def _setup_mixer_control(self): is_momentary = True # We use non-latching buttons (keys) throughout, so we'll set this as a constant num_tracks = 7 # 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, 0) #(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 mixer.selected_strip().set_mute_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 64)) #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, 72)) track_select_notes = [65, 73, 66, 74, 67, 75, 68, 76] #more note numbers need to be added if num_scenes is increased slider_select_notes = [23, 22, 15, 14, 5, 7, 6, 4] pan_select_notes = [21, 20, 13, 12, 3, 1, 0, 2] master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 4) master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 76) prehear_control = EncoderElement(MIDI_CC_TYPE, 0, 26, Live.MidiMap.MapMode.absolute) crossfader = SliderElement(MIDI_CC_TYPE, 0, 24) for index in range(num_tracks): mixer.channel_strip(index).set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, track_select_notes[index])) mixer.channel_strip(index).set_volume_control(SliderElement(MIDI_CC_TYPE, CHANNEL, slider_select_notes[index])) mixer.channel_strip(index).set_pan_control(EncoderElement(MIDI_CC_TYPE, CHANNEL, pan_select_notes[index], Live.MidiMap.MapMode.absolute)) crossfader.name = 'Crossfader' master_volume_control.name = 'Master_Volume_Control' master_select_button.name = 'Master_Select_Button' prehear_control.name = 'Prehear_Volume_Control' mixer.set_crossfader_control(crossfader) mixer.set_prehear_volume_control(prehear_control) mixer.master_strip().set_volume_control(master_volume_control) mixer.master_strip().set_select_button(master_select_button)
def _setup_mixer_control(self): is_momentary = True mixer = MixerComponent(NUM_TRACKS, 2, with_eqs=True, with_filters=True) for track in range(NUM_TRACKS): strip = mixer.channel_strip(track) strip.set_volume_control(SliderElement(MIDI_CC_TYPE, track, 23)) strip.set_pan_control( EncoderElement(MIDI_CC_TYPE, track, 10, Live.MidiMap.MapMode.absolute)) strip.set_send_controls( (EncoderElement(MIDI_CC_TYPE, track, 19, Live.MidiMap.MapMode.absolute), EncoderElement(MIDI_CC_TYPE, track, 20, Live.MidiMap.MapMode.absolute))) strip.set_solo_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 64)) strip.set_mute_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 63)) strip.set_crossfade_toggle( ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 65)) eq = mixer.track_eq(track) eq.set_gain_controls( tuple([ EncoderElement(MIDI_CC_TYPE, track, 18 - index, Live.MidiMap.MapMode.absolute) for index in range(3) ])) eq.set_cut_buttons( tuple([ ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 62 - index) for index in range(3) ])) filter = mixer.track_filter(track) filter.set_filter_controls( EncoderElement(MIDI_CC_TYPE, track, 22, Live.MidiMap.MapMode.absolute), EncoderElement(MIDI_CC_TYPE, track, 21, Live.MidiMap.MapMode.absolute)) for ret_track in range(2): strip = mixer.return_strip(ret_track) strip.set_volume_control( SliderElement(MIDI_CC_TYPE, 12, 22 + ret_track)) strip.set_pan_control( EncoderElement(MIDI_CC_TYPE, 12, 20 + ret_track, Live.MidiMap.MapMode.absolute)) strip.set_mute_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, 12, 78 + ret_track)) mixer.set_crossfader_control(SliderElement(MIDI_CC_TYPE, 12, 8)) mixer.set_prehear_volume_control( EncoderElement(MIDI_CC_TYPE, 12, 24, Live.MidiMap.MapMode.absolute)) mixer.master_strip().set_volume_control( SliderElement(MIDI_CC_TYPE, 12, 7)) mixer.master_strip().set_pan_control( EncoderElement(MIDI_CC_TYPE, 12, 10, Live.MidiMap.MapMode.absolute)) return mixer
def _setup_mixer_control(self): is_momentary = True #mixer = MixerComponent(8) mixer = MixerComponent(1) #for track in range(8): # strip = mixer.channel_strip(track) # strip.set_volume_control(SliderElement(MIDI_CC_TYPE, track, 7)) # strip.set_arm_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 48)) # strip.set_solo_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 49)) # strip.set_mute_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 50)) # #strip.set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 51)) # strip.set_shift_button(self._shift_button) # strip.set_invert_mute_feedback(True) """ WAC addition....................................""" mixer.selected_strip().set_mute_button(SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[9])) mixer.selected_strip().set_solo_button(SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[13])) mixer.set_select_buttons(SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[15]), SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[14])) send_faders = [] NUM_CONTROLLABLE_SENDS = 4 for index in range(NUM_CONTROLLABLE_SENDS): send_faders.append(SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[index + 2])) mixer.selected_strip().set_volume_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[0])) mixer.selected_strip().set_pan_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[1])) mixer.selected_strip().set_send_controls(tuple(send_faders)) """------------------------------------------------""" #mixer.set_crossfader_control(SliderElement(MIDI_CC_TYPE, 0, 15)) #mixer.set_prehear_volume_control(EncoderElement(MIDI_CC_TYPE, 0, 47, Live.MidiMap.MapMode.relative_two_compliment)) mixer.set_prehear_volume_control(EncoderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[6], Live.MidiMap.MapMode.absolute)) #mixer.master_strip().set_volume_control(SliderElement(MIDI_CC_TYPE, 0, 14)) mixer.master_strip().set_volume_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[7])) #mixer.master_strip().set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 80)) return mixer
def _setup_mixer_control(self): is_momentary = True mixer = MixerComponent(1) mixer.selected_strip().set_mute_button( SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[9])) mixer.selected_strip().set_solo_button( SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[13])) mixer.set_select_buttons( SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[15]), SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[14])) send_faders = [] NUM_CONTROLLABLE_SENDS = 4 for index in range(NUM_CONTROLLABLE_SENDS): send_faders.append( SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[index + 2])) mixer.selected_strip().set_volume_control( SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[0])) mixer.selected_strip().set_pan_control( SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[1])) mixer.selected_strip().set_send_controls(tuple(send_faders)) mixer.set_prehear_volume_control( EncoderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[6], Live.MidiMap.MapMode.absolute)) mixer.master_strip().set_volume_control( SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[7])) return mixer
def _setup_mixer_control(self): is_momentary = True mixer = MixerComponent(NUM_TRACKS, 2, with_eqs=True, with_filters=True) for track in range(NUM_TRACKS): strip = mixer.channel_strip(track) strip.set_volume_control(SliderElement(MIDI_CC_TYPE, track, 23)) strip.set_pan_control(EncoderElement(MIDI_CC_TYPE, track, 10, Live.MidiMap.MapMode.absolute)) strip.set_send_controls((EncoderElement(MIDI_CC_TYPE, track, 19, Live.MidiMap.MapMode.absolute), EncoderElement(MIDI_CC_TYPE, track, 20, Live.MidiMap.MapMode.absolute))) strip.set_solo_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 64)) strip.set_mute_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 63)) strip.set_crossfade_toggle(ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, 65)) eq = mixer.track_eq(track) eq.set_gain_controls(tuple([ EncoderElement(MIDI_CC_TYPE, track, (18 - index), Live.MidiMap.MapMode.absolute) for index in range(3) ])) eq.set_cut_buttons(tuple([ ButtonElement(is_momentary, MIDI_NOTE_TYPE, track, (62 - index)) for index in range(3) ])) filter = mixer.track_filter(track) filter.set_filter_controls(EncoderElement(MIDI_CC_TYPE, track, 22, Live.MidiMap.MapMode.absolute), EncoderElement(MIDI_CC_TYPE, track, 21, Live.MidiMap.MapMode.absolute)) for ret_track in range(2): strip = mixer.return_strip(ret_track) strip.set_volume_control(SliderElement(MIDI_CC_TYPE, 12, (22 + ret_track))) strip.set_pan_control(EncoderElement(MIDI_CC_TYPE, 12, (20 + ret_track), Live.MidiMap.MapMode.absolute)) strip.set_mute_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, 12, (78 + ret_track))) mixer.set_crossfader_control(SliderElement(MIDI_CC_TYPE, 12, 8)) mixer.set_prehear_volume_control(EncoderElement(MIDI_CC_TYPE, 12, 24, Live.MidiMap.MapMode.absolute)) mixer.master_strip().set_volume_control(SliderElement(MIDI_CC_TYPE, 12, 7)) mixer.master_strip().set_pan_control(EncoderElement(MIDI_CC_TYPE, 12, 10, Live.MidiMap.MapMode.absolute)) return mixer
def _setup_mixer_control(self): is_momentary = True # We use non-latching buttons (keys) throughout, so we'll set this as a constant num_tracks = 4 # 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, 2, with_eqs=True, with_filters=False) #(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 #mute_notes = [1,5,9,13] #solo_notes = [2,6,10,14] #arm_notes = [3,7,11,15] track_select_notes = [38,39,40,41]#more note numbers need to be added if num_scenes is increased send_ccs = [2,6,10,14,1,5,9,13] pan_ccs = [3,7,11,15] slider_ccs = [4,8,12,16] for index in range(num_tracks): mixer.channel_strip(index).set_select_button(ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, track_select_notes[index])) mixer.channel_strip(index).set_volume_control(SliderElement(MIDI_CC_TYPE, CHAN, slider_ccs[index])) mixer.channel_strip(index).set_pan_control(EncoderElement(MIDI_CC_TYPE, CHAN, pan_ccs[index], Live.MidiMap.MapMode.absolute)) #put send A and send B controllers into an array, which is then "tupled" for set_send_controls: send_controlers = [EncoderElement(MIDI_CC_TYPE, CHAN, send_ccs[index], Live.MidiMap.MapMode.absolute), EncoderElement(MIDI_CC_TYPE, CHAN, send_ccs[index+num_tracks], Live.MidiMap.MapMode.absolute)] mixer.channel_strip(index).set_send_controls(tuple(send_controlers)) crossfader = SliderElement(MIDI_CC_TYPE, CHAN, 28) master_volume_control = SliderElement(MIDI_CC_TYPE, CHAN, 32) returna_pan_control = SliderElement(MIDI_CC_TYPE, CHAN, 19) returna_volume_control = SliderElement(MIDI_CC_TYPE, CHAN, 20) returnb_pan_control = SliderElement(MIDI_CC_TYPE, CHAN, 23) returnb_volume_control = SliderElement(MIDI_CC_TYPE, CHAN, 24) master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 31) prehear_control = EncoderElement(MIDI_CC_TYPE, CHAN, 30, Live.MidiMap.MapMode.absolute) crossfader.name = 'Crossfader' master_volume_control.name = 'Master_Volume_Control' returna_pan_control.name = 'ReturnA_Pan_Control' returna_volume_control.name = 'ReturnA_Volume_Control' returnb_pan_control.name = 'ReturnB_Pan_Control' returnb_volume_control.name = 'ReturnB_Volume_Control' master_select_button.name = 'Master_Select_Button' prehear_control.name = 'Prehear_Volume_Control' mixer.set_crossfader_control(crossfader) mixer.master_strip().set_volume_control(master_volume_control) mixer.master_strip().set_select_button(master_select_button) mixer.set_prehear_volume_control(prehear_control) mixer.return_strip(0).set_pan_control(returna_pan_control) mixer.return_strip(0).set_volume_control(returna_volume_control) mixer.return_strip(1).set_pan_control(returnb_pan_control) mixer.return_strip(1).set_volume_control(returnb_volume_control)
def _setup_mixer_control(self): is_momentary = True mixer = MixerComponent(1) mixer.selected_strip().set_mute_button(SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[9])) mixer.selected_strip().set_solo_button(SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[13])) mixer.set_select_buttons(SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[15]), SysexButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, KMK_PAD[14])) send_faders = [] NUM_CONTROLLABLE_SENDS = 4 for index in range(NUM_CONTROLLABLE_SENDS): send_faders.append(SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[index + 2])) mixer.selected_strip().set_volume_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[0])) mixer.selected_strip().set_pan_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[1])) mixer.selected_strip().set_send_controls(tuple(send_faders)) mixer.set_prehear_volume_control(EncoderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[6], Live.MidiMap.MapMode.absolute)) mixer.master_strip().set_volume_control(SliderElement(MIDI_CC_TYPE, CHANNEL, KMK_FADER[7])) return mixer
def _setup_mixer_control(self): is_momentary = True # We use non-latching buttons (keys) throughout, so we'll set this as a constant num_tracks = 7 # 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, 0) #(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 mixer.selected_strip().set_mute_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, 64)) #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, 72)) track_select_notes = [ 65, 73, 66, 74, 67, 75, 68, 76 ] #more note numbers need to be added if num_scenes is increased slider_select_notes = [23, 22, 15, 14, 5, 7, 6, 4] pan_select_notes = [21, 20, 13, 12, 3, 1, 0, 2] master_volume_control = SliderElement(MIDI_CC_TYPE, 0, 4) master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, 0, 76) prehear_control = EncoderElement(MIDI_CC_TYPE, 0, 26, Live.MidiMap.MapMode.absolute) crossfader = SliderElement(MIDI_CC_TYPE, 0, 24) for index in range(num_tracks): mixer.channel_strip(index).set_select_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, track_select_notes[index])) mixer.channel_strip(index).set_volume_control( SliderElement(MIDI_CC_TYPE, CHANNEL, slider_select_notes[index])) mixer.channel_strip(index).set_pan_control( EncoderElement(MIDI_CC_TYPE, CHANNEL, pan_select_notes[index], Live.MidiMap.MapMode.absolute)) crossfader.name = 'Crossfader' master_volume_control.name = 'Master_Volume_Control' master_select_button.name = 'Master_Select_Button' prehear_control.name = 'Prehear_Volume_Control' mixer.set_crossfader_control(crossfader) mixer.set_prehear_volume_control(prehear_control) mixer.master_strip().set_volume_control(master_volume_control) mixer.master_strip().set_select_button(master_select_button)
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))
class VoidMaschine(ControlSurface): """ Originally Created on Nov 7, 2010 :: Matt Howell Thanks to Hanz Petrov, Native Instruments, Ableton, Liine """ def __init__(self, c_instance): """ Constructor """ ControlSurface.__init__(self, c_instance) self.name = 'VoidMaschine' self.log_message(self.name + " opened =-- @ "+ time.strftime("%d.%m.%Y %H:%M:%S", time.localtime())) self.set_suppress_rebuild_requests(True) self._suppress_session_highlight = False self._suppress_send_midi = True self._suggested_input_port = MASCHINE_DEVICE_PORT_NAME self._suggested_output_port = MASCHINE_DEVICE_PORT_NAME self._shift_button = None self.transport = TransportComponent() self.transport.name = 'Transport' self.session = None self.session_zoom = None self.mixer = None self.back_to_arranger_button = None self.is_momentary = True self.bpmBeatTime = 0 self.lastBeat = 0 self._setup_transport_control() self._session = VoidSessionComponent(c_instance) self._session.name = 'Session_Control' self._setup_mixer_control() #self._session_zoom = SessionZoomingComponent(self._session) #self._session_zoom.name = 'Session_Overview' #self._session_zoom.set_button_matrix(self._session._matrix) self._set_back_to_arranger_button(ButtonElement(True, MIDI_NOTE_TYPE, TRANSPORT_CHANNEL, TRANSPORT_BACK_TO_ARRANGER)) self.set_suppress_rebuild_requests(False) self._display = PhysicalDisplayElement(56, 8) self._void_message() self._register_timer_callback(self.update_controller) self._register_timer_callback(self.updateTempo) self._register_timer_callback(self.onTempoChange) def _void_message(self): self.sendScreenSysex(self.translateString((SYSEX_SCREEN_BUFFER_15 + 'VoidMaschine' + SYSEX_SCREEN_BUFFER_15)), 1) self.sendScreenSysex(self.translateString(('Voidrunner.com' + SYSEX_SCREEN_BUFFER_15 + ' maschine/ableton')), 2) def _setup_mixer_control(self): self.mixer = MixerComponent(0, 0, with_eqs=False, with_filters=False) master_volume_control = EncoderElement(MIDI_CC_TYPE, MIXER_CHANNEL, MASTER_VOLUME, Live.MidiMap.MapMode.absolute) booth_volume_control = EncoderElement(MIDI_CC_TYPE, MIXER_CHANNEL, MASTER_BOOTH, Live.MidiMap.MapMode.absolute) self.mixer.set_prehear_volume_control(booth_volume_control) self.mixer.master_strip().set_volume_control(master_volume_control) def _setup_transport_control(self): play_button = ButtonElement(self.is_momentary, MIDI_NOTE_TYPE, TRANSPORT_CHANNEL, TRANSPORT_PLAY) stop_button = ButtonElement(self.is_momentary, MIDI_NOTE_TYPE, TRANSPORT_CHANNEL, TRANSPORT_STOP) record_button = ButtonElement(self.is_momentary, MIDI_NOTE_TYPE, TRANSPORT_CHANNEL, TRANSPORT_RECORD) seek_ffwd_button = ButtonElement(self.is_momentary, MIDI_NOTE_TYPE, TRANSPORT_CHANNEL, TRANSPORT_SEEK_FFWD) seek_rwd_button = ButtonElement(self.is_momentary, MIDI_NOTE_TYPE, TRANSPORT_CHANNEL, TRANSPORT_SEEK_RWD) tap_tempo_button = ButtonElement(self.is_momentary, MIDI_NOTE_TYPE, TRANSPORT_CHANNEL, TRANSPORT_TAP_TEMPO) tempo_control = EncoderElement(MIDI_CC_TYPE, TRANSPORT_CHANNEL, TRANSPORT_COARSE_TEMPO, Live.MidiMap.MapMode.absolute) play_button.name = 'Play_Button' stop_button.name = 'Stop_Button' record_button.name = 'Record_Button' seek_ffwd_button.name = 'Seek_FFWD_Button' seek_rwd_button.name = 'Seek_RWD_Button' tap_tempo_button.name = 'Tap_Tempo_Button' self.transport.set_play_button(play_button) self.transport.set_stop_button(stop_button) self.transport.set_record_button(record_button) self.transport.set_tap_tempo_button(tap_tempo_button) self.transport.set_tempo_control(tempo_control) self.transport.set_seek_buttons(seek_ffwd_button, seek_rwd_button) def _set_back_to_arranger_button(self, button): button.add_value_listener(self.back_to_arranger) self.back_to_arranger_button = button def disconnect(self): self.send_midi((240, 0, 66, 89, 69, 247)) #goodbye message in sysex stream def send_midi(self, midi_event_bytes): """ Use this function to send MIDI events through Live to the _real_ MIDI devices that this script is assigned to. """ assert isinstance(midi_event_bytes, tuple) self._send_midi(midi_event_bytes) return True def translateString(self, text): """ Convert a string into a sysex safe string """ result = () length = len(text) for i in range(0, length): charCode = ord(text[i]) if (charCode < 32): charCode = 32 elif (charCode > 127): charCode = 127 result = (result + (charCode,)) return result def sendScreenSysex(self, data, line=1): """ Data must be a tuple of bytes, remember only 7-bit data is allowed for sysex """ if not data: pass if(line==1): self._send_midi(((SYSEX_SCREEN_BEGIN_LINE_1 + data) + SYSEX_SCREEN_END)) else: if(line==2): self._send_midi(((SYSEX_SCREEN_BEGIN_LINE_2 + data) + SYSEX_SCREEN_END)) def send_value(self, msg_type, channel, id, value, force_send = False): assert (value != None) assert isinstance(value, int) assert (value in range(128)) data_byte1 = id data_byte2 = value status_byte = channel if (msg_type == MIDI_NOTE_TYPE): status_byte += MIDI_NOTE_ON_STATUS elif (msg_type == MIDI_CC_TYPE): status_byte += MIDI_CC_STATUS else: assert False self._send_midi((status_byte, data_byte1, data_byte2)) def back_to_arranger(self, *args, **kwargs): self.song().back_to_arranger = False def update_controller(self): """ controller event loop this may also update every 100 miliseconds. decoupling the data updates from live and the controller communication may help keep latency to a minimum. """ def onTempoChange(self): self.bpmBeatTime = self.song().get_current_beats_song_time() def updateTempo(self): if self.song().is_playing: if (self.bpmBeatTime.beats > self.lastBeat): self.updateBPMLightOff() else: self.updateBPMLightOn() def updateBPMLightOn(self): self.transport._play_button.turn_on() #self.send_value(MIDI_NOTE_TYPE, TRANSPORT_CHANNEL, TRANSPORT_TEMPO, MASCHINE_DISPLAY_BPM) def updateBPMLightOff(self): self.transport._play_button.turn_off() #self.send_value(MIDI_NOTE_TYPE, TRANSPORT_CHANNEL, TRANSPORT_TEMPO, 0)
class Tweaker(ControlSurface): __module__ = __name__ __doc__ = " Tweaker control surface script " def __init__(self, c_instance, *a, **k): super(Tweaker, self).__init__(c_instance, *a, **k) with self.component_guard(): self._update_linked_device_selection = None self._tweaker_version_check = '0.3' self.log_message("--------------= Tweaker Session " + str(self._tweaker_version_check) + " log opened =--------------") self._timer = 0 self.flash_status = 1 self._last_selected_strip_number = 0 self._device_selection_follows_track_selection = False #self._pad_translations = PAD_TRANSLATION self._linked_session = None self._mixer_offset = 0 self._nav_lock = True self._setup_controls() self._setup_transport_control() self._setup_device_control() self._setup_mixer_control() self._setup_session_control() self._setup_crossfader() self._setup_modes() self._setup_pads() self._setup_navigation_lock() self._setup_arrange_session_toggle() #self.assign_main_configuration() #self.request_rebuild_midi_map() #self._mixer._reassign_tracks() #this is to update rebuild the cf_assign closure, otherwise the colors aren't correct #self.schedule_message(30, self._detect_devices) self.show_message('Tweaker Control Surface Loaded') self.show_message('Tweaker Control Surface Loaded') #self._shift_value(0) #this updates the pads so that they transmit to Live on the assigned PAD_CHANNEL...also, lights shift button self.assign_main_configuration() #self.schedule_message(2, self._shift_value, 0) self.schedule_message(3, self._mixer._reassign_tracks) """script initialization methods""" def _setup_controls(self): is_momentary = True self._grid = [None for index in range(8)] for column in range(8): self._grid[column] = [TweakerMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, column + (row * 8) + 1, 'Grid_' + str(column) + '_' + str(row), self) for row in range(4)] self._button = [TweakerMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_BUTTONS[index], 'Button_' + str(index), self) for index in range(len(TWEAKER_BUTTONS))] self._nav = [TweakerMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_NAVS[index], 'Nav_' + str(index), self) for index in range(len(TWEAKER_NAVS))] self._encoder_button = [TweakerMonoButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_ENCODER_BUTTONS[index], 'Encoder_Button_' + str(index), self) for index in range(len(TWEAKER_ENCODER_BUTTONS))] self._dial = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_DIALS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_DIALS))] self._fader = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_FADERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_FADERS))] self._crossfader = EncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute) self._encoder = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_ENCODERS[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_ENCODERS))] self._pad = [TweakerMonoButtonElement(False, MIDI_NOTE_TYPE, CHANNEL, TWEAKER_PADS[index], 'Pad_' + str(index), self) for index in range(len(TWEAKER_PADS))] for index in range(4): self._pad[index].set_enabled(False) self._pad[index].set_channel(PAD_CHANNEL) self._pad[index].set_identifier(index + 4) self._pad[index+4].set_enabled(False) self._pad[index+4].set_channel(PAD_CHANNEL) self._pad[index+4].set_identifier(index) self._pad_pressure = [EncoderElement(MIDI_CC_TYPE, CHANNEL, TWEAKER_PAD_PRESSURES[index], Live.MidiMap.MapMode.absolute) for index in range(len(TWEAKER_PADS))] for index in range(8): self._pad_pressure[index]._last_sent = 0 self._matrix = ButtonMatrixElement() self._matrix.name = 'Matrix' for row in range(4): button_row = [] for column in range(7): button_row.append(self._grid[column][row]) self._matrix.add_row(tuple(button_row)) self._send_midi(tuple([240,0,1,106,01,07,21,21,247])) #set all pots to walk mode self._send_midi(tuple([240, 0, 1, 106, 1, 6, 127 , 127, 25, 0, 15, 0, 9, PAD_SENSITIVITY, 247])) #set pads to sensitivity set in Map file def _setup_transport_control(self): self._transport = TransportComponent() self._transport.name = 'Transport' def _setup_mixer_control(self): is_momentary = True self._num_tracks = (2) #A mixer is one-dimensional; self._mixer = MixerComponent(2, 0, False, False) self._mixer.name = 'Mixer' self._mixer.tracks_to_use = self._mixer_tracks_to_use(self._mixer) self._device_navigator = [None for index in range(2)] self._mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left) for index in range(2): self._mixer.channel_strip(index).set_volume_control(self._fader[index]) self._mixer.channel_strip(index)._on_cf_assign_changed = self._channelstrip_on_cf_assign_changed(self._mixer.channel_strip(index)) self._mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index) #mixer.track_filter(index).name = 'Mixer_TrackFilter_' + str(index) self._mixer.channel_strip(index)._invert_mute_feedback = True self._mixer.channel_strip(index)._device_component = self._device[index] self._mixer.channel_strip(index).update = self._channelstrip_update(self._mixer.channel_strip(index)) self._mixer.channel_strip(index)._select_value = self._channelstrip_select_value(self._mixer.channel_strip(index), index) self._device_navigator[index] = DetailViewControllerComponent(self, self._mixer.channel_strip(index)) self._device_navigator[index].name = 'Device_Navigator_'+str(index) self._mixer.channel_strip(0).set_track = self._channelstrip_set_track(self._mixer.channel_strip(0), self._channelstrip1_cb) self._mixer.channel_strip(1).set_track = self._channelstrip_set_track(self._mixer.channel_strip(1), self._channelstrip2_cb) self.song().view.selected_track = self._mixer.channel_strip(0)._track #set the selected strip to the first track, so that we don't, for example, try to assign a button to arm the master track, which would cause an assertion error #self._mixer._reassign_tracks() def _setup_session_control(self): is_momentary = True num_tracks = NUM_TRACKS num_scenes = NUM_SCENES self._session = SessionComponent(num_tracks, num_scenes) self._session.name = "Session" self._session.set_offsets(0, 0) self._session.set_stop_track_clip_value(STOP_CLIP) self._scene = [None for index in range(3)] for row in range(num_scenes): self._scene[row] = self._session.scene(row) self._scene[row].name = 'Scene_' + str(row) for column in range(num_tracks): clip_slot = self._scene[row].clip_slot(column) clip_slot.name = str(column) + '_Clip_Slot_' + str(row) clip_slot.set_triggered_to_play_value(CLIP_TRG_PLAY) clip_slot.set_triggered_to_record_value(CLIP_TRG_REC) clip_slot.set_stopped_value(CLIP_STOP) clip_slot.set_started_value(CLIP_STARTED) clip_slot.set_recording_value(CLIP_RECORDING) self._session._stop_track_value = self._session_stop_track_value(self._session) self._session._on_fired_slot_index_changed = self._session_on_fired_slot_index_changed(self._session) self._session._change_offsets = self._session_change_offsets(self._session) self._session.update = self._session_update(self._session) #self._session.add_offset_listener(self._update_navigation_view) self._session.set_mixer(self._mixer) self.set_highlighting_session_component(self._session) self._session_zoom = SessionZoomingComponent(self._session) self._session_zoom.name = 'Session_Overview' self._session_zoom.set_stopped_value(ZOOM_STOPPED) self._session_zoom.set_playing_value(ZOOM_PLAYING) self._session_zoom.set_selected_value(ZOOM_SELECTED) #self._session_zoom.set_enabled(True) def _setup_device_control(self): self._device = [None for index in range(2)] for index in range(2): self._device[index] = DeviceComponent() self._device[index].name = 'Device_Component_'+str(index) self._device[index].set_enabled(True) self._device[index]._number_of_parameter_banks = self._device_number_of_parameter_banks(self._device[index]) self._device[index]._assign_parameters = self._device_assign_parameters(self._device[index]) self._device[index]._device_banks = DEVICE_DICT self._device[index]._device_best_banks = DEVICE_BOB_DICT self._device[index]._device_bank_names = BANK_NAME_DICT def _setup_crossfader(self): self._mixer.set_crossfader_control(self._crossfader) def _setup_modes(self): self._pad_offset = PadOffsetComponent(self) self._pad_offset._set_protected_mode_index(0) self._pad_offset.set_enabled(False) def _setup_pads(self): for pad in self._pad_pressure: pad.add_value_listener(self._light_pad, True) def _setup_navigation_lock(self): if(self._encoder_button[0].value_has_listener(self._nav_lock_value)): self._encoder_button[0].remove_value_listener(self._nav_lock_value) self._encoder_button[0].add_value_listener(self._nav_lock_value) def _setup_arrange_session_toggle(self): if(self._nav[1].value_has_listener(self._arrange_session_value)): self._nav[1].remove_value_listener(self._arrange_session_value) self._nav[1].add_value_listener(self._arrange_session_value) """configuration methods""" def assign_main_configuration(self): for column in range(7): for row in range(3): self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row]) self._session.set_stop_track_clip_buttons(tuple([self._grid[index][3] for index in range(7)])) for row in range(3): self._scene[row].set_launch_button(self._grid[7][row]) self._device[0].set_parameter_controls(tuple([self._encoder[index+1] for index in range(3)])) self._device[0].set_enabled(True) self._device[1].set_parameter_controls(tuple([self._encoder[index+4] for index in range(3)])) self._device[1].set_enabled(True) for track in range(2): self._mixer.channel_strip(track).set_volume_control(self._fader[track]) self._mixer.channel_strip(track).set_solo_button(self._button[track*3]) self._button[track*3].set_on_off_values(SOLO, 0) self._mixer.channel_strip(track).set_arm_button(self._button[1 + (track*3)]) self._button[1 + (track*3)].set_on_off_values(ARM, 0) self._mixer.channel_strip(track).set_crossfade_toggle(self._button[2 + (track*3)]) self._mixer.master_strip().set_volume_control(self._dial[1]) self._mixer.set_prehear_volume_control(self._dial[0]) self._session.set_track_bank_buttons(self._nav[4], self._nav[3]) self._session.set_scene_bank_buttons(self._nav[2], self._nav[0]) self._session_zoom.set_zoom_button(self._grid[7][3]) self._session_zoom.set_nav_buttons(self._nav[0], self._nav[2], self._nav[3], self._nav[4]) self._session_zoom.set_button_matrix(self._matrix) self._device[0].set_on_off_button(self._encoder_button[1]) self._device_navigator[0].set_device_nav_buttons(self._encoder_button[2], self._encoder_button[3]) self._device[1].set_on_off_button(self._encoder_button[4]) self._device_navigator[1].set_device_nav_buttons(self._encoder_button[5], self._encoder_button[6]) for track in range(2): self._update_device(self._mixer.channel_strip(track)) #self._device.set_bank_nav_buttons(self._menu[0], self._menu[3]) self.assign_track_selector(self._encoder[0]) #for index in range(8): # self._pad[index].send_value(1, True) # self._pad[index].set_channel(1) # self._pad[index].set_identifier(index) # self._pad[index].set_enabled(False) #this has to happen for translate to work if not self._grid[7][3].value_has_listener(self._shift_value): self._grid[7][3].add_value_listener(self._shift_value) self._grid[7][3].send_value(127, True) self.request_rebuild_midi_map() """Tweaker custom methods""" def _shift_value(self, value): self._pad_offset.set_enabled(value>0) if value > 0: self._update_navigation_view() for pad in self._pad: pad.use_default_message() pad.set_enabled(True) self._pad_offset.set_mode_buttons(tuple(self._pad)) self.schedule_message(1, self._pad_offset.update) if self._session.is_enabled(): #self._update_navigation_view() #self.schedule_message(1, self._update_navigation_veiw) self._update_navigation_view() self._grid[7][3].send_value(SHIFT_ON) for track in range(2): self._mixer.channel_strip(track).set_crossfade_toggle(None) self._mixer.channel_strip(track).set_select_button(self._button[2 + (track*3)]) else: self._pad_offset.set_mode_buttons(None) for index in range(4): self._pad[index].set_enabled(False) self._pad[index].set_channel(PAD_CHANNEL) self._pad[index].set_identifier(index + 4 + (self._pad_offset._mode_index * 8)) self._pad[index+4].set_enabled(False) self._pad[index+4].set_channel(PAD_CHANNEL) self._pad[index+4].set_identifier(index + (self._pad_offset._mode_index * 8)) self._grid[7][3].send_value(SHIFT_OFF) for track in range(2): self._mixer.channel_strip(track).set_select_button(None) self._mixer.channel_strip(track).set_crossfade_toggle(self._button[2 + (track*3)]) def assign_track_selector(self, encoder): assert isinstance(encoder, EncoderElement) if not encoder.value_has_listener(self._track_selector_value): encoder.add_value_listener(self._track_selector_value) def deassign_track_selector(self, encoder): if encoder.value_has_listener(self._track_selector_value): encoder.remove_value_listener(self._track_selector_value) def _nav_lock_value(self, value): if value > 0: if self._nav_lock: self._mixer_offset = self._mixer_offset + self._session._track_offset self._mixer.set_track_offset(self._mixer_offset) else: if self._mixer_offset in range(self._session._track_offset, self._session._track_offset + 5): self._mixer_offset = self._mixer_offset - self._session._track_offset elif self._mixer_offset < self._session._track_offset: self._mixer_offset = 0 else: self._mixer_offset = min(self._session._track_offset+5, len(self._session.tracks_to_use())-2) self._mixer.set_track_offset(self._session._track_offset + self._mixer_offset) self._nav_lock = not self._nav_lock self._session.update() def _arrange_session_value(self, value): if value > 0: if (self.application().view.is_view_visible('Arranger')): self.application().view.show_view('Session') else: self.application().view.show_view('Arranger') def _track_selector_value(self, value): if(value is 1): if self._nav_lock: self._mixer_offset = min(self._mixer_offset + 1, min(NUM_TRACKS - 2, len(self._session.tracks_to_use())-self._session._track_offset-2)) else: self._mixer_offset = min(self._mixer_offset + 1, len(self._session.tracks_to_use())-2) elif(value is 127): self._mixer_offset = max(self._mixer_offset - 1, 0) if self._nav_lock: self._mixer.set_track_offset(self._session._track_offset + self._mixer_offset) #self._session.set_offsets(self._session._track_offset) ?? else: self._mixer.set_track_offset(self._mixer_offset) self._session.update() if self._mixer.channel_strip(self._last_selected_strip_number)._track != None: self.song().view.selected_track = self._mixer.channel_strip(self._last_selected_strip_number)._track if self._linked_session != None: if self._linked_session._is_linked(): self._linked_session._unlink() self._linked_session.set_offsets(self._mixer._track_offset, self._linked_session._scene_offset) self._linked_session._link() def _update_navigation_view(self): dif = self._mixer._track_offset - self._session._track_offset for index in range(7): #if (index + self._session._track_offset) in range(len(self._session.tracks_to_use())): if (index + self._session._track_offset) in range(0, len(self.song().visible_tracks)): self._grid[index][3].send_value(NAV_COLORS[int(index in range(dif, dif + 2))], True) elif (index + self._session._track_offset) in range(len(self.song().visible_tracks), len(self._session.tracks_to_use())): self._grid[index][3].send_value(RETURN_NAV_COLORS[int(index in range(dif, dif + 2))], True) else: self._grid[index][3].send_value(0, True) self._send_midi(tuple([240,0,1,106,01,07,21,21,247])) #set all pots to walk mode def _update_device(self, channelstrip): for control in channelstrip._device_component._parameter_controls: control.send_value(0, True) if channelstrip._device_component._on_off_button != None: channelstrip._device_component._on_off_button.turn_off() if not channelstrip._track is None: if not channelstrip._device_component._device in channelstrip._track.devices: track = channelstrip._track device_to_select = track.view.selected_device if (device_to_select == None) and (len(track.devices) > 0): device_to_select = track.devices[0] elif channelstrip._device_component and not type(channelstrip._device_component) is type(None): channelstrip._device_component.set_device(device_to_select) else: channelstrip._device_component.set_device(None) else: pass else: channelstrip._device_component.set_device(None) channelstrip._device_component._on_on_off_changed() def _light_pad(self, value, sender): if not self._pad_offset.is_enabled(): if value > sender._last_sent: if self._pad[self._pad_pressure.index(sender)]._last_sent_value < 1: self._pad[self._pad_pressure.index(sender)].send_value(127, True) else: self._pad[self._pad_pressure.index(sender)].send_value(0, True) sender._last_sent = value """called on timer""" def update_display(self): super(Tweaker, self).update_display() self._timer = (self._timer + 1) % 256 self.flash() def flash(self): if(self.flash_status > 0): for control in self.controls: if isinstance(control, TweakerMonoButtonElement): control.flash(self._timer) """m4l bridge""" def generate_strip_string(self, display_string): NUM_CHARS_PER_DISPLAY_STRIP = 12 if (not display_string): return (' ' * NUM_CHARS_PER_DISPLAY_STRIP) if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.endswith('dB') and (display_string.find('.') != -1))): display_string = display_string[:-2] if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)): for um in [' ', 'i', 'o', 'u', 'e', 'a']: while ((len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.rfind(um, 1) != -1)): um_pos = display_string.rfind(um, 1) display_string = (display_string[:um_pos] + display_string[(um_pos + 1):]) else: display_string = display_string.center((NUM_CHARS_PER_DISPLAY_STRIP - 1)) ret = u'' for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)): if ((ord(display_string[i]) > 127) or (ord(display_string[i]) < 0)): ret += ' ' else: ret += display_string[i] ret += ' ' return ret def notification_to_bridge(self, name, value, sender): if(isinstance(sender, MonoEncoderElement2)): self._monobridge._send(sender.name, 'lcd_name', str(self.generate_strip_string(name))) self._monobridge._send(sender.name, 'lcd_value', str(self.generate_strip_string(value))) def touched(self): if(self._shift_mode._mode_index < 2): if self._touched is 0: self._monobridge._send('touch', 'on') self.schedule_message(2, self.check_touch) self._touched +=1 def check_touch(self): if(self._shift_mode._mode_index < 2): if self._touched > 5: self._touched = 5 elif self._touched > 0: self._touched -= 1 if self._touched is 0: self._monobridge._send('touch', 'off') else: self.schedule_message(2, self.check_touch) def handle_sysex(self, midi_bytes): pass """general functionality""" def disconnect(self): """clean things up on disconnect""" #self._update_linked_device_selection = None if self._session.offset_has_listener(self._update_navigation_view): self._session.remove_offset_listener(self._update_navigation_view) if(self._nav[1].value_has_listener(self._arrange_session_value)): self._nav[1].remove_value_listener(self._arrange_session_value) if(self._encoder_button[0].value_has_listener(self._nav_lock_value)): self._encoder_button[0].remove_value_listener(self._nav_lock_value) for pad in self._pad_pressure: if pad.value_has_listener(self._light_pad): pad.remove_value_listener(self._light_pad) if self._grid[7][3].value_has_listener(self._shift_value): self._grid[7][3].remove_value_listener(self._shift_value) if self._session._is_linked(): self._session._unlink() self.deassign_track_selector(self._encoder[0]) self.log_message("--------------= Tweaker Session " + str(self._tweaker_version_check) + " log closed =--------------") #Create entry in log file super(Tweaker, self).disconnect() return None def _get_num_tracks(self): return self.num_tracks def _on_selected_track_changed(self): super(Tweaker, self)._on_selected_track_changed() if self._session.is_enabled(): self._session.update() for index in range(2): self._update_device(self._mixer.channel_strip(index)) self._mixer.on_selected_track_changed() def connect_script_instances(self, instanciated_scripts): link = False for s in instanciated_scripts: if '_tweaker_version' in dir(s): if s._tweaker_version == self._tweaker_version_check: link = True break if link == True: if not self._session._is_linked(): self._session._link() """SessionComponent overrides""" def _session_update(self, session): def _update(): SessionComponent.update(session) if session.is_enabled(): self._update_navigation_view() return _update def _session_change_offsets(self, session): def _change_offsets(track_increment, scene_increment): offsets_changed = (track_increment != 0) or (scene_increment != 0) if offsets_changed: session._track_offset += track_increment session._scene_offset += scene_increment assert (session._track_offset >= 0) assert (session._scene_offset >= 0) if (session._mixer != None): if(self._nav_lock): if (session.track_offset() + self._mixer_offset) > (len(session.tracks_to_use())-2): self._mixer_offset = max(len(session.tracks_to_use()) - session._track_offset - 2, 0) session._mixer.set_track_offset(max(0, session.track_offset() + self._mixer_offset)) session._reassign_tracks() if offsets_changed: session._reassign_scenes() # this is replaced by notify_offset() in Live9 #for callback in session._offset_callbacks: # this is replaced by notify_offset() in Live9 # callback() session.notify_offset() self._update_navigation_view() if self._mixer.channel_strip(self._last_selected_strip_number)._track != None: self.song().view.selected_track = self._mixer.channel_strip(self._last_selected_strip_number)._track if ((session.width() > 0) and (session.height() > 0)): session._do_show_highlight() return _change_offsets def _session_on_fired_slot_index_changed(self, session): def _on_fired_slot_index_changed(index): tracks_to_use = tuple(self.song().visible_tracks) + tuple(self.song().return_tracks) track_index = index + session.track_offset() if session.is_enabled() and session._stop_track_clip_buttons != None: if index < len(session._stop_track_clip_buttons): button = session._stop_track_clip_buttons[index] if button != None: if(track_index < len(tracks_to_use)) and (tracks_to_use[track_index].clip_slots) and (tracks_to_use[track_index].fired_slot_index == -2): button.send_value(session._stop_track_clip_value) #elif index in range(len(session.tracks_to_use())): # dif = self._mixer._track_offset - self._session._track_offset # button.send_value(NAV_COLORS[int(index in range(dif, dif + 2))], True) #else: # button.turn_off() else: self._update_navigation_view() return _on_fired_slot_index_changed def _session_stop_track_value(self, session): def _stop_track_value(value, sender): assert (session._stop_track_clip_buttons != None) assert (list(session._stop_track_clip_buttons).count(sender) == 1) assert (value in range(128)) if session.is_enabled(): if ((value is not 0) or (not sender.is_momentary())): tracks = session.tracks_to_use() track_index = (list(session._stop_track_clip_buttons).index(sender) + session.track_offset()) if (track_index in range(len(tracks))) and (tracks[track_index] in session.song().tracks): tracks[track_index].stop_all_clips() sender.send_value(3, True) self.schedule_message(10, self._update_navigation_view) return _stop_track_value """ChannelStripComponent overrides""" def _channelstrip_update(self, channelstrip): def _update(): ChannelStripComponent.update(channelstrip) self._update_device(channelstrip) return _update def _channelstrip_set_track(self, channelstrip, cb): def _set_track(track): assert ((track == None) or isinstance(track, Live.Track.Track)) if channelstrip._track != None and isinstance(channelstrip._track, Live.Track.Track): if channelstrip._track.devices_has_listener(cb): channelstrip._track.remove_devices_listener(cb) if (track != None): track.add_devices_listener(cb) ChannelStripComponent.set_track(channelstrip, track) return _set_track def _channelstrip_select_value(self, channelstrip, index): def _select_value(value): ChannelStripComponent._select_value(channelstrip, value) self._last_selected_strip_number = index return _select_value def _channelstrip_on_cf_assign_changed(self, channel_strip): def _on_cf_assign_changed(): if (channel_strip.is_enabled() and (channel_strip._crossfade_toggle != None)): if (channel_strip._track != None) and (channel_strip._track in chain(self.song().tracks, self.song().return_tracks)): if channel_strip._track.mixer_device.crossfade_assign == 1: #modified channel_strip._crossfade_toggle.turn_off() elif channel_strip._track.mixer_device.crossfade_assign == 0: channel_strip._crossfade_toggle.send_value(CROSSFADE_A) else: channel_strip._crossfade_toggle.send_value(CROSSFADE_B) return _on_cf_assign_changed def _channelstrip1_cb(self): self._on_selected_track_changed() def _channelstrip2_cb(self): self._on_selected_track_changed() """MixerComponent overrides""" def _mixer_tracks_to_use(self, mixer): def tracks_to_use(): return tuple(self.song().visible_tracks) + tuple(self.song().return_tracks) return tracks_to_use """SessionComponent overrides""" def _device_number_of_parameter_banks(self, device): def _number_of_parameter_banks(): return number_of_parameter_banks(device._device) #added return _number_of_parameter_banks def _device_assign_parameters(self, device): def _assign_parameters(): assert device.is_enabled() assert (device._device != None) assert (device._parameter_controls != None) device._bank_name = ('Bank ' + str(device._bank_index + 1)) #added if (device._device.class_name in device._device_banks.keys()): #modified assert (device._device.class_name in device._device_best_banks.keys()) banks = device._device_banks[device._device.class_name] bank = None if (not device._is_banking_enabled()): banks = device._device_best_banks[device._device.class_name] device._bank_name = 'Best of Parameters' #added if (len(banks) > device._bank_index): bank = banks[device._bank_index] if device._is_banking_enabled(): #added if device._device.class_name in device._device_bank_names.keys(): #added device._bank_name[device._bank_index] = device._device_bank_names[device._device.class_name] #added *recheck assert ((bank == None) or (len(bank) >= len(device._parameter_controls))) for index in range(len(device._parameter_controls)): parameter = None if (bank != None): parameter = get_parameter_by_name(device._device, bank[index]) if (parameter != None): device._parameter_controls[index].connect_to(parameter) else: device._parameter_controls[index].release_parameter() else: parameters = device._device_parameters_to_map() num_controls = len(device._parameter_controls) index = (device._bank_index * num_controls) for control in device._parameter_controls: if (index < len(parameters)): control.connect_to(parameters[index]) else: control.release_parameter() index += 1 return _assign_parameters
def _setup_mixer_control(self): is_momentary = True # We use non-latching buttons (keys) throughout, so we'll set this as a constant num_tracks = 4 # 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, 2, with_eqs=True, with_filters=False ) #(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 #mute_notes = [1,5,9,13] #solo_notes = [2,6,10,14] #arm_notes = [3,7,11,15] track_select_notes = [ 38, 39, 40, 41 ] #more note numbers need to be added if num_scenes is increased send_ccs = [2, 6, 10, 14, 1, 5, 9, 13] pan_ccs = [3, 7, 11, 15] slider_ccs = [4, 8, 12, 16] for index in range(num_tracks): mixer.channel_strip(index).set_select_button( ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, track_select_notes[index])) mixer.channel_strip(index).set_volume_control( SliderElement(MIDI_CC_TYPE, CHAN, slider_ccs[index])) mixer.channel_strip(index).set_pan_control( EncoderElement(MIDI_CC_TYPE, CHAN, pan_ccs[index], Live.MidiMap.MapMode.absolute)) #put send A and send B controllers into an array, which is then "tupled" for set_send_controls: send_controlers = [ EncoderElement(MIDI_CC_TYPE, CHAN, send_ccs[index], Live.MidiMap.MapMode.absolute), EncoderElement(MIDI_CC_TYPE, CHAN, send_ccs[index + num_tracks], Live.MidiMap.MapMode.absolute) ] mixer.channel_strip(index).set_send_controls( tuple(send_controlers)) crossfader = SliderElement(MIDI_CC_TYPE, CHAN, 28) master_volume_control = SliderElement(MIDI_CC_TYPE, CHAN, 32) returna_pan_control = SliderElement(MIDI_CC_TYPE, CHAN, 19) returna_volume_control = SliderElement(MIDI_CC_TYPE, CHAN, 20) returnb_pan_control = SliderElement(MIDI_CC_TYPE, CHAN, 23) returnb_volume_control = SliderElement(MIDI_CC_TYPE, CHAN, 24) master_select_button = ButtonElement(is_momentary, MIDI_NOTE_TYPE, CHAN, 31) prehear_control = EncoderElement(MIDI_CC_TYPE, CHAN, 30, Live.MidiMap.MapMode.absolute) crossfader.name = 'Crossfader' master_volume_control.name = 'Master_Volume_Control' returna_pan_control.name = 'ReturnA_Pan_Control' returna_volume_control.name = 'ReturnA_Volume_Control' returnb_pan_control.name = 'ReturnB_Pan_Control' returnb_volume_control.name = 'ReturnB_Volume_Control' master_select_button.name = 'Master_Select_Button' prehear_control.name = 'Prehear_Volume_Control' mixer.set_crossfader_control(crossfader) mixer.master_strip().set_volume_control(master_volume_control) mixer.master_strip().set_select_button(master_select_button) mixer.set_prehear_volume_control(prehear_control) mixer.return_strip(0).set_pan_control(returna_pan_control) mixer.return_strip(0).set_volume_control(returna_volume_control) mixer.return_strip(1).set_pan_control(returnb_pan_control) mixer.return_strip(1).set_volume_control(returnb_volume_control)