class Codex(Codec): def __init__(self, c_instance, *a, **k): self._shifted = False super(Codex, self).__init__(c_instance, *a, **k) with self.component_guard(): self._setup_alt_mixer() self._setup_alt_device_selector() self._setup_alt_send_reset() self._setup_alt_device_control() self.log_message( '<<<<<<<<<<<<<<<<<<<<<<<<< Codex subclass log opened >>>>>>>>>>>>>>>>>>>>>>>>>' ) self.schedule_message(1, self._mode_update) def _setup_alt_device_selector(self): self._alt_device_selector = NewDeviceSelectorComponent(self) self._alt_device_selector.name = 'Alt_Device_Selector' def _setup_alt_send_reset(self): self._alt_send_reset = ResetSendsComponent(self) self._alt_send_reset.name = 'Alt_Reset_Sends' """these two secondary DeviceComponents are only set up if the MONOHM_LINK flag in Map is turned on""" def _setup_alt_device_control(self): self._device1 = NewDeviceComponent() self._device1.name = 'Device_Component1' self._device2 = NewDeviceComponent() self._device2.name = 'Device_Component2' def _setup_alt_mixer(self): is_momentary = True self._num_tracks = (8) #A mixer is one-dimensional self._mixer2 = MixerComponent(8, 4, False, False) self._mixer2.name = 'Mixer' #self._mixer2.set_track_offset(4) #Sets start point for mixer strip (offset from left) for index in range(8): self._mixer2.channel_strip( index).name = 'Mixer_ChannelStrip_' + str(index) self._mixer2.channel_strip(index)._invert_mute_feedback = True """Mode Functions""" def _enable_alt(self): if self._main_mode._mode_index == 0: for encoder, _ in self._encoder_matrix.submatrix[:, 0:2].iterbuttons( ): encoder.set_enabled(False) encoder.reset() self._alt_enabled = True self._mode_update() super(Codex, self)._enable_alt() def _disable_alt(self): if self._main_mode._mode_index == 0: self._button_matrix.submatrix[:, 0:2].reset() for encoder, _ in self._encoder_matrix.submatrix[:, 0:2].iterbuttons( ): encoder.set_enabled(True) super(Codex, self)._disable_alt() def _deassign_all(self): self._alt_send_reset.set_buttons(tuple([None for index in range(4)])) self._alt_send_reset.set_enabled(False) self._alt_device_selector.set_buttons(None) self._alt_device_selector.set_enabled(False) self._mixer2.selected_strip().set_send_controls(None) for index in range(8): self._mixer2.channel_strip(index).set_volume_control(None) self._mixer2.channel_strip(index).set_select_button(None) self._mixer2.channel_strip(index).set_mute_button(None) self._dial[index][2].release_parameter() for index in range(3): self._mixer2.return_strip(index).set_volume_control(None) self._device1.set_enabled(False) self._device1._parameter_controls = None self._device2.set_enabled(False) self._device2._parameter_controls = None self._mixer2.return_strip(0).set_send_controls(None) self._mixer2.return_strip(1).set_send_controls(None) self._mixer2.return_strip(2).set_send_controls(None) super(Codex, self)._deassign_all() def _assign_volume(self): if self._alt_enabled: inputs = self.find_inputs() if not inputs is None: for index in range(4): self._dial[index][2].connect_to(inputs.parameters[index + 1]) self._dial[6][2].connect_to(inputs.parameters[5]) xfade = self.find_perc_crossfader() if not xfade is None: self._dial[7][3].connect_to(xfade) self._alt_device_selector.set_matrix( self._button_matrix.submatrix[:, 0:2]) self._alt_device_selector.set_enabled(True) self._mixer2.return_strip(0).set_send_controls( [None, self._dial[4][2]]) self._mixer2.return_strip(1).set_send_controls( [self._dial[5][2], None]) else: self._alt_send_reset.set_buttons( tuple([ self._button[4][2], self._button[5][2], self._button[6][2], self._button[7][2] ])) self._alt_send_reset.set_enabled(True) self._mixer2.selected_strip().set_send_controls([ self._dial[0][2], self._dial[1][2], self._dial[2][2], self._dial[3][2] ]) for index in range(3): self._mixer2.return_strip(index).set_volume_control( self._dial[index + 4][2]) self._mixer2.set_crossfader_control(self._dial[7][2]) self._device1.set_parameter_controls( tuple([ self._dial[index % 4][int(index / 4)] for index in range(8) ])) self._device2.set_parameter_controls( tuple([ self._dial[(index % 4) + 4][int(index / 4)] for index in range(8) ])) self._device1.set_enabled(True) self._device2.set_enabled(True) self._find_devices() self._device1.update() self._device2.update() for index in range(8): self._mixer2.channel_strip(index).set_select_button( self._column_button[index]) for index in range(8): self._mixer2.channel_strip(index).set_volume_control( self._dial[index][3]) self._mixer2.channel_strip(index).set_mute_button( self._button[index][3]) self._mixer2.update() self.request_rebuild_midi_map() #self._mixer2.set_track_offset(TROLL_OFFSET) def find_inputs(self): found_device = None tracks = self.song().tracks for track in tracks: if track.name == 'Inputs': for device in track.devices: if bool(device.can_have_chains ) and device.name == 'Inputs': found_device = device return found_device def find_perc_crossfader(self): found_parameter = None tracks = self.song().tracks for track in tracks: if track.name == 'Perc': for device in track.devices: if bool(device.can_have_chains) and device.name == 'Perc': for parameter in device.parameters: if parameter.name == 'XFade': found_parameter = parameter return found_parameter """this method is used to find the devices the alt controls will latch to""" def _find_devices(self): if self._device1: if len(self.song().return_tracks) > 0: if len(self.song().return_tracks[0].devices) > 0: if self._device1._locked_to_device: self._device1.set_lock_to_device( False, self._device1._device) self._device1.set_lock_to_device( True, self.song().return_tracks[0].devices[0]) if self._device2: if len(self.song().return_tracks) > 1: if len(self.song().return_tracks[1].devices) > 0: if self._device2._locked_to_device: self._device2.set_lock_to_device( False, self._device2._device) self._device2.set_lock_to_device( True, self.song().return_tracks[1].devices[0])
class Codex(Codec): def __init__(self, c_instance, *a, **k): self._shifted = False super(Codex, self).__init__(c_instance, *a, **k) with self.component_guard(): self._setup_alt_mixer() self._setup_alt_device_selector() self._setup_alt_send_reset() self._setup_alt_device_control() self.log_message('<<<<<<<<<<<<<<<<<<<<<<<<< Codex subclass log opened >>>>>>>>>>>>>>>>>>>>>>>>>') self.schedule_message(1, self._mode_update) def _setup_alt_device_selector(self): self._alt_device_selector = NewDeviceSelectorComponent(self) self._alt_device_selector.name = 'Alt_Device_Selector' def _setup_alt_send_reset(self): self._alt_send_reset = ResetSendsComponent(self) self._alt_send_reset.name = 'Alt_Reset_Sends' """these two secondary DeviceComponents are only set up if the MONOHM_LINK flag in Map is turned on""" def _setup_alt_device_control(self): self._device1 = NewDeviceComponent() self._device1.name = 'Device_Component1' self._device2 = NewDeviceComponent() self._device2.name = 'Device_Component2' def _setup_alt_mixer(self): is_momentary = True self._num_tracks = (8) #A mixer is one-dimensional self._mixer2 = MixerComponent(8, 4, False, False) self._mixer2.name = 'Mixer' #self._mixer2.set_track_offset(4) #Sets start point for mixer strip (offset from left) for index in range(8): self._mixer2.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index) self._mixer2.channel_strip(index)._invert_mute_feedback = True """Mode Functions""" def _enable_alt(self): if self._main_mode._mode_index == 0: for encoder, _ in self._encoder_matrix.submatrix[:, 0:2].iterbuttons(): encoder.set_enabled(False) encoder.reset() self._alt_enabled = True self._mode_update() super(Codex, self)._enable_alt() def _disable_alt(self): if self._main_mode._mode_index == 0: self._button_matrix.submatrix[:, 0:2].reset() for encoder, _ in self._encoder_matrix.submatrix[:, 0:2].iterbuttons(): encoder.set_enabled(True) super(Codex, self)._disable_alt() def _deassign_all(self): self._alt_send_reset.set_buttons(None) self._alt_send_reset.set_enabled(False) self._alt_device_selector.set_buttons(None) self._alt_device_selector.set_enabled(False) self._mixer2.selected_strip().set_send_controls(None) for index in range(8): self._mixer2.channel_strip(index).set_volume_control(None) self._mixer2.channel_strip(index).set_select_button(None) self._mixer2.channel_strip(index).set_mute_button(None) self._dial[index][2].release_parameter() for index in range(3): self._mixer2.return_strip(index).set_volume_control(None) self._device1.set_enabled(False) self._device1._parameter_controls = None self._device2.set_enabled(False) self._device2._parameter_controls = None self._mixer2.return_strip(0).set_send_controls(None) self._mixer2.return_strip(1).set_send_controls(None) self._mixer2.return_strip(2).set_send_controls(None) super(Codex, self)._deassign_all() def _assign_volume(self): if self._alt_enabled: inputs = self.find_inputs() if not inputs is None: for index in range(4): self._dial[index][2].connect_to(inputs.parameters[index+1]) self._dial[6][2].connect_to(inputs.parameters[5]) xfade = self.find_perc_crossfader() if not xfade is None: self._dial[7][3].connect_to(xfade) self._alt_device_selector.set_matrix(self._button_matrix.submatrix[:, 0:2]) self._alt_device_selector.set_enabled(True) self._mixer2.return_strip(0).set_send_controls([None, self._dial[4][2]]) self._mixer2.return_strip(1).set_send_controls([self._dial[5][2], None]) else: self._alt_send_reset.set_buttons(self._button_matrix.submatrix[4:, 2]) self._alt_send_reset.set_enabled(True) self._mixer2.selected_strip().set_send_controls([self._dial[0][2], self._dial[1][2], self._dial[2][2], self._dial[3][2]]) for index in range(3): self._mixer2.return_strip(index).set_volume_control(self._dial[index+4][2]) self._mixer2.set_crossfader_control(self._dial[7][2]) self._device1.set_parameter_controls(tuple([self._dial[index%4][int(index/4)] for index in range(8)])) self._device2.set_parameter_controls(tuple([self._dial[(index%4)+4][int(index/4)] for index in range(8)])) self._device1.set_enabled(True) self._device2.set_enabled(True) self._find_devices() self._device1.update() self._device2.update() for index in range(8): self._mixer2.channel_strip(index).set_select_button(self._column_button[index]) for index in range(8): self._mixer2.channel_strip(index).set_volume_control(self._dial[index][3]) self._mixer2.channel_strip(index).set_mute_button(self._button[index][3]) self._mixer2.update() self.request_rebuild_midi_map() #self._mixer2.set_track_offset(TROLL_OFFSET) def find_inputs(self): found_device = None tracks = self.song().tracks for track in tracks: if track.name == 'Inputs': for device in track.devices: if bool(device.can_have_chains) and device.name.endswith('Inputs'): found_device = device return found_device def find_perc_crossfader(self): found_parameter = None tracks = self.song().tracks for track in tracks: if track.name == 'Perc': for device in track.devices: if bool(device.can_have_chains) and device.name == 'Perc': for parameter in device.parameters: if parameter.name == 'XFade': found_parameter = parameter return found_parameter """this method is used to find the devices the alt controls will latch to""" def _find_devices(self): if self._device1: if len(self.song().return_tracks) > 0: if len(self.song().return_tracks[0].devices) > 0: if self._device1._locked_to_device: self._device1.set_lock_to_device(False, self._device1._device) self._device1.set_lock_to_device(True, self.song().return_tracks[0].devices[0]) if self._device2: if len(self.song().return_tracks) > 1: if len(self.song().return_tracks[1].devices) > 0: if self._device2._locked_to_device: self._device2.set_lock_to_device(False, self._device2._device) self._device2.set_lock_to_device(True, self.song().return_tracks[1].devices[0]) # #