def _MG_setup(self):
        mixer = MixerComponent(8)
        mixer.set_track_offset(
            0)  #Sets start point for mixer strip (offset from left)
        transport = TransportComponent()
        mixer.set_track_offset(0)

        for i in xrange(len(KNOBS)):  #set the functions of the knobs
            volume_knob = SliderElement(MIDI_CC_TYPE, 0, KNOBS[i])
            pan_knob = SliderElement(MIDI_CC_TYPE, 1, KNOBS[i])

            send_a = SliderElement(MIDI_CC_TYPE, 2, KNOBS[i])
            send_b = SliderElement(MIDI_CC_TYPE, 3, KNOBS[i])
            send_c = SliderElement(MIDI_CC_TYPE, 4, KNOBS[i])
            send_d = SliderElement(MIDI_CC_TYPE, 5, KNOBS[i])
            send_e = SliderElement(MIDI_CC_TYPE, 6, KNOBS[i])
            send_f = SliderElement(MIDI_CC_TYPE, 7, KNOBS[i])

            mixer.channel_strip(i).set_volume_control(volume_knob)
            mixer.channel_strip(i).set_pan_control(pan_knob)
            mixer.channel_strip(i).set_send_controls(
                [send_a, send_b, send_c, send_d, send_e, send_f])

        # scenes are locked to channel 14
        transport.set_overdub_button(
            ButtonElement(False, MIDI_CC_TYPE, 0, SCENES[0]))
        transport.set_stop_button(
            ButtonElement(False, MIDI_CC_TYPE, 0, SCENES[1]))
示例#2
0
 def _setup_transport(self):
     is_momentary = True
     transport = TransportComponent()
     studiotransport = MaschineTransport()
     playButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 108)
     stopButton = StateButton(not is_momentary, MIDI_CC_TYPE, 0, 110)
     recordButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 109)
     overdubButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 107)
     metrononmeButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 104)
     eventRecButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 98)
     playButton.name = 'Play'
     stopButton.name = 'Stop'
     recordButton.name = 'Record'
     overdubButton.name = 'Overdub'
     metrononmeButton.name = 'Metronome'
     transport.set_play_button(playButton)
     transport.set_stop_button(stopButton)
     transport.set_record_button(recordButton)
     transport.set_overdub_button(overdubButton)
     transport.set_metronome_button(metrononmeButton)
     studiotransport.set_session_auto_button(eventRecButton)
     studiotransport.set_arrangement_overdub_button(
         StateButton(is_momentary, MIDI_CC_TYPE, 0, 106))
     studiotransport.set_back_arrange_button(
         StateButton(is_momentary, MIDI_CC_TYPE, 0, 105))
     transport.set_nudge_buttons(
         StateButton(is_momentary, MIDI_CC_TYPE, 1, 51),
         StateButton(is_momentary, MIDI_CC_TYPE, 1, 50))
     punchinbutton = ToggleButton(MIDI_CC_TYPE, 1, 52)
     punchoutbutton = ToggleButton(MIDI_CC_TYPE, 1, 53)
     punchinbutton.name = 'Punch In'
     punchoutbutton.name = 'Punch Out'
     transport.set_punch_buttons(punchinbutton, punchoutbutton)
     transport.set_loop_button(
         StateButton(is_momentary, MIDI_CC_TYPE, 1, 54))
     self.song_follow_button = ButtonElement(True, MIDI_CC_TYPE, 2, 98)
     self._do_song_follow.subject = self.song_follow_button
     self._song_follow_changed.subject = self.song().view
     self._song_follow_changed()
     self.transp_ff_button = ButtonElement(True, MIDI_CC_TYPE, 1, 59)
     self.transp_rw_button = ButtonElement(True, MIDI_CC_TYPE, 1, 58)
     transport.set_seek_buttons(self.transp_ff_button,
                                self.transp_rw_button)
     self.xfadeKnob = SliderElement(MIDI_CC_TYPE, 1, 105)
     self.xfadeKnob.connect_to(
         self.song().master_track.mixer_device.crossfader)
     self.master_knob = SliderElement(MIDI_CC_TYPE, 0, 99)
     self.master_knob.connect_to(
         self.song().master_track.mixer_device.volume)
     self.tap_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 88)
     self._do_tap_tempo.subject = self.tap_button
     self.cue_add_delete_button = StateButton(is_momentary, MIDI_CC_TYPE, 1,
                                              55)
     self.cue_prev_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 56)
     self.cue_next_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 57)
     self._do_toggle_cue.subject = self.cue_add_delete_button
     self._do_toggle_prev_cue.subject = self.cue_prev_button
     self._do_toggle_next_cue.subject = self.cue_next_button
示例#3
0
 def _setup_mixer_control(self):
     """TRANSPORT CONTROLS"""
     stop_button = ButtonElement(False, MIDI_CC_TYPE, 0, STOP_BUTTON)
     play_button = ButtonElement(False, MIDI_CC_TYPE, 0, PLAY_BUTTON)
     record_button = ButtonElement(False, MIDI_CC_TYPE, 0, RECORD_BUTTON)
     transport = TransportComponent()
     transport.set_stop_button(stop_button)
     transport.set_play_button(play_button)
     transport.set_overdub_button(record_button)
     transport.set_overdub_button(record_button)
     transport.set_seek_buttons(
         ButtonElement(False, MIDI_CC_TYPE, 0, SEEK_LEFT),
         ButtonElement(False, MIDI_CC_TYPE, 0, SEEK_RIGHT))
 def _setup_transport(self):
     is_momentary = True
     transport = TransportComponent()
     studiotransport = MaschineTransport()
     playButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 108)
     stopButton = StateButton(not is_momentary, MIDI_CC_TYPE, 0, 110)
     recordButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 109)
     overdubButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 107)
     metrononmeButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 104)
     eventRecButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 98)
     playButton.name = 'Play'
     stopButton.name = 'Stop'
     recordButton.name = 'Record'
     overdubButton.name = 'Overdub'
     metrononmeButton.name = 'Metronome'
     transport.set_play_button(playButton)
     transport.set_stop_button(stopButton)
     transport.set_record_button(recordButton)
     transport.set_overdub_button(overdubButton)
     transport.set_metronome_button(metrononmeButton)
     studiotransport.set_session_auto_button(eventRecButton)
     studiotransport.set_arrangement_overdub_button(StateButton(is_momentary, MIDI_CC_TYPE, 0, 106))
     studiotransport.set_back_arrange_button(StateButton(is_momentary, MIDI_CC_TYPE, 0, 105))
     transport.set_nudge_buttons(StateButton(is_momentary, MIDI_CC_TYPE, 1, 51), StateButton(is_momentary, MIDI_CC_TYPE, 1, 50))
     punchinbutton = ToggleButton(MIDI_CC_TYPE, 1, 52)
     punchoutbutton = ToggleButton(MIDI_CC_TYPE, 1, 53)
     punchinbutton.name = 'Punch In'
     punchoutbutton.name = 'Punch Out'
     transport.set_punch_buttons(punchinbutton, punchoutbutton)
     transport.set_loop_button(StateButton(is_momentary, MIDI_CC_TYPE, 1, 54))
     self.song_follow_button = ButtonElement(True, MIDI_CC_TYPE, 2, 98)
     self._do_song_follow.subject = self.song_follow_button
     self._song_follow_changed.subject = self.song().view
     self._song_follow_changed()
     self.prehear_knob = SliderElement(MIDI_CC_TYPE, 0, 41)
     self.prehear_knob.connect_to(self.song().master_track.mixer_device.cue_volume)
     self.transp_ff_button = ButtonElement(True, MIDI_CC_TYPE, 1, 59)
     self.transp_rw_button = ButtonElement(True, MIDI_CC_TYPE, 1, 58)
     transport.set_seek_buttons(self.transp_ff_button, self.transp_rw_button)
     self.xfadeKnob = SliderElement(MIDI_CC_TYPE, 1, 105)
     self.xfadeKnob.connect_to(self.song().master_track.mixer_device.crossfader)
     self.master_knob = SliderElement(MIDI_CC_TYPE, 0, 99)
     self.master_knob.connect_to(self.song().master_track.mixer_device.volume)
     self.tap_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 88)
     self._do_tap_tempo.subject = self.tap_button
     self.cue_add_delete_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 55)
     self.cue_prev_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 56)
     self.cue_next_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 57)
     self._do_toggle_cue.subject = self.cue_add_delete_button
     self._do_toggle_prev_cue.subject = self.cue_prev_button
     self._do_toggle_next_cue.subject = self.cue_next_button
示例#5
0
    def _setup_mixer_control(self):
        num_tracks = GRIDSIZE[0] # Here we define the mixer width in tracks (a mixer has only one dimension)
        global mixer # We want to instantiate the global mixer as a MixerComponent object (it was a global "None" type up until now...)
        mixer = MixerComponent(num_tracks) #(num_tracks, num_returns, with_eqs, with_filters)
        mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
        """set up the mixer buttons"""
        self.song().view.selected_track = mixer.channel_strip(0)._track
        master = mixer.master_strip()
        master.set_volume_control(SliderElement(MIDI_CC_TYPE, CHANNEL_USER, MASTER_VOLUME))
        mixer.set_prehear_volume_control(SliderElement(MIDI_CC_TYPE, CHANNEL_USER, PREHEAR))

        for index in xrange(GRIDSIZE[0]):
            mixer.channel_strip(index).set_volume_control(SliderElement(MIDI_CC_TYPE, CHANNEL_MIXER, MIX_FADERS[index]))
            # mixer.channel_strip(index).set_volume_control(SliderElement(MIDI_CC_TYPE, CHANNEL_INST, MIX_FADERS[index]))
            mixer.channel_strip(index).set_pan_control(SliderElement(MIDI_CC_TYPE, CHANNEL_MIXER, PAN_CONTROLS[index]))
            mixer.channel_strip(index).set_arm_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL_INST, ARM_BUTTONS[index])) #sets the record arm button
            mixer.channel_strip(index).set_solo_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL_INST, SOLO_BUTTONS[index]))
            mixer.channel_strip(index).set_mute_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL_INST, MUTE_BUTTONS[index]))
            mixer.channel_strip(index).set_select_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL_INST, TRACK_SELECTS[index]))
            mixer.channel_strip(index).set_send_controls([SliderElement(MIDI_CC_TYPE, CHANNEL_MIXER, SEND_CONTROLS[index][0]),
                                                              SliderElement(MIDI_CC_TYPE, CHANNEL_MIXER, SEND_CONTROLS[index][1]),
                                                              SliderElement(MIDI_CC_TYPE, CHANNEL_MIXER, SEND_CONTROLS[index][2]),
                                                              SliderElement(MIDI_CC_TYPE, CHANNEL_MIXER, SEND_CONTROLS[index][3])])




        """TRANSPORT CONTROLS"""
        stop_button = ButtonElement(False, MIDI_CC_TYPE, CHANNEL_MIXER, STOP_BUTTON)
        play_button = ButtonElement(False, MIDI_CC_TYPE, CHANNEL_MIXER, PLAY_BUTTON)
        record_button = ButtonElement(False,MIDI_CC_TYPE,CHANNEL_MIXER,RECORD_BUTTON)
        overdub_button = ButtonElement(False,MIDI_CC_TYPE,CHANNEL_MIXER,OVERDUB_BUTTON)
        transport = TransportComponent()
        transport.TEMPO_TOP = 188
        transport.set_stop_button(stop_button)
        transport.set_play_button(play_button)
        transport.set_overdub_button(overdub_button)
        transport.set_record_button(record_button)
        transport.set_seek_buttons(ButtonElement(False,MIDI_CC_TYPE,0,SEEK_LEFT),ButtonElement(False,MIDI_CC_TYPE,0,SEEK_RIGHT))
        transport.set_tempo_control(SliderElement(MIDI_CC_TYPE, CHANNEL_USER, TEMPO))
        transport.set_metronome_button(ButtonElement(False,MIDI_CC_TYPE,CHANNEL_USER, METRONOME))
        transport.set_tap_tempo_button(ButtonElement(False,MIDI_CC_TYPE,CHANNEL_USER,TAP_TEMPO))
示例#6
0
    def _setup_mixer_control(self):
        num_tracks = GRIDSIZE[
            1]  # Here we define the mixer width in tracks (a mixer has only one dimension)
        global mixer  # We want to instantiate the global mixer as a MixerComponent object (it was a global "None" type up until now...)
        mixer = MixerComponent(
            num_tracks)  #(num_tracks, num_returns, with_eqs, with_filters)
        mixer.set_track_offset(
            0)  #Sets start point for mixer strip (offset from left)
        """set up the mixer buttons"""
        self.song().view.selected_track = mixer.channel_strip(0)._track
        #master_volume_control = SliderElement(MIDI_CC_TYPE, 1, 17)
        for index in range(GRIDSIZE[1]):
            mixer.channel_strip(index).set_volume_control(
                SliderElement(MIDI_CC_TYPE, CHANNEL, MIX_FADERS[index]))

            mixer.channel_strip(index).set_arm_button(
                ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL,
                              ARM_BUTTONS[index]))  #sets the record arm button
            mixer.channel_strip(index).set_solo_button(
                ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL,
                              SOLO_BUTTONS[index]))
            mixer.channel_strip(index).set_mute_button(
                ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL,
                              MUTE_BUTTONS[index]))
            mixer.channel_strip(index).set_select_button(
                ButtonElement(True, MIDI_NOTE_TYPE, CHANNEL,
                              TRACK_SELECTS[index]))
        """TRANSPORT CONTROLS"""
        stop_button = ButtonElement(False, MIDI_CC_TYPE, 0, STOP_BUTTON)
        play_button = ButtonElement(False, MIDI_CC_TYPE, 0, PLAY_BUTTON)
        record_button = ButtonElement(False, MIDI_CC_TYPE, 0, RECORD_BUTTON)
        transport = TransportComponent()
        transport.set_stop_button(stop_button)
        transport.set_play_button(play_button)
        transport.set_overdub_button(record_button)
        transport.set_overdub_button(record_button)
        transport.set_seek_buttons(
            ButtonElement(False, MIDI_CC_TYPE, 0, SEEK_LEFT),
            ButtonElement(False, MIDI_CC_TYPE, 0, SEEK_RIGHT))
示例#7
0
 def _setup_transport_control(self):
     is_momentary = True  # We'll only be using momentary buttons here
     transport = TransportComponent()  #Instantiate a Transport Component
     return
     """set up the buttons"""
     transport.set_play_button(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 61)
     )  #ButtonElement(is_momentary, msg_type, channel, identifier) Note that the MIDI_NOTE_TYPE constant is defined in the InputControlElement module
     transport.set_stop_button(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 63))
     transport.set_record_button(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 66))
     transport.set_overdub_button(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 68))
     transport.set_nudge_buttons(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 75),
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                       73))  #(up_button, down_button)
     transport.set_tap_tempo_button(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 78))
     transport.set_metronome_button(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 80)
     )  #For some reason, in Ver 7.x.x this method's name has no trailing "e" , and must be called as "set_metronom_button()"...
     transport.set_loop_button(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 82))
     transport.set_punch_buttons(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 85),
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                       87))  #(in_button, out_button)
     transport.set_seek_buttons(
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 90),
         ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                       92))  # (ffwd_button, rwd_button)
     """set up the sliders"""
     transport.set_tempo_control(
         SliderElement(MIDI_CC_TYPE, CHANNEL, 26),
         SliderElement(MIDI_CC_TYPE, CHANNEL, 25))  #(control, fine_control)
     transport.set_song_position_control(
         SliderElement(MIDI_CC_TYPE, CHANNEL, 24))
 def _setup_transport(self):
     is_momentary = True
     transport = TransportComponent()
     playButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 108)
     stopButton = StateButton(not is_momentary, MIDI_CC_TYPE, 0, 110)
     recordButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 109)
     overdubButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 107)
     metrononmeButton = StateButton(is_momentary, MIDI_CC_TYPE, 0, 104)
     playButton.name = 'Play'
     stopButton.name = 'Stop'
     recordButton.name = 'Record'
     overdubButton.name = 'Overdub'
     metrononmeButton.name = 'Metronome'
     transport.set_play_button(playButton)
     transport.set_stop_button(stopButton)
     transport.set_record_button(recordButton)
     transport.set_overdub_button(overdubButton)
     transport.set_metronome_button(metrononmeButton)
     transport.set_nudge_buttons(StateButton(is_momentary, MIDI_CC_TYPE, 1, 51), StateButton(is_momentary, MIDI_CC_TYPE, 1, 50))
     punchinbutton = ToggleButton(MIDI_CC_TYPE, 1, 52)
     punchoutbutton = ToggleButton(MIDI_CC_TYPE, 1, 53)
     punchinbutton.name = 'Punch In'
     punchoutbutton.name = 'Punch Out'
     transport.set_punch_buttons(punchinbutton, punchoutbutton)
     transport.set_loop_button(StateButton(is_momentary, MIDI_CC_TYPE, 1, 54))
     self.transp_ff_button = ButtonElement(True, MIDI_CC_TYPE, 1, 59)
     self.transp_rw_button = ButtonElement(True, MIDI_CC_TYPE, 1, 58)
     transport.set_seek_buttons(self.transp_ff_button, self.transp_rw_button)
     self.xfadeKnob = SliderElement(MIDI_CC_TYPE, 1, 100)
     self.xfadeKnob.connect_to(self.song().master_track.mixer_device.crossfader)
     self.tap_button = StateButton(is_momentary, MIDI_CC_TYPE, 0, 88)
     self.tap_button.add_value_listener(self._do_tap_tempo)
     self.cue_add_delete_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 55)
     self.cue_prev_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 56)
     self.cue_next_button = StateButton(is_momentary, MIDI_CC_TYPE, 1, 57)
     self.cue_add_delete_button.add_value_listener(self._do_toggle_cue)
     self.cue_prev_button.add_value_listener(self._do_toggle_prev_cue)
     self.cue_next_button.add_value_listener(self._do_toggle_next_cue)
示例#9
0
class OP1(ControlSurface):
    def __init__(self, c_instance):
        ControlSurface.__init__(self, c_instance)
        self.c_instance = c_instance

        self.retries_count = 0
        self.device_connected = False

        self.clip_color_callbacks = {}
        self.slot_callbacks = {}

        self.text_start_sequence = (0xf0, 0x0, 0x20, 0x76, 0x00, 0x03)
        self.text_end_sequence = (0xf7, )
        self.enable_sequence = (0xf0, 0x00, 0x20, 0x76, 0x00, 0x01, 0x02, 0xf7)
        self.disable_sequence = (0xf0, 0x00, 0x20, 0x76, 0x00, 0x01, 0x00,
                                 0xf7)

        self.id_sequence = (0xf0, 0x7e, 0x7f, 0x06, 0x01, 0xf7)

        self.text_color_start_sequence = (0xf0, 0x0, 0x20, 0x76, 0x00, 0x04)

        self.log('INITIALIZING')

        self.app = Live.Application.get_application()

        #maj = self.app.get_major_version()
        #min = self.app.get_minor_version()
        #bug = self.app.get_bugfix_version()
        #self.show_message(str(1) + "." + str(0) + "." + str(9))

        self.show_message("Version " + VERSION)

        # reseting text
        self.write_text(' ')

        # reset display clips
        self.reset_display_clips()

        # getting browser visible state
        self.session_browser_visible = self.app.view.is_view_visible("Browser")

        # getting browser visible state
        self.arrange_browser_visible = self.app.view.is_view_visible("Browser")

        # getting session view visible state
        self.session_visible = self.app.view.is_view_visible("Session")

        # getting arrange view visible state
        self.arrange_visible = self.app.view.is_view_visible("Arranger")

        # getting detail view visible state
        self.detail_visible = self.app.view.is_view_visible("Detail")

        # getting back to arranger state
        self.back_to_arranger_state = self.song().back_to_arranger

        # initializing channel strip to null
        self._channel_strip = None

        # initializing transport component
        self._transport = TransportComponent()

        # initializing mixer component
        self._mixer = MixerComponent(NUM_TRACKS, 2)

        # initializing session component
        self._session = SessionComponent(NUM_TRACKS, NUM_ROWS)
        self._session.add_offset_listener(self.session_offset_changed)

        # configuring operation mode selector buttons
        self._operation_mode_buttons = ButtonElement(
            True, MIDI_CC_TYPE, CHANNEL, OP1_MODE_1_BUTTON), ButtonElement(
                True, MIDI_CC_TYPE, CHANNEL, OP1_MODE_2_BUTTON), ButtonElement(
                    True, MIDI_CC_TYPE, CHANNEL,
                    OP1_MODE_3_BUTTON), ButtonElement(True, MIDI_CC_TYPE,
                                                      CHANNEL,
                                                      OP1_MODE_4_BUTTON),

        # initializing operation mode selector
        self._operation_mode_selector = OP1ModeSelectorComponent(
            self, self._transport, self._mixer, self._session)

        # setting operation mode selector buttons
        self._operation_mode_selector.set_mode_buttons(
            self._operation_mode_buttons)

        # adding value listener for operation mode index
        self._operation_mode_selector.add_mode_index_listener(
            self.mode_index_changed)

        # setting global transport assignments
        self._transport.set_record_button(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_REC_BUTTON))
        self._transport.set_play_button(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_PLAY_BUTTON))
        self._transport.set_stop_button(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_STOP_BUTTON))
        self._transport.set_metronome_button(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_METRONOME_BUTTON))
        self._transport.set_tap_tempo_button(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_HELP_BUTTON))
        self._transport.set_punch_buttons(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS1_BUTTON),
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS2_BUTTON))
        self._transport.set_loop_button(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS3_BUTTON))
        self._transport.set_overdub_button(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS4_BUTTON))

        # setting global session assignments
        self._session.set_scene_bank_buttons(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_COM),
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_MICRO))

        # setting misc listeners
        self.browser_toggle_button = ButtonElement(False, MIDI_CC_TYPE,
                                                   CHANNEL, 15)
        self.browser_toggle_button.add_value_listener(
            self.browser_toggle_button_callback)

        self.mainview_toggle_button = ButtonElement(False, MIDI_CC_TYPE,
                                                    CHANNEL, 16)
        self.mainview_toggle_button.add_value_listener(
            self.mainview_toggle_button_callback)

        self.detailview_toggle_button = ButtonElement(False, MIDI_CC_TYPE,
                                                      CHANNEL, 17)
        self.detailview_toggle_button.add_value_listener(
            self.detailview_toggle_button_callback)

        self.clear_track_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL,
                                                25)
        self.clear_track_button.add_value_listener(
            self.clear_track_button_callback)

        self.back_to_arranger_button = ButtonElement(True, MIDI_CC_TYPE,
                                                     CHANNEL, 26)
        self.back_to_arranger_button.add_value_listener(
            self.back_to_arranger_button_callback)

        # adding value listener for selected track change
        self.song().view.add_selected_track_listener(
            self.selected_track_changed)

        # adding value listener for selected scene change
        self.song().view.add_selected_scene_listener(
            self.selected_scene_changed)

        # setting assignments for currently selected track
        self.selected_track_changed()

        # setting assignments for currently selected scene
        self.selected_scene_changed()

    def handle_sysex(self, midi_bytes):
        if ((midi_bytes[6] == 32) and (midi_bytes[7] == 118)):
            self.device_connected = True
            self.log("OP-1 CONNECTED. SENDING ABLETON LIVE MODE INIT SEQUENCE")
            self._send_midi(self.enable_sequence)

    def add_clip_slot_listeners(self):
        #self.log('ADDING CLIP SLOT LISTENERS')

        # creating an empty list for all clip slots
        clip_slots = []

        # getting a reference to all tracks
        tracks = self.song().tracks

        # appending all tracks clip slots to clip_slots
        for track in tracks:
            clip_slots.append(track.clip_slots)

        # iterating over all clip slots
        for t in range(len(clip_slots)):
            for c in range(len(clip_slots[t])):
                clip_slot = clip_slots[t][c]

                # adding has clip listener to clip slot
                self.add_slot_listener(clip_slot)

                # if clip slot has clip
                if clip_slot.has_clip:
                    # adding clip listeners
                    self.add_clip_listener(clip_slot.clip)

    def rem_clip_slot_listeners(self):
        #self.log('REMOVING CLIP SLOT LISTENERS')

        # iterate over all clip color change callbacks
        for c in self.clip_color_callbacks:
            # if clip still exists
            if c != None:
                # and it has a has clip listener
                if c.color_has_listener(self.clip_color_callbacks[c]) == 1:
                    # remove it
                    c.remove_color_listener(self.clip_color_callbacks[c])

        # iterate over all clip slot callbacks
        for cs in self.slot_callbacks:
            # if clip slot still exists
            if cs != None:
                # and it has a has clip listener
                if cs.has_clip_has_listener(self.slot_callbacks[cs]) == 1:
                    # remove it
                    cs.remove_has_clip_listener(self.slot_callbacks[cs])

    def add_slot_listener(self, cs):
        # setting has clip listener
        callback = lambda: self.has_clip_listener(cs)

        # if we don't have a clip slot has clip listener for this clip slot yet
        if not (self.slot_callbacks.has_key(cs)):
            # adding has clip callback to clip slot
            cs.add_has_clip_listener(callback)

            # saving callback for future release
            self.slot_callbacks[cs] = callback

    def add_clip_listener(self, clip):
        # setting callback for clip color change
        color_callback = lambda: self.update_display_clips()

        # if we don't have a clip color change callback for this clip yet
        if not (self.clip_color_callbacks.has_key(clip)):
            # adding clip color change callback
            clip.add_color_listener(color_callback)

            # saving callback for future release
            self.clip_color_callbacks[clip] = color_callback

    def has_clip_listener(self, cs):
        # clip slot has clip listener callback
        if cs.has_clip:
            # add clip listener
            self.add_clip_listener(cs.clip)
        else:
            # update display if clip slot was removed
            self.update_display_clips()

    def session_offset_changed(self):
        # if session component offset changes, update display
        self.update_display_clips()

    def selected_scene_changed(self):
        # if on clip mode update display
        if (self._operation_mode_selector.mode_index == OP1_MODE_CLIP):
            self.update_display_clip_mode()

    def mode_index_changed(self):
        # update display to current mode info
        if (self._operation_mode_selector.mode_index == OP1_MODE_PERFORM):
            self.update_display_perform_mode()
        elif (self._operation_mode_selector.mode_index == OP1_MODE_CLIP):
            self.update_display_clip_mode()
        elif (self._operation_mode_selector.mode_index == OP1_MODE_TRANSPORT):
            self.update_display_transport_mode()
        elif (self._operation_mode_selector.mode_index == OP1_MODE_MIXER):
            self.update_display_mixer_mode()

    def clear_track_button_callback(self, value):
        # if clear track button was called, reset track
        if (value == 127):
            for i in range(len(self.song().tracks)):
                self.song().tracks[i].arm = 0
                self.song().tracks[i].solo = 0
                self.song().tracks[i].mute = 0

            for i in range(len(self.song().return_tracks)):
                self.song().tracks[i].solo = 0
                self.song().tracks[i].mute = 0

    def clear_return_track_assignment(self, strip):
        # clear return track assingments
        strip.set_volume_control(None)
        strip.set_pan_control(None)
        strip.set_mute_button(None)
        strip.set_solo_button(None)

    def clear_track_assignment(self, strip):
        # clear track assignments
        strip.set_volume_control(None)
        strip.set_pan_control(None)
        strip.set_mute_button(None)
        strip.set_solo_button(None)
        strip.set_arm_button(None)

    def clear_tracks_assigments(self):
        # for all normal tracks, clear assignments
        for i in range(NUM_TRACKS):
            strip = self._mixer.channel_strip(i)
            if (strip != None):
                self.clear_track_assignment(strip)

        # for all return tracks, clear assignments
        for i in range(2):
            return_strip = self._mixer.return_strip(i)
            if (return_strip != None):
                self.clear_return_track_assignment(return_strip)

    def selected_track_changed(self):
        # if on mixer mode update display
        if (self._operation_mode_selector.mode_index == OP1_MODE_MIXER):
            self.update_display_mixer_mode()

        # clear track assignments
        self.clear_tracks_assigments()

        # getting selected strip
        self._channel_strip = self._mixer.selected_strip()

        # perform track assignments
        self._channel_strip.set_volume_control(
            EncoderElement(MIDI_CC_TYPE, CHANNEL, OP1_ENCODER_1,
                           Live.MidiMap.MapMode.relative_two_compliment))
        self._channel_strip.set_pan_control(
            EncoderElement(MIDI_CC_TYPE, CHANNEL, OP1_ENCODER_2,
                           Live.MidiMap.MapMode.relative_two_compliment))

        # setting a tuple of encoders to control sends
        send_controls = EncoderElement(
            MIDI_CC_TYPE, CHANNEL, OP1_ENCODER_3,
            Live.MidiMap.MapMode.relative_two_compliment), EncoderElement(
                MIDI_CC_TYPE, CHANNEL, OP1_ENCODER_4,
                Live.MidiMap.MapMode.relative_two_compliment),

        # setting send encoders
        self._channel_strip.set_send_controls(tuple(send_controls))

        # setting solo button
        self._channel_strip.set_solo_button(
            ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS6_BUTTON))

        # if track can be armed, set arm button
        if (self._channel_strip._track.can_be_armed):
            self._channel_strip.set_arm_button(
                ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS7_BUTTON))

        # if track is no master, set mute button
        if (self._channel_strip._track != self.song().master_track):
            self._channel_strip.set_mute_button(
                ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS5_BUTTON))

    def browser_toggle_button_callback(self, value):
        if (value == 127):
            if (self.session_visible):
                if (self.session_browser_visible == True):
                    self.session_browser_visible = False
                    self.app.view.hide_view("Browser")
                else:
                    self.session_browser_visible = True
                    self.app.view.show_view("Browser")

            if (self.arrange_visible):
                if (self.arrange_browser_visible == True):
                    self.arrange_browser_visible = False
                    self.app.view.hide_view("Browser")
                else:
                    self.arrange_browser_visible = True
                    self.app.view.show_view("Browser")

    def back_to_arranger_button_callback(self, value):
        if (value == 127):
            self.song().back_to_arranger = False

    def mainview_toggle_button_callback(self, value):
        if (value == 127):
            if (self.session_visible == True):
                self.session_visible = False
                self.arrange_visible = True
                self.app.view.show_view("Arranger")
                self.arrange_browser_visible = self.app.view.is_view_visible(
                    "Browser")
            else:
                self.session_visible = True
                self.arrange_visible = False
                self.app.view.show_view("Session")
                self.session_browser_visible = self.app.view.is_view_visible(
                    "Browser")

    def detailview_toggle_button_callback(self, value):
        if (value == 127):
            if (self.detail_visible == True):
                self.detail_visible = False
                self.app.view.hide_view("Detail")
            else:
                self.detail_visible = True
                self.app.view.show_view("Detail")

    def write_text(self, msg):
        text_list = []
        sequence = ()

        text_list.append(len(msg.strip()))

        for i in msg.strip():
            text_list.append(ord(i))

        sequence = self.text_start_sequence + tuple(
            text_list) + self.text_end_sequence

        self._send_midi(sequence)

    def suggest_input_port(self):
        return "OP-1 Midi Device"

    def suggest_output_port(self):
        return "OP-1 Midi Device"

    def update_display_perform_mode(self):
        self.write_text("perform\rmode")

    def reset_display_clips(self):
        count = 0
        colors = []
        length = []
        sequence = ()

        for i in range(NUM_TRACKS):
            count += 1

            colors.append(0x00)
            colors.append(0x00)
            colors.append(0x00)

        length.append(count)
        sequence = self.text_color_start_sequence + tuple(length) + tuple(
            colors) + self.text_end_sequence
        self._send_midi(sequence)

    def update_display_clips(self):
        #self.log("UPDATING DISPLAY CLIPS")
        count = 0
        colors = []
        length = []
        sequence = ()

        tracks_len = len(self.song().tracks) - self._session._track_offset

        if (tracks_len > NUM_TRACKS):
            tracks_len = NUM_TRACKS

        for i in range(tracks_len):
            count += 1

            clip_slot = self._session.scene(0).clip_slot(i)

            if (clip_slot != None):
                if (clip_slot.has_clip() != False):
                    clip_color = clip_slot._clip_slot.clip.color
                    colors.append(((clip_color >> 16) & 0x000000ff) >> 1)
                    colors.append(((clip_color >> 8) & 0x000000ff) >> 1)
                    colors.append((clip_color & 0x000000ff) >> 1)
                else:
                    colors.append(0x00)
                    colors.append(0x00)
                    colors.append(0x00)
            else:
                colors.append(0x00)
                colors.append(0x00)
                colors.append(0x00)

        length.append(count)
        sequence = self.text_color_start_sequence + tuple(length) + tuple(
            colors) + self.text_end_sequence
        self._send_midi(sequence)

    def update_display_clip_mode(self):
        self.write_text(
            "sel. scene\r" +
            str(self.song().view.selected_scene.name.lower().strip()))

    def update_display_transport_mode(self):
        song_time = str(self.song().get_current_beats_song_time())
        self.write_text("song pos.\r" + song_time[:len(song_time) - 4])

    def update_display_mixer_mode(self):
        self.write_text("sel. track\r" +
                        str(self.song().view.selected_track.name.lower()))

    def update_display(self):
        if not (self.device_connected):
            if (self.retries_count < 5):
                self.log("TRYING OP-1 CONNECTION")
                self.retries_count += 1
                self._send_midi(self.id_sequence)
                time.sleep(1)

        # if in transport mode, update display with song position
        if (self._operation_mode_selector.mode_index == OP1_MODE_TRANSPORT):
            self.update_display_transport_mode()

        # checking if app current view is session
        if (self.app.view.is_view_visible("Session")):
            # checking if session browser state is diferent from the internal
            if (self.session_browser_visible !=
                    self.app.view.is_view_visible("Browser")):
                self.session_browser_visible = self.app.view.is_view_visible(
                    "Browser")

        # checking if app current view is arrange
        if (self.app.view.is_view_visible("Arranger")):
            # checking if arrange browser state is diferent from the internal
            if (self.arrange_browser_visible !=
                    self.app.view.is_view_visible("Browser")):
                self.arrange_browser_visible = self.app.view.is_view_visible(
                    "Browser")

        # checking if app current view is detail
        if (self.app.view.is_view_visible("Detail")):
            # checking if detail state is diferent from the internal
            if (self.detail_visible !=
                    self.app.view.is_view_visible("Detail")):
                self.detail_visible = self.app.view.is_view_visible("Detail")

    def refresh_state(self):
        self.log("REFRESH STATE")
        self.retries_count = 0
        self.device_connected = False

    def build_midi_map(self, midi_map_handle):
        #self.log("BUILD MIDI MAP")

        assert (self._suppress_requests_counter == 0)
        self._in_build_midi_map = True
        self._midi_map_handle = midi_map_handle
        self._forwarding_registry = {}
        for control in self.controls:
            if isinstance(control, InputControlElement):
                control.install_connections()
        self._midi_map_handle = None
        self._in_build_midi_map = False
        if (self._pad_translations != None):
            self._c_instance.set_pad_translation(self._pad_translations)

        # remove clip listeners
        self.rem_clip_slot_listeners()

        # add clip listeners
        self.add_clip_slot_listeners()

        # update display
        self.update_display_clips()

    def log(self, msg):
        self.c_instance.log_message("[TE OP-1] " + msg)

    def disconnect(self):
        # removing clip slots listeners
        self.rem_clip_slot_listeners()

        # removing value listener for track changed
        self.song().view.remove_selected_track_listener(
            self.selected_track_changed)

        # removing value listener for scene changed
        self.song().view.remove_selected_scene_listener(
            self.selected_scene_changed)

        # removing value listener for operation mode index
        self._operation_mode_selector.remove_mode_index_listener(
            self.mode_index_changed)

        # removing global transport assignments
        self._transport.set_punch_buttons(None, None)
        self._transport.set_loop_button(None)
        self._transport.set_overdub_button(None)
        self._transport.set_record_button(None)
        self._transport.set_play_button(None)
        self._transport.set_stop_button(None)
        self._transport.set_metronome_button(None)
        self._transport.set_tap_tempo_button(None)

        # removing global session assignments
        self._session.set_scene_bank_buttons(None, None)

        # removing misc listeners
        self.browser_toggle_button.remove_value_listener(
            self.browser_toggle_button_callback)
        self.mainview_toggle_button.remove_value_listener(
            self.mainview_toggle_button_callback)
        self.detailview_toggle_button.remove_value_listener(
            self.detailview_toggle_button_callback)
        self.clear_track_button.remove_value_listener(
            self.clear_track_button_callback)
        self.back_to_arranger_button.remove_value_listener(
            self.back_to_arranger_button_callback)

        # sending special ableton mode disable sequence
        self._send_midi(self.disable_sequence)

        # disconnecting control surface
        ControlSurface.disconnect(self)

        self.log("DISCONNECTED")
示例#10
0
class ProjectX(ControlSurface):
    __module__ = __name__
    __doc__ = " ProjectX keyboard 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)

        self.log_message(
            time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) +
            "--------------= ProjectX log opened =--------------")

        with self.component_guard():
            self._create_transport_control()
            self._create_mixer_control()
            self._create_session_control()

        self.request_rebuild_midi_map()
        self.log_message("Captain's last log stardate ****")

    def _create_transport_control(self):
        is_momentary = True

        self._transport = TransportComponent(is_enabled=True, name='Transport')
        """set up the buttons"""
        self._transport.set_play_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 61))
        self._transport.set_stop_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 63))
        self._transport.set_record_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 66))
        self._transport.set_overdub_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 68))
        self._transport.set_nudge_buttons(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 75),
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 73))
        self._transport.set_tap_tempo_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 78))
        self._transport.set_metronome_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 80))
        self._transport.set_loop_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 82))
        self._transport.set_punch_buttons(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 85),
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 87))
        self._transport.set_seek_buttons(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 90),
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 92))
        """set up the sliders"""
        self._transport.set_tempo_control(
            SliderElement(MIDI_CC_TYPE, CHANNEL, 26),
            SliderElement(MIDI_CC_TYPE, CHANNEL, 25))
        self._transport.set_song_position_control(
            SliderElement(MIDI_CC_TYPE, CHANNEL, 24))

        self.log_message("Captain's log stardate 1")

    def _create_mixer_control(self):
        is_momentary = True
        num_tracks = 7
        """Here we set up the global mixer"""
        global mixer
        mixer = MixerComponent(name='Mixer',
                               num_tracks=num_tracks,
                               is_enabled=False,
                               num_returns=2)
        mixer.set_enabled(True)
        mixer.set_track_offset(0)
        self.song().view.selected_track = mixer.channel_strip(0)._track
        mixer.channel_strip(0)
        """set up the mixer buttons"""
        mixer.set_select_buttons(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 56),
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 54))
        mixer.master_strip().set_select_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 94))
        mixer.selected_strip().set_mute_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 42))
        mixer.selected_strip().set_solo_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 44))
        mixer.selected_strip().set_arm_button(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 46))
        """set up the mixer sliders"""
        mixer.selected_strip().set_volume_control(
            SliderElement(MIDI_CC_TYPE, CHANNEL, 14))
        """note that we have split the mixer functions across two scripts, in order to have two session highlight 
        boxes (one red, one yellow), so there are a few things which we are not doing here... """

        self.log_message("Captain's log stardate 2")

    def _create_session_control(self):
        is_momentary = True
        num_tracks = 1
        num_scenes = 7
        global session
        session = SessionComponent(num_tracks, num_scenes)
        session.set_offsets(0, 0)
        """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))
        session.set_scene_bank_buttons(
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 51),
            ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 49))
        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]
        for index in range(num_scenes):
            session.scene(index).set_launch_button(
                ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                              launch_notes[index]))
        """Here we set up the track stop launch assignment(s) for the session"""
        stop_track_buttons = []
        for index in range(num_tracks):
            stop_track_buttons.append(
                ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL,
                              58 + index))
        session.set_stop_track_clip_buttons(tuple(stop_track_buttons))
        """Here we set up the clip launch assignments for the session"""
        clip_launch_notes = [48, 50, 52, 53, 55, 57, 59]
        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]))
        """Here we set up a mixer and channel strip(s) which move with the session"""

        self.log_message("Captain's log stardate 3")

    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)
        """here we set the mixer and session to the selected track, when the selected track changes"""
        selected_track = self.song().view.selected_track
        mixer.channel_strip(0).set_track(selected_track)
        all_tracks = ((self.song().tracks + self.song().return_tracks) +
                      (self.song().master_track, ))
        index = list(all_tracks).index(selected_track)
        session.set_offsets(index, session._scene_offset)

    def disconnect(self):
        """clean things up on disconnect"""
        self.log_message(
            time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) +
            "--------------= ProjectX log closed =--------------")
        ControlSurface.disconnect(self)
        return None
示例#11
0
class BlockMod(MonOhm):
	__module__ = __name__
	__doc__ = " Monomodular controller script for Livid Block "


	def __init__(self, *a, **k):
		self._shift_button = None
		self._shift_pressed = 0
		self._shift_pressed_timer = 0
		self._shift_thresh = SHIFT_THRESH
		super(BlockMod, self).__init__(*a, **k)
		self._host_name = 'BlockMod'
		self._color_type = 'Monochrome'
		self._link_mixer = LINK_MIXER
		self._rgb = 1
		self._ohm = 127
		self._ohm_type = 'static'
		self._pad_translations = PAD_TRANSLATION
		self._mem = [4, 8, 12, 16]
		self._host._navbox_selected = 8
	

	"""script initialization methods"""
	def _setup_monobridge(self):
		self._monobridge = MonoBridgeElement(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(2):
			self._fader[index] = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, SLIDER_CC[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self)
		#for index in range(8):
		#	self._button[index] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_' + str(index), self)
		for index in range(8):
			self._dial[index] = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, KNOB_CC[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index + 8, self)
		for index in range(4):
			self._menu[index] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, FUNCTION_NOTES[index], 'Menu_' + str(index), self)	
		self._livid = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
		self._shift_l = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Shift_Button_Left', self)
		self._shift_r = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Shift_Button_Right', 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] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (column * 8) + row, 'Grid_' + str(column) + '_' + str(row), self)
		for row in range(5):
			button_row = []
			for column in range(7):
				button_row.append(self._grid[column][row])
			self._matrix.add_row(tuple(button_row)) 
		for row in range(8):
			button_row = []
			for column in range(8):
				button_row.append(self._grid[column][row])
			self._monomod.add_row(tuple(button_row))
		self._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'
	

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

	def _setup_crossfader(self):
		pass
	

	def _setup_modes(self):
		self._monomod_mode = MonomodModeComponent(self, self.monomod_mode_update)
		self._monomod_mode.name = 'Monomod_Mode'
		self.set_shift_button(self._livid)
		self._shift_mode = BlockModShiftModeComponent(self, self.shift_update) 
		self._shift_mode.name = 'Shift_Mode'
		self._shift_mode.set_mode_toggle(self._shift_l, self._shift_r)
		self._l_function_mode = FunctionModeComponent(self, self.l_function_update)
		self._l_function_mode.name = 'Left_Function_Mode'
		self._r_function_mode = FunctionModeComponent(self, self.r_function_update)
		self._r_function_mode.name = 'Right_Function_Mode'
		self._m_function_mode = FunctionModeComponent(self, self.m_function_update)
		self._m_function_mode.name = 'Main_Function_Mode'
		self._function_modes = [self._l_function_mode, self._r_function_mode, self._m_function_mode]
	


	"""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:
			if (self._shift_pressed_timer + self._shift_thresh) > self._timer:
				if(self._host._active_client != None):
					if(self._host.is_enabled() != True):
						self._monomod_mode.set_mode(1)
					else:
						self._monomod_mode.set_mode(0)
			else:
				self._shift_pressed_timer = self._timer % 256
			if(self._cntrlr != None):
				self._cntrlr._monohm_shift(2)
		else:
			if(self._cntrlr != None):
				self._cntrlr._monohm_shift(0)
	

	"""shift/zoom methods"""
	def deassign_matrix(self):
		self._session_zoom.set_button_matrix(None)
		self._session_zoom2.set_button_matrix(None)
		self._session.set_stop_track_clip_buttons(None)
		self._session2.set_stop_track_clip_buttons(None)
		self._session_zoom_main.set_button_matrix(None)
		self._session_main.set_stop_track_clip_buttons(None)
		for column in range(4):
			self._mixer2.channel_strip(column).set_select_button(None)
			self._mixer2.return_strip(column).set_mute_button(None)
			self._mixer2.return_strip(column).set_solo_button(None)
			self._mixer2.return_strip(column).set_arm_button(None)
			self._mixer2.return_strip(column).set_crossfade_toggle(None)
			self._mixer2.return_strip(column).set_select_button(None)			#shouldn't this be somewhere else?
			self._mixer2.channel_strip(column).set_crossfade_toggle(None)
			self._mixer2.channel_strip(column).set_mute_button(None)
			self._mixer2.channel_strip(column).set_solo_button(None)
			self._mixer2.channel_strip(column).set_arm_button(None)
			for row in range(5):
				self._scene[row].clip_slot(column).set_launch_button(None)
				self._scene2[row].clip_slot(column).set_launch_button(None)
		for index in range(5):
			self._scene[index].set_launch_button(None)
			self._scene2[index].set_launch_button(None)
			self._scene_main[index].set_launch_button(None)
		self._session_zoom.set_nav_buttons(None, None, None, None)
		self._session_zoom2.set_nav_buttons(None, None, None, None)
		self._session_zoom_main.set_nav_buttons(None, None, None, None)
		self._session.set_track_bank_buttons(None, None)
		self._session.set_scene_bank_buttons(None, None)
		self._session2.set_track_bank_buttons(None, None)
		self._session2.set_scene_bank_buttons(None, None)
		self._session_main.set_track_bank_buttons(None, None)
		self._session_main.set_scene_bank_buttons(None, None)
		for column in range(8):
			self._mixer.channel_strip(column).set_select_button(None)
			self._mixer.channel_strip(column).set_crossfade_toggle(None)
			self._mixer.channel_strip(column).set_mute_button(None)
			self._mixer.channel_strip(column).set_solo_button(None)
			self._mixer.channel_strip(column).set_arm_button(None)
			for row in range(5):
				self._scene_main[row].clip_slot(column).set_launch_button(None)
			for row in range(8):
				self._grid[column][row].set_channel(0)
				self._grid[column][row].release_parameter()
				self._grid[column][row].use_default_message()
				self._grid[column][row].set_enabled(True)
				self._grid[column][row].set_on_off_values(127, 0)
				self._grid[column][row].send_value(0, True)
		self._send_reset.set_buttons(tuple(None for index in range(4)))
	

	def zoom_off(self):
		for column in range(4):
			self._grid[column][5].set_on_value(MUTE[self._rgb])
			self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
			self._grid[column][6].set_on_value(ARM[self._rgb])
			self._mixer.channel_strip(column).set_arm_button(self._grid[column][6])
			for row in range(5):
				self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
			if(self._r_function_mode._mode_index in range(0,3)):
				self._grid[column + 4][5].set_on_value(MUTE[self._rgb])
				self._mixer2.channel_strip(column).set_mute_button(self._grid[column + 4][5])
				self._grid[column + 4][6].set_on_value(ARM[self._rgb])
				self._mixer2.channel_strip(column).set_arm_button(self._grid[column + 4][6])
				for row in range(5):
					self._scene2[row].clip_slot(column).set_launch_button(self._grid[column + 4][row])
			elif(self._r_function_mode._mode_index is 3):
				self._grid[column + 4][5].set_on_value(MUTE[self._rgb])
				self._mixer2.return_strip(column).set_mute_button(self._grid[column + 4][5])
				for row in range(5):
					self._grid[column + 4][row].send_value(USER1_COLOR[self._rgb], True)
					self._grid[column + 4][row].set_channel(RIGHT_USER1_CHANNEL)
					self._grid[column + 4][row].set_identifier(RIGHT_USER1_MAP[column][row])
					self._grid[column + 4][row].set_enabled(False)	 #this has to happen for translate to work
				#self._session_zoom2.set_ignore_buttons(True)
		if(self._r_function_mode._mode_index is 0):
			for index in range(4):
				self._grid[index + 4][7].send_value(SEND_RESET[self._rgb], True)
			self._send_reset.set_buttons(tuple(self._grid[index + 4][7] for index in range(4)))
	

	def zoom_off_m(self):
		self.deassign_dials()
		for column in range(8):
			self._grid[column][5].set_on_value(MUTE[self._rgb])
			self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
			self._grid[column][6].set_on_value(ARM[self._rgb])
			self._mixer.channel_strip(column).set_arm_button(self._grid[column][6])
			for row in range(5):
				self._scene_main[row].clip_slot(column).set_launch_button(self._grid[column][row])
		#self._session_zoom.set_button_matrix(self._matrix)
	

	def zoom_left(self):
		track_stop_buttons = []
		track_stop_buttons2 = []
		for index in range(4):
			self._grid[index][6].set_off_value(TRACK_STOP[self._rgb])
			track_stop_buttons.append(self._grid[index][6])
			self._grid[index + 4][6].set_off_value(TRACK_STOP[self._rgb])
			track_stop_buttons2.append(self._grid[index + 4][6])
		for index in range(5):
			self._grid[7][index].set_off_value(SCENE_LAUNCH[self._rgb])
			self._scene[index].set_launch_button(self._grid[7][index])
		self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
		self._session2.set_stop_track_clip_buttons(tuple(track_stop_buttons2))
		self._session_zoom.set_button_matrix(self._matrix)
		self._grid[0][5].set_on_value(RECORD[self._rgb])
		self._transport.set_record_button(self._grid[0][5])
		self._grid[1][5].set_on_value(OVERDUB[self._rgb])
		self._transport.set_overdub_button(self._grid[1][5])
		self._grid[2][5].set_on_value(LOOP[self._rgb])
		self._transport.set_loop_button(self._grid[2][5])
		self._grid[3][5].set_on_value(STOP_ALL[self._rgb])	
		self._session.set_stop_all_clips_button(self._grid[3][5])
		for index in range(4):
			self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
		self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
		for index in range(4):
			self._grid[index + 4][7].set_off_value(DEVICE_SELECT[self._rgb])
		self._device_selector.assign_buttons(tuple(self._grid[index + 4][7] for index in range(4)), 4)
	

	def zoom_right(self):
		track_stop_buttons = []
		track_stop_buttons2 = []
		for index in range(4):
			self._grid[index][6].set_off_value(TRACK_STOP[self._rgb])
			track_stop_buttons.append(self._grid[index][6])
		for index in range(5):
			self._grid[7][index].set_off_value(SCENE_LAUNCH[self._rgb])
			self._scene2[index].set_launch_button(self._grid[7][index])
		self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
		if(self._r_function_mode._mode_index < 3):
			for index in range(4):
				self._grid[index + 4][6].set_off_value(TRACK_STOP[self._rgb])
				track_stop_buttons2.append(self._grid[index + 4][6])
			self._session2.set_stop_track_clip_buttons(tuple(track_stop_buttons2))
		self._session_zoom2.set_button_matrix(self._matrix)
		self._grid[0][5].set_on_value(RECORD[self._rgb])
		self._transport.set_record_button(self._grid[0][5])
		self._grid[1][5].set_on_value(OVERDUB[self._rgb])
		self._transport.set_overdub_button(self._grid[1][5])
		self._grid[2][5].set_on_value(LOOP[self._rgb])
		self._transport.set_loop_button(self._grid[2][5])
		self._grid[3][5].set_on_value(STOP_ALL[self._rgb])
		self._session.set_stop_all_clips_button(self._grid[3][5])
		for index in range(4):
			self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
		self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
		for index in range(4):
			self._grid[index][7].set_off_value(DEVICE_SELECT[self._rgb])
		self._device_selector.assign_buttons(tuple(self._grid[index][7] for index in range(4)), 0)
	

	def zoom_main(self):
		track_stop_buttons = []
		for index in range(8):
			self._grid[index][6].set_on_value(TRACK_STOP[self._rgb])
			track_stop_buttons.append(self._grid[index][6])
		for index in range(5):
			self._grid[7][index].set_on_value(SCENE_LAUNCH[self._rgb])
			self._scene_main[index].set_launch_button(self._grid[7][index])
		self._session_main.set_stop_track_clip_buttons(tuple(track_stop_buttons))
		self._session_zoom_main.set_button_matrix(self._matrix)
		self._grid[0][5].set_on_value(RECORD[self._rgb])
		self._transport.set_record_button(self._grid[0][5])
		self._grid[1][5].set_on_value(OVERDUB[self._rgb])
		self._transport.set_overdub_button(self._grid[1][5])
		self._grid[2][5].set_on_value(LOOP[self._rgb])
		self._transport.set_loop_button(self._grid[2][5])
		self._grid[3][5].set_on_value(STOP_ALL[self._rgb])	
		self._session.set_stop_all_clips_button(self._grid[3][5])
		for index in range(4):
			self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
		self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
		for index in range(4):
			self._grid[index + 4][7].set_off_value(DEVICE_SELECT[self._rgb])
		self._device_selector.assign_buttons(tuple(self._grid[index + 4][7] for index in range(4)), 4)
	


	"""function mode callbacks"""
	def l_function_update(self):
		mode = self._l_function_mode._mode_index
		#if(self._l_function_mode.is_enabled() is False):
		#	self._l_function_mode.set_mode_buttons(None)
		if(self._l_function_mode.is_enabled() is True):
			if(len(self._l_function_mode._modes_buttons) is 0):
				for index in range(4):
					self._mixer.channel_strip(index).set_select_button(None)
				buttons = []
				for index in range(4):
					buttons.append(self._grid[index][7]) 
				self._l_function_mode.set_mode_buttons(tuple(buttons))
			if(self._shift_mode._mode_index is 2):
				for index in range(4):
					if(mode != index):
						self._grid[index][7].turn_off()
					else:
						self._grid[index][7].turn_on()
		if(mode is 0):
			self.assign_device_dials()
			self.show_message('Mixer Split:Dials Device Mode')
		elif(mode is 1):
			self.assign_send_dials()
			self.show_message('Mixer Split:Dials Send Mode')
		elif(mode is 2):
			self.assign_split_volume_dials()
			self.show_message('Mixer Split:Dials Volume Mode')
		elif(mode is 3):
			self.assign_user_dials()
			self.show_message('Mixer Split:Dials User Map Mode')
	

	def r_function_update(self):
		mode = self._r_function_mode._mode_index
		#if(self._r_function_mode.is_enabled() is False):
		#	self._r_function_mode.set_mode_buttons(None)
			#self._session2.set_show_highlight(False)
			#self._session._highlighting_callback(self._session._track_offset, self._session._scene_offset, 4, 5, 1)
		if(self._r_function_mode.is_enabled() is True):
			if(len(self._r_function_mode._modes_buttons) is 0):
				for index in range(4):
					self._mixer2.channel_strip(index).set_select_button(None)
				buttons = []
				for index in range(4):
					buttons.append(self._grid[index + 4][7]) 
				self._r_function_mode.set_mode_buttons(tuple(buttons))
			if(self._shift_mode._mode_index is 3):
				for index in range(4):
					if(mode != index):
						self._grid[index + 4][7].turn_off()
					else:
						self._grid[index + 4][7].turn_on()
		self._session2.set_offsets(int(self._mem[mode]), self._session2._scene_offset)
		self.show_message('Mixer Split: Track Offset' + str(RIGHT_MODE_OFFSETS[mode]))
	

	def m_function_update(self):
		mode = self._m_function_mode._mode_index
		#if(self._m_function_mode.is_enabled() is False):
		#	self._m_function_mode.set_mode_buttons(None)
			#self._session.set_show_highlight(False)
			#self._session2.set_show_highlight(False)
			#self._session_main._highlighting_callback(self._session_main._track_offset, self._session_main._scene_offset, 8, 5, 1)
		if(self._m_function_mode.is_enabled() is True):
			if(len(self._m_function_mode._modes_buttons) is 0):
				for index in range(8):
					self._mixer.channel_strip(index).set_select_button(None)
				buttons = []
				for index in range(4):
					buttons.append(self._grid[index][7]) 
				self._m_function_mode.set_mode_buttons(tuple(buttons))
			if(self._shift_mode._mode_index is 4):
				for index in range(4):
					if(mode != index):
						self._grid[index][7].turn_off()
					else:
						self._grid[index][7].turn_on()
		if(mode is 0):
			self.assign_device_dials()
			self.show_message('Mixer Linked:Dials Device Mode')
		elif(mode is 1):
			self.assign_send_dials()
			self.show_message('Mixer Linked:Dials Send Mode')
		elif(mode is 2):
			self.assign_volume_dials()
			self.show_message('Mixer Linked:Dials Volume Mode')
		elif(mode is 3):
			self.assign_user_dials()
			self.show_message('Mixer Linked:Dials User Map Mode')
	

	def shift_update(self):
		self._clutch_device_selection = True
		#self.allow_updates(False)
		#if(not self._in_build_midi_map):
		#	self.set_suppress_rebuild_requests(True)
		self.deassign_channel_select_buttons()
		self.deassign_matrix()
		self.deassign_menu()
		if(self._monomod_mode._mode_index is 0):		#if monomod is not on
			if(self._shift_mode._mode_index is 0):							#if no shift is pressed
				self._shift_mode._mode_toggle1.turn_off()
				self._shift_mode._mode_toggle2.turn_off()
				if(self.split_mixer() is False):
					self.set_split_mixer(True)
				for zoom in self._zooms:
					zoom._on_zoom_value(0)
				self.zoom_off()
				self._device_selector.set_enabled(False)
				for mode in self._function_modes:
					mode.set_enabled(False)
				self.assign_channel_select_buttons()
				#self._recalculate_selected_channel()
				#self.assign_transport_to_menu()
				self.assign_session_nav_to_menu()
				self.l_function_update()
				self.r_function_update()
				self.assign_crossfader()
				self.set_highlighting_session_component(self._session)
				self._session._do_show_highlight()	
				#self._session.set_show_highlight(True)
			elif(self._shift_mode._mode_index is 1):						#if no shift is pressed, but mixer is linked
				self._shift_mode._mode_toggle1.turn_on()
				self._shift_mode._mode_toggle2.turn_on()
				if(self.split_mixer() is True):
					self.set_split_mixer(False)
				for zoom in self._zooms:
					zoom._on_zoom_value(0)
				self.zoom_off_m()
				self._device_selector.set_enabled(False)
				for mode in self._function_modes:
					mode.set_enabled(False)
				self.assign_main_channel_select_buttons()
				self.assign_session_main_nav_to_menu()
				self.m_function_update()
				self.assign_crossfader()
				self.set_highlighting_session_component(self._session_main)
				self._session_main._do_show_highlight()
			elif(self._shift_mode._mode_index > 1):						#if a shift is pressed
				self.assign_device_nav_to_menu()
				self.deassign_channel_select_buttons()
				if(self._shift_mode._mode_index is 2):					#if shift left
					self._shift_mode._mode_toggle1.turn_on()
					self.zoom_left()
					self._session_zoom._on_zoom_value(1)
					self._session.set_enabled(True) #this is a workaround so that the stop buttons still function
					self._l_function_mode.set_enabled(True)
					self.set_highlighting_session_component(self._session)
					self._session._do_show_highlight()
				elif(self._shift_mode._mode_index is 3):				#if shift right
					self._shift_mode._mode_toggle2.turn_on()
					self.zoom_right()
					self._session_zoom2._on_zoom_value(1)
					self._session2.set_enabled(True)  #this is a workaround so that the stop buttons still function
					self._r_function_mode.set_enabled(True)
					self.assign_master_fader()
					if(self._r_function_mode._mode_index < 4):
						self.set_highlighting_session_component(self._session2)
						self._session2._do_show_highlight()
				elif(self._shift_mode._mode_index is 4):				#if either shift pressed while mixer is linked
					self._shift_mode._mode_toggle1.turn_on()
					self._shift_mode._mode_toggle2.turn_on()
					self.zoom_main()
					self._session_zoom_main._on_zoom_value(1)
					self._session_main.set_enabled(True) #this is a workaround so that the stop buttons still function
					self._m_function_mode.set_enabled(True)
					self.assign_master_fader()
					self.set_highlighting_session_component(self._session_main)
					self._session_main._do_show_highlight()
				self._device_selector.set_enabled(True)
		self.allow_updates(True)
		#self.set_suppress_rebuild_requests(False)
		self._clutch_device_selection = False
		if(self._shift_mode._mode_index < 2):
			self._monobridge._send('touch', 'off')
		else:
			self._monobridge._send('touch', 'on')
	

	def monomod_mode_update(self):
		if (self._monomod_mode._mode_index == 0) or (self._host._active_client == None):
			self._host.set_enabled(False)
			self._host._set_button_matrix(None)
			self._host._set_nav_buttons(None)
			self._host._set_lock_button(None)
			self._host._set_alt_button(None)
			self._host._set_shift_button(None)
			self._livid.turn_off()
			self._shift_mode.set_mode_toggle(self._shift_l, self._shift_r)
			self._shift_mode.update()
			#self._session._reassign_scenes()
			
		elif(self._monomod_mode._mode_index == 1):
			self._livid.turn_on()
			self.deassign_matrix()
			self.deassign_menu()
			self._monomod.reset()
			self._host._set_button_matrix(self._monomod)
			self._host._set_nav_buttons(self._menu[0:4])
			self._host._set_lock_button(self._shift_l)
			self._host._set_alt_button(self._shift_r)
			self._host._set_shift_button(self._livid)
			self._shift_mode.set_mode_toggle(None, None)
			self._host.set_enabled(True)
			self._shift_mode.update()
			#self.show_message('Monomod grid enabled')
	

	"""left control management methods"""
	def deassign_dials(self):
		for index in range(8):
			self._dial[index].use_default_message()
			self._dial[index].release_parameter()
			self._dial[index].set_enabled(True)
		if(self._device._parameter_controls != None):
			for control in self._device._parameter_controls:
				control.release_parameter()
			self._device._parameter_controls = None
		self._mixer.selected_strip().set_send_controls(None)
		self._mixer.selected_strip().set_volume_control(None)
		for track in range(4):
			self._mixer.channel_strip(track).set_volume_control(None)
			self._mixer.channel_strip(track+4).set_volume_control(None)
			self._mixer2.channel_strip(track).set_volume_control(None)
			self._mixer2.return_strip(track).set_volume_control(None)
	

	def assign_device_dials(self):
		self._ohm_type = OHM_TYPE[0]
		self._ohm = OHM_VALUE[0]
		self.deassign_dials()
		self._device.set_enabled(True)
		device_param_controls = []
		for index in range(8):
			device_param_controls.append(self._dial[index])
		self._device.set_parameter_controls(tuple(device_param_controls))
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	

	def assign_send_dials(self):
		self._ohm_type = OHM_TYPE[1]
		self._ohm = OHM_VALUE[1]
		self.deassign_dials()
		dials = []
		for index in range(4):
			dials.append(self._dial[index])
		for index in range(4):
			if(self._mixer2.return_strip(index)):
				self._mixer2.return_strip(index).set_volume_control(self._dial[index + 4])
		self._mixer.selected_strip().set_send_controls(tuple(dials))
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	

	def assign_volume_dials(self):
		self._ohm_type = OHM_TYPE[2]
		self._ohm = OHM_VALUE[2]
		self.deassign_dials()
		for track in range(8):
			self._mixer.channel_strip(track).set_volume_control(self._dial[track])
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	

	def assign_split_volume_dials(self):
		self._ohm_type = OHM_TYPE[2]
		self._ohm = OHM_VALUE[2]
		self.deassign_dials()
		for track in range(4):
			self._mixer.channel_strip(track).set_volume_control(self._dial[track])
			self._mixer2.channel_strip(track).set_volume_control(self._dial[track+4])
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	

	def assign_user_dials(self):
		self._ohm_type = OHM_TYPE[3]
		self._ohm = OHM_VALUE[3]
		self.deassign_dials()
		for index in range(8):
			self._dial[index].set_channel(L_USER_DIAL_CHAN)
			self._dial[index].set_identifier(L_USER_DIAL_MAP[index])
			self._dial[index].set_enabled(False)
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	


	"""menu button management methods"""
	def deassign_menu(self):
		self._device.set_lock_button(None)
		self._device.set_on_off_button(None)
		self._device_navigator.set_device_nav_buttons(None, None)	
		self._device.set_bank_nav_buttons(None, None)
		self._transport.set_play_button(None)	
		self._transport.set_record_button(None) 
		self._transport.set_stop_button(None)
		self._transport.set_loop_button(None)	
		self._transport.set_overdub_button(None)	
		self._session.set_stop_all_clips_button(None)
		self._transport.set_play_button(None)	
		self._transport.set_stop_button(None)
		self._session_main.set_track_bank_buttons(None, None)
		self._session_main.set_scene_bank_buttons(None, None)
	

	def assign_device_nav_to_menu(self):
		self._device_navigator.set_device_nav_buttons(self._menu[2], self._menu[3]) 
		self._device.set_bank_nav_buttons(self._menu[0], self._menu[1])
	

	def assign_transport_to_menu(self):
		self._transport.set_play_button(self._menu[0])	
		self._transport.set_record_button(self._menu[2])
		self._transport.set_stop_button(self._menu[1])
		session.set_stop_all_clips_button(self._menu[3])
	

	def assign_session_nav_to_menu(self):
		self._session.set_track_bank_buttons(self._menu[3], self._menu[2])
		self._session.set_scene_bank_buttons(self._menu[1], self._menu[0])
	

	def assign_monomod_shift_to_menu(self):
		self._device_navigator.set_device_nav_buttons(self._menu[3], self._menu[2]) 
		self._device.set_bank_nav_buttons(self._menu[1], self._menu[0])
	

	def assign_session_bank_to_menu(self):
		self._session.set_track_bank_buttons(self._menu[3], self._menu[2])
		self._session.set_scene_bank_buttons(self._menu[1], self._menu[0])
	

	def assign_session2_bank_to_menu(self):
		self._session2.set_track_bank_buttons(self._menu[3], self._menu[2])
		self._session2.set_scene_bank_buttons(self._menu[1], self._menu[0])
	

	def assign_session_main_nav_to_menu(self):
		self._session_main.set_track_bank_buttons(self._menu[3], self._menu[2])
		self._session_main.set_scene_bank_buttons(self._menu[1], self._menu[0])
	


	"""channel selection management methods"""
	def deassign_channel_select_buttons(self):
		for index in range(8):
			if(self._mixer.channel_strip(index)):
				self._mixer.channel_strip(index).set_select_button(None)
			self._grid[index][7].release_parameter()
		for index in range(4):
			self._mixer2.channel_strip(index).set_select_button(None)
			self._mixer2.return_strip(index).set_select_button(None)
			self._mixer2.master_strip().set_select_button(None)
			self._grid[index + 4][7].release_parameter()
	

	def assign_channel_select_buttons(self):
		for index in range(4):
			#if(self._mixer.channel_strip(index)):
			self._grid[index][7].set_on_off_values(127, 0)
			self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
		if(self._r_function_mode._mode_index < 3):
			for index in range(4):
				self._grid[index][7].set_on_off_values(127, 0)
				self._mixer2.channel_strip(index).set_select_button(self._grid[index + 4][7])	
		else:
			for index in range(4):
				self._grid[index][7].set_on_off_values(1, 0)
				self._mixer2.return_strip(index).set_select_button(self._grid[index + 4][7])
	

	def assign_return_select_buttons(self):
		for index in range(4):
			self._grid[index + 4][7].set_off_value(0) 
			if(self._mixer.channel_strip(index)):
				self._grid[index + 4][7].set_on_value(1)
				self._mixer.channel_strip(index).set_select_button(self._grid[index + 4][7])
	

	def assign_l_channel_select_buttons(self):
		self._mixer.set_select_buttons(None, None)
		self._session.set_select_buttons(None, None)
		for index in range(4):
			self._grid[index][7].set_off_value(0)
			if(self._mixer.channel_strip(index)):
				self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
	

	def assign_r_channel_select_buttons(self):
		self._mixer2.set_select_buttons(None, None)
		self._session2.set_select_buttons(None, None)
		for index in range(4):
			self._grid[index + 4][7].set_off_value(0)
			if(self._mixer2.channel_strip(index)):
				self._mixer2.channel_strip(index).set_select_button(self._grid[index + 4][7])
	

	def assign_main_channel_select_buttons(self):
		for index in range(8):
			self._grid[index][7].set_off_value(0)
			if(self._mixer.channel_strip(index)):
				self._grid[index][7].set_on_value(127)
				self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
	

	def assign_master_fader(self):
		self._mixer.set_crossfader_control(None)
		self._mixer.master_strip().set_volume_control(self._fader[1])
	

	def assign_crossfader(self):
		self._mixer.master_strip().set_volume_control(None)
		self._mixer.set_crossfader_control(self._fader[1])
	


	"""called on timer"""
	def update_display(self):
		super(BlockMod, self).update_display()
		if(self._timer == 0):
			self._shift_pressed_timer = -12
	

	def strobe(self):
		if(self._ohm_type != 'static'):
			if(self._ohm_type is 'pulse'):
				self._ohm = int(math.fabs(((self._timer * 8) % 64) -32) +32)
			if(self._ohm_type is 'up'):
				self._ohm = int(((self._timer * 4) % 64) + 16)
			if(self._ohm_type is 'down'):
				self._ohm = int(math.fabs(int(((self._timer * 4) % 64) - 64)) + 16)
		self._send_midi(tuple([176, 63, int(self._ohm)]))
		self._send_midi(tuple([176, 31, int(self._ohm)]))	
	

	def handle_sysex(self, midi_bytes):
		pass
	

	def _on_session_offset_changes(self):
		if self._r_function_mode._mode_index in range(0,4):
			self._mem[int(self._r_function_mode._mode_index)] = self._session2.track_offset()
	



#	a
示例#12
0
class BlockMod(MonOhm):
	__module__ = __name__
	__doc__ = " Monomodular controller script for Livid Block "


	def __init__(self, *a, **k):
		self._shift_button = None
		super(BlockMod, self).__init__(*a, **k)
		self._host_name = 'BlockMod'
		self._color_type = 'Monochrome'
		self._link_mixer = LINK_MIXER
		self._rgb = 1
		self._ohm = 127
		self._ohm_type = 'static'
		self._pad_translations = PAD_TRANSLATION
		self._mem = [4, 8, 12, 16]
		self.modhandler._color_type = 'Monochrome'
	

	"""script initialization methods"""
	def _setup_monobridge(self):
		self._monobridge = MonoBridgeElement(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(8)]
		self._button = [None for index in range(8)]
		self._menu = [None for index in range(6)]
		for index in range(2):
			self._fader[index] = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, SLIDER_CC[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self)
		#for index in range(8):
		#	self._button[index] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_' + str(index), self)
		for index in range(8):
			self._dial[index] = MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, KNOB_CC[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index + 8, self)
		for index in range(4):
			self._menu[index] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, FUNCTION_NOTES[index], 'Menu_' + str(index), self)	
		#self._livid = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
		self._livid = DoublePressElement(MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self))
		self._shift_l = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Shift_Button_Left', self)
		self._shift_r = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Shift_Button_Right', 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] = MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (column * 8) + row, 'Grid_' + str(column) + '_' + str(row), self)
		for row in range(5):
			button_row = []
			for column in range(7):
				button_row.append(self._grid[column][row])
			self._matrix.add_row(tuple(button_row)) 
		for row in range(8):
			button_row = []
			for column in range(8):
				button_row.append(self._grid[column][row])
			self._monomod.add_row(tuple(button_row))
		self._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._dial_matrix = ButtonMatrixElement()
		self._dial_matrix.add_row(self._dial)
	

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

	def _setup_crossfader(self):
		pass
	

	def _setup_mod(self):
		super(BlockMod, self)._setup_mod()
		self.modhandler.nav_box.on_value = 8
	

	def _setup_layers(self):
		self._device_navigator.layer = Layer(priority = 5, prev_button = self._menu[2], next_button = self._menu[3])
		self._device.mod_layer = AddLayerMode(self._device, Layer(priority = 5, bank_prev_button = self._menu[0], bank_next_button = self._menu[1]))
		self._transport.mod_layer = AddLayerMode(self._transport, Layer(priority = 5, play_button = self._menu[2], stop_button = self._menu[3]))
		self.modhandler.set_mod_button(self._livid)
		self.modhandler.layer = Layer(priority = 5, 
									grid = self._monomod,
									nav_up_button = self._menu[0],
									nav_down_button = self._menu[1],
									nav_left_button = self._menu[2],
									nav_right_button =  self._menu[3],
									shift_button = self._shift_r,
									alt_button = self._shift_l,
									parameter_controls = self._dial_matrix)
		self.modhandler.legacy_shift_mode = AddLayerMode(self.modhandler, Layer(priority = 6,
									channel_buttons = self._monomod.submatrix[:, 1:2],
									nav_matrix = self._monomod.submatrix[:4, 2:6]))
		self.modhandler.shift_mode = AddLayerMode(self.modhandler, Layer(priority = 6, 
									lock_button = self._livid,
									device_selector_matrix = self._monomod.submatrix[:, :1],
									key_buttons = self._monomod.submatrix[:, 7:8]))
		self.modhandler.shiftlock_mode = AddLayerMode(self.modhandler, Layer(priority = 6, 
									key_buttons = self._monomod.submatrix[:, 7:8]))
	

	def _setup_modes(self):
		self._monomod_mode = MonomodModeComponent(self, self.monomod_mode_update)
		self._monomod_mode.name = 'Monomod_Mode'
		self._monomod_mode.layer = Layer(priority = 5, mode_toggle = self._livid)
		self._monomod_mode.set_enabled(True)
		self._on_shift_doublepress_value.subject = self._livid.double_press
		self._shift_mode = BlockModShiftModeComponent(self, self.shift_update) 
		self._shift_mode.name = 'Shift_Mode'
		#self._shift_mode.set_mode_toggle(self._shift_l, self._shift_r)
		self._shift_mode.layer = Layer(priority = 3, toggle1 = self._shift_l, toggle2 = self._shift_r)
		self._shift_mode.set_enabled(True)
		self._l_function_mode = FunctionModeComponent(self, self.l_function_update)
		self._l_function_mode.name = 'Left_Function_Mode'
		self._r_function_mode = FunctionModeComponent(self, self.r_function_update)
		self._r_function_mode.name = 'Right_Function_Mode'
		self._m_function_mode = FunctionModeComponent(self, self.m_function_update)
		self._m_function_mode.name = 'Main_Function_Mode'
		self._function_modes = [self._l_function_mode, self._r_function_mode, self._m_function_mode]
	

	@subject_slot('value')
	def _on_shift_doublepress_value(self, value):
		#self._monomod_mode.set_mode(abs(self._monomod_mode._mode_index -1))
		pass
	

	"""shift/zoom methods"""
	def deassign_matrix(self):
		self._session_zoom.set_button_matrix(None)
		self._session_zoom2.set_button_matrix(None)
		#self._session.set_stop_track_clip_buttons(None)
		#self._session2.set_stop_track_clip_buttons(None)
		self._session_zoom_main.set_button_matrix(None)
		#self._session_main.set_stop_track_clip_buttons(None)
		for column in range(4):
			self._mixer2.channel_strip(column).set_select_button(None)
			self._mixer2.return_strip(column).set_mute_button(None)
			self._mixer2.return_strip(column).set_solo_button(None)
			self._mixer2.return_strip(column).set_arm_button(None)
			self._mixer2.return_strip(column).set_crossfade_toggle(None)
			self._mixer2.return_strip(column).set_select_button(None)			#shouldn't this be somewhere else?
			self._mixer2.channel_strip(column).set_crossfade_toggle(None)
			self._mixer2.channel_strip(column).set_mute_button(None)
			self._mixer2.channel_strip(column).set_solo_button(None)
			self._mixer2.channel_strip(column).set_arm_button(None)
			for row in range(5):
				self._scene[row].clip_slot(column).set_launch_button(None)
				self._scene2[row].clip_slot(column).set_launch_button(None)
		for index in range(5):
			self._scene[index].set_launch_button(None)
			self._scene2[index].set_launch_button(None)
			self._scene_main[index].set_launch_button(None)
		self._session_zoom.set_nav_buttons(None, None, None, None)
		self._session_zoom2.set_nav_buttons(None, None, None, None)
		self._session_zoom_main.set_nav_buttons(None, None, None, None)
		self._session.set_track_bank_buttons(None, None)
		self._session.set_scene_bank_buttons(None, None)
		self._session2.set_track_bank_buttons(None, None)
		self._session2.set_scene_bank_buttons(None, None)
		self._session_main.set_track_bank_buttons(None, None)
		self._session_main.set_scene_bank_buttons(None, None)
		for column in range(8):
			self._mixer.channel_strip(column).set_select_button(None)
			self._mixer.channel_strip(column).set_crossfade_toggle(None)
			self._mixer.channel_strip(column).set_mute_button(None)
			self._mixer.channel_strip(column).set_solo_button(None)
			self._mixer.channel_strip(column).set_arm_button(None)
			for row in range(5):
				self._scene_main[row].clip_slot(column).set_launch_button(None)
			for row in range(8):
				self._grid[column][row].set_channel(0)
				self._grid[column][row].release_parameter()
				self._grid[column][row].use_default_message()
				self._grid[column][row].set_enabled(True)
				self._grid[column][row].set_on_off_values(127, 0)
				self._grid[column][row].send_value(0, True)
		#self._send_reset.set_buttons(tuple(None for index in range(4)))
	

	def zoom_off(self):
		for column in range(4):
			self._grid[column][5].set_on_value(MUTE[self._rgb])
			self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
			self._grid[column][6].set_on_value(ARM[self._rgb])
			self._mixer.channel_strip(column).set_arm_button(self._grid[column][6])
			for row in range(5):
				self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
			if(self._r_function_mode._mode_index in range(0,3)):
				self._grid[column + 4][5].set_on_value(MUTE[self._rgb])
				self._mixer2.channel_strip(column).set_mute_button(self._grid[column + 4][5])
				self._grid[column + 4][6].set_on_value(ARM[self._rgb])
				self._mixer2.channel_strip(column).set_arm_button(self._grid[column + 4][6])
				for row in range(5):
					self._scene2[row].clip_slot(column).set_launch_button(self._grid[column + 4][row])
			elif(self._r_function_mode._mode_index is 3):
				self._grid[column + 4][5].set_on_value(MUTE[self._rgb])
				self._mixer2.return_strip(column).set_mute_button(self._grid[column + 4][5])
				for row in range(5):
					self._grid[column + 4][row].send_value(USER1_COLOR[self._rgb], True)
					self._grid[column + 4][row].set_channel(RIGHT_USER1_CHANNEL)
					self._grid[column + 4][row].set_identifier(RIGHT_USER1_MAP[column][row])
					self._grid[column + 4][row].set_enabled(False)	 #this has to happen for translate to work
				#self._session_zoom2.set_ignore_buttons(True)
		if(self._r_function_mode._mode_index is 0):
			for index in range(4):
				self._grid[index + 4][7].send_value(SEND_RESET[self._rgb], True)
			#self._send_reset.set_buttons(tuple(self._grid[index + 4][7] for index in range(4)))
	

	def zoom_off_m(self):
		self.deassign_dials()
		for column in range(8):
			self._grid[column][5].set_on_value(MUTE[self._rgb])
			self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
			self._grid[column][6].set_on_value(ARM[self._rgb])
			self._mixer.channel_strip(column).set_arm_button(self._grid[column][6])
			for row in range(5):
				self._scene_main[row].clip_slot(column).set_launch_button(self._grid[column][row])
		#self._session_zoom.set_button_matrix(self._matrix)
	

	def zoom_left(self):
		track_stop_buttons = []
		track_stop_buttons2 = []
		for index in range(4):
			self._grid[index][6].set_off_value(TRACK_STOP[self._rgb])
			track_stop_buttons.append(self._grid[index][6])
			self._grid[index + 4][6].set_off_value(TRACK_STOP[self._rgb])
			track_stop_buttons2.append(self._grid[index + 4][6])
		for index in range(5):
			self._grid[7][index].set_off_value(SCENE_LAUNCH[self._rgb])
			self._scene[index].set_launch_button(self._grid[7][index])
		#self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
		#self._session.set_stop_track_clip_buttons(self._matrix.submatrix[:4][7:])
		#self._session2.set_stop_track_clip_buttons(tuple(track_stop_buttons2))
		#self._session2.set_stop_track_clip_buttons(self._matrix.submatrix[4:8][7:])
		self._session_zoom.set_button_matrix(self._matrix)
		self._grid[0][5].set_on_value(RECORD[self._rgb])
		self._transport.set_record_button(self._grid[0][5])
		self._grid[1][5].set_on_value(OVERDUB[self._rgb])
		self._transport.set_overdub_button(self._grid[1][5])
		self._grid[2][5].set_on_value(LOOP[self._rgb])
		self._transport.set_loop_button(self._grid[2][5])
		self._grid[3][5].set_on_value(STOP_ALL[self._rgb])	
		self._session.set_stop_all_clips_button(self._grid[3][5])
		for index in range(4):
			self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
		#self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
		for index in range(4):
			self._grid[index + 4][7].set_off_value(DEVICE_SELECT[self._rgb])
		self._device_selector.set_matrix(self._monomod.submatrix[4:8][7:])
		self._device_selector.set_offset(4)
	

	def zoom_right(self):
		track_stop_buttons = []
		track_stop_buttons2 = []
		for index in range(4):
			self._grid[index][6].set_off_value(TRACK_STOP[self._rgb])
			track_stop_buttons.append(self._grid[index][6])
		for index in range(5):
			self._grid[7][index].set_off_value(SCENE_LAUNCH[self._rgb])
			self._scene2[index].set_launch_button(self._grid[7][index])
		#self._session.set_stop_track_clip_buttons(tuple(track_stop_buttons))
		#self._session.set_stop_track_clip_buttons(self._matrix.submatrix[:4][7:])
		if(self._r_function_mode._mode_index < 3):
			for index in range(4):
				self._grid[index + 4][6].set_off_value(TRACK_STOP[self._rgb])
				track_stop_buttons2.append(self._grid[index + 4][6])
			#self._session2.set_stop_track_clip_buttons(self._matrix.submatrix[4:8][7:])
			#self._session2.set_stop_track_clip_buttons(tuple(track_stop_buttons2))
		self._session_zoom2.set_button_matrix(self._matrix)
		self._grid[0][5].set_on_value(RECORD[self._rgb])
		self._transport.set_record_button(self._grid[0][5])
		self._grid[1][5].set_on_value(OVERDUB[self._rgb])
		self._transport.set_overdub_button(self._grid[1][5])
		self._grid[2][5].set_on_value(LOOP[self._rgb])
		self._transport.set_loop_button(self._grid[2][5])
		self._grid[3][5].set_on_value(STOP_ALL[self._rgb])
		self._session.set_stop_all_clips_button(self._grid[3][5])
		for index in range(4):
			self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
		#self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
		for index in range(4):
			self._grid[index][7].set_off_value(DEVICE_SELECT[self._rgb])
		self._device_selector.set_matrix(self._monomod.submatrix[:4][7:])
		self._device_selector.set_offset(0)
	

	def zoom_main(self):
		track_stop_buttons = []
		for index in range(8):
			self._grid[index][6].set_on_value(TRACK_STOP[self._rgb])
			track_stop_buttons.append(self._grid[index][6])
		for index in range(5):
			self._grid[7][index].set_on_value(SCENE_LAUNCH[self._rgb])
			self._scene_main[index].set_launch_button(self._grid[7][index])
		#self._session_main.set_stop_track_clip_buttons(tuple(track_stop_buttons))
		#self._session_main.set_stop_track_clip_buttons(self._matrix[0:8][7:])
		self._session_zoom_main.set_button_matrix(self._matrix)
		self._grid[0][5].set_on_value(RECORD[self._rgb])
		self._transport.set_record_button(self._grid[0][5])
		self._grid[1][5].set_on_value(OVERDUB[self._rgb])
		self._transport.set_overdub_button(self._grid[1][5])
		self._grid[2][5].set_on_value(LOOP[self._rgb])
		self._transport.set_loop_button(self._grid[2][5])
		self._grid[3][5].set_on_value(STOP_ALL[self._rgb])	
		self._session.set_stop_all_clips_button(self._grid[3][5])
		for index in range(4):
			self._grid[index + 4][5].send_value(SEND_RESET[self._rgb], True)
		#self._send_reset.set_buttons(tuple(self._grid[index + 4][5] for index in range(4)))
		for index in range(4):
			self._grid[index + 4][7].set_off_value(DEVICE_SELECT[self._rgb])
		self._device_selector.set_matrix(self._monomod.submatrix[4:8][7:])
		self._device_selector.set_offset(4)
	


	"""function mode callbacks"""
	def l_function_update(self):
		mode = self._l_function_mode._mode_index
		if(self._l_function_mode.is_enabled() is False):
			self._l_function_mode.set_mode_buttons(None)
		if not self.modhandler.is_enabled():
			if(self._l_function_mode.is_enabled() is True):
				if(len(self._l_function_mode._modes_buttons) is 0):
					for index in range(4):
						self._mixer.channel_strip(index).set_select_button(None)
					buttons = []
					for index in range(4):
						buttons.append(self._grid[index][7]) 
					self._l_function_mode.set_mode_buttons(tuple(buttons))
				if(self._shift_mode._mode_index is 2):
					for index in range(4):
						if(mode != index):
							self._grid[index][7].turn_off()
						else:
							self._grid[index][7].turn_on()
			if(mode is 0):
				self.assign_device_dials()
				self.show_message('Mixer Split:Dials Device Mode')
			elif(mode is 1):
				self.assign_send_dials()
				self.show_message('Mixer Split:Dials Send Mode')
			elif(mode is 2):
				self.assign_split_volume_dials()
				self.show_message('Mixer Split:Dials Volume Mode')
			elif(mode is 3):
				self.assign_user_dials()
				self.show_message('Mixer Split:Dials User Map Mode')
	

	def r_function_update(self):
		mode = self._r_function_mode._mode_index
		if(self._r_function_mode.is_enabled() is False):
			self._r_function_mode.set_mode_buttons(None)
			#self._session2.set_show_highlight(False)
			#self._session._highlighting_callback(self._session._track_offset, self._session._scene_offset, 4, 5, 1)
		if not self.modhandler.is_enabled():
			if(self._r_function_mode.is_enabled() is True):
				if(len(self._r_function_mode._modes_buttons) is 0):
					for index in range(4):
						self._mixer2.channel_strip(index).set_select_button(None)
					buttons = []
					for index in range(4):
						buttons.append(self._grid[index + 4][7]) 
					self._r_function_mode.set_mode_buttons(tuple(buttons))
				if(self._shift_mode._mode_index is 3):
					for index in range(4):
						if(mode != index):
							self._grid[index + 4][7].turn_off()
						else:
							self._grid[index + 4][7].turn_on()
			self._session2.set_offsets(int(self._mem[mode]), self._session2._scene_offset)
			self.show_message('Mixer Split: Track Offset' + str(RIGHT_MODE_OFFSETS[mode]))
	

	def m_function_update(self):
		mode = self._m_function_mode._mode_index
		if(self._m_function_mode.is_enabled() is False):
			self._m_function_mode.set_mode_buttons(None)
			#self._session.set_show_highlight(False)
			#self._session2.set_show_highlight(False)
			#self._session_main._highlighting_callback(self._session_main._track_offset, self._session_main._scene_offset, 8, 5, 1)
		if not self.modhandler.is_enabled():
			if(self._m_function_mode.is_enabled() is True):
				if(len(self._m_function_mode._modes_buttons) is 0):
					for index in range(8):
						self._mixer.channel_strip(index).set_select_button(None)
					buttons = []
					for index in range(4):
						buttons.append(self._grid[index][7]) 
					self._m_function_mode.set_mode_buttons(tuple(buttons))
				if(self._shift_mode._mode_index is 4):
					for index in range(4):
						if(mode != index):
							self._grid[index][7].turn_off()
						else:
							self._grid[index][7].turn_on()
			if(mode is 0):
				self.assign_device_dials()
				self.show_message('Mixer Linked:Dials Device Mode')
			elif(mode is 1):
				self.assign_send_dials()
				self.show_message('Mixer Linked:Dials Send Mode')
			elif(mode is 2):
				self.assign_volume_dials()
				self.show_message('Mixer Linked:Dials Volume Mode')
			elif(mode is 3):
				self.assign_user_dials()
				self.show_message('Mixer Linked:Dials User Map Mode')
	

	def shift_update(self):
		self._clutch_device_selection = True
		#self.allow_updates(False)
		#if(not self._in_build_midi_map):
		#	self.set_suppress_rebuild_requests(True)
		self.deassign_channel_select_buttons()
		self.deassign_matrix()
		self.deassign_menu()
		if(self._monomod_mode._mode_index is 0):		#if monomod is not on
			if(self._shift_mode._mode_index is 0):							#if no shift is pressed
				#self._shift_mode._mode_toggle1.turn_off()
				#self._shift_mode._mode_toggle2.turn_off()
				if(self.split_mixer() is False):
					self.set_split_mixer(True)
				for zoom in self._zooms:
					zoom._on_zoom_value(0)
				self.zoom_off()
				self._device_selector.set_enabled(False)
				for mode in self._function_modes:
					mode.set_enabled(False)
				self.assign_channel_select_buttons()
				#self._recalculate_selected_channel()
				#self.assign_transport_to_menu()
				self.assign_session_nav_to_menu()
				self.l_function_update()
				self.r_function_update()
				self.assign_crossfader()
				self.set_highlighting_session_component(self._session)
				self._session._do_show_highlight()	
				#self._session.set_show_highlight(True)
			elif(self._shift_mode._mode_index is 1):						#if no shift is pressed, but mixer is linked
				#self._shift_mode._mode_toggle1.turn_on()
				#self._shift_mode._mode_toggle2.turn_on()
				if(self.split_mixer() is True):
					self.set_split_mixer(False)
				for zoom in self._zooms:
					zoom._on_zoom_value(0)
				self.zoom_off_m()
				self._device_selector.set_enabled(False)
				for mode in self._function_modes:
					mode.set_enabled(False)
				self.assign_main_channel_select_buttons()
				self.assign_session_main_nav_to_menu()
				self.m_function_update()
				self.assign_crossfader()
				self.set_highlighting_session_component(self._session_main)
				self._session_main._do_show_highlight()
			elif(self._shift_mode._mode_index > 1):						#if a shift is pressed
				self.assign_device_nav_to_menu()
				self.deassign_channel_select_buttons()
				if(self._shift_mode._mode_index is 2):					#if shift left
					#self._shift_mode._mode_toggle1.turn_on()
					self.zoom_left()
					self._session_zoom._on_zoom_value(1)
					self._session.set_enabled(True) #this is a workaround so that the stop buttons still function
					self._l_function_mode.set_enabled(True)
					self.set_highlighting_session_component(self._session)
					self._session._do_show_highlight()
				elif(self._shift_mode._mode_index is 3):				#if shift right
					#self._shift_mode._mode_toggle2.turn_on()
					self.zoom_right()
					self._session_zoom2._on_zoom_value(1)
					self._session2.set_enabled(True)  #this is a workaround so that the stop buttons still function
					self._r_function_mode.set_enabled(True)
					self.assign_master_fader()
					if(self._r_function_mode._mode_index < 4):
						self.set_highlighting_session_component(self._session2)
						self._session2._do_show_highlight()
				elif(self._shift_mode._mode_index is 4):				#if either shift pressed while mixer is linked
					#self._shift_mode._mode_toggle1.turn_on()
					#self._shift_mode._mode_toggle2.turn_on()
					self.zoom_main()
					self._session_zoom_main._on_zoom_value(1)
					self._session_main.set_enabled(True) #this is a workaround so that the stop buttons still function
					self._m_function_mode.set_enabled(True)
					self.assign_master_fader()
					self.set_highlighting_session_component(self._session_main)
					self._session_main._do_show_highlight()
				self._device_selector.set_enabled(True)
		else:
			for mode in self._function_modes:
				mode.set_enabled(False)
			#self.modhandler._shift_value(int(self._shift_mode._mode_index>1))
		self.allow_updates(True)
		#self.set_suppress_rebuild_requests(False)
		self._clutch_device_selection = False
		if(self._shift_mode._mode_index < 2):
			self._monobridge._send('touch', 'off')
		else:
			self._monobridge._send('touch', 'on')
	

	"""left control management methods"""
	def deassign_dials(self):
		for index in range(8):
			self._dial[index].use_default_message()
			self._dial[index].release_parameter()
			self._dial[index].set_enabled(True)
		if(self._device._parameter_controls != None):
			for control in self._device._parameter_controls:
				control.release_parameter()
			self._device._parameter_controls = None
		self._mixer.selected_strip().set_send_controls(None)
		self._mixer.selected_strip().set_volume_control(None)
		for track in range(4):
			self._mixer.channel_strip(track).set_volume_control(None)
			self._mixer.channel_strip(track+4).set_volume_control(None)
			self._mixer2.channel_strip(track).set_volume_control(None)
			self._mixer2.return_strip(track).set_volume_control(None)
	

	def assign_device_dials(self):
		self._ohm_type = OHM_TYPE[0]
		self._ohm = OHM_VALUE[0]
		self.deassign_dials()
		self._device.set_enabled(True)
		device_param_controls = []
		for index in range(8):
			device_param_controls.append(self._dial[index])
		self._device.set_parameter_controls(tuple(device_param_controls))
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	

	def assign_send_dials(self):
		self._ohm_type = OHM_TYPE[1]
		self._ohm = OHM_VALUE[1]
		self.deassign_dials()
		dials = []
		for index in range(4):
			dials.append(self._dial[index])
		for index in range(4):
			if(self._mixer2.return_strip(index)):
				self._mixer2.return_strip(index).set_volume_control(self._dial[index + 4])
		self._mixer.selected_strip().set_send_controls(tuple(dials))
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	

	def assign_volume_dials(self):
		self._ohm_type = OHM_TYPE[2]
		self._ohm = OHM_VALUE[2]
		self.deassign_dials()
		for track in range(8):
			self._mixer.channel_strip(track).set_volume_control(self._dial[track])
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	

	def assign_split_volume_dials(self):
		self._ohm_type = OHM_TYPE[2]
		self._ohm = OHM_VALUE[2]
		self.deassign_dials()
		for track in range(4):
			self._mixer.channel_strip(track).set_volume_control(self._dial[track])
			self._mixer2.channel_strip(track).set_volume_control(self._dial[track+4])
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	

	def assign_user_dials(self):
		self._ohm_type = OHM_TYPE[3]
		self._ohm = OHM_VALUE[3]
		self.deassign_dials()
		for index in range(8):
			self._dial[index].set_channel(L_USER_DIAL_CHAN)
			self._dial[index].set_identifier(L_USER_DIAL_MAP[index])
			self._dial[index].set_enabled(False)
		self._mixer.selected_strip().set_volume_control(self._fader[0])
	


	"""menu button management methods"""
	def deassign_menu(self):
		self._device.set_lock_button(None)
		self._device.set_on_off_button(None)
		#self._device_navigator.set_device_nav_buttons(None, None)	
		self._device_navigator.set_enabled(False)
		self._device.set_bank_nav_buttons(None, None)
		self._transport.set_play_button(None)	
		self._transport.set_record_button(None) 
		self._transport.set_stop_button(None)
		self._transport.set_loop_button(None)	
		self._transport.set_overdub_button(None)	
		self._session.set_stop_all_clips_button(None)
		self._session_main.set_track_bank_buttons(None, None)
		self._session_main.set_scene_bank_buttons(None, None)
	

	def assign_device_nav_to_menu(self):
		#self._device_navigator.set_device_nav_buttons(self._menu[2], self._menu[3]) 
		self._device_navigator.set_enabled(True)
		self._device.set_bank_nav_buttons(self._menu[0], self._menu[1])
	

	def assign_transport_to_menu(self):
		self._transport.set_play_button(self._menu[0])	
		self._transport.set_record_button(self._menu[2])
		self._transport.set_stop_button(self._menu[1])
		session.set_stop_all_clips_button(self._menu[3])
	

	def assign_session_nav_to_menu(self):
		self._session.set_track_bank_buttons(self._menu[3], self._menu[2])
		self._session.set_scene_bank_buttons(self._menu[1], self._menu[0])
	

	def assign_monomod_shift_to_menu(self):
		#self._device_navigator.set_device_nav_buttons(self._menu[3], self._menu[2])
		self._device_navigator.set_enabled(True)
		self._device.set_bank_nav_buttons(self._menu[1], self._menu[0])
	

	def assign_session_bank_to_menu(self):
		self._session.set_track_bank_buttons(self._menu[3], self._menu[2])
		self._session.set_scene_bank_buttons(self._menu[1], self._menu[0])
	

	def assign_session2_bank_to_menu(self):
		self._session2.set_track_bank_buttons(self._menu[3], self._menu[2])
		self._session2.set_scene_bank_buttons(self._menu[1], self._menu[0])
	

	def assign_session_main_nav_to_menu(self):
		self._session_main.set_track_bank_buttons(self._menu[3], self._menu[2])
		self._session_main.set_scene_bank_buttons(self._menu[1], self._menu[0])
	


	"""channel selection management methods"""
	def deassign_channel_select_buttons(self):
		for index in range(8):
			if(self._mixer.channel_strip(index)):
				self._mixer.channel_strip(index).set_select_button(None)
			self._grid[index][7].release_parameter()
		for index in range(4):
			self._mixer2.channel_strip(index).set_select_button(None)
			self._mixer2.return_strip(index).set_select_button(None)
			self._mixer2.master_strip().set_select_button(None)
			self._grid[index + 4][7].release_parameter()
	

	def assign_channel_select_buttons(self):
		for index in range(4):
			#if(self._mixer.channel_strip(index)):
			self._grid[index][7].set_on_off_values(127, 0)
			self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
		if(self._r_function_mode._mode_index < 3):
			for index in range(4):
				self._grid[index][7].set_on_off_values(127, 0)
				self._mixer2.channel_strip(index).set_select_button(self._grid[index + 4][7])	
		else:
			for index in range(4):
				self._grid[index][7].set_on_off_values(1, 0)
				self._mixer2.return_strip(index).set_select_button(self._grid[index + 4][7])
	

	def assign_return_select_buttons(self):
		for index in range(4):
			self._grid[index + 4][7].set_off_value(0) 
			if(self._mixer.channel_strip(index)):
				self._grid[index + 4][7].set_on_value(1)
				self._mixer.channel_strip(index).set_select_button(self._grid[index + 4][7])
	

	def assign_l_channel_select_buttons(self):
		self._mixer.set_select_buttons(None, None)
		self._session.set_select_buttons(None, None)
		for index in range(4):
			self._grid[index][7].set_off_value(0)
			if(self._mixer.channel_strip(index)):
				self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
	

	def assign_r_channel_select_buttons(self):
		self._mixer2.set_select_buttons(None, None)
		self._session2.set_select_buttons(None, None)
		for index in range(4):
			self._grid[index + 4][7].set_off_value(0)
			if(self._mixer2.channel_strip(index)):
				self._mixer2.channel_strip(index).set_select_button(self._grid[index + 4][7])
	

	def assign_main_channel_select_buttons(self):
		for index in range(8):
			self._grid[index][7].set_off_value(0)
			if(self._mixer.channel_strip(index)):
				self._grid[index][7].set_on_value(127)
				self._mixer.channel_strip(index).set_select_button(self._grid[index][7])
	

	def assign_master_fader(self):
		self._mixer.set_crossfader_control(None)
		self._mixer.master_strip().set_volume_control(self._fader[1])
	

	def assign_crossfader(self):
		self._mixer.master_strip().set_volume_control(None)
		self._mixer.set_crossfader_control(self._fader[1])
	


	"""called on timer"""
	def update_display(self):
		super(BlockMod, self).update_display()
		if(self._timer == 0):
			self._shift_pressed_timer = -12
	

	def strobe(self):
		if(self._ohm_type != 'static'):
			if(self._ohm_type is 'pulse'):
				self._ohm = int(math.fabs(((self._timer * 8) % 64) -32) +32)
			if(self._ohm_type is 'up'):
				self._ohm = int(((self._timer * 4) % 64) + 16)
			if(self._ohm_type is 'down'):
				self._ohm = int(math.fabs(int(((self._timer * 4) % 64) - 64)) + 16)
		self._send_midi(tuple([176, 63, int(self._ohm)]))
		self._send_midi(tuple([176, 31, int(self._ohm)]))	
	

	def handle_sysex(self, midi_bytes):
		pass
	

	def _on_session_offset_changes(self):
		if self._r_function_mode._mode_index in range(0,4):
			self._mem[int(self._r_function_mode._mode_index)] = self._session2.track_offset()
	



#	a
class GuitarWing(ControlSurface):
	__module__ = __name__
	__doc__ = " GuitarWing controller script "


	def __init__(self, c_instance):
		super(GuitarWing, self).__init__(c_instance)
		self._connected = False
		self._host_name = 'GuitarWing'
		self._color_type = 'OhmRGB'
		self.oscServer = None
		self.log_message("<<<<<<<<<<<<<<<<<= GuitarWing log opened =>>>>>>>>>>>>>>>>>>>>>") 
		self._timer = 0
		self._current_nav_buttons = []
		self.flash_status = 1
		self._clutch_device_selection = False
		self._touched = 0
		self._last_selected_track = None
		self._last_selected_track_arm = False
		self._device_selection_follows_track_selection = True
		with self.component_guard():
			self._setup_monobridge()
			self._setup_controls()
			self._setup_m4l_interface()
			#self._setup_OSC_layer()
			self._setup_device_control()
			self._setup_transport_control()
			#self._setup_selected_session_control()
			self._setup_mixer_control()
			self._setup_session_control()
			#self._setup_step_sequencer()
			#self._device.add_device_listener(self._on_new_device_set)
			self._device.set_parameter_controls(tuple([self._fader[0], self._fader[1], self._fader[2], self._accel[2], self._ccs[0], self._ccs[1], self._ccs[2], self._ccs[3]]))  #, self._fader_button[0], self._fader_button[1], self._fader_button[2], self._padCC[4]]))
			self._mixer.set_select_buttons(self._button[1], self._button[0])
			#self._session.set_scene_launch_buttons(self._pad[:4])
			for index in range(4):
				self._scene[index].set_launch_button(self._pad[index])
			#for index in range(4):
			#	self._pad[index].set_identifier(36+index)
			#	self._pad[index].set_channel(CHANNEL)
			#	self._pad[index].set_enabled(False)
			self._transport.set_stop_button(self._button[6])
			self._transport.set_loop_button(self._button[7])
			self._transport.set_seek_backward_button(self._button[8])
			self._transport.set_record_button(self._button[9])
			#self._on_select_track_down_value.subject = self._button[0]
			#self._on_select_track_up_value.subject = self._button[1]

	

	@subject_slot('value')
	def _on_select_track_up_value(self, value):
		if value:
			pass
	

	@subject_slot('value')
	def _on_select_track_down_value(self, value):
		if value:
			pass
	

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

	def _setup_controls(self):
		is_momentary = True
		self._button = [MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, BUTTONS[index], 'Button_' + str(index), self) for index in range(10)]

		self._fader = [MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, SLIDERS[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self) for index in range(3)]
		#self._fader_button = [MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, index, 'Fader_Button_' + str(index), self) for index in range(3)]
		self._fader_button = [MonoEncoderElement(MIDI_NOTE_TYPE, CHANNEL, SLIDERS[index], Live.MidiMap.MapMode.absolute, 'Fader_Button_' + str(index), index, self) for index in range(3)]

		self._ccs = [MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, CCS[index], Live.MidiMap.MapMode.absolute, 'CCs_' + str(index), index, self) for index in range(4)]

		self._pad =  [MonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, PADS[index], 'Pad_' + str(index), self) for index in range(5)]
		self._padCC = [MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, PADS[index], Live.MidiMap.MapMode.absolute, 'PadCC_' + str(index), index, self) for index in range(5)]

		self._accel = [MonoEncoderElement(MIDI_CC_TYPE, CHANNEL, ACCELS[index], Live.MidiMap.MapMode.absolute, 'Accel_' + str(index), index, self) for index in range(3)]
	

	def _setup_mixer_control(self):
		is_momentary = True
		self._num_tracks = (1) #A mixer is one-dimensional; 
		self._mixer = MixerComponent(1, 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(1):
			self._mixer.channel_strip(index)._invert_mute_feedback = True
			self._mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
		#for index in range(4):
		#	self._mixer.return_strip(index).name = 'Mixer_ReturnStrip_' + str(index)
		self._mixer.selected_strip().name = 'Mixer_SelectedStrip'
		self.song().view.selected_track = self._mixer.channel_strip(0)._track 
	

	def _setup_session_control(self):
		self._session = GuitarWingSessionComponent(1, 4, self)
		self._session.name = "Session"
		self._session.set_offsets(0, 0)	 
		self._session.set_stop_clip_value(STOP_CLIP)
		self._scene = [None for index in range(4)]
		for row in range(4):
			self._scene[row] = self._session.scene(row)
			self._scene[row].name = 'Scene_' + str(row)
			for column in range(1):
				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.set_mixer(self._mixer)
		#self._session.set_track_banking_increment(TRACK_BANKING_INCREMENT)
		self.set_highlighting_session_component(self._session)
		self._session._do_show_highlight()
	

	def _setup_transport_control(self):
		self._transport = TransportComponent()
	

	def _setup_selected_session_control(self):
		self._selected_session = GuitarWingSessionComponent(1, 16, self)
		self._selected_session.name = "SelectedSession"
		self._selected_session.set_offsets(0, 0)	 
		self._selected_session.set_stop_clip_value(STOP_CLIP)
		self._selected_scene = [None for index in range(16)]
		for row in range(16):
			self._selected_scene[row] = self._selected_session.scene(row)
			self._selected_scene[row].name = 'SelectedScene_' + str(row)
			clip_slot = self._selected_scene[row].clip_slot(0)
			clip_slot.name = 'Selected_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)
	

	def _setup_device_control(self):
		self._device = GuitarWingDeviceComponent(self)  #, MOD_BANK_DICT, MOD_TYPES)
		self._device.name = 'Device_Component'

		self.set_device_component(self._device)
		self._device.set_enabled(True)
	

	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_mod(self):
		if isinstance(__builtins__, dict):
			if not 'monomodular' in __builtins__.keys() or not isinstance(__builtins__['monomodular'], ModRouter):
				__builtins__['monomodular'] = ModRouter()
		else:
			if not hasattr(__builtins__, 'monomodular') or not isinstance(__builtins__['monomodular'], ModRouter):
				setattr(__builtins__, 'monomodular', ModRouter())
		self.monomodular = __builtins__['monomodular']
		if not self.monomodular.has_host():
			self.monomodular.set_host(self)
		self.monomodular.name = 'monomodular_switcher'
		self.modhandler = GuitarWingModHandler(script = self)
		self.modhandler.name = 'ModHandler'
		# self.log_message('mod is: ' + str(self.monomodular) + ' ' + str(__builtins__['monomodular']))
	

	def _setup_OSC_layer(self):
		self._OSC_id = 0
		if hasattr(__builtins__, 'control_surfaces') or (isinstance(__builtins__, dict) and 'control_surfaces' in __builtins__.keys()):
			for cs in __builtins__['control_surfaces']:
				if cs is self:
					break
				elif isinstance(cs, GuitarWing):
					self._OSC_id += 1

		self._prefix = '/Live/GuitarWing/'+str(self._OSC_id)
		self._outPrt = OSC_OUTPORT
		if not self.oscServer is None:
			self.oscServer.shutdown()
		self.oscServer = RemixNet.OSCServer('localhost', self._outPrt, 'localhost', 10001)
	

	def _deassign_all(self):
		self.modhandler._fader_color_override = False
		self._send_midi(tuple([240, 0, 1, 97, 12, 50, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 247]))
		self._send_midi(tuple([191, 122, 64]))		#turn local OFF for CapFaders
		#for index in range(8):
		#	self._send_midi(tuple([191, index+10, 125]))
		#self._send_midi(tuple([191, 18, 105]))
		self._current_nav_buttons = []
		with self.component_guard():

			self.release_controlled_track()

			self._step_sequencer.set_loop_selector_matrix(None)
			self._step_sequencer.set_quantization_buttons(None)
			self._step_sequencer.set_follow_button(None)
			self._step_sequencer.set_button_matrix(None)
			self._step_sequencer.set_drum_matrix(None)
			self._step_sequencer.set_drum_bank_up_button(None)
			self._step_sequencer.set_drum_bank_down_button(None)
			self._step_sequencer.set_mute_button(None)
			self._step_sequencer.set_solo_button(None)
			self._step_sequencer.set_playhead(None)

			self._on_note_matrix_pressed.subject = None
			self._note_sequencer.set_loop_selector_matrix(None)
			self._note_sequencer.set_quantization_buttons(None)
			self._note_sequencer.set_follow_button(None)
			self._note_sequencer.set_button_matrix(None)
			self._note_sequencer.set_playhead(None)

			self._drumgroup.set_drum_matrix(None)
			self.modhandler._assign_keys(None)
			self.modhandler._assign_base_grid(None)
			self.modhandler._assign_base_grid_CC(None)
			self.modhandler.set_shift_button(None)
			self.modhandler.set_device_component(None)
			self._transport.set_overdub_button(None)
			self._recorder.set_new_button(None)
			self._recorder.set_record_button(None)
			self._recorder.set_length_button(None)
			self._recorder.set_length_buttons(None)
			self._offset_component.deassign_all()
			self._vertical_offset_component.deassign_all()
			self._scale_offset_component.deassign_all()
			self._device_navigator.deassign_all()
			self._device.deassign_all()
			self._mixer.deassign_all()
			self._selected_session.deassign_all()
			self._session.deassign_all()
			self.set_highlighting_session_component(self._session)
			self._session._do_show_highlight()
			self._user_mode_selector.set_enabled(False)
			self._midi_mode_selector.set_enabled(False)
			self._split_mode_selector.set_enabled(False)
			self._sequencer_mode_selector.set_enabled(False)

			for pad in self._touchpad:
				pad.set_on_off_values(127, 0)
				pad.release_parameter()
				pad.use_default_message()
				pad.reset(True)
				pad.set_enabled(True)
				pad._descriptor = '_'
			for pad in self._pad:
				pad.display_press = False
				pad.set_on_off_values(127, 0)
				pad.release_parameter()
				pad.use_default_message()
				pad.reset(True)
				pad.set_enabled(True)
				pad._descriptor = '_'
				pad.set_force_next_value()
			for pad in self._pad_CC:
				pad.release_parameter()
				pad.use_default_message()
				pad.set_enabled(True)
			for button in self._button[4:8]:
				button.set_on_off_values(127, 0)
				button.release_parameter()
				button.use_default_message()
				button.reset(True)
				button.set_enabled(True)
				button._descriptor = '_'
			for fader in self._fader[0:8]:
				fader.release_parameter()
				fader.use_default_message()
				fader.send_value(0, True)
				fader.set_enabled(True)
			for runner in self._runner:
				runner.release_parameter()
				runner.reset(True)
				#fader.force_next_send()
		#self.request_rebuild_midi_map()
	

	def _notify_descriptors(self):
		if OSC_TRANSMIT:
			for pad in self._pad:
				self.oscServer.sendOSC(self._prefix+'/'+pad.name+'/lcd_name/', str(self.generate_strip_string(pad._descriptor)))
			for touchpad in self._touchpad:
				self.oscServer.sendOSC(self._prefix+'/'+touchpad.name+'/lcd_name/', str(self.generate_strip_string(touchpad._descriptor)))
			for button in self._button:
				self.oscServer.sendOSC(self._prefix+'/'+button.name+'/lcd_name/', str(self.generate_strip_string(button._descriptor)))
	

	def _set_device_attribute(self, device, attribute, value, force = False):
		if not device is None and hasattr(device, 'name'):
			name = device.name.split(' ')
			for index in range(len(name)):
				if len(str(name[index])) and str(name[index][0])=='@':
					vals = name[index][1:].split(':')
					if vals[0] == attribute:
						#vals[1] = value
						name[index] = str('@'+str(attribute)+':'+str(value))
						device.name = ' '.join(name)
	

	def _top_device(self):
		selected_device = self._device._device
		if not selected_device is None and hasattr(selected_device, 'canonical_parent'):
			while not isinstance(selected_device.canonical_parent, Live.Track.Track):
				selected_device = selected_device.canonical_parent
		return selected_device
	

	def _detect_instrument_type(self, track):
		scale = DEFAULT_AUTO_SCALE
		#for device in self._get_devices(track):
		if self._assign_mod():
			scale = 'Mod'
		else:
			for device in track.devices:
				if isinstance(device, Live.Device.Device):
					#self.log_message('device: ' + str(device.class_name))
					if device.class_name == 'DrumGroupDevice':
						scale = 'DrumPad'
						self._step_sequencer.set_drum_group_device(device)
						break
		return scale
	

	def _get_devices(self, track):

		def dig(container_device):
			contained_devices = []
			if container_device.can_have_chains:
				for chain in container_device.chains:
					for chain_device in chain.devices:
						for item in dig(chain_device):
							contained_devices.append(item)
			else:
				contained_devices.append(container_device)
			return contained_devices
		

		devices = []
		for device in track.devices:
			for item in dig(device):
				devices.append(item)
				#self.log_message('appending ' + str(item))
		return devices
	

	@subject_slot('value')
	def _on_duplicate_button_value(self, value):
		#self.log_message('duplicate button value: ' + str(value))
		track = self._mixer.selected_strip()._track
		#track_index = [t for t in self._mixer.tracks_to_use()].index(self._mixer.selected_strip()._track)
		#self._session.selected_scene.clip_slot(track_index)._do_duplicate_clipslot()
		if not value is 0 and not track is None:
			try:
				track.duplicate_clip_slot([s for s in self.song().scenes].index(self.song().view.selected_scene))
				#self._session.selected_scene.clip_slot(track_index)._do_duplicate_clipslot()
			except:
				self.log_message('couldnt duplicate')
				self.log_message('because: ' + str([s for s in self.song().scenes].index(self.song().view.selected_scene)))
	

	@subject_slot('value')
	def _on_new_button_value(self, value):
		#self.log_message('new button value: ' +str(value))
		song = self.song()
		view = song.view
		try:
			selected_track = view.selected_track
			selected_scene_index = list(song.scenes).index(view.selected_scene)
			selected_track.stop_all_clips(False)
			self._jump_to_next_slot(selected_track, selected_scene_index)
		except:
			self.log_message('couldnt create new')
			#self._view_selected_clip_detail()
	

	def _jump_to_next_slot(self, track, start_index):
		song = self.song()
		new_scene_index = self._next_empty_slot(track, start_index)
		song.view.selected_scene = song.scenes[new_scene_index]
	

	def _next_empty_slot(self, track, scene_index):
		song = self.song()
		scene_count = len(song.scenes)
		while track.clip_slots[scene_index].has_clip:
			scene_index += 1
			if scene_index == scene_count:
				song.create_scene(scene_count)
		return scene_index
	

	"""called on timer"""
	def update_display(self):
		super(GuitarWing, 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, MonoButtonElement):
					control.flash(self._timer)
	

	"""m4l bridge"""
	def _on_device_name_changed(self):
		name = self._device.device_name_data_source().display_string()
		self._monobridge._send('Device_Name', 'lcd_name', str(self.generate_strip_string('Device')))
		self._monobridge._send('Device_Name', 'lcd_value', str(self.generate_strip_string(name)))
		self.touched()
		if OSC_TRANSMIT:
			self.oscServer.sendOSC(self._prefix+'/glob/device/', str(self.generate_strip_string(name)))
	

	def _on_device_bank_changed(self):
		name = 'No Bank'
		if is_device(self._device._device):
			name, _ = self._device._current_bank_details()
		self._monobridge._send('Device_Bank', 'lcd_name', str(self.generate_strip_string('Bank')))
		self._monobridge._send('Device_Bank', 'lcd_value', str(self.generate_strip_string(name)))
		self.touched()
	

	def _on_device_chain_changed(self):
		name = " "
		if is_device(self._device._device) and self._device._device.canonical_parent and isinstance(self._device._device.canonical_parent, Live.Chain.Chain):
			name = self._device._device.canonical_parent.name
		self._monobridge._send('Device_Chain', 'lcd_name', str(self.generate_strip_string('Chain')))
		self._monobridge._send('Device_Chain', 'lcd_value', str(self.generate_strip_string(name)))
		self.touched()
	

	def generate_strip_string(self, display_string):
		NUM_CHARS_PER_DISPLAY_STRIP = 12
		if (not display_string):
			return (' ' * NUM_CHARS_PER_DISPLAY_STRIP)
		else:
			display_string = str(display_string)
		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):
		#self.log_message('monobridge:' + str(name) + str(value))
		if isinstance(sender, MonoEncoderElement):
			if OSC_TRANSMIT:
				self.oscServer.sendOSC(self._prefix+'/'+sender.name+'/lcd_name/', str(self.generate_strip_string(name)))
				self.oscServer.sendOSC(self._prefix+'/'+sender.name+'/lcd_value/', str(self.generate_strip_string(value)))
			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)))
		else:
			self._monobridge._send(name, 'lcd_name', str(self.generate_strip_string(name)))
			self._monobridge._send(name, 'lcd_value', str(self.generate_strip_string(value)))
			if OSC_TRANSMIT:
				self.oscServer.sendOSC(self._prefix+'/'+name+'/lcd_name/', str(self.generate_strip_string(name)))
				self.oscServer.sendOSC(self._prefix+'/'+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 disconnect(self):
		if not self.oscServer is None:
			self.oscServer.shutdown()
		self.oscServer = None
		self.log_message("--------------= GuitarWing log closed =--------------")
		super(GuitarWing, self).disconnect()
	

	"""some cheap overrides"""

	"""def set_highlighting_session_component(self, session_component):
		self._highlighting_session_component = session_component
		self._highlighting_session_component.set_highlighting_callback(self._set_session_highlight)"""
	

	def handle_sysex(self, midi_bytes):
		#self.log_message('sysex: ' + str(midi_bytes))
		if len(midi_bytes) > 14:
			if midi_bytes[:6] == tuple([240, 0, 1, 97, 12, 64]):
				self._register_pad_pressed(midi_bytes[6:14])
			elif midi_bytes[3:10] == tuple([6, 2, 0, 1, 97, 1, 0]):
				if not self._connected:
					self._connected = True
					self._initialize_hardware()
	

	def _on_selected_track_changed(self):
		super(GuitarWing, self)._on_selected_track_changed()
		track = self._mixer.selected_strip()._track
		track_list = []
		for t in self._mixer.tracks_to_use():
			track_list.append(t)
		if self._last_selected_track and self._last_selected_track.can_be_armed and not self._last_selected_track_arm:
			self.schedule_message(1, self._disarm_track, self._last_selected_track)
			self.schedule_message(1, self._arm_current_track, track)
		if track.can_be_armed:
			self._last_selected_track_arm = track.arm
		self._last_selected_track = track

	def _arm_current_track(self, track):
		track.arm = 1
	

	def _disarm_track(self, track):
		track.arm = 0
	

#	a
示例#14
0
class BCRXL(ControlSurface, IsotonikCommon):
    def __init__(self, c_instance):
        self._dynamic = True
        self._LOG_BCL = False
        self._preset = 0
        self._use_32 = False
        self._enable_function = False
        self._track_navigation = False
        self._swap_arm = False
        self._direct_bank = False
        self._relative = False
        self._bit_14 = False
        self._fold_enabled = True
        self._can_fold = False
        self._show_returns = 0
        self._max_returns = -1
        self._returns_toggled = False
        self._has_pans = False
        self._track_bank_size = 1
        self._show_master = 0
        self._show_selected = 0
        self._button_row_1 = 'select'
        self._button_row_2 = 'mute'
        self._button_row_3 = 'solo'
        self._button_reselect_track = 'fold'
        self._channel_strip = False
        self._toggle_1 = False
        self._toggle_2 = False
        self._toggle_3 = False
        self._toggle_4 = False
        self._has_strip_device_enable = True
        self._USB = True
        self._has_transport = False
        self._showing_selected = False
        self._x_offset = 0
        self._y_offset = 0
        self._track_left = 113
        self._track_right = 114
        self._device_toggle = 109
        self._track_fold = 110
        self._refresh = 111
        self._device_lock = 110
        self._bank_up = 111
        self._bank_down = 112
        self._toggle_returns = False
        self._user_custom = False
        IsotonikCommon.__init__(self, parent=self, c_instance=c_instance)
        self._init(path.dirname(path.realpath(__file__)), 'BCR_XL', 24)
        super(BCRXL, self).__init__(c_instance)
        with self.component_guard():
            self._startup()

    def disconnect(self):
        if self._dynamic:
            pass
        self._shutdown()
        super(BCRXL, self).disconnect()

    def _sigabort_create(self):
        if self._show_returns == 3 or self._show_returns == 4:
            self._fold_enabled = False
            self._toggle_returns = True
        if not self._enable_function:
            self._direct_bank = False
            self._has_transport = False
        if self._channel_strip:
            self._fold_enabled = False
        self._user_custom = self._enable_function and not self._direct_bank and not self._has_transport
        self._bcr_controls = BCL(self, self._preset, self._relative,
                                 self._bit_14)
        self._device_selection_follows_track_selection = True
        self._default_skin = make_default_skin()
        with inject(skin=const(self._default_skin)).everywhere():
            self._create_controls()
        self._set_offsets_task = self._tasks.add(
            Task.sequence(Task.wait(0), Task.run(self._set_session_offsets)))
        self._set_offsets_task.kill()
        if self._show_selected:
            self._show_selected_task = self._tasks.add(
                Task.sequence(Task.wait(1),
                              Task.run(self._show_selected_track)))
        return False

    def _enable_components(self):
        with self.component_guard():
            for component in self.components:
                self.log('Enable: ' + component.name)
                component.set_enabled(True)

    def set_session_offsets(self, x, y):
        self.log('bcrxl: set_session_offsets: ' + str(x) + ',' + str(y))
        self._scene = y
        self._x_offset = x
        self._y_offset = y
        self._set_offsets_task.restart()

    def _set_session_offsets(self):
        self._set_offsets_task.kill()
        self.log('_set_session_offsets')
        self._session.set_offsets(self._x_offset, self._y_offset)

    def _show_controlled_tracks_message(self, session):
        track_offset = session.track_offset()
        self.log('_show_controlled_tracks_message: ' + str(track_offset) +
                 ', ' + str(self._scene))
        self._set_session_highlight(track_offset, self._scene, 8, 1, False)

    def _set_session_highlight(self, track_offset, scene_offset, width, height,
                               include_return_tracks):
        self.log('_set_session_highlight: ' + str(track_offset) + ', ' +
                 str(scene_offset) + ', ' + str(width) + ', ' + str(height) +
                 ', ' + str(include_return_tracks))
        super(BCRXL,
              self)._set_session_highlight(track_offset, scene_offset, width,
                                           height, include_return_tracks)

    def _on_selected_scene_changed(self):
        if self._box_follows_scene:
            self._scene = list(self.song().scenes).index(
                self.song().view.selected_scene)
            self._show_controlled_tracks_message(
                self._on_session_offset_changed.subject)
            self.log('_on_selected_scene_changed: index: ' + str(self._scene))
        super(BCRXL, self)._on_selected_scene_changed()

    def _show_selected_track(self):
        self.log('_show_selected_track: ' + str(self._showing_selected) +
                 ', index: ' + str(self._mixer._selected_track_index))
        self._showing_selected = not self._showing_selected
        volume_cc = 0 if self._bit_14 else 1
        if self._mixer._selected_track_index != -1:
            curr_val = self._mixer._channel_strips[
                self._mixer.
                _selected_track_index]._track.mixer_device.volume.value
            self._do_send_midi(
                (176 + MIXER_MODE,
                 volume_cc + self._mixer._selected_track_index,
                 int(math.floor(curr_val *
                                127.0)) if self._showing_selected else 0))
        self._show_selected_task = self._tasks.add(
            Task.sequence(Task.delay(2), Task.run(self._show_selected_track)))

    def on_identified(self):
        self.log('on_identified')
        self._identified = True
        if hasattr(self, 'default_session'):
            self.default_session.set_show_highlight(True)
            self._set_session_highlight(0, 0, 8, 1, False)
        super(BCRXL, self).on_identified()

    def _create_controls(self):
        self.log(
            '_create_controls: dynamic: ' + str(self._dynamic) +
            ', function: ' + str(self._enable_function), True)
        if not self._dynamic:
            self._track_left = 105
            self._track_right = 106
            self._device_toggle = 107
        elif not self._enable_function:
            self._device_toggle = 105
            self._track_fold = 106
            self._device_lock = 106
            self._bank_up = 107
            self._bank_down = 108
        self.log('left: ' + str(self._track_left) + ', right: ' +
                 str(self._track_right) + ', toggle: ' +
                 str(self._device_toggle) + ', user_custom: ' +
                 str(self._user_custom))
        if self._dynamic:
            if self._user_custom:
                self._bcr_controls.connect(self._toggle_1, self._toggle_2,
                                           self._toggle_3, self._toggle_4)
            else:
                self._bcr_controls.connect()
        self._modes = ModesComponent()
        self._create_our_controls()
        self._create_mixer()
        self._create_session()
        self._create_device()
        self._create_transport()

    def log(self, msg, force=False):
        if self._LOG or force:
            if isinstance(msg, str):
                logger.info(msg)
            else:
                logger.error('**++** Invalid log msg: ' + str(type(msg)) +
                             ': ' + IsotonikCommon.repr3(msg))

    def _create_our_controls(self):
        self.log('_create_our_controls')

        def make_button(identifier,
                        name,
                        midi_type=MIDI_CC_TYPE,
                        skin=self._default_skin):
            control = ButtonElement(False,
                                    midi_type,
                                    MIXER_MODE,
                                    identifier,
                                    name=name,
                                    skin=skin)
            return control

        def make_button_list(identifiers, name, midi_type=MIDI_NOTE_TYPE):
            return [
                make_button(identifier, name % (i + 1), midi_type,
                            self._default_skin)
                for i, identifier in enumerate(identifiers)
            ]

        def make_encoder(identifier, name, bit_14=True):
            if self._bit_14:
                self.log('make_encoder: ' + name + ', CC: ' + str(identifier) +
                         ', 14_bit: ' + str(bit_14))
                control = EncoderElement(
                    MIDI_CC_TYPE,
                    MIXER_MODE,
                    identifier,
                    Live.MidiMap.MapMode.absolute_14_bit
                    if bit_14 else Live.MidiMap.MapMode.absolute,
                    name=name)
            else:
                control = EncoderElement(
                    MIDI_CC_TYPE,
                    MIXER_MODE,
                    identifier,
                    Live.MidiMap.MapMode.absolute if not self._relative else
                    Live.MidiMap.MapMode.relative_two_compliment,
                    name=name)
            return control

        self._top_buttons = ButtonMatrixElement(rows=[
            make_button_list(chain(xrange(65, 73)), 'BCR_Top_Buttons_%d',
                             MIDI_CC_TYPE)
        ])
        self._bottom_buttons = ButtonMatrixElement(rows=[
            make_button_list(chain(xrange(73, 81)), 'BCR_Bottom_Buttons_%d',
                             MIDI_CC_TYPE)
        ])
        self._strip_enable_buttons = ButtonMatrixElement(rows=[
            make_button_list(chain(xrange(73, 81)), 'BCR_Bottom_Buttons_%d',
                             MIDI_CC_TYPE)
        ])
        if self._direct_bank or self._has_transport:
            self._direct_bank_buttons = ButtonMatrixElement(rows=[
                make_button_list(chain(xrange(105, 109)),
                                 'BCR_User_Buttons_%d', MIDI_CC_TYPE)
            ])
        self._left_button = make_button(self._track_left, 'Track_Left',
                                        MIDI_CC_TYPE)
        self._right_button = make_button(self._track_right, 'Track_Right',
                                         MIDI_CC_TYPE)
        self._device_engage_button = make_button(self._device_toggle,
                                                 'XXL_Pan_Device_Mode')
        self._track_fold_button = make_button(self._track_fold, 'Track_Fold',
                                              MIDI_CC_TYPE)
        if self._fold_enabled or self._toggle_returns or self._channel_strip:
            self._on_track_fold.subject = self._track_fold_button
            self._track_fold_button.enabled = False
        self._bank_up_button = make_button(self._bank_up, 'Device_Bank_Up',
                                           MIDI_CC_TYPE)
        self._bank_down_button = make_button(self._bank_down,
                                             'Device_Bank_Down', MIDI_CC_TYPE)
        if self._bit_14:
            volume_cc = 0
            sends_cc = 8
            pans_cc = 81
            select_cc = 89
        else:
            volume_cc = 1
            sends_cc = 81
            pans_cc = 9
            select_cc = 33
        self._volume_encoders = ButtonMatrixElement(rows=[[
            make_encoder(volume_cc + i, 'Volume_%d' % (i + 1))
            for i in xrange(8)
        ]])
        if self._has_pans:
            self._pan_encoders = ButtonMatrixElement(rows=[[
                make_encoder(pans_cc + i, 'Pan_%d' % (i + 1), bit_14=False)
                for i in xrange(8)
            ]])
        self._send_encoders = ButtonMatrixElement(
            rows=[[
                make_encoder(sends_cc + i, 'Send_0_%d' % (i + 1))
                for i in xrange(8)
            ],
                  [
                      make_encoder(sends_cc + 8 + i, 'Send_1_%d' % (i + 1))
                      for i in xrange(8)
                  ],
                  [
                      make_encoder(sends_cc + 16 + i, 'Send_2_%d' % (i + 1))
                      for i in xrange(8)
                  ]])
        self._push_buttons = ButtonMatrixElement(rows=[
            make_button_list(chain(xrange(select_cc, select_cc + 8)),
                             'BCR_Track_Select_%d', MIDI_CC_TYPE)
        ])

    def _do_send_midi(self, midi_bytes):
        is_sysex = midi_bytes[0] == 240
        if self._LOG_MIDI and not is_sysex:
            self.log('_do_send_midi: ' + str(midi_bytes))
        if self._LOG_SYSEX and is_sysex:
            self.log('_do_send_midi: ' + str(midi_bytes))
        super(BCRXL, self)._do_send_midi(midi_bytes)

    def receive_midi(self, midi_bytes):
        is_sysex = midi_bytes[0] == 240
        send_off = False
        midi_id = 176 + MIXER_MODE
        adjusted = False
        if self._LOG_MIDI and not is_sysex:
            self.log('receive_midi: ' + str(midi_bytes) + ', id: ' +
                     str(midi_id))
        if self._LOG_SYSEX and is_sysex:
            self.log('receive_midi: ' + str(midi_bytes))
        if midi_bytes[0] == midi_id:
            if midi_bytes[2] == 0:
                if self._has_transport:
                    if midi_bytes[1] in (107, 108):
                        midi_bytes = (midi_id, midi_bytes[1], 127)
                        adjusted = True
                    elif midi_bytes[1] == 106:
                        midi_bytes = (midi_id, midi_bytes[1], 127)
                        self._do_send_midi(midi_bytes)
                        adjusted = True
                if not self._device_mode:
                    if midi_bytes[1] in pad_identifiers:
                        midi_bytes = (midi_id, midi_bytes[1], 127)
                        adjusted = True
                if midi_bytes[1] in [self._track_left, self._track_right]:
                    midi_bytes = (midi_id, midi_bytes[1], 127)
                    adjusted = True
        if self._LOG_MIDI and adjusted:
            self.log('receive_midi(adjusted): ' + str(midi_bytes) +
                     ', send_off: ' + str(send_off))
        if send_off:
            midi_bytes_new = (midi_id, midi_bytes[1], 0)
            if self._LOG_MIDI:
                self.log('send_off:receive_midi: ' + str(midi_bytes_new), True)
            super(BCRXL, self).receive_midi(midi_bytes_new)
        super(BCRXL, self).receive_midi(midi_bytes)

    def _create_user(self):
        def make_control_button(identifier, name, channel=0, is_pad=False):
            button = ButtonElement(True,
                                   MIDI_NOTE_TYPE if is_pad else MIDI_CC_TYPE,
                                   channel, identifier)
            button.name = name
            button.set_on_off_values(127, 0)
            return button

        def make_control_encoder(identifier, name, channel=0):
            encoder = EncoderElement(
                MIDI_CC_TYPE, channel, identifier,
                Live.MidiMap.MapMode.absolute if not self._relative else
                Live.MidiMap.MapMode.relative_two_compliment)
            encoder.reset = nop
            encoder.set_feedback_delay(-1)
            encoder.name = name
            return encoder

        def make_all_encoders(name_prefix='',
                              make_encoder=make_control_encoder):
            return ([
                make_encoder(13 + index, name_prefix + '_' + str(index) + '_0')
                for index in xrange(8)
            ], [
                make_encoder(80 + index, name_prefix + '_' + str(index) + '_1')
                for index in xrange(8)
            ], [
                make_encoder(88 + index, name_prefix + '_' + str(index) + '_2')
                for index in xrange(8)
            ], [
                make_encoder(96 + index, name_prefix + '_' + str(index) + '_3')
                for index in xrange(8)
            ])

        make_button = partial(make_control_button, channel=USER_MODE)
        make_encoder = partial(make_control_encoder, channel=USER_MODE)
        encoders_row_1, encoders_row_2, encoders_row_3, encoders_row_4 = make_all_encoders(
            'User_Encoder', make_encoder)
        buttons_0 = [
            make_button(pad_identifiers[i],
                        'User_Button_Matrix_' + str(i) + '_0',
                        is_pad=True) for i in xrange(8)
        ]
        buttons_1 = [
            make_button(pad_identifiers[i + 8],
                        'User_Button_Matrix_' + str(i) + '_1',
                        is_pad=True) for i in xrange(8)
        ]
        self._matrix = ButtonMatrixElement()
        self._matrix.name = 'User_Button_Matrix'
        self._matrix.add_row(tuple(buttons_0))
        self._matrix.add_row(tuple(buttons_1))
        self.request_rebuild_midi_map()

    def on_selected_track_changed(self):
        self._selected_track = self.song().view.selected_track
        if hasattr(self, '_mixer'):
            if self._show_selected and self._mixer._last_selected_track_index != -1:
                volume_cc = 0 if self._bit_14 else 1
                curr_val = self._mixer._channel_strips[
                    self._mixer.
                    _last_selected_track_index]._track.mixer_device.volume.value
                self.log(
                    'reset value for track: ' +
                    str(self._mixer._last_selected_track_index) + ' to ' +
                    str(curr_val), True)
                self._do_send_midi(
                    (176 + MIXER_MODE,
                     volume_cc + self._mixer._last_selected_track_index,
                     int(math.floor(curr_val * 127.0))))
        if self._fold_enabled:
            can_fold = False
            if self._selected_track != None:
                can_fold = self._selected_track.is_foldable
            self._can_fold = can_fold
            self.log('on_selected_track_changed: can_fold: ' + str(can_fold))
            self._track_fold_button.enabled = can_fold
            self._track_fold_button.send_value(127 if can_fold else 0)
        if hasattr(self, '_device'):
            self._device.on_selected_track_changed()

    @subject_slot('value')
    def _on_track_fold(self, value):
        self.log('_on_track_fold: ' + str(value) + ', fold_enabled: ' +
                 str(self._fold_enabled) + ', can_fold: ' +
                 str(self._can_fold) + ', toggle_returns: ' +
                 str(self._toggle_returns) + ', channel_strip: ' +
                 str(self._channel_strip))
        if self._channel_strip and self._modes.selected_mode != 'device':
            self.log('process channel_strip')
            if value:
                self.device_mode.layer = None
                self._on_device_engage(127, True)
                self._device.enable_channel_strip(True, True)
                self._on_strip_up.subject = self._bank_down_button
                self._on_strip_down.subject = self._bank_up_button
                if self._has_strip_device_enable:
                    self._on_strip_enable.replace_subjects(
                        self._strip_enable_buttons)
                self._update_strip_bank_buttons()
                self._update_strip_enable_buttons()
            else:
                self.device_mode.layer = Layer(
                    device_mode_button=self._device_engage_button)
                self._device.enable_channel_strip(False, True)
                self._on_device_engage(0, True)
                self._on_strip_up.subject = None
                self._on_strip_down.subject = None
                if self._has_strip_device_enable:
                    self._on_strip_enable.replace_subjects([])
        elif self._fold_enabled:
            self.log('process fold')
            self._track_fold_button.send_value(127 if self._can_fold else 0)
            if self._selected_track:
                self.log('can_fold: ' + str(self._selected_track.is_foldable))
                if self._selected_track.is_foldable:
                    self.log('currently folded: ' +
                             str(self._selected_track.fold_state))
                    self._selected_track.fold_state = not self._selected_track.fold_state
        elif self._toggle_returns:
            self.log('process toggle returns')
            self._returns_toggled = value == 127
            self.log('returns_toggled: ' + str(self._returns_toggled))
            self._mixer._reassign_tracks(1 if self._returns_toggled else 0)

    @subject_slot('value')
    def _on_strip_up(self, value):
        self.log('_on_strip_up', True)
        self._device._do_strip_up()
        self._update_strip_bank_buttons()

    @subject_slot('value')
    def _on_strip_down(self, value):
        self.log('_on_strip_down', True)
        self._device._do_strip_down()
        self._update_strip_bank_buttons()

    @subject_slot_group('value')
    def _on_strip_enable(self, value, button):
        index = list(self._strip_enable_buttons).index(button)
        self.log('_on_strip_enable: ' + str(index) + ', ' + str(value), True)
        self._device._do_strip_enable(index)

    def _update_strip_bank_buttons(self):
        self._bank_up_button.send_value(
            127 if self._device._channel_strip_bank != 0 else 0)
        self._bank_down_button.send_value(
            127 if self._device._channel_strip_bank != 2 else 0)

    def _update_strip_enable_buttons(self):
        for i in range(0, len(self._device._iso_rack_enable)):
            if self._strip_enable_buttons[i] is not None:
                on = self._device._iso_rack_enable[
                    i] and self._device._iso_rack_enable[i].value
                self._strip_enable_buttons[i].send_value(127 if on else 0)

    @subject_slot('value')
    def _on_skip_racks(self, value):
        if value == 127:
            self._device.toggle_enable_or_select()

    def _release_parameters(self, controls):
        if controls != None:
            for control in controls:
                if control != None:
                    control.release_parameter()

    def _create_transport(self):
        self.log('_create_transport: ' + str(self._has_transport), True)
        if not self._has_transport:
            return
        self._transport = TransportComponent()
        self._transport.set_stop_button(self._direct_bank_buttons[0])
        self._transport.set_play_button(self._direct_bank_buttons[1])
        self._transport.set_record_button(self._direct_bank_buttons[2])
        self._transport.set_overdub_button(self._direct_bank_buttons[3])

    def _create_session(self):
        self.log('_create_session', True)
        self._session = SessionComponent(self,
                                         name='BCR2K_Session',
                                         num_tracks=NUM_TRACKS,
                                         track_bank_size=self._track_bank_size,
                                         is_enabled=True,
                                         auto_name=True)
        self._session.layer = Layer(track_bank_left_button=self._left_button,
                                    track_bank_right_button=self._right_button)
        self._session.set_mixer(self._mixer)
        self._session._setup_controls()
        self._on_session_offset_changed.subject = self._session
        self._session.set_show_highlight(True)
        self._set_session_highlight(0, 0, 8, 1, False)

    @subject_slot('offset')
    def _on_session_offset_changed(self):
        self.log('_on_session_offset_changed')
        session = self._on_session_offset_changed.subject
        self._show_controlled_tracks_message(session)
        if hasattr(self._device, '_assign_channel_strip'
                   ) and self._device._assign_channel_strip:
            self._device._on_session_offset_changed()

    def _create_mixer(self):
        self.log('_create_mixer', True)
        mixer = MixerComponent(self,
                               NUM_TRACKS,
                               3,
                               show_returns=self._show_returns,
                               max_returns=self._max_returns,
                               show_master=self._show_master,
                               delayed_update=True,
                               is_enabled=True,
                               auto_name=True)
        layer = Layer(volume_controls=self._volume_encoders,
                      send_controls=self._send_encoders,
                      next_sends_button=self._bank_down_button,
                      prev_sends_button=self._bank_up_button)
        valid_opts = self._get_button_options()
        layer += Layer(**valid_opts)
        mixer.layer = layer
        self._mixer = mixer
        self._bcr_controls.setup_mixer_controls()
        self._modes.add_mode('mixer', [AddLayerMode(self._mixer, layer)])
        self._modes.selected_mode = 'mixer'

    def _get_button_options(self, channel_strip=False):
        opts = {}
        use_bottom_row_for_channel_strip = self._has_strip_device_enable
        if not use_bottom_row_for_channel_strip:
            channel_strip = False
        if self._has_pans:
            opts['pan_controls'] = self._pan_encoders
        opts[
            'track_select_buttons'] = self._push_buttons if self._button_row_1 == 'select' else (
                self._top_buttons if self._button_row_2 == 'select' else
                (self._bottom_buttons if self._button_row_3 == 'select'
                 and not channel_strip else None))
        opts[
            'mute_buttons'] = self._push_buttons if self._button_row_1 == 'mute' else (
                self._top_buttons if self._button_row_2 == 'mute' else
                (self._bottom_buttons if self._button_row_3 == 'mute'
                 and not channel_strip else None))
        opts[
            'solo_buttons'] = self._push_buttons if self._button_row_1 == 'solo' else (
                self._top_buttons if self._button_row_2 == 'solo' else
                (self._bottom_buttons if self._button_row_3 == 'solo'
                 and not channel_strip else None))
        opts[
            'arm_buttons'] = self._push_buttons if self._button_row_1 == 'arm' else (
                self._top_buttons if self._button_row_2 == 'arm' else
                (self._bottom_buttons if self._button_row_3 == 'arm'
                 and not channel_strip else None))
        valid_opts = {}
        for k, v in opts.iteritems():
            if v is not None:
                valid_opts[k] = v

        return valid_opts

    def _on_device_engage(self, value, channel_strip=False):
        self.log('_on_device_engage: ' + str(value) + ', channel_strip: ' +
                 str(channel_strip))
        if value == 127:
            if not channel_strip:
                self._session.set_mixer(None)
                self._session.layer = None
            self.set_device_component(self._device)
            self._device_mode = True
            self._bcr_controls._mode = 1
            self._modes.selected_mode = 'device_strip' if channel_strip else 'device'
            if self._use_32:
                self._mixer.set_volume_controls(None)
        else:
            self._device_mode = False
            self._bcr_controls._mode = 0
            self._bcr_controls.setup_mixer_controls(-1, -1, True, -1)
            if not channel_strip:
                self._session.set_mixer(self._mixer)
                self._session.layer = Layer(
                    track_bank_left_button=self._left_button,
                    track_bank_right_button=self._right_button)
            if self._fold_enabled or self._toggle_returns:
                if self._fold_enabled:
                    self._can_fold = self._selected_track != None and self._selected_track.is_foldable
                self._on_track_fold.subject = self._track_fold_button
            self._modes.selected_mode = 'mixer'
            if self._use_32:
                self._mixer.set_volume_controls(self._volume_encoders)

    def _create_device(self):
        self.log('_create_device', True)

        def make_button(identifier,
                        name,
                        midi_type=MIDI_CC_TYPE,
                        skin=self._default_skin):
            return ButtonElement(True,
                                 midi_type,
                                 MIXER_MODE,
                                 identifier,
                                 name=name,
                                 skin=skin)

        def make_encoder(identifier, name, bit_14=True):
            if self._bit_14:
                self.log('make_encoder: ' + name + ', CC: ' + str(identifier) +
                         ', 14_bit: ' + str(bit_14))
                control = EncoderElement(
                    MIDI_CC_TYPE,
                    MIXER_MODE,
                    identifier,
                    Live.MidiMap.MapMode.absolute_14_bit
                    if bit_14 else Live.MidiMap.MapMode.absolute,
                    name=name)
            else:
                control = EncoderElement(
                    MIDI_CC_TYPE,
                    MIXER_MODE,
                    identifier,
                    Live.MidiMap.MapMode.absolute if not self._relative else
                    Live.MidiMap.MapMode.relative_two_compliment,
                    name=name)
            return control

        if self._bit_14:
            volume_cc = 0
            sends_cc = 8
        else:
            volume_cc = 1
            sends_cc = 81
        if self._use_32:
            self._device_encoders = ButtonMatrixElement(
                rows=[[
                    make_encoder(volume_cc + i, 'Volume_%d' % (i + 1))
                    for i in xrange(8)
                ],
                      [
                          make_encoder(sends_cc + i, 'BCR_Device_0_%d' %
                                       (i + 1)) for i in xrange(8)
                      ],
                      [
                          make_encoder(sends_cc + 8 + i, 'BCR_Device_1_%d' %
                                       (i + 1)) for i in xrange(8)
                      ],
                      [
                          make_encoder(sends_cc + 16 + i, 'BCR_Device_2_%d' %
                                       (i + 1)) for i in xrange(8)
                      ]])
            self._send_encoders = self._device_encoders.submatrix[:8, 1:4]
        else:
            self._device_encoders = self._send_encoders
        if self._channel_strip:
            self._device = DeviceComponent_Strip(
                self,
                name='XL_Device',
                is_enabled=True,
                direct_bank=self._direct_bank,
                num_params=32 if self._use_32 else 24,
                path=self._my_path,
                delayed_update=True)
        else:
            self._device = DeviceComponent(
                self,
                name='XL_Device',
                is_enabled=True,
                direct_bank=self._direct_bank,
                num_params=32 if self._use_32 else 24,
                path=self._my_path,
                delayed_update=True)
        self.set_preditor_device_component(self._device)
        if self._direct_bank:
            device_layer = Layer(parameter_controls=self._device_encoders,
                                 device_select=self._top_buttons,
                                 device_enable=self._bottom_buttons,
                                 device_lock_button=self._track_fold_button,
                                 bank_up_button=self._bank_down_button,
                                 bank_down_button=self._bank_up_button,
                                 direct_bank=self._direct_bank_buttons)
        else:
            device_layer = Layer(parameter_controls=self._device_encoders,
                                 device_select=self._top_buttons,
                                 device_enable=self._bottom_buttons,
                                 device_lock_button=self._track_fold_button,
                                 bank_up_button=self._bank_down_button,
                                 bank_down_button=self._bank_up_button)
        device_settings_layer = Layer()
        self.device_mode = DeviceModeComponent(script=self,
                                               component=self._device,
                                               device_settings_mode=[
                                                   AddLayerMode(
                                                       self._device,
                                                       device_settings_layer)
                                               ],
                                               is_enabled=True)
        self.device_mode.layer = Layer(
            device_mode_button=self._device_engage_button)
        if self._has_pans:
            mixer_layer = Layer(volume_controls=self._volume_encoders,
                                pan_controls=self._pan_encoders)
        else:
            mixer_layer = Layer(volume_controls=self._volume_encoders)
        self._modes.add_mode('device', [
            AddLayerMode(self._device, device_layer),
            AddLayerMode(self._mixer, mixer_layer)
        ])
        if self._channel_strip:
            if hasattr(self._device, 'enable_channel_strip'):
                strip_layer = Layer(parameter_controls=self._device_encoders)
                valid_opts = self._get_button_options(True)
                mixer_layer += Layer(**valid_opts)
                self._modes.add_mode('device_strip', [
                    AddLayerMode(self._device, strip_layer),
                    AddLayerMode(self._mixer, mixer_layer),
                    AddLayerMode(
                        self._session,
                        Layer(track_bank_left_button=self._left_button,
                              track_bank_right_button=self._right_button))
                ])
            else:
                self._channel_strip = False

    def update(self):
        self.log('update: device_mode: ' + str(self._device_mode))
        super(BCRXL, self).update()

    def refresh_state(self):
        self.log('refresh_state')
        super(BCRXL, self).refresh_state()

    def handle_sysex(self, midi_bytes):
        if self._LOG_SYSEX:
            self.log('handle_sysex: ' + str(midi_bytes))
        if midi_bytes[:4] == BCR_SYSEX[:4] and midi_bytes[5] == 21:
            if self._bcr_controls.receive_ack(midi_bytes):
                if self._device_mode:
                    self._device.map_controls()
                else:
                    self._mixer.map_controls()
            if midi_bytes[9:10] != (0, ):
                self.log('Received sysex error code: ' + str(midi_bytes), True)

    @subject_slot_group('value')
    def _on_select_pressed(self, value, button):
        pass

    def same_track_selected(self):
        self.log('BCRXL: same_track_selected')
        selected_track = self.song().view.selected_track
        if selected_track != None:
            if self._device_mode:
                self.song().view.selected_track = self.song().master_track
            elif self._button_reselect_track == 'mute':
                selected_track.mute = not selected_track.mute
            elif self._button_reselect_track == 'solo':
                selected_track.solo = not selected_track.solo
            elif self._button_reselect_track == 'arm':
                if selected_track.can_be_armed:
                    selected_track.arm = not selected_track.arm
            elif self._button_reselect_track == 'fold':
                if self._selected_track.is_foldable:
                    self._selected_track.fold_state = not self._selected_track.fold_state
        return False
示例#15
0
文件: OP1.py 项目: imaginando/op1
class OP1(ControlSurface):
	def __init__(self, c_instance):
		ControlSurface.__init__(self, c_instance)
		self.c_instance = c_instance

		self.retries_count = 0
		self.device_connected = False

		self.clip_color_callbacks = {}
		self.slot_callbacks = {}

		self.text_start_sequence = (0xf0, 0x0, 0x20, 0x76, 0x00, 0x03)
		self.text_end_sequence = (0xf7,)
		self.enable_sequence = (0xf0, 0x00, 0x20, 0x76, 0x00, 0x01, 0x02, 0xf7)
		self.disable_sequence = (0xf0, 0x00, 0x20, 0x76, 0x00, 0x01, 0x00, 0xf7)

		self.id_sequence = (0xf0, 0x7e, 0x7f, 0x06, 0x01, 0xf7)

		self.text_color_start_sequence = (0xf0, 0x0, 0x20, 0x76, 0x00, 0x04)

		self.log('INITIALIZING')

		self.app = Live.Application.get_application()

		#maj = self.app.get_major_version()
		#min = self.app.get_minor_version()
		#bug = self.app.get_bugfix_version()
		#self.show_message(str(1) + "." + str(0) + "." + str(9))

		self.show_message("Version " + VERSION)

		# reseting text
		self.write_text(' ')

		# reset display clips
		self.reset_display_clips()

		# getting browser visible state
		self.session_browser_visible = self.app.view.is_view_visible("Browser")
		
		# getting browser visible state
		self.arrange_browser_visible = self.app.view.is_view_visible("Browser")

		# getting session view visible state
		self.session_visible = self.app.view.is_view_visible("Session")

		# getting arrange view visible state
		self.arrange_visible = self.app.view.is_view_visible("Arranger")

		# getting detail view visible state
		self.detail_visible = self.app.view.is_view_visible("Detail")

		# getting back to arranger state
		self.back_to_arranger_state = self.song().back_to_arranger

		# initializing channel strip to null
		self._channel_strip = None

		# initializing transport component
		self._transport = TransportComponent()

		# initializing mixer component
		self._mixer = MixerComponent(NUM_TRACKS,2)

		# initializing session component
		self._session = SessionComponent(NUM_TRACKS,NUM_ROWS)
		self._session.add_offset_listener(self.session_offset_changed)

		# configuring operation mode selector buttons
		self._operation_mode_buttons = ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_MODE_1_BUTTON), ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_MODE_2_BUTTON), ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_MODE_3_BUTTON), ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_MODE_4_BUTTON), 
		
		# initializing operation mode selector
		self._operation_mode_selector = OP1ModeSelectorComponent(self, self._transport, self._mixer, self._session)
		
		# setting operation mode selector buttons
		self._operation_mode_selector.set_mode_buttons(self._operation_mode_buttons)

		# adding value listener for operation mode index
		self._operation_mode_selector.add_mode_index_listener(self.mode_index_changed)

		# setting global transport assignments
		self._transport.set_record_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_REC_BUTTON))
		self._transport.set_play_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_PLAY_BUTTON))
		self._transport.set_stop_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_STOP_BUTTON))  
		self._transport.set_metronome_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_METRONOME_BUTTON))  
		self._transport.set_tap_tempo_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_HELP_BUTTON))
		self._transport.set_punch_buttons(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS1_BUTTON), ButtonElement(True,MIDI_CC_TYPE, CHANNEL, OP1_SS2_BUTTON))
		self._transport.set_loop_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS3_BUTTON))
		self._transport.set_overdub_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS4_BUTTON))

		# setting global session assignments
		self._session.set_scene_bank_buttons(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_COM),ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_MICRO))

		# setting misc listeners
		self.browser_toggle_button = ButtonElement(False, MIDI_CC_TYPE, CHANNEL, 15)
		self.browser_toggle_button.add_value_listener(self.browser_toggle_button_callback)

		self.mainview_toggle_button = ButtonElement(False, MIDI_CC_TYPE, CHANNEL, 16)
		self.mainview_toggle_button.add_value_listener(self.mainview_toggle_button_callback)

		self.detailview_toggle_button = ButtonElement(False, MIDI_CC_TYPE, CHANNEL, 17)
		self.detailview_toggle_button.add_value_listener(self.detailview_toggle_button_callback)

		self.clear_track_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL, 25)
		self.clear_track_button.add_value_listener(self.clear_track_button_callback)

		self.back_to_arranger_button = ButtonElement(True, MIDI_CC_TYPE, CHANNEL, 26)
		self.back_to_arranger_button.add_value_listener(self.back_to_arranger_button_callback)

		# adding value listener for selected track change
		self.song().view.add_selected_track_listener(self.selected_track_changed)

		# adding value listener for selected scene change
		self.song().view.add_selected_scene_listener(self.selected_scene_changed)

		# setting assignments for currently selected track
		self.selected_track_changed()

		# setting assignments for currently selected scene
		self.selected_scene_changed()

	def handle_sysex(self, midi_bytes):
		if ((midi_bytes[6]==32) and (midi_bytes[7]==118)):
			self.device_connected = True
			self.log("OP-1 CONNECTED. SENDING ABLETON LIVE MODE INIT SEQUENCE")
			self._send_midi(self.enable_sequence)

	def add_clip_slot_listeners(self):
		#self.log('ADDING CLIP SLOT LISTENERS')
		
		# creating an empty list for all clip slots
		clip_slots = []

		# getting a reference to all tracks
		tracks = self.song().tracks
		
		# appending all tracks clip slots to clip_slots
		for track in tracks:
			clip_slots.append(track.clip_slots)

		# iterating over all clip slots
		for t in range(len(clip_slots)):
			for c in range(len(clip_slots[t])):
				clip_slot = clip_slots[t][c]

				# adding has clip listener to clip slot
				self.add_slot_listener(clip_slot)

				# if clip slot has clip
				if clip_slot.has_clip:
					# adding clip listeners
					self.add_clip_listener(clip_slot.clip)

	def rem_clip_slot_listeners(self):
		#self.log('REMOVING CLIP SLOT LISTENERS')

		# iterate over all clip color change callbacks
		for c in self.clip_color_callbacks:
			# if clip still exists
			if c != None:
				# and it has a has clip listener
				if c.color_has_listener(self.clip_color_callbacks[c]) == 1:
					# remove it
					c.remove_color_listener(self.clip_color_callbacks[c])

		# iterate over all clip slot callbacks
		for cs in self.slot_callbacks:
			# if clip slot still exists
			if cs != None:
				# and it has a has clip listener
				if cs.has_clip_has_listener(self.slot_callbacks[cs]) == 1:
					# remove it
					cs.remove_has_clip_listener(self.slot_callbacks[cs])

	def add_slot_listener(self, cs):
		# setting has clip listener
		callback = lambda :self.has_clip_listener(cs)

		# if we don't have a clip slot has clip listener for this clip slot yet
		if not(self.slot_callbacks.has_key(cs)):
			# adding has clip callback to clip slot
			cs.add_has_clip_listener(callback)

			# saving callback for future release
			self.slot_callbacks[cs] = callback

	def add_clip_listener(self, clip):
		# setting callback for clip color change
		color_callback = lambda :self.update_display_clips()

		# if we don't have a clip color change callback for this clip yet
		if not(self.clip_color_callbacks.has_key(clip)):
			# adding clip color change callback
			clip.add_color_listener(color_callback)

			# saving callback for future release
			self.clip_color_callbacks[clip] = color_callback

	def has_clip_listener(self, cs):
		# clip slot has clip listener callback
		if cs.has_clip:
			# add clip listener
			self.add_clip_listener(cs.clip)
		else:
			# update display if clip slot was removed
			self.update_display_clips()

	def session_offset_changed(self):
		# if session component offset changes, update display
		self.update_display_clips()

	def selected_scene_changed(self):
		# if on clip mode update display
		if (self._operation_mode_selector.mode_index==OP1_MODE_CLIP):
			self.update_display_clip_mode()

	def mode_index_changed(self):
		# update display to current mode info
		if (self._operation_mode_selector.mode_index==OP1_MODE_PERFORM):
			self.update_display_perform_mode()
		elif (self._operation_mode_selector.mode_index==OP1_MODE_CLIP):
			self.update_display_clip_mode()
		elif (self._operation_mode_selector.mode_index==OP1_MODE_TRANSPORT):
			self.update_display_transport_mode()
		elif (self._operation_mode_selector.mode_index==OP1_MODE_MIXER):
			self.update_display_mixer_mode()

	def	clear_track_button_callback(self, value):
		# if clear track button was called, reset track
		if (value==127):
			for i in range(len(self.song().tracks)):
				self.song().tracks[i].arm = 0
				self.song().tracks[i].solo = 0
				self.song().tracks[i].mute = 0

			for i in range(len(self.song().return_tracks)):
				self.song().tracks[i].solo = 0
				self.song().tracks[i].mute = 0

	def clear_return_track_assignment(self, strip):
		# clear return track assingments
		strip.set_volume_control(None)
		strip.set_pan_control(None)
		strip.set_mute_button(None)
		strip.set_solo_button(None)
	
	def clear_track_assignment(self, strip):
		# clear track assignments
		strip.set_volume_control(None)
		strip.set_pan_control(None)
		strip.set_mute_button(None)
		strip.set_solo_button(None)
		strip.set_arm_button(None)

	def clear_tracks_assigments(self):
		# for all normal tracks, clear assignments
		for i in range(NUM_TRACKS):
			strip = self._mixer.channel_strip(i)
			if (strip!=None):
				self.clear_track_assignment(strip)

		# for all return tracks, clear assignments
		for i in range(2):
			return_strip = self._mixer.return_strip(i)
			if (return_strip!=None):
				self.clear_return_track_assignment(return_strip)

	def selected_track_changed(self):
		# if on mixer mode update display
		if (self._operation_mode_selector.mode_index==OP1_MODE_MIXER):
			self.update_display_mixer_mode()

		# clear track assignments
		self.clear_tracks_assigments()

		# getting selected strip
		self._channel_strip = self._mixer.selected_strip()

		# perform track assignments 
		self._channel_strip.set_volume_control(EncoderElement(MIDI_CC_TYPE, CHANNEL, OP1_ENCODER_1, Live.MidiMap.MapMode.relative_two_compliment))
		self._channel_strip.set_pan_control(EncoderElement(MIDI_CC_TYPE, CHANNEL, OP1_ENCODER_2, Live.MidiMap.MapMode.relative_two_compliment))

		# setting a tuple of encoders to control sends
		send_controls = EncoderElement(MIDI_CC_TYPE, CHANNEL, OP1_ENCODER_3, Live.MidiMap.MapMode.relative_two_compliment), EncoderElement(MIDI_CC_TYPE, CHANNEL, OP1_ENCODER_4, Live.MidiMap.MapMode.relative_two_compliment),

		# setting send encoders
		self._channel_strip.set_send_controls(tuple(send_controls))

		# setting solo button
		self._channel_strip.set_solo_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS6_BUTTON))

		# if track can be armed, set arm button
		if (self._channel_strip._track.can_be_armed):
			self._channel_strip.set_arm_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS7_BUTTON))

		# if track is no master, set mute button
		if (self._channel_strip._track!=self.song().master_track):
			self._channel_strip.set_mute_button(ButtonElement(True, MIDI_CC_TYPE, CHANNEL, OP1_SS5_BUTTON))


	def browser_toggle_button_callback(self, value):
		if (value==127):
			if (self.session_visible):
				if (self.session_browser_visible==True):
					self.session_browser_visible=False
					self.app.view.hide_view("Browser")
				else:
					self.session_browser_visible=True
					self.app.view.show_view("Browser")

			if (self.arrange_visible):
				if (self.arrange_browser_visible==True):
					self.arrange_browser_visible=False
					self.app.view.hide_view("Browser")
				else:
					self.arrange_browser_visible=True
					self.app.view.show_view("Browser")

	def back_to_arranger_button_callback(self, value):
		if (value==127):
			self.song().back_to_arranger = False

	def mainview_toggle_button_callback(self, value):
		if (value==127):
			if (self.session_visible==True):
				self.session_visible=False
				self.arrange_visible=True
				self.app.view.show_view("Arranger")
				self.arrange_browser_visible = self.app.view.is_view_visible("Browser");
			else:
				self.session_visible=True
				self.arrange_visible=False
				self.app.view.show_view("Session")
				self.session_browser_visible = self.app.view.is_view_visible("Browser");

	def detailview_toggle_button_callback(self, value):
		if (value==127):
			if (self.detail_visible==True):
				self.detail_visible=False
				self.app.view.hide_view("Detail")
			else:
				self.detail_visible=True
				self.app.view.show_view("Detail")

	def write_text(self, msg):
		text_list = []
		sequence = ()
		
		text_list.append(len(msg.strip()))
		
		for i in msg.strip():
   			text_list.append(ord(i))
   		
   		sequence = self.text_start_sequence + tuple(text_list) + self.text_end_sequence
		
		self._send_midi(sequence)

	def suggest_input_port(self):
		return "OP-1 Midi Device"

	def suggest_output_port(self):
		return "OP-1 Midi Device"

	def update_display_perform_mode(self):
		self.write_text("perform\rmode")

	def reset_display_clips(self):
		count = 0
		colors = []
		length = []
		sequence = ()
		
		for i in range (NUM_TRACKS):
			count+=1

			colors.append(0x00)
			colors.append(0x00)
			colors.append(0x00)

		length.append(count)
		sequence = self.text_color_start_sequence + tuple(length) + tuple(colors) + self.text_end_sequence
		self._send_midi(sequence)

	def update_display_clips(self):
		#self.log("UPDATING DISPLAY CLIPS")
		count = 0
		colors = []
		length = []
		sequence = ()
		
		tracks_len = len(self.song().tracks)-self._session._track_offset

		if (tracks_len>NUM_TRACKS):
			tracks_len = NUM_TRACKS

		for i in range (tracks_len):
			count+=1

			clip_slot = self._session.scene(0).clip_slot(i)
			
			if (clip_slot!=None):
				if (clip_slot.has_clip()!=False):
					clip_color = clip_slot._clip_slot.clip.color
					colors.append(((clip_color>>16)&0x000000ff)>>1)
					colors.append(((clip_color>>8)&0x000000ff)>>1)
					colors.append((clip_color&0x000000ff)>>1)
				else:
					colors.append(0x00)
					colors.append(0x00)
					colors.append(0x00)
			else:
				colors.append(0x00)
				colors.append(0x00)
				colors.append(0x00)

		length.append(count)
		sequence = self.text_color_start_sequence + tuple(length) + tuple(colors) + self.text_end_sequence
		self._send_midi(sequence)

	def update_display_clip_mode(self):
		self.write_text("sel. scene\r" + str(self.song().view.selected_scene.name.lower().strip()))

	def update_display_transport_mode(self):
		song_time = str(self.song().get_current_beats_song_time())
		self.write_text("song pos.\r" + song_time[:len(song_time)-4])

	def update_display_mixer_mode(self):
		self.write_text("sel. track\r" + str(self.song().view.selected_track.name.lower()))

	def update_display(self):
		if not(self.device_connected):
			if (self.retries_count<5):
				self.log("TRYING OP-1 CONNECTION")
				self.retries_count+=1
				self._send_midi(self.id_sequence)
				time.sleep(1)

		# if in transport mode, update display with song position
		if (self._operation_mode_selector.mode_index==OP1_MODE_TRANSPORT):
			self.update_display_transport_mode()

		# checking if app current view is session
		if (self.app.view.is_view_visible("Session")):
			# checking if session browser state is diferent from the internal
			if (self.session_browser_visible != self.app.view.is_view_visible("Browser")):
				self.session_browser_visible = self.app.view.is_view_visible("Browser")

		# checking if app current view is arrange
		if (self.app.view.is_view_visible("Arranger")):
			# checking if arrange browser state is diferent from the internal
			if (self.arrange_browser_visible != self.app.view.is_view_visible("Browser")):
				self.arrange_browser_visible = self.app.view.is_view_visible("Browser")

		# checking if app current view is detail
		if (self.app.view.is_view_visible("Detail")):
			# checking if detail state is diferent from the internal
			if (self.detail_visible != self.app.view.is_view_visible("Detail")):
				self.detail_visible = self.app.view.is_view_visible("Detail")

	def refresh_state(self):
		self.log("REFRESH STATE")
		self.retries_count = 0
		self.device_connected = False

	def build_midi_map(self, midi_map_handle):
		#self.log("BUILD MIDI MAP")

		assert (self._suppress_requests_counter == 0)
		self._in_build_midi_map = True
		self._midi_map_handle = midi_map_handle
		self._forwarding_registry = {}
		for control in self.controls:
			if isinstance(control, InputControlElement):
				control.install_connections()
		self._midi_map_handle = None
		self._in_build_midi_map = False
		if (self._pad_translations != None):
			self._c_instance.set_pad_translation(self._pad_translations)

		# remove clip listeners
		self.rem_clip_slot_listeners()
		
		# add clip listeners
		self.add_clip_slot_listeners()
		
		# update display
		self.update_display_clips()
		
	def log(self, msg):
		self.c_instance.log_message("[TE OP-1] " + msg)

	def disconnect(self):
		# removing clip slots listeners
		self.rem_clip_slot_listeners()

		# removing value listener for track changed
		self.song().view.remove_selected_track_listener(self.selected_track_changed)

		# removing value listener for scene changed
		self.song().view.remove_selected_scene_listener(self.selected_scene_changed)

		# removing value listener for operation mode index
		self._operation_mode_selector.remove_mode_index_listener(self.mode_index_changed)

		# removing global transport assignments
		self._transport.set_punch_buttons(None, None)
		self._transport.set_loop_button(None)
		self._transport.set_overdub_button(None)
		self._transport.set_record_button(None)
		self._transport.set_play_button(None)
		self._transport.set_stop_button(None)  
		self._transport.set_metronome_button(None)  
		self._transport.set_tap_tempo_button(None)

		# removing global session assignments
		self._session.set_scene_bank_buttons(None, None)
		
		# removing misc listeners
		self.browser_toggle_button.remove_value_listener(self.browser_toggle_button_callback)
		self.mainview_toggle_button.remove_value_listener(self.mainview_toggle_button_callback)
		self.detailview_toggle_button.remove_value_listener(self.detailview_toggle_button_callback)
		self.clear_track_button.remove_value_listener(self.clear_track_button_callback)
		self.back_to_arranger_button.remove_value_listener(self.back_to_arranger_button_callback)
		
		# sending special ableton mode disable sequence
		self._send_midi(self.disable_sequence)
		
		# disconnecting control surface
		ControlSurface.disconnect(self)
		
		self.log("DISCONNECTED")