num_tracks def _on_device_changed(self, device): #self.log_message('new device ' + str(type(device))) if self._update_linked_device_selection != None: self._update_linked_device_selection(device) def _on_session_offset_changes(self): if self._r_function_mode._mode_index in range(0, 3): self._mem[int(self._r_function_mode._mode_index )] = self._session2.track_offset() def connect_script_instances(self, instanciated_scripts): pass # a
def _setup_session_control(self): is_momentary = True self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 87) right_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 107) #78 left_button = ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 106) #77 right_button.name = 'Bank_Select_Right_Button' left_button.name = 'Bank_Select_Left_Button' global session session = SessionComponent(8, 40) session.name = 'Session_Control' session.set_track_bank_buttons(right_button, left_button) matrix = ButtonMatrixElement() matrix.name = 'Button_Matrix' scene_launch_notes = [56, 57, 58, 59, 60, 61, 62, 63] scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, scene_launch_notes[index]) for index in range(8) ] track_stop_buttons = [ ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, (index + 28)) for index in range(8) ] 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' session.set_stop_track_clip_buttons(tuple(track_stop_buttons)) for scene_index in range(8): scene = 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(7): button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (track_index * 8) + scene_index) button.name = str(track_index) + '_Clip_' + str( scene_index) + '_Button' button_row.append(button) clip_slot = scene.clip_slot(track_index) clip_slot.set_stopped_value(0) clip_slot.set_started_value(64) 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)) session.selected_scene().name = 'Selected_Scene' #session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64)) #session_zoom = SessionZoomingComponent(session) #session_zoom.name = 'Session_Overview' #session_zoom.set_button_matrix(matrix) #session_zoom.set_zoom_button(self._shift_button) #session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button) #session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons)) #session_zoom.set_stopped_value(0) #session_zoom.set_selected_value(127) session.set_mixer(mixer) return None #return session
class LaunchpadSimple(ControlSurface): def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self._suggested_input_port = 'Launchpad' self._suggested_output_port = 'Launchpad' # Launchpad configuration self._send_midi(LAUNCHPAD_RESET) self._send_midi(LAUNCHPAD_ENABLE_BLINKING) # make buttons top_buttons = [ make_button(MIDI_CC_TYPE, 104 + i) for i in range(8) ] side_buttons = [ make_button(MIDI_NOTE_TYPE, 8 + 16 * i) for i in range(8) ] matrix = ButtonMatrixElement() for row in range(8): button_row = [ make_button(MIDI_NOTE_TYPE, 16 * row + col) for col in range(8) ] matrix.add_row(tuple(button_row)) # mixer and session components self._mixer = MixerComponent(8) self._session = SessionComponent(8, SCENES_AMOUNT) self._session.set_mixer(self._mixer) self.set_highlighting_session_component(self._session) # navigation for button in top_buttons[:4]: button.set_on_off_values(GREEN_FULL, GREEN_THIRD) self._session.set_scene_bank_buttons(top_buttons[1], top_buttons[0]) self._session.set_track_bank_buttons(top_buttons[3], top_buttons[2]) # clip launch for scene_index in range(SCENES_AMOUNT): scene = self._session.scene(scene_index) scene.set_launch_button(side_buttons[scene_index]) scene.set_triggered_value(GREEN_BLINK) scene.set_scene_value(GREEN_THIRD) scene.set_no_scene_value(LED_OFF) for track_index in range(8): clip_slot = scene.clip_slot(track_index) clip_slot.set_launch_button( matrix.get_button(track_index, scene_index)) clip_slot.set_triggered_to_play_value(GREEN_BLINK) clip_slot.set_triggered_to_record_value(RED_BLINK) clip_slot.set_started_value(GREEN_FULL) clip_slot.set_stopped_value(AMBER_THIRD) clip_slot.set_recording_value(RED_FULL) # track stop self._session.set_stop_track_clip_buttons( [matrix.get_button(i, ROW_STOP) for i in range(8)]) self._session.set_stop_clip_value(RED_THIRD) self._session.set_stop_clip_triggered_value(RED_BLINK) button_stop_all = side_buttons[ROW_STOP] button_stop_all.set_on_off_values(RED_FULL, RED_THIRD) self._session.set_stop_all_clips_button(button_stop_all) # track select self._mixer.set_track_select_buttons( [matrix.get_button(i, ROW_SELECT) for i in range(8)]) self._mixer.set_track_select_values(AMBER_FULL, AMBER_THIRD, LED_OFF) button_select_master = side_buttons[ROW_SELECT] button_select_master.set_on_off_values(AMBER_FULL, AMBER_THIRD) self._mixer.set_master_select_button(button_select_master) # delete clip button self._delete_button = top_buttons[INDEX_DELETE_BUTTON] self._delete_button.set_on_off_values(RED_BLINK, RED_THIRD) self._delete_button.add_value_listener(self._delete_value_listener) self._del_pressed = False self._delete_button.turn_off() # quantization toggle self._quantization_toggle = QuantizationToggle( top_buttons[INDEX_QUANTIZATION_BUTTON], self.song(), GREEN_THIRD, RED_THIRD) # browser view toggle self._browser_view_toggle = ViewToggle( side_buttons[INDEX_BROWSER_VIEW_BUTTON], ABLETON_VIEW_BROWSER, GREEN_THIRD, RED_THIRD) # detail view toggle self._device_view_toggle = DetailViewToggle( side_buttons[INDEX_DETAIL_VIEW_BUTTON], GREEN_THIRD, RED_THIRD, LED_OFF) def disconnect(self): self._send_midi(LAUNCHPAD_RESET) ControlSurface.disconnect(self) self._delete_button.remove_value_listener(self._delete_value_listener) self._delete_button = None self._quantization_toggle.disconnect() self._quantization_toggle = None self._browser_view_toggle.disconnect() self._browser_view_toggle = None self._device_view_toggle.disconnect() self._device_view_toggle = None self._session = None self._mixer = None def receive_midi(self, midi_bytes): if self._del_pressed and self._delete_clip(midi_bytes): return else: ControlSurface.receive_midi(self, midi_bytes) def _delete_value_listener(self, value): self._del_pressed = (value == 127) self._delete_button.set_light(self._del_pressed) def _delete_clip(self, midi_bytes): if midi_bytes[0] == MIDI_NOTE_ON_VALUE: row, col = launchpad_button_loc(midi_bytes[1]) if row < SCENES_AMOUNT and col < 8: self._session.scene(row).clip_slot(col)._do_delete_clip() return True return False
def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) self._device_selection_follows_track_selection = True with self.component_guard(): self._suppress_send_midi = True self._suppress_session_highlight = True self._control_is_with_automap = False is_momentary = True self._suggested_input_port = 'Akai MPK26' self._suggested_output_port = 'Akai MPK26' self.log("BEFORE mixer") self._setup_mixer_control() self._setup_device_control() # self.clipcontrol(8) self.log("AFTER MIXER") """SESSION ViEW""" global session session = SessionComponent(GRIDSIZE[0],GRIDSIZE[1]) session.name = 'Session_Control' matrix = ButtonMatrixElement() matrix.name = 'Button_Matrix' up_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL_MIXER, UP_BUTTON) down_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL_MIXER, DOWN_BUTTON) left_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL_MIXER, LEFT_BUTTON) right_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL_MIXER, RIGHT_BUTTON) session.set_scene_bank_buttons(down_button, up_button) session.set_track_bank_buttons(right_button, left_button) # session_zoom = SessionZoomingComponent(session) # session_zoom.set_nav_buttons(up_button,down_button,left_button,right_button) session_stop_buttons = [] self.log("SETTING UP GRID") for row in xrange(GRIDSIZE[1]): button_row = [] self.log("CZ ROW") self.log(str(row)) scene = session.scene(row) scene.name = 'Scene_' + str(row) scene.set_launch_button(ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL, SCENE_BUTTONS[row])) scene.set_triggered_value(2) for column in xrange(GRIDSIZE[0]): self.log("CZ COLUMN") self.log(str(column)) button = ConfigurableButtonElement(True, MIDI_NOTE_TYPE, CHANNEL_MIXER, LAUNCH_BUTTONS[row][column]) button.name = str(column) + '_Clip_' + str(row) + '_Button' button_row.append(button) clip_slot = scene.clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_' + str(row) clip_slot.set_launch_button(button) matrix.add_row(tuple(button_row)) for column in xrange(GRIDSIZE[0]): session_stop_buttons.append((ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL_MIXER, TRACK_STOPS[column]))) self._suppress_session_highlight = False self._suppress_send_midi = False self.set_highlighting_session_component(session) session.set_stop_track_clip_buttons(tuple(session_stop_buttons)) session.set_mixer(mixer)
class MPK_SessionControl(ControlSurface): __module__ = __name__ __doc__ = "MPK Session Control Script" def __init__(self, c_instance): ControlSurface.__init__(self, c_instance) with self.component_guard(): self._setup_mixer_control() self._setup_transport_control() self._setup_session_control() self._setup_channel_strip_control() self.set_highlighting_session_component(self.session) # Sets up the control surface ('colored box') def _setup_session_control(self): num_tracks = 3 # 3 columns (tracks) num_scenes = 1 # 1 row (scenes) # a session highlight ("red box") will appear with any two non-zero values self.session = SessionComponent(num_tracks, num_scenes) # (track_offset, scene_offset) Sets the initial offset of the "red box" from top left self.session.set_offsets(0, 0) self.session.set_select_buttons( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KEYBOARD_HIGH_C - 7), ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KEYBOARD_HIGH_C - 6)) # These calls control the actual movement of the box; however, we're just # using scene and track select to move around # self.session.set_scene_bank_buttons(ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 86), ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 85)) # self.session.set_track_bank_buttons(ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 15), ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 14)) # Launch current scene with top right pad self.session.selected_scene().set_launch_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, BANK_B[3])) # Stop all clips with bottom right pad self.session.set_stop_all_clips_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, BANK_B[7])) # First three pads launch clips in box clip_launch_notes = [BANK_B[0], BANK_B[1], BANK_B[2]] clip_select_notes = [ KEYBOARD_MID_C - 6, KEYBOARD_MID_C - 4, KEYBOARD_MID_C - 2 ] for tracks in range(num_tracks): self.session.scene(0).clip_slot(tracks).set_launch_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, clip_launch_notes[tracks])) self.session.scene(0).clip_slot(tracks).set_select_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, clip_select_notes[tracks])) self.session.scene(0).clip_slot(tracks).set_started_value(1) self.session.scene(0).clip_slot(tracks).set_stopped_value(0) # Bottom three pads stop current tracks in box track_stop_notes = [BANK_B[4], BANK_B[5], BANK_B[6]] # This looks unnecessary but I don't know the actual API call to to set the stop track button for the selected track stop_track_buttons = [] for tracks in range(num_tracks): stop_track_buttons.append( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, track_stop_notes[tracks])) self.session.set_stop_track_clip_buttons(tuple(stop_track_buttons)) #here we set up a mixer and channel strip(s) which move with the session self.session.set_mixer( self.mixer ) #bind the mixer to the session so that they move together selected_scene = self.song( ).view.selected_scene #this is from the Live API all_scenes = self.song().scenes index = list(all_scenes).index(selected_scene) self.session.set_offsets(0, index) #(track_offset, scene_offset) def _setup_transport_control(self): self.transport = TransportComponent() self.transport.set_stop_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KEYBOARD_LOW_C)) self.transport.set_play_button( ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 113)) self.transport.set_metronome_button( ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 114)) self.transport.set_tap_tempo_button( ButtonElement(is_momentary, MIDI_CC_TYPE, CHANNEL, 81)) def _setup_mixer_control(self): #set up the mixer self.mixer = MixerComponent( NUM_TRACKS, 2) #(num_tracks, num_returns, with_eqs, with_filters) self.mixer.set_track_offset( 0) #sets start point for mixer strip (offset from left) self.mixer.selected_strip().set_arm_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KEYBOARD_HIGH_C)) self.mixer.set_select_buttons( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KEYBOARD_HIGH_C - 2), ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KEYBOARD_HIGH_C - 4)) self.mixer.master_strip().set_volume_control( SliderElement(MIDI_CC_TYPE, CHANNEL, KNOBS[3])) #self.mixer.master_strip().set_pan_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KNOBS[7])) #set the selected strip to the first track, so that we don't assign a button to arm the master track, which would cause an assertion error self.song().view.selected_track = self.mixer.channel_strip(0)._track self.mixer.selected_strip().set_volume_control( SliderElement(MIDI_CC_TYPE, CHANNEL, KNOBS[0])) #self.mixer.selected_strip().set_pan_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KNOBS[4])) selected_track = self.song().view.selected_track all_tracks = ((self.song().tracks + self.song().return_tracks) + (self.song().master_track, )) currentTrackIndex = list(all_tracks).index(selected_track) if currentTrackIndex < len(all_tracks) - 1: self.mixer.channel_strip(currentTrackIndex + 1).set_volume_control( SliderElement(MIDI_CC_TYPE, CHANNEL, KNOBS[1])) #self.mixer.channel_strip(currentTrackIndex + 1).set_pan_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KNOBS[5])) if currentTrackIndex < len(all_tracks) - 2: self.mixer.channel_strip(currentTrackIndex + 2).set_volume_control( SliderElement(MIDI_CC_TYPE, CHANNEL, KNOBS[2])) #self.mixer.channel_strip(currentTrackIndex + 2).set_pan_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KNOBS[6])) def _setup_channel_strip_control(self): self.channelstrip = ChannelStripComponent() self.channelstrip.set_track(self.mixer.channel_strip(0)._track) def _on_selected_track_changed(self): """This is an override, to add special functionality (we want to move the session to the selected track, when it changes) Note that it is sometimes necessary to reload Live (not just the script) when making changes to this function""" ControlSurface._on_selected_track_changed( self ) # This will run component.on_selected_track_changed() for all components """here we set the mixer and session to the selected track, when the selected track changes""" selected_track = self.song( ).view.selected_track #this is how to get the currently selected track, using the Live API self.mixer.channel_strip(0).set_track(selected_track) all_tracks = ( (self.song().tracks + self.song().return_tracks) + (self.song().master_track, ) ) #this is from the MixerComponent's _next_track_value method index = list(all_tracks).index(selected_track) #and so is this self.session.set_offsets( index, self.session._scene_offset ) #(track_offset, scene_offset); we leave scene_offset unchanged, but set track_offset to the selected track. This allows us to jump the red box to the selected track. def _on_selected_scene_changed(self): """This is an override, to add special functionality (we want to move the session to the selected scene, when it changes)""" """When making changes to this function on the fly, it is sometimes necessary to reload Live (not just the script)...""" ControlSurface._on_selected_scene_changed( self ) # This will run component.on_selected_scene_changed() for all components """Here we set the mixer and session to the selected track, when the selected track changes""" selected_scene = self.song( ).view.selected_scene #this is how we get the currently selected scene, using the Live API all_scenes = self.song().scenes #then get all of the scenes index = list(all_scenes).index( selected_scene ) #then identify where the selected scene sits in relation to the full list self.session.set_offsets( self.session._track_offset, index ) #(track_offset, scene_offset) Set the session's scene offset to match the selected track (but make no change to the track offset) def disconnect(self): #clean things up on disconnect #create entry in log file self.log_message( time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) + "----------MPK SessionControl log closed----------") ControlSurface.disconnect(self) return None
class Launchkey(ControlSurface): """ Script for Novation's Launchkey 25/49/61 keyboards """ def __init__(self, c_instance, control_factory=LaunchkeyControlFactory(), identity_response=SIZE_RESPONSE): ControlSurface.__init__(self, c_instance) self._control_factory = control_factory self._identity_response = identity_response with self.component_guard(): self.set_pad_translations(PAD_TRANSLATIONS) self._suggested_input_port = 'Launchkey InControl' self._suggested_output_port = 'Launchkey InControl' self._has_sliders = True self._current_midi_map = None self._master_slider = make_slider(7, 'Master_Volume_Control') self._modes_buttons = [] for index in range(3): button = ButtonElement(IS_MOMENTARY, MIDI_NOTE_TYPE, 0, 13 + index) self._modes_buttons.append(button) self._modes_buttons[-1].add_value_listener( self._dummy_listener) self._setup_mixer() self._setup_session() self._setup_transport() self._setup_device() self._setup_navigation() for component in self.components: component.set_enabled(False) return def refresh_state(self): ControlSurface.refresh_state(self) self.schedule_message(2, self._send_midi, LIVE_MODE_ON) self.schedule_message(3, self._send_midi, SIZE_QUERY) def handle_sysex(self, midi_bytes): if midi_bytes[0:11] == self._identity_response: self._has_sliders = midi_bytes[11] != 48 self._send_midi(LED_FLASHING_ON) self._update_mixer_offset() for control in self.controls: if isinstance(control, InputControlElement): control.clear_send_cache() for component in self.components: component.set_enabled(True) if self._has_sliders: self._mixer.master_strip().set_volume_control( self._master_slider) self._mixer.update() else: self._mixer.master_strip().set_volume_control(None) for index in range(len(self._sliders)): self._mixer.channel_strip(index).set_volume_control(None) self._mixer.channel_strip(index).set_mute_button(None) slider = self._sliders[index] slider.release_parameter() self._mixer.selected_strip().set_volume_control( self._master_slider) self.request_rebuild_midi_map() return def disconnect(self): ControlSurface.disconnect(self) for button in self._modes_buttons: if button.value_has_listener(self._dummy_listener): button.remove_value_listener(self._dummy_listener) self._modes_buttons = None self._encoders = None self._sliders = None self._strip_buttons = None self._master_slider = None self._current_midi_map = None self._transport_view_modes = None self._send_midi(LED_FLASHING_OFF) self._send_midi(LIVE_MODE_OFF) return def build_midi_map(self, midi_map_handle): self._current_midi_map = midi_map_handle ControlSurface.build_midi_map(self, midi_map_handle) def _setup_mixer(self): mute_solo_flip_button = make_button(59, 'Master_Button') self._mixer = SpecialMixerComponent(8) self._mixer.name = 'Mixer' self._mixer.selected_strip().name = 'Selected_Channel_Strip' self._mixer.master_strip().name = 'Master_Channel_Strip' self._mixer.master_strip().set_volume_control(self._master_slider) self._sliders = [] self._strip_buttons = [] for index in range(8): strip = self._mixer.channel_strip(index) strip.name = 'Channel_Strip_' + str(index) strip.set_invert_mute_feedback(True) self._sliders.append( make_slider(41 + index, 'Volume_Control_%d' % index)) strip.set_volume_control(self._sliders[-1]) self._strip_buttons.append( make_button(51 + index, 'Mute_Button_%d' % index)) self._mixer.set_strip_mute_solo_buttons(tuple(self._strip_buttons), mute_solo_flip_button) def _setup_session(self): scene_launch_button = self._control_factory.create_scene_launch_button( ) scene_stop_button = self._control_factory.create_scene_stop_button() self._session = SessionComponent(8, 0) self._session.name = 'Session_Control' self._session.selected_scene().name = 'Selected_Scene' self._session.selected_scene().set_launch_button(scene_launch_button) self._session.selected_scene().set_triggered_value(GREEN_BLINK) self._session.set_stop_all_clips_button(scene_stop_button) scene_stop_button.set_on_off_values(AMBER_FULL, LED_OFF) self._session.set_mixer(self._mixer) self._session.set_stop_clip_value(AMBER_HALF) self._session.set_stop_clip_triggered_value(GREEN_BLINK) clip_launch_buttons = [] clip_stop_buttons = [] for index in range(8): clip_launch_buttons.append( self._control_factory.create_clip_launch_button(index)) clip_stop_buttons.append( self._control_factory.create_clip_stop_button(index)) clip_slot = self._session.selected_scene().clip_slot(index) clip_slot.set_triggered_to_play_value(GREEN_BLINK) clip_slot.set_triggered_to_record_value(RED_BLINK) clip_slot.set_stopped_value(AMBER_FULL) clip_slot.set_started_value(GREEN_FULL) clip_slot.set_recording_value(RED_FULL) clip_slot.set_launch_button(clip_launch_buttons[-1]) clip_slot.name = 'Selected_Clip_Slot_' + str(index) self._session.set_stop_track_clip_buttons(tuple(clip_stop_buttons)) def _setup_transport(self): rwd_button = make_button(112, 'Rwd_Button') ffwd_button = make_button(113, 'FFwd_Button') stop_button = make_button(114, 'Stop_Button') play_button = make_button(115, 'Play_Button') loop_button = make_button(116, 'Loop_Button') rec_button = make_button(117, 'Record_Button') transport = TransportComponent() transport.name = 'Transport' transport.set_stop_button(stop_button) transport.set_play_button(play_button) transport.set_record_button(rec_button) transport.set_loop_button(loop_button) self._transport_view_modes = TransportViewModeSelector( transport, self._session, ffwd_button, rwd_button) self._transport_view_modes.name = 'Transport_View_Modes' def _setup_device(self): encoders = [ make_encoder(21 + index, 'Device_Control_%d' % index) for index in xrange(8) ] self._encoders = tuple(encoders) device = DeviceComponent(device_selection_follows_track_selection=True) device.name = 'Device_Component' self.set_device_component(device) device.set_parameter_controls(self._encoders) def _setup_navigation(self): self._next_track_button = self._control_factory.create_next_track_button( ) self._prev_track_button = self._control_factory.create_prev_track_button( ) self._session_navigation = SessionNavigationComponent( name='Session_Navigation') self._session_navigation.set_next_track_button(self._next_track_button) self._session_navigation.set_prev_track_button(self._prev_track_button) def _dummy_listener(self, value): pass def _on_selected_track_changed(self): ControlSurface._on_selected_track_changed(self) self._update_mixer_offset() def _update_mixer_offset(self): all_tracks = self._session.tracks_to_use() selected_track = self.song().view.selected_track num_strips = self._session.width() if selected_track in all_tracks: track_index = list(all_tracks).index(selected_track) new_offset = track_index - track_index % num_strips self._session.set_offsets(new_offset, self._session.scene_offset())
def _setup_session_control(self): is_momentary = True self._shift_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 87) right_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 78) left_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 77) up_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 71) down_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 79) 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' global session session = SessionComponent(7, 8) session.name = 'Session_Control' session.set_track_bank_buttons(right_button, left_button) session.set_scene_bank_buttons(down_button, up_button) matrix = ButtonMatrixElement() matrix.name = 'Button_Matrix' scene_launch_notes = [56,57,58,59,60,61,62,63] scene_launch_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, scene_launch_notes[index]) for index in range(8) ] #track_stop_buttons = [ ButtonElement(is_momentary, MIDI_NOTE_TYPE, index, 52) for index in range(8) ] 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) #button_notes = [0,8,16,24,32,40,48,56,1,9,17,25,33,41,49,57,2,10,18,26,34,42,50,58,3,11,19,27,35,43,51,59,4,12,20,28,36,44,52,60,5,13,21,29,37,45,53,61,6,14,22,30,38,46,54,62] for scene_index in range(8): scene = 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(7): button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (track_index * 8) + scene_index) 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(0) clip_slot.set_started_value(64) #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)) session.selected_scene().name = 'Selected_Scene' #session.selected_scene().set_launch_button(ButtonElement(is_momentary, MIDI_CC_TYPE, 0, 64)) #session_zoom = SessionZoomingComponent(session) #session_zoom.name = 'Session_Overview' #session_zoom.set_button_matrix(matrix) #session_zoom.set_zoom_button(self._shift_button) #session_zoom.set_nav_buttons(up_button, down_button, left_button, right_button) #session_zoom.set_scene_bank_buttons(tuple(scene_launch_buttons)) #session_zoom.set_stopped_value(0) #session_zoom.set_selected_value(127) session.set_mixer(mixer) return None #return session