def _setup_modes(self): self._shift_mode = ShiftModeComponent(self) self._shift_mode.name = 'Shift_Mode' self._shift_mode.set_mode_toggle(self._shift_l, self._shift_r, self._livid) self._scale_mode = ScaleModeComponent(self) self._scale_mode.name = 'Scale_Mode' self._octave_mode = OctaveModeComponent(self) self._octave_mode.name = 'Octave_Mode' self._modNum = ModNumModeComponent(self, self.modNum_update) self._modNum.name = 'Mod_Number' self._modNum.set_mode = self._modNum_set_mode(self._modNum) self._modNum.set_mode_buttons([ self._menu[index] for index in range(6) ])
class OhmModes(ControlSurface):
__module__ = __name__
__doc__ = ' OhmModes controller script '
def __init__(self, c_instance):
ControlSurface.__init__(self, c_instance)
with self.component_guard():
self._version_check = 'b994'
self._host_name = 'Ohm'
self._color_type = 'OhmRGB'
self._hosts = []
self.hosts = []
self._client = [ None for index in range(6) ]
self._active_client = None
self.log_message('<<<<<<<<<<<<<<<<<<<<<<<<< OhmModes ' + str(self._version_check) + ' log opened >>>>>>>>>>>>>>>>>>>>>>>>>')
self._rgb = 0
self._timer = 0
self._touched = 0
self.flash_status = 1
self._backlight = 127
self._backlight_type = 'static'
self._ohm = 127
self._ohm_type = 'static'
self._pad_translations = PAD_TRANSLATION
self._device_selection_follows_track_selection = FOLLOW
self._keys_octave = 5
self._keys_scale = 0
self._tempo_buttons = None
self._setup_monobridge()
self._setup_controls()
self._setup_transport_control()
self._setup_mixer_control()
self._setup_session_control()
self._setup_device_control()
self._setup_crossfader()
self._setup_ohmmod()
self._setup_switchboard()
self._setup_modes()
self._assign_page_constants()
self._last_device = None
self.song().view.add_selected_track_listener(self._update_selected_device)
self.show_message('OhmModes Control Surface Loaded')
self._send_midi(tuple(switchxfader))
if FORCE_TYPE is True:
self._rgb = FORCE_COLOR_TYPE
else:
self.schedule_message(10, self.query_ohm, None)
self.log_message(str(self._highlighting_session_component))
def query_ohm(self):
self._send_midi(tuple(check_model))
def update_display(self):
ControlSurface.update_display(self)
self._timer = (self._timer + 1) % 256
self.flash()
self.strobe()
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def get_device_bank(self):
return self._device._bank_index
def _setup_controls(self):
is_momentary = True
self._fader = [ None for index in range(8) ]
self._dial = [ None for index in range(16) ]
self._button = [ None for index in range(8) ]
self._menu = [ None for index in range(6) ]
for index in range(8):
self._fader[index] = MonoEncoderElement2(MIDI_CC_TYPE, CHANNEL, OHM_FADERS[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self)
for index in range(8):
self._button[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_' + str(index), self)
for index in range(16):
self._dial[index] = CodecEncoderElement(MIDI_CC_TYPE, CHANNEL, OHM_DIALS[index], Live.MidiMap.MapMode.absolute, 'Encoder_' + str(index), index, self)
self._knobs = []
for index in range(12):
self._knobs.append(self._dial[index])
for index in range(6):
self._menu[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_MENU[index], 'Menu_' + str(index), self)
self._crossfader = EncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute)
self._crossfader.name = 'Crossfader'
self._livid = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
self._shift_l = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Page_Button_Left', self)
self._shift_r = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Page_Button_Right', self)
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Matrix'
self._grid = [ None for index in range(8) ]
self._monomod = ButtonMatrixElement()
self._monomod.name = 'Monomod'
for column in range(8):
self._grid[column] = [ None for index in range(8) ]
for row in range(8):
self._grid[column][row] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, column * 8 + row, 'Grid_' + str(column) + '_' + str(row), self)
for row in range(5):
button_row = []
for column in range(7):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
for row in range(8):
button_row = []
for column in range(8):
button_row.append(self._grid[column][row])
self._monomod.add_row(tuple(button_row))
self._mod_matrix = ButtonMatrixElement()
self._mod_matrix.name = 'Matrix'
self._dial_matrix = EncoderMatrixElement(self)
self._dial_matrix.name = 'Dial_Matrix'
self._dial_button_matrix = ButtonMatrixElement()
self._dial_button_matrix.name = 'Dial_Button_Matrix'
for row in range(4):
button_row = []
for column in range(4):
button_row.append(self._grid[column + 4][row])
self._mod_matrix.add_row(tuple(button_row))
for row in range(3):
dial_row = []
for column in range(4):
dial_row.append(self._dial[row * 4 + column])
self._dial_matrix.add_row(tuple(dial_row))
for row in range(3):
dial_button_row = []
for column in range(4):
dial_button_row.append(self._grid[column][row])
self._dial_button_matrix.add_row(tuple(dial_button_row))
self._key = [ self._grid[KEYS[index][1]][KEYS[index][0]] for index in range(32) ]
self._encoder = [ self._dial[index] for index in range(12) ]
self._key_matrix = ButtonMatrixElement()
button_row = []
for column in range(16):
button_row.append(self._key[16 + column])
self._key_matrix.add_row(tuple(button_row))
def _setup_ohmmod(self):
self._host = MonomodComponent(self)
self._host.name = 'Monomod_Host'
self.hosts = [self._host]
self._hosts = [self._host]
for index in range(6):
self._client[index] = MonoClient(self, index)
self._client[index].name = 'Client_' + str(index)
self._client[index]._device_component.set_parameter_controls(tuple([ self._dial[num] for num in range(12) ]))
self._client[index]._control_defs = {'dials': self._dial_matrix,
'buttons': self._dial_button_matrix,
'grid': self._mod_matrix,
'keys': self._key,
'knobs': [ self._dial[num + 12] for num in range(4) ]}
self._host._active_client = self._client[0]
self._host._active_client._is_active = True
self._host.connect_to_clients(self)
def _setup_switchboard(self):
self._switchboard = SwitchboardElement(self, self._client)
self._switchboard.name = 'Switchboard'
def _setup_modes(self):
self._shift_mode = ShiftModeComponent(self)
self._shift_mode.name = 'Shift_Mode'
self._shift_mode.set_mode_toggle(self._shift_l, self._shift_r, self._livid)
self._scale_mode = ScaleModeComponent(self)
self._scale_mode.name = 'Scale_Mode'
self._octave_mode = OctaveModeComponent(self)
self._octave_mode.name = 'Octave_Mode'
self._modNum = ModNumModeComponent(self, self.modNum_update)
self._modNum.name = 'Mod_Number'
self._modNum.set_mode = self._modNum_set_mode(self._modNum)
self._modNum.set_mode_buttons([ self._menu[index] for index in range(6) ])
def _modNum_set_mode(self, modNum):
def set_mode(mode):
if modNum._is_enabled == True:
assert isinstance(mode, int)
assert (mode in range(modNum.number_of_modes()))
if (modNum._mode_index != mode):
modNum._mode_index = mode
modNum.update()
return set_mode
def _setup_transport_control(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
def _setup_mixer_control(self):
global mixer
is_momentary = True
self._num_tracks = 7
mixer = SpecialMixerComponent(7, 0, True, False)
mixer.name = 'Mixer'
self._mixer = mixer
for index in range(7):
mixer.channel_strip(index).set_volume_control(self._fader[index])
for index in range(7):
mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
mixer.track_eq(index).name = 'Mixer_EQ_' + str(index)
mixer.channel_strip(index)._invert_mute_feedback = True
self.song().view.selected_track = mixer.channel_strip(0)._track
def _setup_session_control(self):
global session
is_momentary = True
num_tracks = 7
num_scenes = 5
session = SessionComponent(num_tracks, num_scenes)
session.name = 'Session'
self._session = session
session.set_offsets(0, 0)
self._scene = [ None for index in range(6) ]
for row in range(num_scenes):
self._scene[row] = session.scene(row)
self._scene[row].name = 'Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self._scene[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_' + str(row)
session.set_mixer(self._mixer)
session.set_show_highlight(True)
self._session_zoom = SessionZoomingComponent(session)
self._session_zoom.name = 'Session_Overview'
self.set_highlighting_session_component(self._session)
def _assign_session_colors(self):
self.log_message('assign session colors')
num_tracks = 7
num_scenes = 5
self._session.set_stop_track_clip_value(STOP_CLIP_COLOR[self._rgb])
for row in range(num_scenes):
for column in range(num_tracks):
self._scene[row].clip_slot(column).set_triggered_to_play_value(CLIP_TRIGD_TO_PLAY_COLOR[self._rgb])
self._scene[row].clip_slot(column).set_triggered_to_record_value(CLIP_TRIGD_TO_RECORD_COLOR[self._rgb])
self._scene[row].clip_slot(column).set_stopped_value(CLIP_STOPPED_COLOR[self._rgb])
self._scene[row].clip_slot(column).set_started_value(CLIP_STARTED_COLOR[self._rgb])
self._scene[row].clip_slot(column).set_recording_value(CLIP_RECORDING_COLOR[self._rgb])
self._session_zoom.set_stopped_value(ZOOM_STOPPED_COLOR[self._rgb])
self._session_zoom.set_playing_value(ZOOM_PLAYING_COLOR[self._rgb])
self._session_zoom.set_selected_value(ZOOM_SELECTED_COLOR[self._rgb])
for row in range(8):
for column in range(8):
self._grid[column][row].set_force_next_value()
self._session.on_scene_list_changed()
self._shift_mode.update()
def _setup_device_control(self):
self._device = DeviceComponent()
self._device.name = 'Device_Component'
self.set_device_component(self._device)
self._device_navigator = DetailViewControllerComponent()
self._device_navigator.name = 'Device_Navigator'
self._device_selection_follows_track_selection = FOLLOW
def device_follows_track(self, val):
self._device_selection_follows_track_selection = val == 1
return self
def _setup_crossfader(self):
self._mixer.set_crossfader_control(self._crossfader)
def disconnect(self):
"""clean things up on disconnect"""
self.song().view.remove_selected_track_listener(self._update_selected_device)
self.log_message(time.strftime('%d.%m.%Y %H:%M:%S', time.localtime()) + '--------------= OhmModes log closed =--------------')
ControlSurface.disconnect(self)
def _get_num_tracks(self):
return self.num_tracks
def flash(self):
for row in range(8):
if self._button[row]._flash_state > 0:
self._button[row].flash(self._timer)
for column in range(8):
button = self._grid[column][row]
if button._flash_state > 0:
button.flash(self._timer)
def strobe(self):
if self._backlight_type != 'static':
if self._backlight_type is 'pulse':
self._backlight = int(math.fabs(self._timer * 16 % 64 - 32) + 32)
if self._backlight_type is 'up':
self._backlight = int(self._timer * 8 % 64 + 16)
if self._backlight_type is 'down':
self._backlight = int(math.fabs(int(self._timer * 8 % 64 - 64)) + 16)
self._send_midi(tuple([176, 27, int(self._backlight)]))
if self._ohm_type != 'static':
if self._ohm_type is 'pulse':
self._ohm = int(math.fabs(self._timer * 16 % 64 - 32) + 32)
if self._ohm_type is 'up':
self._ohm = int(self._timer * 8 % 64 + 16)
if self._ohm_type is 'down':
self._ohm = int(math.fabs(int(self._timer * 8 % 64 - 64)) + 16)
self._send_midi(tuple([176, 63, int(self._ohm)]))
self._send_midi(tuple([176, 31, int(self._ohm)]))
def deassign_matrix(self):
with self.component_guard():
self._host._set_knobs(None)
self._host._set_button_matrix(None)
self._host.set_enabled(False)
self._modNum.set_enabled(False)
self.assign_alternate_mappings(0)
self._scale_mode.set_mode_buttons(None)
self._scale_mode.set_enabled(False)
self._octave_mode.set_mode_buttons(None)
self._octave_mode.set_enabled(False)
self._session_zoom.set_enabled(False)
self._session_zoom.set_nav_buttons(None, None, None, None)
self._session.set_track_bank_buttons(None, None)
self._session.set_scene_bank_buttons(None, None)
self._transport.set_enabled(False)
for column in range(4):
self._mixer.track_eq(column)._gain_controls = None
self._mixer.track_eq(column).set_enabled(False)
for column in range(7):
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)
self._mixer.channel_strip(column).set_send_controls(None)
self._mixer.channel_strip(column).set_pan_control(None)
self._mixer.track_eq(column).set_enabled(False)
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(None)
"""for column in range(8):
self._button[column]._on_value = SELECT_COLOR[self._rgb]
for row in range(8):
self._grid[column][row].set_enabled(True)
self._grid[column][row].release_parameter()
self._grid[column][row].use_default_message()
self._grid[column][row].set_on_off_values(127, 0)
self._grid[column][row].send_value(0, True)"""
for column in range(8):
self._button[column]._on_value = SELECT_COLOR[self._rgb]
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].send_value(0, True)
self._grid[column][row]._on_value = 127
self._grid[column][row]._off_value = 0
self._grid[column][row].force_next_send()
for index in range(6):
self._menu[index]._on_value = 127
self._menu[index]._off_value = 0
for index in range(16):
self._dial[index].use_default_message()
self._dial[index].release_parameter()
self._device.set_parameter_controls(None)
self._device.set_enabled(False)
self._device_navigator.set_enabled(False)
self._mixer.update()
self._matrix.reset()
self.request_rebuild_midi_map()
def _assign_page_constants(self):
with self.component_guard():
self._session_zoom.set_zoom_button(self._grid[7][7])
self._session_zoom.set_button_matrix(self._matrix)
for column in range(7):
self._mixer.channel_strip(column).set_select_button(self._button[column])
self._mixer.channel_strip(column).set_volume_control(self._fader[column])
self._mixer.master_strip().set_volume_control(self._fader[7])
self._mixer.master_strip().set_select_button(self._button[7])
self._mixer.set_prehear_volume_control(self._dial[15])
self._transport.set_play_button(self._menu[0])
self._menu[0].send_value(PLAY_COLOR[self._rgb], True)
self._menu[0]._on_value = PLAY_COLOR[self._rgb]
self._transport.set_stop_button(self._menu[1])
self._menu[1]._off_value = STOP_COLOR[self._rgb]
self._menu[1]._on_value = STOP_COLOR[self._rgb]
self._menu[1].send_value(STOP_COLOR[self._rgb], True)
self._device_navigator.set_device_nav_buttons(self._menu[3], self._menu[4])
def assign_page_0(self):
with self.component_guard():
self._backlight_type = 'static'
self._session_zoom.set_enabled(True)
for column in range(7):
self._grid[column][5]._on_value = MUTE_COLOR[self._rgb]
self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
self._grid[column][6]._on_value = SOLO_COLOR[self._rgb]
self._mixer.channel_strip(column).set_solo_button(self._grid[column][6])
self._grid[column][7]._on_value = ARM_COLOR[self._rgb]
self._mixer.channel_strip(column).set_arm_button(self._grid[column][7])
self._mixer.channel_strip(column).set_pan_control(self._dial[column + 8])
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
for column in range(4):
self._mixer.channel_strip(column).set_send_controls(tuple([self._dial[column], self._dial[column + 4]]))
for index in range(5):
self._grid[7][index]._off_value = SCENE_LAUNCH_COLOR[self._rgb]
self._scene[index].set_launch_button(self._grid[7][index])
self._grid[7][index].set_force_next_value()
self._grid[7][index].turn_off()
for index in range(4):
self._menu[2 + index]._on_value = NAV_BUTTON_COLOR[self._rgb]
self._session.set_track_bank_buttons(self._menu[4], self._menu[3])
self._session.set_scene_bank_buttons(self._menu[5], self._menu[2])
self._menu[0]._on_value = PLAY_COLOR[self._rgb]
self._menu[1]._off_value = STOP_COLOR[self._rgb]
self._menu[1]._on_value = STOP_COLOR[self._rgb]
self._transport.set_enabled(True)
#self._mixer.update_all()
self.request_rebuild_midi_map()
#self.log_message('assign_page_0')
def assign_page_1(self):
with self.component_guard():
self._backlight_type = 'pulse'
self._session_zoom.set_enabled(False)
for column in range(4):
for row in range(4):
self._grid[column][row].send_value(DRUM_COLOR[self._rgb], True)
self._grid[column + 4][row].send_value(BASS_COLOR[self._rgb], True)
self._grid[column][row].set_enabled(False)
self._grid[column][row]._msg_channel = PAGE1_DRUM_CHANNEL
self._grid[column][row].set_identifier(PAGE1_DRUM_MAP[column][row])
self._grid[column + 4][row].set_enabled(False)
self._grid[column + 4][row]._msg_channel = PAGE1_BASS_CHANNEL
self._grid[column + 4][row].set_identifier(PAGE1_BASS_MAP[column][row])
scale_mode_buttons = []
for column in range(8):
for row in range(3):
self._grid[column][row + 4].set_enabled(False)
self._grid[column][row + 4].send_value(KEYS_COLOR[self._rgb], True)
self._grid[column][row + 4]._msg_channel = PAGE1_KEYS_CHANNEL
self._grid[column][row + 4].set_identifier(int(PAGE1_KEYS_MAP[column][row]) + int(PAGE1_MODES_MAP[self._scale_mode._mode_index][column]) + int(self._octave_mode._mode_index * 12))
for row in range(1):
scale_mode_buttons.append(self._grid[column][7])
self._scale_mode.set_mode_buttons(tuple(scale_mode_buttons))
self._scale_mode.set_enabled(True)
self._octave_mode.set_mode_buttons(tuple([self._menu[5], self._menu[2]]))
self._octave_mode.set_enabled(True)
for column in range(7):
self._mixer.channel_strip(column).set_send_controls(tuple([self._dial[column + 8]]))
self._mixer.channel_strip(column).set_arm_button(self._button[column])
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._menu[0]._on_value = PLAY_COLOR[self._rgb]
for index in range(4):
self._menu[2 + index]._on_value = DEVICE_NAV_COLOR[self._rgb]
self._device_navigator.set_enabled(True)
self._menu[0]._on_value = PLAY_COLOR[self._rgb]
self._menu[1]._off_value = STOP_COLOR[self._rgb]
self._menu[1]._on_value = STOP_COLOR[self._rgb]
self._transport.set_enabled(True)
self.request_rebuild_midi_map()
def assign_page_2(self):
with self.component_guard():
self._backlight_type = 'up'
self._session_zoom.set_enabled(True)
for column in range(7):
self._grid[column][5]._on_value = MUTE_COLOR[self._rgb]
self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
self._grid[column][6]._on_value = CROSSFADE_ASSIGN_COLOR[self._rgb]
self._mixer.channel_strip(column).set_crossfade_toggle(self._grid[column][6])
self._grid[column][7]._msg_channel = 2
self._grid[column][7].set_identifier(column)
self._grid[column][7].reset()
self._grid[column][7].set_enabled(False)
self._grid[column][7].send_value(4, True)
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
for row in range(5):
self._grid[7][row]._off_value = SCENE_LAUNCH_COLOR[self._rgb]
self._scene[row].set_launch_button(self._grid[7][row])
self._grid[7][row].set_force_next_value()
self._grid[7][row].turn_off()
for column in range(4):
self._mixer.track_eq(column).set_gain_controls(tuple([self._dial[column + 8], self._dial[column + 4], self._dial[column]]))
self._mixer.track_eq(column).set_enabled(True)
for column in range(3):
self._mixer.channel_strip(column + 4).set_pan_control(self._dial[column + 12])
for index in range(4):
self._menu[2 + index]._on_value = NAV_BUTTON_COLOR[self._rgb]
self._session.set_track_bank_buttons(self._menu[4], self._menu[3])
self._session.set_scene_bank_buttons(self._menu[5], self._menu[2])
self._set_tempo_buttons([self._grid[7][5], self._grid[7][6]])
self._menu[0]._on_value = PLAY_COLOR[self._rgb]
self._menu[1]._off_value = STOP_COLOR[self._rgb]
self._menu[1]._on_value = STOP_COLOR[self._rgb]
self._transport.set_enabled(True)
#self._mixer.update()
self.request_rebuild_midi_map()
def assign_mod(self):
with self.component_guard():
self.deassign_matrix()
self._host.set_enabled(True)
self._modNum.set_enabled(True)
self._host._set_dial_matrix(self._dial_matrix, self._dial_button_matrix)
self._host._set_button_matrix(self._mod_matrix)
self._host._set_key_buttons(tuple(self._key))
if not self._host._active_client.is_connected():
self.assign_alternate_mappings(self._modNum._mode_index + 1)
def modNum_update(self):
if self._modNum._is_enabled == True:
self.assign_alternate_mappings(0)
self._host._select_client(int(self._modNum._mode_index))
self._host.display_active_client()
if not self._host._active_client.is_connected():
self.assign_alternate_mappings(self._modNum._mode_index + 1)
for button in self._modNum._modes_buttons:
if self._modNum._mode_index == self._modNum._modes_buttons.index(button):
button.send_value(1)
else:
button.send_value(self._client[self._modNum._modes_buttons.index(button)]._mod_color)
def assign_alternate_mappings(self, chan):
for column in range(8):
for row in range(8):
self._grid[column][row].set_channel(chan)
for knob in self._encoder:
knob.set_channel(chan)
knob.set_enabled(chan is 0)
self.request_rebuild_midi_map()
def display_mod_colors(self):
pass
def _update_selected_device(self):
if self._device_selection_follows_track_selection is True:
track = self.song().view.selected_track
device_to_select = track.view.selected_device
if device_to_select == None and len(track.devices) > 0:
device_to_select = track.devices[0]
if device_to_select != None:
self.song().view.select_device(device_to_select)
self.set_appointed_device(device_to_select)
self.request_rebuild_midi_map()
def handle_sysex(self, midi_bytes):
if len(midi_bytes) > 10:
if midi_bytes[:11] == tuple([240,
126,
0,
6,
2,
0,
1,
97,
1,
0,
7]):
self.log_message(str('>>>color detected'))
self._rgb = 0
elif midi_bytes[:11] == tuple([240,
126,
0,
6,
2,
0,
1,
97,
1,
0,
2]):
self.log_message(str('>>>mono detected'))
self._rgb = 1
self._assign_session_colors()
def to_encoder(self, num, val):
rv = int(val * 127)
self._device._parameter_controls[num].receive_value(rv)
p = self._device._parameter_controls[num]._parameter_to_map_to
newval = val * (p.max - p.min) + p.min
p.value = newval
def set_local_ring_control(self, val = 1):
self._local_ring_control = val != 0
def set_absolute_mode(self, val = 1):
self._absolute_mode = val != 0
def send_ring_leds(self):
"""if self._host._is_enabled == True:
leds = [240, 0, 1, 97, 8, 31]
for index in range(12):
wheel = self._encoder[index]
bytes = wheel._get_ring()
leds.append(bytes[0])
leds.append(int(bytes[1]) + int(bytes[2]))
leds.append(247)
self._send_midi(tuple(leds))"""
pass
def _set_tempo_buttons(self, buttons):
if self._tempo_buttons != None:
self._tempo_buttons[0].remove_value_listener(self._tempo_value)
self._tempo_buttons[1].remove_value_listener(self._tempo_value)
self._tempo_buttons = buttons
if buttons != None:
for button in buttons:
assert isinstance(button, FlashingButtonElement)
self._tempo_buttons[0].set_on_off_values(4, 0)
self._tempo_buttons[0].add_value_listener(self._tempo_value, True)
self._tempo_buttons[1].set_on_off_values(4, 0)
self._tempo_buttons[1].add_value_listener(self._tempo_value, True)
self._tempo_buttons[0].turn_on()
self._tempo_buttons[1].turn_on()
def _tempo_value(self, value, sender):
if value > 0 and self._tempo_buttons.index(sender) == 0:
self.song().tempo = round(min(self.song().tempo + 1, 999))
elif value > 0 and self._tempo_buttons.index(sender) == 1:
self.song().tempo = round(max(self.song().tempo - 1, 20))
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, tuple([MonoEncoderElement2, CodecEncoderElement])):
self._monobridge._send(sender.name, 'lcd_name', str(self.generate_strip_string(name)))
self._monobridge._send(sender.name, 'lcd_value', str(self.generate_strip_string(value)))
def touched(self):
if self._touched is 0:
self._monobridge._send('touch', 'on')
self.schedule_message(2, self.check_touch)
self._touched += 1
def check_touch(self):
if self._touched > 5:
self._touched = 5
elif self._touched > 0:
self._touched -= 1
if self._touched is 0:
self._monobridge._send('touch', 'off')
else:
self.schedule_message(2, self.check_touch)
def get_clip_names(self):
clip_names = []
for scene in self._session._scenes:
for clip_slot in scene._clip_slots:
if clip_slot.has_clip() is True:
clip_names.append(clip_slot._clip_slot)
return clip_slot._clip_slot
return clip_names
def shift_update(self):
pass
class OhmModes(ControlSurface):
__module__ = __name__
__doc__ = " OhmModes 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()) + "--------------= OhmModes log opened =--------------") # Writes message into Live's main log file. This is a ControlSurface method.
self.set_suppress_rebuild_requests(True) # Turn off rebuild MIDI map until after we're done setting up
self._version_check = 'b993'
self._host_name = 'Ohm'
self._hosts = []
self.hosts = []
self._client = [None for index in range(6)]
self._active_client = None
self._bright = True
self.flash_status = 1
self._touched = 0
self._backlight = 127
self._backlight_type = 'static'
self._ohm = 127
self._ohm_type = 'static'
self._pad_translations = PAD_TRANSLATION
self._rgb = 1
self._keys_octave = 5
self._keys_scale = 0
self._tempo_buttons = None
self._setup_monobridge()
self._setup_controls()
self._setup_transport_control() # Run the transport setup part of the script
self._setup_mixer_control() # Setup the mixer object
self._setup_session_control() # Setup the session object
self._setup_device_control() # Setup the device object
self._setup_crossfader()
self._setup_ohmmod()
self._setup_switchboard()
self._setup_modes()
self._assign_page_constants()
self._last_device = None
self._timer = 0
self.set_suppress_rebuild_requests(False) #Turn rebuild back on, now that we're done setting up
self.song().view.add_selected_track_listener(self._update_selected_device)
self.show_message('OhmModes Control Surface Loaded')
self._send_midi(tuple(switchxfader))
self.schedule_message(10, self.query_ohm, None)
def query_ohm(self):
#self.log_message('querying Ohm')
self._send_midi(tuple(check_model))
def update_display(self):
""" Live -> Script
Aka on_timer. Called every 100 ms and should be used to update display relevant
parts of the controller
"""
for message in self._scheduled_messages:
message['Delay'] -= 1
if (message['Delay'] == 0):
if (message['Parameter'] != None):
message['Message'](message['Parameter'])
else:
message['Message']()
del self._scheduled_messages[self._scheduled_messages.index(message)]
for callback in self._timer_callbacks:
callback()
self._timer = (self._timer + 1) % 256
self.flash()
self.strobe()
def _setup_monobridge(self):
self._monobridge = MonoBridgeElement(self)
self._monobridge.name = 'MonoBridge'
def get_device_bank(self):
return self._device._bank_index
def _setup_controls(self):
is_momentary = True
self._fader = [None for index in range(8)]
self._dial = [None for index in range(16)]
self._button = [None for index in range(8)]
self._menu = [None for index in range(6)]
for index in range(8):
self._fader[index] = MonoEncoderElement2(MIDI_CC_TYPE, CHANNEL, OHM_FADERS[index], Live.MidiMap.MapMode.absolute, 'Fader_' + str(index), index, self)
#self._fader[index].name = 'Fader_' + str(index), self
for index in range(8):
self._button[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_BUTTONS[index], 'Button_' + str(index), self)
for index in range(16):
self._dial[index] = MonoEncoderElement2(MIDI_CC_TYPE, CHANNEL, OHM_DIALS[index], Live.MidiMap.MapMode.absolute, 'Dial_' + str(index), index, self)
#self._dial[index].name = 'Dial_' + str(index)
self._knobs = []
for index in range(12):
self._knobs.append(self._dial[index])
for index in range(6):
self._menu[index] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, OHM_MENU[index], 'Menu_' + str(index), self)
self._crossfader = EncoderElement(MIDI_CC_TYPE, CHANNEL, CROSSFADER, Live.MidiMap.MapMode.absolute)
self._crossfader.name = "Crossfader"
self._livid = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, LIVID, 'Livid_Button', self)
self._shift_l = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_L, 'Page_Button_Left', self)
self._shift_r = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, SHIFT_R, 'Page_Button_Right', self)
self._matrix = ButtonMatrixElement()
self._matrix.name = 'Matrix'
self._grid = [None for index in range(8)]
self._monomod = ButtonMatrixElement()
self._monomod.name = 'Monomod'
for column in range(8):
self._grid[column] = [None for index in range(8)]
for row in range(8):
self._grid[column][row] = FlashingButtonElement(is_momentary, MIDI_NOTE_TYPE, CHANNEL, (column * 8) + row, 'Grid_' + str(column) + '_' + str(row), self)
for row in range(5):
button_row = []
for column in range(7):
button_row.append(self._grid[column][row])
self._matrix.add_row(tuple(button_row))
for row in range(8):
button_row = []
for column in range(8):
button_row.append(self._grid[column][row])
self._monomod.add_row(tuple(button_row))
def _setup_ohmmod(self):
self._host = MonomodComponent(self)
self._host.name = 'Monomod_Host'
self.hosts = [self._host]
self._hosts = [self._host]
for index in range(6):
self._client[index] = MonoClient(self, index)
self._client[index].name = 'Client_' + str(index)
#self._client[index]._mod_dial = self._encoder[index]
self._host._active_client = self._client[0]
self._host._active_client._is_active = True
self._host.connect_to_clients(self)
def _setup_switchboard(self):
self._switchboard = SwitchboardElement(self, self._client)
self._switchboard.name = 'Switchboard'
def _setup_modes(self):
self._shift_mode = ShiftModeComponent(self)
self._shift_mode.name = 'Shift_Mode'
self._shift_mode.set_mode_toggle(self._shift_l, self._shift_r, self._livid)
self._scale_mode = ScaleModeComponent(self)
self._scale_mode.name = "Scale_Mode"
self._octave_mode = OctaveModeComponent(self)
self._octave_mode.name = "Octave_Mode"
self._modNum = ModNumModeComponent(self, self.modNum_update)
self._modNum.name = 'Mod_Number'
self._modNum.set_mode = self._modNum_set_mode(self._modNum)
self._modNum.set_mode_buttons([self._menu[index] for index in range(6)])
def _modNum_set_mode(self, modNum):
def set_mode(mode):
if modNum._is_enabled == True:
assert isinstance(mode, int)
assert (mode in range(modNum.number_of_modes()))
if (modNum._mode_index != mode):
modNum._mode_index = mode
modNum.update()
return set_mode
def _setup_transport_control(self):
self._transport = TransportComponent()
self._transport.name = 'Transport'
def _setup_mixer_control(self):
is_momentary = True
self._num_tracks = (7) #A mixer is one-dimensional;
global mixer
mixer = SpecialMixerComponent(7, 0, True, False)
mixer.name = 'Mixer'
self._mixer = mixer
mixer.set_track_offset(0) #Sets start point for mixer strip (offset from left)
for index in range(7):
mixer.channel_strip(index).set_volume_control(self._fader[index])
for index in range(7):
mixer.channel_strip(index).name = 'Mixer_ChannelStrip_' + str(index)
mixer.track_eq(index).name = 'Mixer_EQ_' + str(index)
mixer.channel_strip(index)._invert_mute_feedback = True
self.song().view.selected_track = 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
def _setup_session_control(self):
is_momentary = True
num_tracks = 7
num_scenes = 5
global session
session = SessionComponent(num_tracks, num_scenes)
session.name = "Session"
self._session = session
session.set_offsets(0, 0)
self._scene = [None for index in range(6)]
for row in range(num_scenes):
self._scene[row] = session.scene(row)
self._scene[row].name = 'Scene_' + str(row)
for column in range(num_tracks):
clip_slot = self._scene[row].clip_slot(column)
clip_slot.name = str(column) + '_Clip_Slot_' + str(row)
session.set_mixer(self._mixer)
self._session_zoom = SessionZoomingComponent(session)
self._session_zoom.name = 'Session_Overview'
def _assign_session_colors(self):
num_tracks = 7
num_scenes = 5
self._session.set_stop_track_clip_value(STOP_CLIP_COLOR[self._rgb])
for row in range(num_scenes):
for column in range(num_tracks):
self._scene[row].clip_slot(column).set_triggered_to_play_value(CLIP_TRIGD_TO_PLAY_COLOR[self._rgb])
self._scene[row].clip_slot(column).set_triggered_to_record_value(CLIP_TRIGD_TO_RECORD_COLOR[self._rgb])
self._scene[row].clip_slot(column).set_stopped_value(CLIP_STOPPED_COLOR[self._rgb])
self._scene[row].clip_slot(column).set_started_value(CLIP_STARTED_COLOR[self._rgb])
self._scene[row].clip_slot(column).set_recording_value(CLIP_RECORDING_COLOR[self._rgb])
self._session_zoom.set_stopped_value(ZOOM_STOPPED_COLOR[self._rgb])
self._session_zoom.set_playing_value(ZOOM_PLAYING_COLOR[self._rgb])
self._session_zoom.set_selected_value(ZOOM_SELECTED_COLOR[self._rgb])
def _setup_device_control(self):
self._device = DeviceComponent()
self._device.name = 'Device_Component'
self.set_device_component(self._device)
self._device_navigator = DetailViewControllerComponent()
self._device_navigator.name = 'Device_Navigator'
self._device_selection_follows_track_selection = FOLLOW
def device_follows_track(self, val):
self._device_selection_follows_track_selection = (val == 1)
return self
def _setup_crossfader(self):
self._mixer.set_crossfader_control(self._crossfader)
def disconnect(self):
"""clean things up on disconnect"""
self.song().view.remove_selected_track_listener(self._update_selected_device)
self.log_message(time.strftime("%d.%m.%Y %H:%M:%S", time.localtime()) + "--------------= OhmModes log closed =--------------") #Create entry in log file
ControlSurface.disconnect(self)
return None
def _get_num_tracks(self):
return self.num_tracks
def flash(self):
#if(self.flash_status > 0):
for row in range(8):
if(self._button[row]._flash_state > 0):
self._button[row].flash(self._timer)
for column in range(8):
button = self._grid[column][row]
if(button._flash_state > 0):
button.flash(self._timer)
def strobe(self):
if(self._backlight_type != 'static'):
if(self._backlight_type is 'pulse'):
self._backlight = int(math.fabs(((self._timer * 16) % 64) -32) +32)
if(self._backlight_type is 'up'):
self._backlight = int(((self._timer * 8) % 64) + 16)
if(self._backlight_type is 'down'):
self._backlight = int(math.fabs(int(((self._timer * 8) % 64) - 64)) + 16)
self._send_midi(tuple([176, 27, int(self._backlight)]))
if(self._ohm_type != 'static'):
if(self._ohm_type is 'pulse'):
self._ohm = int(math.fabs(((self._timer * 16) % 64) -32) +32)
if(self._ohm_type is 'up'):
self._ohm = int(((self._timer * 8) % 64) + 16)
if(self._ohm_type is 'down'):
self._ohm = int(math.fabs(int(((self._timer * 8) % 64) - 64)) + 16)
self._send_midi(tuple([176, 63, int(self._ohm)]))
self._send_midi(tuple([176, 31, int(self._ohm)]))
def deassign_matrix(self):
self._host._set_knobs(None)
self._host._set_button_matrix(None)
self._modNum.set_enabled(False)
self.assign_alternate_mappings(0)
self._scale_mode.set_mode_buttons(None)
self._scale_mode.set_enabled(False)
self._octave_mode.set_mode_buttons(None)
self._octave_mode.set_enabled(False)
#self._session_zoom.set_button_matrix(None)
self._session_zoom.set_enabled(False)
self._session_zoom.set_nav_buttons(None, None, None, None)
self._session.set_track_bank_buttons(None, None)
self._session.set_scene_bank_buttons(None, None)
for column in range(4):
#self._mixer.track_eq(column).set_gain_controls(tuple([self._dial[column + 8], self._dial[column + 4], self._dial[column]]))
self._mixer.track_eq(column)._gain_controls = None
self._mixer.track_eq(column).set_enabled(False)
for column in range(7):
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)
self._mixer.channel_strip(column).set_send_controls(None)
self._mixer.channel_strip(column).set_pan_control(None)
self._mixer.track_eq(column).set_enabled(False)
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(None)
for column in range(8):
self._button[column]._on_value = SELECT_COLOR[self._rgb]
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].send_value(0, True)
self._grid[column][row]._on_value = 127
self._grid[column][row]._off_value = 0
for index in range(6):
self._menu[index]._on_value = 127
self._menu[index]._off_value = 0
for index in range(16):
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._device.set_enabled(False)
self._device_navigator.set_enabled(False)
self._mixer.update()
self._matrix.reset()
self._transport.set_play_button(None)
self._transport.set_stop_button(None)
self.request_rebuild_midi_map()
def _assign_page_constants(self):
#self._session_zoom.set_zoom_button(self._button[7]) #commented out pn 070111
self._session_zoom.set_zoom_button(self._grid[7][7]) #added pn 070111
self._session_zoom.set_button_matrix(self._matrix)
#self._session_zoom.set_enabled(True)
for column in range(7):
self._mixer.channel_strip(column).set_select_button(self._button[column])
self._mixer.channel_strip(column).set_volume_control(self._fader[column])
self._mixer.master_strip().set_volume_control(self._fader[7])
self._mixer.master_strip().set_select_button(self._button[7]) #added pn 070111
self._mixer.set_prehear_volume_control(self._dial[15])
self._transport.set_play_button(self._menu[0])
self._menu[0].send_value(PLAY_COLOR[self._rgb], True)
self._menu[0]._on_value = PLAY_COLOR[self._rgb]
self._transport.set_stop_button(self._menu[1])
self._menu[1]._off_value = STOP_COLOR[self._rgb]
self._menu[1]._on_value = STOP_COLOR[self._rgb]
self._menu[1].send_value(STOP_COLOR[self._rgb], True)
#self._livid._on_value = TAP_COLOR[self._rgb]
#self._transport.set_tap_tempo_button(self._livid)
#self._livid.send_value(TAP_COLOR, True)
self._device_navigator.set_device_nav_buttons(self._menu[3], self._menu[4])
def assign_page_0(self):
self._backlight_type = 'static'
#self._session_zoom.set_button_matrix(self._matrix)
self._transport.set_play_button(self._menu[0])
self._transport.set_stop_button(self._menu[1])
self._session_zoom.set_enabled(True)
for column in range(7):
self._grid[column][5]._on_value = MUTE_COLOR[self._rgb]
self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
self._grid[column][6]._on_value = SOLO_COLOR[self._rgb]
self._mixer.channel_strip(column).set_solo_button(self._grid[column][6])
self._grid[column][7]._on_value = ARM_COLOR[self._rgb]
self._mixer.channel_strip(column).set_arm_button(self._grid[column][7])
self._mixer.channel_strip(column).set_pan_control(self._dial[column + 8])
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
for column in range(4):
self._mixer.channel_strip(column).set_send_controls(tuple([self._dial[column], self._dial[column + 4]]))
for index in range(5):
self._grid[7][index]._off_value = SCENE_LAUNCH_COLOR[self._rgb]
self._scene[index].set_launch_button(self._grid[7][index])
for index in range(4):
self._menu[2 + index]._on_value = NAV_BUTTON_COLOR[self._rgb]
self._session.set_track_bank_buttons(self._menu[4], self._menu[3])
self._session.set_scene_bank_buttons(self._menu[5], self._menu[2])
def assign_page_1(self):
self._backlight_type = 'pulse'
self._transport.set_play_button(self._menu[0])
self._transport.set_stop_button(self._menu[1])
self._session_zoom.set_enabled(False)
for column in range(4):
for row in range(4):
self._grid[column][row].set_channel(PAGE1_DRUM_CHANNEL)
self._grid[column][row].set_identifier(PAGE1_DRUM_MAP[column][row])
self._grid[column][row].send_value(DRUM_COLOR[self._rgb], True)
self._grid[column][row].set_enabled(False)
self._grid[column + 4][row].set_channel(PAGE1_BASS_CHANNEL)
self._grid[column + 4][row].set_identifier(PAGE1_BASS_MAP[column][row])
self._grid[column + 4][row].send_value(BASS_COLOR[self._rgb], True)
self._grid[column + 4][row].set_enabled(False)
scale_mode_buttons = []
for column in range(8):
for row in range(3):
self._grid[column][row + 4].set_enabled(False)
self._grid[column][row + 4].set_channel(PAGE1_KEYS_CHANNEL)
self._grid[column][row + 4].set_identifier(int(PAGE1_KEYS_MAP[column][row]) + int(PAGE1_MODES_MAP[self._scale_mode._mode_index][column]) + int(self._octave_mode._mode_index * 12))
self._grid[column][row + 4].send_value(KEYS_COLOR[self._rgb], True)
for row in range(1):
scale_mode_buttons.append(self._grid[column][7])
self._scale_mode.set_mode_buttons(tuple(scale_mode_buttons))
self._scale_mode.set_enabled(True)
self._octave_mode.set_mode_buttons(tuple([self._menu[5], self._menu[2]]))
self._octave_mode.set_enabled(True)
for column in range(7):
self._mixer.channel_strip(column).set_send_controls(tuple([self._dial[column + 8]]))
self._mixer.channel_strip(column).set_arm_button(self._button[column])
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))
for index in range(4):
self._menu[2 + index]._on_value = (DEVICE_NAV_COLOR[self._rgb])
self._device_navigator.set_enabled(True)
def assign_page_2(self):
self._backlight_type = 'up'
self._transport.set_play_button(self._menu[0])
self._transport.set_stop_button(self._menu[1])
#self._session_zoom.set_button_matrix(self._matrix)
self._session_zoom.set_enabled(True)
for column in range(7):
self._grid[column][5]._on_value = MUTE_COLOR[self._rgb]
self._mixer.channel_strip(column).set_mute_button(self._grid[column][5])
self._grid[column][6]._on_value = CROSSFADE_ASSIGN_COLOR[self._rgb]
self._mixer.channel_strip(column).set_crossfade_toggle(self._grid[column][6])
self._grid[column][7].set_channel(2)
self._grid[column][7].set_identifier(column)
self._grid[column][7].reset()
self._grid[column][7].set_enabled(False)
self._grid[column][7].send_value(4, True)
for row in range(5):
self._scene[row].clip_slot(column).set_launch_button(self._grid[column][row])
for row in range(5):
self._grid[7][row]._off_value = SCENE_LAUNCH_COLOR[self._rgb]
self._scene[row].set_launch_button(self._grid[7][row])
for column in range(4):
self._mixer.track_eq(column).set_gain_controls(tuple([self._dial[column + 8], self._dial[column + 4], self._dial[column]]))
self._mixer.track_eq(column).set_enabled(True)
for column in range(3):
self._mixer.channel_strip(column+4).set_pan_control(self._dial[column + 12])
for index in range(4):
self._menu[2 + index]._on_value = NAV_BUTTON_COLOR[self._rgb]
self._session.set_track_bank_buttons(self._menu[4], self._menu[3])
self._session.set_scene_bank_buttons(self._menu[5], self._menu[2])
self._set_tempo_buttons([self._grid[7][5], self._grid[7][6]])
def assign_mod(self):
#for index in range(6):
#self._modNum._modes_buttons[index].send_value(self._client[index]._mod_color)
#if self._shift_mode._mode_index is 0:
# self._host._set_dial_matrix(None, None)
#self._host._set_knobs(None)
#self._host._set_button_matrix(None)
#self._host._set_key_buttons(None)
#self._host.set_enabled(False)
#self.set_local_ring_control(1)
#self.assign_live_controls()
#for index in range(4):
# self._shift_mode._modes_buttons[index].turn_off()
#else:
#if self._shift_mode._mode_index is 3:
self.deassign_matrix()
#self.set_local_ring_control(self._host._active_client._local_ring_control)
self._host.set_enabled(True)
self._modNum.set_enabled(True)
#self._host._set_dial_matrix(self._dial_matrix, self._dial_button_matrix)
self._host._set_knobs(tuple(self._knobs))
self._host._set_button_matrix(self._monomod)
#self._host._set_key_buttons(tuple(self._button))
#self._host._select_client(self._shift_mode._mode_index-1)
#self._host._select_client(0)
#for index in range(4):
# if self._shift_mode._mode_index == (index + 1):
# self._shift_mode._modes_buttons[index].send_value(1)
if not self._host._active_client.is_connected():
#self.assign_alternate_mappings(self._shift_mode._mode_index)
self.assign_alternate_mappings(self._modNum._mode_index + 1)
#else:
# self._shift_mode._modes_buttons[index].send_value(self._client[index]._mod_color)
#self._shift_mode._modes_buttons[index].send_value(((index+1)==self._shift_mode._mode_index)*127)
def modNum_update(self):
if self._modNum._is_enabled == True:
self.assign_alternate_mappings(0)
self._host._select_client(int(self._modNum._mode_index))
if not self._host._active_client.is_connected():
self.assign_alternate_mappings(self._modNum._mode_index + 1)
for button in self._modNum._modes_buttons:
button.send_value(int(self._modNum._mode_index == self._modNum._modes_buttons.index(button))*self._host._active_client._mod_color)
def assign_alternate_mappings(self, chan):
for column in range(8):
for row in range(8):
#self._grid[column][row].set_identifier(OHM_MAP_ID[column][row])
self._grid[column][row].set_channel(chan)
#self._grid[column][row].send_value(OHM_MAP_VALUE[column][row])
self._grid[column][row].set_enabled(chan is 0)
#for index in range(8):
# self._encoder_button[index + 4].set_channel(chan)
# self._encoder_button[index + 4].set_enabled(chan is 0)
for knob in self._knobs:
knob.set_channel(chan)
knob.set_enabled(chan is 0)
#for button in self._button:
# button.set_channel(chan)
# button.set_enabled(chan is 0)
self.request_rebuild_midi_map()
def _update_selected_device(self):
if self._device_selection_follows_track_selection is True:
track = self.song().view.selected_track
device_to_select = track.view.selected_device
if device_to_select == None and len(track.devices) > 0:
device_to_select = track.devices[0]
if device_to_select != None:
self.song().view.select_device(device_to_select)
#self._device.set_device(device_to_select)
self.set_appointed_device(device_to_select)
#self._device_selector.set_enabled(True)
self.request_rebuild_midi_map()
return None
def handle_sysex(self, midi_bytes):
#self.log_message(str('>>sysexIN') + str(midi_bytes))
if len(midi_bytes) > 10:
#self.log_message(str('>>sysex>10') + str(midi_bytes[:11]))
if midi_bytes[:11] == tuple([240, 126, 0, 6, 2, 0, 1, 97, 1, 0, 7]):
self.log_message(str('>>>color detected'))
self._rgb = 1
elif midi_bytes[:11] == tuple([240, 126, 0, 6, 2, 0, 1, 97, 1, 0, 2]):
self.log_message(str('>>>mono detected'))
self._rgb = 0
self._assign_session_colors()
def receive_midi(self, midi_bytes):
""" Live -> Script
MIDI messages are only received through this function, when explicitly
forwarded in 'build_midi_map'.
"""
assert (midi_bytes != None)
assert isinstance(midi_bytes, tuple)
##self.log_message('got message' + str(midi_bytes))
self.set_suppress_rebuild_requests(True)
if (len(midi_bytes) is 3):
msg_type = (midi_bytes[0] & 240)
forwarding_key = [midi_bytes[0]]
if (msg_type is not MIDI_PB_TYPE):
forwarding_key.append(midi_bytes[1])
if (tuple(forwarding_key) in self._forwarding_registry.keys()):
recipient = self._forwarding_registry[tuple(forwarding_key)]
if (recipient != None):
recipient.receive_value(midi_bytes[2])
else:
self.log_message(('Got unknown message: ' + str(midi_bytes)))
else:
self.handle_sysex(midi_bytes)
self.set_suppress_rebuild_requests(False)
def _set_tempo_buttons(self, buttons):
if self._tempo_buttons != None:
self._tempo_buttons[0].remove_value_listener(self._tempo_value)
self._tempo_buttons[1].remove_value_listener(self._tempo_value)
self._tempo_buttons = buttons
if buttons != None:
for button in buttons:
assert isinstance(button, FlashingButtonElement)
self._tempo_buttons[0].set_on_off_values(4, 0)
self._tempo_buttons[0].add_value_listener(self._tempo_value, True)
self._tempo_buttons[1].set_on_off_values(4, 0)
self._tempo_buttons[1].add_value_listener(self._tempo_value, True)
self._tempo_buttons[0].turn_on()
self._tempo_buttons[1].turn_on()
def _tempo_value(self, value, sender):
if (value > 0) and (self._tempo_buttons.index(sender) == 0):
self.song().tempo = round(min((self.song().tempo + 1), 999))
elif (value > 0) and (self._tempo_buttons.index(sender) == 1):
self.song().tempo = round(max((self.song().tempo - 1), 20))
"""m4l bridge"""
def generate_strip_string(self, display_string):
#self.log_message(display_string)
NUM_CHARS_PER_DISPLAY_STRIP = 12
if (not display_string):
return (' ' * NUM_CHARS_PER_DISPLAY_STRIP)
if ((len(display_string.strip()) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.endswith('dB') and (display_string.find('.') != -1))):
display_string = display_string[:-2]
if (len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)):
for um in [' ',
'i',
'o',
'u',
'e',
'a']:
while ((len(display_string) > (NUM_CHARS_PER_DISPLAY_STRIP - 1)) and (display_string.rfind(um, 1) != -1)):
um_pos = display_string.rfind(um, 1)
display_string = (display_string[:um_pos] + display_string[(um_pos + 1):])
else:
display_string = display_string.center((NUM_CHARS_PER_DISPLAY_STRIP - 1))
ret = u''
for i in range((NUM_CHARS_PER_DISPLAY_STRIP - 1)):
if ((ord(display_string[i]) > 127) or (ord(display_string[i]) < 0)):
ret += ' '
else:
ret += display_string[i]
ret += ' '
#assert (len(ret) == NUM_CHARS_PER_DISPLAY_STRIP)
return ret
def notification_to_bridge(self, name, value, sender):
if(isinstance(sender, 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._touched is 0:
self._monobridge._send('touch', 'on')
self.schedule_message(2, self.check_touch)
self._touched +=1
def check_touch(self):
if self._touched > 5:
self._touched = 5
elif self._touched > 0:
self._touched -= 1
if self._touched is 0:
self._monobridge._send('touch', 'off')
else:
self.schedule_message(2, self.check_touch)
def get_clip_names(self):
clip_names = []
for scene in self._session._scenes:
for clip_slot in scene._clip_slots:
if clip_slot.has_clip() is True:
clip_names.append(clip_slot._clip_slot)##.clip.name)
return clip_slot._clip_slot
##self.log_message(str(clip_slot._clip_slot.clip.name))
return clip_names